© 2013-2017
Cisco Systems, Inc. All rights reserved.
CONTENTS
Preface
Preface xxi
Document Revision History xxi
Document Objectives xxiii
Audience xxiii
Document Organization xxiv
Conventions xxv
Safety Warnings and Cautions xxvii
Warning Definition xxvii
Related Documentation xxxiii
Obtaining Documentation and Submitting a Service Request xxxiv
CHAPTER 1
Cisco ASR 1000 Series Routers Hardware Overview 1
Cisco ASR 1000 Series Routers 2
Cisco ASR 1000 Series Router Features 3
Cisco ASR 1000 Series Routers Compatibility Information 5
Hardware Compatibility 5
Cisco ASR 1000 Series Router Configurations 7
Field-Replaceable Units 7
Functional Overview 8
Chassis Slot and Logical Interface Numbering 9
MAC Address Information 9
Online Insertion and Removal 10
Environmental Monitoring and Reporting Functions 11
Environmental Monitoring 11
Fan Failures 12
Reporting Functions 12
Cisco Product Identification Standard 17
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Unique Device Identifier 17
Serial Number Label Location 18
CHAPTER 2
Cisco ASR 1000 Series Routers Component Overview 25
Cisco ASR 1000 Series Routers Component Software Support 25
Upgrading to New Software 26
Supported ASR 1000 Hardware Components 27
Supported Cisco ASR 1000 Platforms 28
Cisco ASR 1000 Series Hardware Configuration Combinations 29
Hardware Requiring a CPLD Upgrade 30
Incompatible Hardware Configuration Combinations 30
Incompatible ASR1000-ESP Error Message 30
Incompatible ASR1000-RP Error Message 31
Unsupported Hardware Configurations 31
Unsupported ASR1000-ESP Error Message 32
Unsupported ASR1000-SIP Error Message 33
Incompatible Cisco High Availability Hardware Configurations 33
Upgrading Existing Hardware Components to Support the Cisco ASR 1013 Router 33
Unsupported Active ASR1000-RP2 Requires Upgrade 34
When To Perform a CPLD Upgrade 35
Unsupported Standby ASR1000-RP2 or ASR1000-SIP10 Requires Upgrade 35
Image to Upgrade Field-Programmable Hardware Devices 36
Cisco ASR 1000 Series Route Processor 36
Cisco ASR 1000 Series Route Processor Differences 37
Cisco Integrated ASR1000-RP1 for Cisco ASR 1002 Router 43
How Cisco ASR1000-RP Alarm Monitoring Works 47
Cisco ASR 1000 Series Router Power Supplies 48
Power Supply Requirements for All Cisco ASR 1000 Series Routers 49
DC Power System Input Requirements for Cisco ASR 1000 Series Routers 49
AC and DC Power Supply Types 50
AC and DC System Power Ratings 51
Power Supplies for the Cisco ASR 1006 Router 51
AC Power Supply LEDs and Connector for Cisco ASR 1006 52
–48 VDC Power Supply LEDs and Connectors for Cisco ASR 1006 56
AC/DC Power System Output for Cisco ASR 1006 58
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Power Supplies for the Cisco ASR 1004 Router 59
Cisco ASR 1004 AC Power Supply 59
Cisco ASR 1004 AC Power Supply LEDs and Connector 60
Cisco ASR Router 1004 –48 VDC Power Supply 62
Cisco ASR 1004 Router –48 VDC Power Supply LEDs and Connector 63
DC Power System Input for Cisco ASR 1004 65
AC/DC Power System Output for Cisco ASR 1004 65
Power Supplies for the Cisco ASR 1002 Router 66
Cisco ASR 1002 Router AC Power Supply 66
Cisco ASR 1002 AC Power Supply LEDs and Connector 67
AC Power System Output Voltage Alarm Range for Cisco ASR 1002 Router 68
Cisco ASR 1002 Router –48 VDC Power Supply 68
Cisco ASR 1002 Router –48 VDC Power Supply LEDs and Connector 69
–48 VDC Power System Input for Cisco ASR 1002 Router 70
–48 VDC Power System Output for Cisco ASR 1002 Router 71
Cisco ASR 1002 Router +24 VDC Power Supply 71
Cisco ASR 1002 Router +24 VDC Power Supply LEDs and Connector 72
+24 VDC Power System Input for Cisco ASR 1002 Router 74
+24 VDC Power System Output for Cisco ASR 1002 Router 74
Power Supplies for the Cisco ASR 1013 Router 76
AC Power Supply LEDs and Connector for Cisco ASR 1013 77
–48 VDC Power Supply LEDs and Connectors for Cisco ASR 1013 80
AC/DC Power System Output for Cisco ASR 1013 82
Power Supplies for the Cisco ASR 1001 Router 83
Cisco ASR 1001 Router AC Power Supply 84
Cisco ASR 1001 Router DC Power Supply 84
AC/DC Power System Input Range and Voltage for Cisco ASR 1001 85
CHAPTER 3
Cisco ASR 1000 Series Routers Embedded Services Processors 87
Cisco ASR 1000-ESP5 88
Cisco ASR 1000-ESP10 89
Cisco ASR 1000-ESP20 89
Cisco ASR 1000-ESP40 89
Cisco ASR 1000-ESP100 90
Cisco ASR 1000-ESP200 91
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Cisco ASR 1000-ESP200 and Third Generation Cisco QFP 91
Implications of SIP and SPA Slot Mapping 93
Features of the Cisco ASR 1000 Series Embedded Services Processors 94
CHAPTER 4
Cisco ASR 1000 Series Router SPA Interface Processors (SIPs) 101
Cisco ASR 1000 Series SPA Interface Processor 101
SPA Interface Processor Slot Numbering 104
Cisco ASR 1006 Router and Cisco ASR 1004 Router 104
Cisco ASR 1002 Router 105
Cisco ASR 1002-F Router 106
Cisco ASR 1013 Router 107
Cisco ASR 1001 Router 109
Cisco ASR 1002-X Router 110
CHAPTER 5
Preparing Your Site for Installation 111
Prerequisites and Preparation 111
Safety Guidelines 112
Safety Warnings 112
Safety Recommendations 113
Compliance Requirements 113
Cautions and Regulatory Compliance Statements for NEBS 114
Standard Warning Statements 115
General Safety Warnings 115
Site Planning 118
General Precautions 118
Site Selection Guidelines 119
Site Environmental Requirements 119
Physical Characteristics 120
Floor Loading Considerations 122
Site Power Guidelines 123
Electrical Circuit Requirements 123
Site Cabling Guidelines 125
Asynchronous Terminal Connections 126
Interference Considerations 126
Electromagnetic Interference 126
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Radio Frequency Interference 127
Lightning and AC Power Fault Interference 127
Rack-Mounting Guidelines 127
Precautions for Rack-Mounting 127
General Rack Selection Guidelines 128
Guidelines for 23 in. (Telco) Racks 128
Equipment Rack Guidelines 129
Locating for Safety 129
Locating for Easy Maintenance 129
Locating for Proper Airflow 130
Site Planning Checklist 130
Preventing Electrostatic Discharge Damage 130
Electrical Safety 131
Receiving the Cisco ASR 1000 Series Router 132
Chassis-Lifting Guidelines 133
Tools and Equipment 134
Unpacking and Verifying Shipping Contents 134
Checking the Shipping Container Contents 135
Cisco ASR 1000 Series Router Installation Checklist 136
CHAPTER 6
Cisco ASR 1006 Router Overview and Installation 139
Cisco ASR 1006 Router Description 139
Front View 140
Rear View 141
Cisco ASR 1006 Router Slot Numbering 142
Installation Methods 143
General Rack Installation Guidelines 143
Guidelines for an Equipment Shelf or Tabletop Installation 145
Equipment Shelf or Tabletop Installation 146
Rack-Mounting the Cisco ASR 1006 Router 148
Verifying Rack Dimensions 148
Attaching the Chassis Rack-Mount Brackets 149
Chassis Front Rack-Mount Brackets 149
Chassis Rear Rack-Mount Brackets 151
Installing the Cisco ASR 1006 Router in a Rack 153
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Two-Post Rack Installation 155
Four-Post Rack Installation 156
Attaching the Cable-Management Brackets 158
Attaching a Chassis Ground Connection 161
Recommended Tools and Supplies 162
Connecting the Shared Port Adapter Cables 163
Connecting the Console and Auxiliary Port Cables 163
Connecting the Ethernet Management Port Cable 164
Connecting Power to the Cisco ASR 1006 Router 165
Power Cords Supported by the Cisco ASR 1006 Router 166
Connecting AC Input Power to Cisco ASR 1006 Router 166
Connecting DC Input Power to Cisco ASR 1006 Router 169
Connecting a Terminal to the Cisco ASR 1000 Series RP Console Port 176
Connecting the System Cables 179
Attaching Cable Retention Bracket on AC Power Supply 179
CHAPTER 7
Cisco ASR 1004 Router Overview and Installation 181
Cisco ASR 1004 Router Description 182
Front View 182
Rear View 183
Cisco ASR 1004 Router Slot Numbering 185
Installation Methods 186
General Rack Installation Guidelines 186
Guidelines for an Equipment Shelf or Tabletop Installation 187
Equipment Shelf or Tabletop Installation 188
Rack-Mounting the Cisco ASR 1004 Router 190
Verifying Rack Dimensions 191
Attaching the Chassis Rack-Mount Brackets 192
Chassis Front Rack-Mount Brackets 192
Chassis Rear Rack-Mount Brackets 193
Installing the Cisco ASR 1004 Router in a Rack 195
Two-Post Rack Installation 197
Four-Post Rack Installation 199
Attaching a Chassis Ground Connection 201
Recommended Tools and Supplies 201
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Attaching the Cable-Management Bracket 204
Connecting the Shared Port Adapter Cables 205
Connecting the Console and Auxiliary Port Cables 206
Connecting the Ethernet Management Port Cable 207
Connecting Power to Cisco ASR 1004 Router 208
Power Cords Supported by the Cisco ASR 1004 Router 209
Connecting AC Input Power to Cisco ASR 1004 Router 210
Connecting --48 VDC Input Power to Cisco ASR 1004 Router 211
Connecting a Terminal to the Cisco ASR Series 1000 Route Processor Console Port 215
Connecting the Network Management and Signal System Cables 218
CHAPTER 8
Cisco ASR 1002 Router Overview and Installation 219
Cisco ASR 1002 Router Description 219
Front View 220
Rear View 221
Cisco ASR 1002 Router Slot Numbering 222
Cisco ASR 1002 Router Components 223
Cisco Embedded ASR1000-RP1 for Cisco ASR 1002 Router Description 223
Cisco Embedded ASR1000-SIP10 and SPAs for Cisco ASR 1002 Router Description 224
Cisco ASR1000-ESP5 and ASR1000-ESP10 Description 224
Power Supplies in the Cisco ASR 1002 Router 226
AC Power Supply for Cisco ASR 1002 Router 226
48 VDC Power Supply for Cisco ASR 1002 Router 227
24 VDC Power Supply for Cisco ASR 1002 Router 230
24 VDC Power System Input for Cisco ASR 1002 Router 232
+24 VDC Power System Output for Cisco ASR 1002 Router 232
Power Cords Supported by the Cisco ASR 1002 Router 233
Installation Methods 234
General Rack Installation Guidelines 234
Guidelines for an Equipment Shelf or Tabletop Installation 235
Equipment Shelf or Tabletop Installation 236
Rack-Mounting the Cisco ASR 1002 Router 238
Verifying Rack Dimensions 239
Attaching the Chassis Rack-Mount Brackets 240
Chassis Front Rack-Mount Brackets 240
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Chassis Rear Rack-Mount Brackets 241
Installing the Cisco ASR 1002 Router in a Rack 243
Two-Post Rack Installation 244
Four-Post Rack Installation 245
Attaching the Cable-Management Bracket 248
Attaching a Chassis Ground Connection 249
Connecting the Shared Port Adapter Cables 252
Connecting the Console and Auxiliary Port Cables 253
Management Ethernet Port Cable Connection 254
Cisco ASR 1002 Router Power Supplies 255
Connecting AC Input Power to Cisco ASR 1002 Router 256
Connecting 48 VDC Input Power to Cisco ASR 1002 Router 259
Connecting Cisco 24 VDC Power Supply 264
Connecting a Terminal to the Cisco ASR1000-RP1 Console Port 272
Connecting Cables 273
CHAPTER 9
Cisco ASR 1002-F Router Overview and Installation 275
Cisco ASR 1002-F Router Description 276
Front View 276
Rear View 277
Cisco ASR 1002-F Router Slot Numbering 278
Cisco ASR 1002-F Router Components 279
Cisco Integrated RP and Cisco ASR 1002-ESP-F Description 279
Cisco Integrated ASR 1002-SIP10-F and SPA for Cisco ASR 1002-F Router
Description 282
Power Supplies in the Cisco ASR 1002-F Router 283
AC Power Supply for the Cisco ASR 1002-F Router 283
DC Power Supply for the Cisco ASR 1002-F Router 284
Power Cords Supported by the Cisco ASR 1002-F Router 286
Installation Methods 286
General Rack Installation Guidelines 287
Guidelines for an Equipment Shelf or Tabletop Installation 288
Equipment Shelf or Tabletop Installation 289
Rack-Mounting the Cisco ASR 1002-F Router 291
Verifying Rack Dimensions 292
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Attaching the Chassis Rack-Mount Brackets 293
Chassis Front Rack-Mount Brackets 293
Chassis Rear Rack-Mount Brackets 294
Installing the Cisco ASR 1002-F Router in a Rack 296
Two-Post Rack Installation 297
Four-Post Rack Installation 298
Attaching the Cable-Management Bracket 300
Attaching a Chassis Ground Connection 302
Connecting the Shared Port Adapter Cables 305
Connecting the Console and Auxiliary Port Cables 305
Connecting a Cable to the Management Ethernet Port 306
Connecting Power to the Cisco ASR 1002-F Router 306
Connecting AC Input Power to the Cisco ASR 1002-F Router 308
Connecting DC Input Power to the Cisco ASR 1002-F Router 311
Connecting a Terminal to the Cisco Integrated RP Console Port and Auxiliary Port 314
Connecting Cables 315
CHAPTER 10
Cisco ASR 1002-X Router Overview and Installation 317
Cisco ASR 1002-X Router Description 318
Front View of the Cisco ASR 1002-X Router 319
Rear View of the Cisco ASR 1002-X Router 320
Cisco ASR 1002-X Router Slot Numbering 321
Power Supplies in the Cisco ASR 1002-X Router 322
AC Power Supply for the Cisco ASR 1002-X Router 323
--48 VDC Power Supply for the Cisco ASR 1002-X Router 324
+24 VDC Power Supply for the Cisco ASR 1002-X Router 327
+24 VDC Power System Input for the Cisco ASR 1002-X Router 329
+24 VDC Power System Output for the Cisco ASR 1002-X Router 329
Power Cords Supported by the Cisco ASR 1002-X Router 330
Installation Methods 331
General Rack Installation Guidelines 331
Guidelines for an Equipment Shelf or Tabletop Installation 332
Equipment Shelf or Tabletop Installation Procedure 333
Rack-Mounting the Cisco ASR 1002-X Router 335
Verifying Rack Dimensions 336
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Attaching the Chassis Rack Mount Brackets 337
Chassis Front Rack Mount Brackets 337
Chassis Rear Rack Mount Brackets 338
Installing the Cisco ASR 1002-X Router in a Rack 340
Two-Post Rack Installation 341
Four-Post Rack Installation 343
Attaching the Cable Management Bracket 345
Attaching a Chassis Ground Connection 346
Connecting the SPA Cables 349
Connecting the Console and Auxiliary Port Cables 350
Management Ethernet Port Cable Connection 350
Cisco ASR 1002-X Router Power Supplies 351
Connecting AC Input Power to Cisco ASR 1002-X Router 352
Connecting the –48 VDC Input Power to the Cisco ASR 1002-X Router 354
Connecting the +24 VDC Power Supply to the Router 358
Connecting a Terminal to the Console Port 362
Connecting External Cables to the Cisco ASR 1002-X Router 364
CHAPTER 11
Cisco ASR 1013 Router Overview and Installation 365
Cisco ASR 1013 Router Description 365
Front View 367
Rear View 369
Cisco ASR 1013 Router Power Zones 370
Cisco ASR 1013 Router Slot Numbering 371
Installation Methods 371
General Rack Installation Guidelines 372
Guidelines for Equipment Rack Installation 373
Attaching the Rear Rack-Mount Brackets 374
Rack-Mounting the Cisco ASR 1013 Router 376
Verifying Rack Dimensions 376
Installing the Cisco ASR 1013 Router in a Rack 377
Installing the Chassis Using the Forward Rack-Mount Brackets 377
Installing the Chassis Using the Forward Rack-Mount Brackets 380
Two-Post Rack Installation 381
Four-Post Rack Installation 383
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Attaching the Cable-Management Bracket 386
Attaching a Chassis Ground Connection 388
Recommended Tools and Supplies 388
Connecting the Shared Port Adapter Cables 391
Connecting the Console and Auxiliary Port Cables 391
Connecting the Ethernet Management Port 393
Connecting Power to the Cisco ASR 1013 Router 393
Cisco ASR 1013 Router Power Supply Overview 394
Power Cords Supported by the Cisco ASR 1013 Router 394
Connecting AC Input Power to Cisco ASR 1013 Router 395
Connecting DC Input Power to Cisco ASR 1013 Router 397
Connecting a Terminal to the Cisco ASR 1000 Series RP Console Port 402
Connecting the System Cables 403
Attaching Cable Retention Bracket on AC Power Supply 404
CHAPTER 12
Cisco ASR 1001 Router Overview and Installation 407
Cisco ASR 1001 Router Description 407
Cisco ASR 1001 Router Architecture 408
Cisco ASR 1001 Router Faceplate Common Components 416
Cisco ASR 1001 Chassis Front View 417
Cisco ASR 1001 Chassis Rear View 418
Cisco ASR 1001 Router Slot Numbering 418
Cisco ASR 1001 Router Components 419
Cisco Embedded ASR1000-RP1 for Cisco ASR 1001 Router Description 419
Cisco Embedded ASR1000-SIP10 and SPAs for the Cisco ASR 1001 Router
Description 421
Cisco ASR 1001 Router Integrated Daughter Card Description 421
Cisco ASR1000-ESP for the Cisco ASR 1001 Router Description 422
Power Supplies in the Cisco ASR 1001 Router 423
AC Power Supply for Cisco ASR 1001 Router 423
--48 VDC Power Supply for Cisco ASR 1001 Router 423
Power Cords Supported by the Cisco ASR 1001 Router 424
Installation Methods 425
General Rack Installation Guidelines 425
Guidelines for an Equipment Shelf or Tabletop Installation 426
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Mounting the Cisco ASR 1001 Router on an Equipment Shelf or Tabletop Installation 427
Rack-Mounting the Cisco ASR 1001 Router 429
Verifying Rack Dimensions 429
Attaching the Chassis Rack-Mount Brackets 430
Chassis Front Rack-Mount Brackets 430
Installing the Cisco ASR 1001 Router in a Rack 432
Two-Post Rack Installation 433
Four-Post Rack Installation 434
Attaching the Cable-Management Bracket 436
Attaching a Chassis Ground Connection 438
Recommended Tools and Supplies 438
Connecting the Shared Port Adapter Cables 440
Connecting the Console and Auxiliary Port Cables 441
Management Ethernet Port Cable Connection 442
Connecting a Terminal to the Cisco ASR1000-RP1 Console Port 442
Connecting Cables 443
Overview of AC and DC Power Supplies for the Cisco ASR 1001 Router 444
Cisco ASR 1001 Router Power Supply Installation 444
Installing AC Input Power to Cisco ASR 1001 Router 446
Removing AC Power Supply from the Cisco ASR 1001 Router 449
Installing DC Input Power on the Cisco ASR 1001 Router 451
Wiring the DC Input Power Source 453
Removing DC Input Power from the Cisco ASR 1001 Router 459
CHAPTER 13
Cisco ASR 1000 Series Routers Power Up and Initial Configuration 461
Checking Conditions Prior to System Startup 461
Verifying Power Supply Operation 462
Powering Up the Cisco ASR 1000 Series Routers 463
Verifying the Front Panel LEDs 466
Verifying the Hardware Configuration 467
Checking Hardware and Software Compatibility 467
Configuring the Cisco ASR 1000 Series Routers at Startup 467
Using the Console Interface 468
Configuring Global Parameters 468
Checking the Running Configuration Settings 470
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Saving the Running Configuration to NVRAM 470
Powering Off the Cisco ASR 1000 Series Router Safely 470
CHAPTER 14
Removing and Replacing FRUs from the Cisco ASR 1000 Series Routers 473
Removing and Replacing Cisco ASR 1000 Series Route Processors 474
Removing the Cisco ASR 1000 Series Route Processor from the Cisco ASR 1006, Cisco ASR
1004, and Cisco ASR 1013 Routers 474
Replacing the Cisco ASR 1000 Series Route Processor in the Cisco ASR 1006, Cisco ASR
1004, and Cisco ASR 1013 Routers 475
Removing and Replacing Cisco ASR 1000 Series Route Processor Internal Hard Drive 476
Cisco ASR1000-RP1 Spare Hard Drive Accessory Kit 476
Removing and Replacing the Cisco ASR1000-RP1 Module Internal Hard Drive 477
Removing the Cisco ASR1000-RP1 Internal Hard Drive 477
Replacing the Cisco ASR1000-RP1 Internal Hard Drive 482
Removing and Replacing the Cisco ASR1000-RP2 Module Internal Hard Drive 484
Removing the Cisco ASR1000-RP2 Internal Hard Drive 484
Replacing the Cisco ASR1000-RP2 Internal Hard Drive 486
Removing and Replacing the Hard Drive on the Cisco ASR 1002-X Router 487
Removing the Hard Drive from the Cisco ASR 1002-X Router 488
Replacing the Hard Drive on the Cisco ASR 1002-X Router 490
Removing and Replacing the Hard Drive on the Cisco ASR 1001 Router 491
Removing the Hard Drive from the Cisco ASR 1001 Router 492
Replacing the Hard Drive on the Cisco ASR 1001 Router 493
Removing and Replacing the Cisco ASR 1000 Series DIMM Memory Modules 494
Removing and Replacing the DIMM Memory Modules on the Cisco ASR 1006 Router and the
Cisco ASR 1013 Router 495
Removing and Replacing the Cisco ASR1000-RP1 DIMM Memory Modules 497
Removing and Replacing the Cisco ASR1000-RP2 DIMM Memory Modules 501
Removing the Cisco ASR1000-RP2 DIMMs 503
Replacing the Cisco ASR1000-RP2 DIMMs 504
Removing and Replacing the Cisco ASR 1001 Router DIMM Memory Modules 507
Removing the Cisco ASR 1001 Router DIMMs 508
Replacing the Cisco ASR 1001 Router DIMM 511
Removing and Replacing the Cisco ASR 1002-X Router DIMM Memory Modules 514
Removing the Cisco ASR1002-X Router DIMMs 515
Cisco ASR 1000 Series Router Hardware Installation Guide
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Replacing the Cisco ASR1002-X Router DIMMs 517
Removing and Replacing Cisco ASR 1000 Router eUSB Devices 519
Remove and Replace the eUSB Device on the Cisco ASR 1006 and Cisco ASR 1004
Routers 519
Remove and Replace the eUSB Device on the Cisco ASR 1006 and Cisco ASR 1004
Routers 521
Remove and Replace the eUSB Device on the Cisco ASR 1001 Router 523
Remove and Replace the eUSB Device on the Cisco ASR 1001 Router 525
Removing and Replacing Cisco ASR 1000 Series Router 1 GB USB Flash Token Memory
Stick 527
Minimum Requirements of eUSB Devices Supported on Cisco ASR 1000 Series Routers 529
Removing and Replacing Cisco ASR 1000 Series Embedded Service Processors 531
Important Notes about Cisco ASR1000-ESP Upgrades 531
Removing a Cisco ASR1000-ESP 532
Replacing the Cisco ASR1000-ESP 532
Removing and Replacing Cisco ASR 1000 Series Router SPAs and SPA Interface
Processors 533
Electrostatic Discharge Prevention 534
Removing the Cisco ASR 1000 SPA Interface Processor 536
Replacing the Cisco ASR 1000 SPA Interface Processor 536
Removing a Shared Port Adapter from a SIP 537
Replacing a Shared Port Adapter in a SIP 538
Removing and Replacing the Cisco ASR 1006 Router Power Supplies 538
Removing and Replacing a AC Power Supply in Cisco ASR 1006 Router 538
Removing the AC Power Supply from Cisco ASR 1006 Router 538
Replacing the AC Power Supply in Cisco ASR 1006 Router 540
Removing and Replacing a DC Power Supply in Cisco ASR 1006 Router 542
Removing the DC Power Supply from Cisco ASR 1006 Router 545
Replacing the DC Power Supply in Cisco ASR 1006 Router 551
Removing and Replacing the Cisco ASR 1004 Router Power Supplies 555
Removing and Replacing an AC Power Supply in Cisco ASR 1004 Router 556
Removing the AC Power Supply from Cisco ASR 1004 Router 556
Replacing the AC Power Supply in Cisco ASR 1004 Router 558
Removing and Replacing a DC Power Supply in Cisco ASR 1004 Router 559
Removing the DC Power Supply from the Cisco ASR 1004 Router 560
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Replacing the DC Power Supply in Cisco ASR 1004 Router 563
Removing and Replacing the Cisco ASR 1002 Router Power Supplies 565
Removing and Replacing an AC Power Supply in Cisco ASR 1002 Router 566
Removing the AC Power Supply from Cisco ASR 1002 Router 566
Replacing the AC Power Supply in Cisco ASR 1002 Router 567
Replacing the AC Power Supply in Cisco ASR 1002 Router 568
Removing and Replacing a –48 VDC Power Supply in Cisco ASR 1002 Router 570
Removing the –48 VDC Power Supply from Cisco ASR 1002 Router 571
Replacing the –48 VDC Power Supply in Cisco ASR 1002 Router 573
Removing and Replacing a +24 VDC Power Supply in Cisco ASR 1002 Router 576
Removing the +24 VDC Power Supply from Cisco ASR 1002 Router 577
Replacing the +24 VDC Power Supply in Cisco ASR 1002 Router 579
Removing and Replacing the Cisco ASR 1013 Router Power Supplies 587
Removing and Replacing an AC Power Supply in Cisco ASR 1013 Router 587
Removing the AC Power Supply from Cisco ASR 1013 Router 587
Replacing the AC Power Supply in Cisco ASR 1013 Router 589
Removing and Replacing a DC Power Supply in Cisco ASR 1013 Router 590
Removing the DC Power Supply from Cisco ASR 1013 Router 592
Replacing the DC Power Supply in Cisco ASR 1013 Router 595
Removing and Replacing the Cisco ASR 1001 Router Power Supplies 598
Installing the AC Power Supply into Cisco ASR 1001 Router 600
Removing AC Power Supply from the Cisco ASR 1001 Router 602
Installing DC Power Supply into Cisco ASR 1001 Router 604
Removing DC Input Power from the Cisco ASR 1001 Router 606
Wiring the DC Input Power Source 607
Repacking the Router 612
CHAPTER 15
Cisco ASR 1000 Series Router Specifications 615
Cisco ASR 1001-HX and Cisco ASR 1002-HX Router Specifications 615
Cisco ASR 1006X and Cisco ASR 1009X Router Specifications 615
Cisco ASR 1006 Router Specifications 615
Cisco ASR 1006 Router Memory and Storage Options 616
Cisco ASR 1006 Router Ethernet RJ-45 Port Pinouts 617
Cisco ASR 1006 Router MGMT Ethernet Port Pinouts 617
Cisco ASR 1006 Router BITS Port Signals and Pinouts 618
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Cisco ASR 1006 Router Console Port Signals and Pinouts 619
Cisco ASR 1006 Router Auxiliary Port Signals and Pinouts 619
Cisco ASR 1006 Router DB-25 Pinout Assignments for Alarm Relays 620
Cisco ASR 1004 Router Specifications 621
Cisco ASR 1004 Router Memory and Storage Options 622
Cisco ASR 1004 Router Ethernet RJ-45 Port Pinouts 622
Cisco ASR 1004 Router MGMT Ethernet Port Signals and Pinouts 622
Cisco ASR 1004 Router Console Port Signals and Pinouts 623
Cisco ASR 1004 Router Auxiliary Port Signals and Pinouts 623
Cisco ASR 1004 Router BITS Port Signals and Pinouts 624
Cisco ASR 1004 Router DB-25 Pinout Assignments for Alarm Relays 624
Cisco ASR 1002 Router, Cisco ASR 1002-F Router, and Cisco ASR 1002-X Router
Specifications 625
Cisco ASR 1002 Router Mgmt Ethernet RJ-45 Port Pinouts 626
Cisco ASR 1002 Router Console Port Signals and Pinouts 627
Cisco ASR 1002 Router Auxiliary Port Signals and Pinouts 628
Cisco ASR 1002 Router BITS Port Signals and Pinouts 628
Cisco ASR 1002-X Router BITS Port Signals and Pinouts 629
Cisco ASR 1002-X Router BNC GPS Ports 629
Cisco ASR 1002-X Router Time of Day Port Pinout 630
Cisco ASR 1013 Router Specifications 630
Cisco ASR 1013 Router Memory and Storage Options 632
Cisco ASR 1013 Router Ethernet RJ-45 Port Pinouts 632
Cisco ASR 1013 Router MGMT Ethernet Port Signals and Pinouts 632
Cisco ASR 1013 Router Console Port Signals and Pinouts 633
Cisco ASR 1013 Router Auxiliary Port Signals and Pinouts 633
Cisco ASR 1013 Router BITS Port Signals and Pinouts 634
Cisco ASR 1013 Router DB-25 Pinout Assignments for Alarm Relays 634
Cisco ASR 1001 Router Specifications 635
Cisco ASR 1001 Router Memory and Storage Options 636
CHAPTER 16
Cisco ASR 1000 Series Router Route Processor and Embedded Services Processor Signals
and Pinouts 637
Cisco ASR 1000-RP1 Pinout Specifications 637
MGMT Ethernet Port Signals and Pinouts 637
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BITS Interface Port Signals and Pinouts 638
Console Port Signals and Pinouts 638
Auxiliary Port Signals and Pinouts 639
Cisco ASR1000-RP2 Pinout Specifications 639
MGMT Ethernet Port Pinouts 639
BITS/DTI Interface Port Signals and Pinouts 640
Console Port Signals and Pinouts 641
Auxiliary Port Signals and Pinouts 641
Cisco ASR1000-ESP40 Console Port Pinout Specifications 642
Cisco ASR1000-ESP100 Console Port Pinout Specifications 642
Cisco ASR1000-ESP200 Console Port Pinout Specifications 643
CHAPTER 17
Troubleshooting Initial Startup Problems 645
Troubleshooting Overview 645
Online Troubleshooting Resources 646
General Troubleshooting Tips 646
Troubleshooting Using a Subsystem Approach 647
Normal Router Startup Sequence 647
Troubleshooting the Power Subsystem 648
Troubleshooting the Cooling Subsystem 650
Troubleshooting the Shared Port Adapter 651
Troubleshooting the Upgrade 652
Replacing or Recovering a Lost Password 655
Overview of the Password Recovery Procedure 655
Details of the Password Recovery Procedure 657
Recovering the Password When a Standby RP Is Included in the System 660
CHAPTER 18
MIBs Overview 661
MIBs for the Cisco ASR 1001 Router 661
Cisco ASR 1000 Series Router Hardware Installation Guide
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Contents
Cisco ASR 1000 Series Router Hardware Installation Guide
xx
Preface
This preface describes the objectives and organization of this document and explains how to find additional
information on related products and services. This preface contains the following sections:
• Document Revision History, page xxi
• Document Objectives, page xxiii
• Audience, page xxiii
• Document Organization , page xxiv
• Conventions, page xxv
• Safety Warnings and Cautions, page xxvii
• Related Documentation, page xxxiii
• Obtaining Documentation and Submitting a Service Request, page xxxiv
Document Revision History
The Document Revision History table below records technical changes to this document.
Date
Change Summary
July 2013
Added information about Cisco ASR1000-ESP200.
July 2012
Added information about Cisco ASR 1002-X Router,
Cisco ASR1000-ESP100, and support for Cisco
ASR1000-SIP40 on all routers that support Cisco
ASR1000-SIP10.
Information about these new features has been added
in various sections in this guide.
Cisco ASR 1000 Series Router Hardware Installation Guide
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Preface
Document Revision History
Date
Change Summary
March 2011
Added information about:
• IDC-HD80G, IDC-4XGE, and IDC-CHT1/E1
integrated daughter cards on the Cisco ASR
1001 Router—See the Cisco ASR 1001 Router
Description, on page 407 for detailed
information.
• MIBs for the new IDCs—See the MIBs for the
Cisco ASR 1001 Router, on page 661 appendix
for the list of MIBs.
• Cisco ASR 1013 Router power supplies on the
Cisco ASR 1006 Router—Information about
this new feature has been added in various
sections in this guide.
November 2010
Added information about:
• New Cisco ASR 1001 Router at Cisco ASR
1001 Router Description, on page 407
• Cisco ASR1000-SIP40 and Cisco
ASR1000-ESP40 products on the Cisco ASR
1004 Router
July 2010
Added information about Cisco ASR 1000 Series
Routers 40G products:
• Cisco ASR 1013 Router Overview and
Installation
• Cisco ASR 1000-ESP40, on page 89
• Supported ASR 1000 Hardware Components,
on page 27
November 2009
Added information about the Cisco +24 VDC power
supply in the Cisco ASR 1002 Router. See the
following sections:
• Cisco ASR 1002 Router +24 VDC Power
Supply, on page 71
• Removing and Replacing the Cisco ASR 1002
Router Power Supplies, on page 565
•
Cisco ASR 1000 Series Router Hardware Installation Guide
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Preface
Document Objectives
Date
Change Summary
June 2009
Added information about the Cisco ASR 1002-F
Router.
Unless otherwise noted, the Cisco ASR
1002-F Router supports all the
general-purpose routing and security features
of the Cisco ASR 1002 Router and uses the
same internal control and data-plane
architecture as Cisco ASR 1002 Router and
the Cisco ASR 1002-F Router is supported
only by Cisco software release four code.
Added information about Cisco ASR1000-RP2 and
how alarms work with the power supply DB-25
connector. In addition, added safety information and
updated the chapter on field-replaceable units (FRUs).
Note
February 2009
November 2008
Added information about the improved window of
time allotted to replace a power supply. You now
have up to 5 minutes to replace the power supply.
October 2008
Added information about Cisco ASR1000-ESP20 and
Cisco ASR1000-ESP10-N support. Updated eUSB
device graphics and replacement information.
May 2008
Released the first version of this document for the
Cisco ASR 1000 Series Routers.
Document Objectives
This publication describes the installation of the Cisco ASR 1000 Series Aggregation Services Routers,
replacement or upgrading of field-replaceable units (FRUs), and troubleshooting of the Cisco ASR 1000
Series Routers hardware. The purpose of this guide is to enable the safe and efficient installation of the Cisco
ASR 1000 Series Aggregation Services Routers.
Note
For information on installation of the Cisco ASR 1001-X Router, and replacement or upgrading of its
field-replaceable units (FRUs), see the Cisco ASR 1001-X Router Hardware Installation Guide at the
following URL: http://www.cisco.com/c/en/us/td/docs/routers/asr1000/install/guide/1001-x/asr1hig.html.
Audience
This publication is primarily designed for the person responsible for installing, maintaining, and troubleshooting
the Cisco ASR 1000 Series Aggregation Services Routers. The users of this guide should:
• Be familiar with electronic circuitry and wiring practices.
Cisco ASR 1000 Series Router Hardware Installation Guide
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Preface
Document Organization
• Have experience as electronic or electromechanical technicians.
• Have experience in installing high-end networking equipment. Certain procedures described in this guide
require a certified electrician.
Document Organization
The following table describes the chapters and appendixes in this installation guide:
Chapter and Appendix
Description
Preface
The preface provides objectives, audience and organization of this manual.
Chapter 1, “Cisco ASR 1000
Series Routers Hardware
Overview”
This chapter provides an overview of the Cisco ASR 1000 Series
Aggregation Services Routers.
Chapter 2, “Cisco ASR 1000
Series Routers Component
Overview”
This chapter provides an overview of the hardware components for the
Cisco ASR 1000 Series Aggregation Services Routers.
Chapter 3, “Cisco ASR 1000
Series Routers Embedded
Services Processors”
This chapter describes the Cisco ESPs for the ASR 1000 platform routers.
Chapter 4, “Cisco ASR 1000
Series Router SPA Interface
Processors (SIPs)”
This chapter describes the Cisco SIPs for the ASR 1000 platform routers.
Chapter 5, “Preparing Your Site This chapter provides site preparation guidelines for installing the ASR
1000 Series Routers.
for Installation”
Chapter 6, “Cisco ASR 1006
Router Overview and
Installation”
This chapter describes the Cisco ASR 1006 router and how to install it.
Chapter 7, “Cisco ASR 1004
Router Overview and
Installation”
This chapter describes the Cisco ASR 1004 router and how to install it.
Chapter 8, “Cisco ASR 1002
Router Overview and
Installation"
This chapter describes the Cisco ASR 1002 router and how to install it.
Chapter 9, “Cisco ASR 1002-F This chapter describes the Cisco ASR 1002-F router and how to install it.
Router Overview and
Installation"
Cisco ASR 1000 Series Router Hardware Installation Guide
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Preface
Conventions
Chapter and Appendix
Description
Chapter 10, “Cisco ASR 1002-X This chapter describes the Cisco ASR 1002-X router and how to install it.
Router Overview and
Installation"
Chapter 11, “Cisco ASR 1013
Router Overview and
Installation"
This chapter describes the Cisco ASR 1013 router and how to install it.
Chapter 12, “Cisco ASR 1001
Router Overview and
Installation"
This chapter describes the Cisco ASR 1001 router and how to install it.
Chapter 13, “Cisco ASR 1000
Series Routers Power Up and
Initial Configuration"
This chapter provides basic system startup and initial configuration
information.
This chapter provides instructions for removing and replacing shared port
Chapter 14, “Removing and
Replacing FRUs from the Cisco adapters, ASR 1000 RP1 internal hard drive, AC and DC power supplies,
the Cisco ASR 1000 ESP forwarding processors, the Cisco DIMM memory
ASR 1000 Series Routers"
cards, the Cisco memory stick, and the Cisco ASR 1000 Series Route
Processors.
Appendix A, “Cisco ASR 1000 This appendix provides system specifications and pinouts.
Series Router Specifications"
Appendix B, “Cisco ASR 1000 This appendix lists pinout specifications for the Cisco ASR1000-RP1 and
Series Router Route Processor the Cisco ASR1000-RP2.
and Embedded Services
Processor Signals and Pinouts"
Appendix C, "Troubleshooting This appendix provides basic system startup troubleshooting information.
Initial Startup Problems"
Appendix D, "MIBs for the
Cisco ASR 1001 Router"
This appendix lists the MIBs that can be used to manage the Cisco ASR
1001 Router.
Glossary
The glossary lists Cisco ASR 1000 Series Routers terms with definitions.
Conventions
This document uses the following conventions:
Convention
Indication
bold font
Commands and keywords and user-entered text
appear in bold font.
Cisco ASR 1000 Series Router Hardware Installation Guide
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Preface
Conventions
Note
Tip
Convention
Indication
italic font
Document titles, new or emphasized terms, and
arguments for which you supply values are in italic
font.
[]
Elements in square brackets are optional.
{x | y | z }
Required alternative keywords are grouped in braces
and separated by vertical bars.
[x|y|z]
Optional alternative keywords are grouped in brackets
and separated by vertical bars.
string
A nonquoted set of characters. Do not use quotation
marks around the string or the string will include the
quotation marks.
courier font
Terminal sessions and information the system displays
appear in courier font.
<>
Nonprinting characters such as passwords are in angle
brackets.
[]
Default responses to system prompts are in square
brackets.
!, #
An exclamation point (!) or a pound sign (#) at the
beginning of a line of code indicates a comment line.
Means reader take note .
Means the following information will help you solve a problem .
Caution
Means reader be careful . In this situation, you might perform an action that could result in equipment
damage or loss of data.
Timesaver
Means the described action saves time . You can save time by performing the action described in the
paragraph.
Cisco ASR 1000 Series Router Hardware Installation Guide
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Preface
Safety Warnings and Cautions
Safety Warnings and Cautions
Most safety warnings for the Cisco ASR 1000 Series Routers are placed in relevant sections throughout the
document. For translated safety warnings, see the Regulatory Compliance and Safety Information for the
Cisco 1000 Series Aggregation Services Routers. Statement 1071, the Warning Definition statement, complete
with translated warnings is provided in this section.
Warning Definition
Warning
IMPORTANT SAFETY INSTRUCTIONS
This warning symbol means danger. You are in a
situation that could cause bodily injury. Before you
work on any equipment, be aware of the hazards
involved with electrical circuitry and be familiar with
standard practices for preventing accidents. Use the
statement number provided at the end of each warning
to locate its translation in the translated safety
warnings that accompanied this device. Statement
1071
SAVE THESE INSTRUCTIONS
Waarschuwing
BELANGRIJKE VEILIGHEIDSINSTRUCTIES
Dit waarschuwingssymbool betekent gevaar. U
verkeert in een situatie die lichamelijk letsel kan
veroorzaken. Voordat u aan enige apparatuur gaat
werken, dient u zich bewust te zijn van de bij
elektrische schakelingen betrokken risico's en dient
u op de hoogte te zijn van de standaard praktijken om
ongelukken te voorkomen. Gebruik het nummer van
de verklaring onderaan de waarschuwing als u een
vertaling van de waarschuwing die bij het apparaat
wordt geleverd, wilt raadplegen.
BEWAAR DEZE INSTRUCTIES
Varoitus
TÄRKEITÄ TURVALLISUUSOHJEITA
Tämä varoitusmerkki merkitsee vaaraa. Tilanne voi
aiheuttaa ruumiillisia vammoja. Ennen kuin käsittelet
laitteistoa, huomioi sähköpiirien käsittelemiseen
liittyvät riskit ja tutustu onnettomuuksien yleisiin
ehkäisytapoihin. Turvallisuusvaroitusten käännökset
löytyvät laitteen mukana toimitettujen käännettyjen
turvallisuusvaroitusten joukosta varoitusten lopussa
näkyvien lausuntonumeroiden avulla.
SÄILYTÄ NÄMÄ OHJEET
Cisco ASR 1000 Series Router Hardware Installation Guide
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Preface
Warning Definition
Attention
IMPORTANTES INFORMATIONS DE SÉCURITÉ
Ce symbole d'avertissement indique un danger. Vous
vous trouvez dans une situation pouvant entraîner des
blessures ou des dommages corporels. Avant de
travailler sur un équipement, soyez conscient des
dangers liés aux circuits électriques et
familiarisez-vous avec les procédures couramment
utilisées pour éviter les accidents. Pour prendre
connaissance des traductions des avertissements
figurant dans les consignes de sécurité traduites qui
accompagnent cet appareil, référez-vous au numéro
de l'instruction situé à la fin de chaque avertissement.
CONSERVEZ CES INFORMATIONS
Warnung
WICHTIGE SICHERHEITSHINWEISE
Dieses Warnsymbol bedeutet Gefahr. Sie befinden
sich in einer Situation, die zu Verletzungen führen
kann. Machen Sie sich vor der Arbeit mit Geräten mit
den Gefahren elektrischer Schaltungen und den
üblichen Verfahren zur Vorbeugung vor Unfällen
vertraut. Suchen Sie mit der am Ende jeder Warnung
angegebenen Anweisungsnummer nach der jeweiligen
Übersetzung in den übersetzten Sicherheitshinweisen,
die zusammen mit diesem Gerät ausgeliefert wurden.
BEWAHREN SIE DIESE HINWEISE GUT AUF.
Avvertenza
IMPORTANTI ISTRUZIONI SULLA SICUREZZA
Questo simbolo di avvertenza indica un pericolo. La
situazione potrebbe causare infortuni alle persone.
Prima di intervenire su qualsiasi apparecchiatura,
occorre essere al corrente dei pericoli relativi ai
circuiti elettrici e conoscere le procedure standard per
la prevenzione di incidenti. Utilizzare il numero di
istruzione presente alla fine di ciascuna avvertenza
per individuare le traduzioni delle avvertenze riportate
in questo documento.
CONSERVARE QUESTE ISTRUZIONI
Advarsel
VIKTIGE SIKKERHETSINSTRUKSJONER
Dette advarselssymbolet betyr fare. Du er i en
situasjon som kan føre til skade på person. Før du
begynner å arbeide med noe av utstyret, må du være
oppmerksom på farene forbundet med elektriske
kretser, og kjenne til standardprosedyrer for å
forhindre ulykker. Bruk nummeret i slutten av hver
advarsel for å finne oversettelsen i de oversatte
sikkerhetsadvarslene som fulgte med denne enheten.
TA VARE PÅ DISSE INSTRUKSJONENE
Cisco ASR 1000 Series Router Hardware Installation Guide
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Preface
Warning Definition
Aviso
INSTRUÇÕES IMPORTANTES DE SEGURANÇA
Este símbolo de aviso significa perigo. Você está em
uma situação que poderá ser causadora de lesões
corporais. Antes de iniciar a utilização de qualquer
equipamento, tenha conhecimento dos perigos
envolvidos no manuseio de circuitos elétricos e
familiarize-se com as práticas habituais de prevenção
de acidentes. Utilize o número da instrução fornecido
ao final de cada aviso para localizar sua tradução nos
avisos de segurança traduzidos que acompanham este
dispositivo.
GUARDE ESTAS INSTRUÇÕES
¡Advertencia!
INSTRUCCIONES IMPORTANTES DE
SEGURIDAD
Este símbolo de aviso indica peligro. Existe riesgo
para su integridad física. Antes de manipular cualquier
equipo, considere los riesgos de la corriente eléctrica
y familiarícese con los procedimientos estándar de
prevención de accidentes. Al final de cada advertencia
encontrará el número que le ayudará a encontrar el
texto traducido en el apartado de traducciones que
acompaña a este dispositivo.
GUARDE ESTAS INSTRUCCIONES
Varning!
VIKTIGA SÄKERHETSANVISNINGAR
Denna varningssignal signalerar fara. Du befinner dig
i en situation som kan leda till personskada. Innan du
utför arbete på någon utrustning måste du vara
medveten om farorna med elkretsar och känna till
vanliga förfaranden för att förebygga olyckor. Använd
det nummer som finns i slutet av varje varning för att
hitta dess översättning i de översatta
säkerhetsvarningar som medföljer denna anordning.
SPARA DESSA ANVISNINGAR
Cisco ASR 1000 Series Router Hardware Installation Guide
xxix
Preface
Warning Definition
Cisco ASR 1000 Series Router Hardware Installation Guide
xxx
Preface
Warning Definition
Aviso
INSTRUÇÕES IMPORTANTES DE SEGURANÇA
Este símbolo de aviso significa perigo. Você se
encontra em uma situação em que há risco de lesões
corporais. Antes de trabalhar com qualquer
equipamento, esteja ciente dos riscos que envolvem
os circuitos elétricos e familiarize-se com as práticas
padrão de prevenção de acidentes. Use o número da
declaração fornecido ao final de cada aviso para
localizar sua tradução nos avisos de segurança
traduzidos que acompanham o dispositivo.
GUARDE ESTAS INSTRUÇÕES
Advarsel
VIGTIGE SIKKERHEDSANVISNINGER
Dette advarselssymbol betyder fare. Du befinder dig
i en situation med risiko for legemesbeskadigelse.
Før du begynder arbejde på udstyr, skal du være
opmærksom på de involverede risici, der er ved
elektriske kredsløb, og du skal sætte dig ind i
standardprocedurer til undgåelse af ulykker. Brug
erklæringsnummeret efter hver advarsel for at finde
oversættelsen i de oversatte advarsler, der fulgte med
denne enhed.
GEM DISSE ANVISNINGER
Cisco ASR 1000 Series Router Hardware Installation Guide
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Preface
Warning Definition
Cisco ASR 1000 Series Router Hardware Installation Guide
xxxii
Preface
Related Documentation
Warning Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Warning This unit is intended for installation in restricted access areas. A restricted access area can be accessed
only through the use of a special tool, lock and key, or other means of security. Use when a product has an
accessible HAZ/V circuits or a DC supply that is not provided with a field wiring cover. Statement 1017
Related Documentation
Your Cisco ASR 1000 Series Routers and the Cisco IOS software running on it contain extensive features
and functionality, which are documented in the following resources:
• All documentation related to the Cisco ASR 1000 Series Routers is listed in the online Cisco ASR 1000
Series Aggregation Services Routers Documentation Roadmap . Information in this master index includes
troubleshooting tools and documentation, regulatory compliance and safety information, and installation
and replacement information. Also see the Cisco ASR 1000 Series Port Adapter Documentation Roadmap
for specific shared port adapters supported on the Cisco ASR 1000 Series Routers.
Some of the Cisco ASR 1000 Series Routers documentation that is listed on the Cisco ASR 1000 Series
Aggregation Services Routers Documentation Roadmap includes:
•
◦Quick Start Guides for the Cisco ASR 1000 Series Routers. These guides provide quick reference
information about chassis or parts installation procedures.
Cisco ASR 1000 Series Router Hardware Installation Guide
xxxiii
Preface
Obtaining Documentation and Submitting a Service Request
◦The Cisco ASR 1000 Series Aggregation Services Routers Troubleshooting document contains
information to help you troubleshoot problems with the Cisco ASR 1000 Series Routers.
◦The Regulatory Compliance and Safety Information for Cisco ASR 1000 Series Aggregation
Services Routers document provides international agency compliance, safety, and statutory
information for wide-area network (WAN) interfaces for the Cisco ASR 1000 Series Routers.
◦Cisco ASR 1000 Series shared port adapter documentation.
• Cisco IOS software documentation contains Cisco IOS software configuration information and support.
See the modular configuration and modular command reference publications in the set that corresponds
to the software release installed on your Cisco hardware.
• To check the minimum software requirements of Cisco IOS software with the hardware installed on
your router, Cisco maintains the Software Advisor tool on Cisco.com. This tool does not verify whether
modules within a system are compatible, but it does provide the minimum IOS requirements for individual
hardware modules or components.
Note
Access to this tool is limited to users with Cisco.com login accounts.
Obtaining Documentation and Submitting a Service Request
For information on obtaining documentation, submitting a service request, and gathering additional information,
see the monthly What’s New in Cisco Product Documentation , which also lists all new and revised Cisco
technical documentation, at:
http://www.cisco.com/en/US/docs/general/whatsnew/whatsnew.html
Subscribe to the What’s New in Cisco Product Documentation as a Really Simple Syndication (RSS) feed
and set content to be delivered directly to your desktop using a reader application. The RSS feeds are a free
service and Cisco currently supports RSS version 2.0.
Cisco ASR 1000 Series Router Hardware Installation Guide
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CHAPTER
1
Cisco ASR 1000 Series Routers Hardware
Overview
The Cisco ASR 1000 Series Aggregation Services Routers are the next generation midrange router products.
The system is based on Cisco QuantumFlow Processor technology using a family of Cisco-developed
processors.
The Cisco ASR 1000 Series Routers target both enterprise and service provider applications but with higher
performance and improved availability. Applications covered by Cisco ASR 1000 Series Routers are:
• Enterprise applications—Intended as the mid-size aggregation and gateway router typically residing
in a regional or large branch office:
◦WAN aggregation at Cisco Enterprise core
◦Internet gateway
◦Branch or regional office aggregation
◦Remote access aggregation
• Service provider applications—Intended as the low-end service provider edge and broadband aggregation
device with similar throughput:
◦High-end customer premises equipment (CPE) for business-quality Internet access
◦Service provider leased line aggregation
◦Provider edge (PE) and high-end customer edge (CE) for Layer 2 VPN or Layer 3 VPN services
◦Broadband aggregation—PPPoE/PPPoA aggregation and Service Selection Gateway (SSG)
◦Low-end Ethernet aggregation
This chapter provides an overview of the Cisco ASR 1000 Series Routers and contains the following sections:
• Cisco ASR 1000 Series Routers, page 2
• Cisco ASR 1000 Series Router Features, page 3
• Cisco ASR 1000 Series Routers Compatibility Information, page 5
• Cisco ASR 1000 Series Router Configurations, page 7
Cisco ASR 1000 Series Router Hardware Installation Guide
1
Cisco ASR 1000 Series Routers Hardware Overview
Cisco ASR 1000 Series Routers
• Field-Replaceable Units, page 7
• Functional Overview, page 8
• Cisco Product Identification Standard, page 17
Cisco ASR 1000 Series Routers
The Cisco ASR 1000 Series Aggregation Services Routers are the next generation Cisco midrange router
products. The Cisco ASR 1000 Series Aggregation Services Routers use an innovative and powerful hardware
processor technology known as the Cisco QuantumFlow Processor. The following are the Cisco ASR 1000
Series Routers:
• The Cisco ASR 1006 Router is a 12-SPA, 6-rack-unit (RU), hardware-redundant chassis with two
Embedded Services Processor (ESP) slots, two Route Processor (RP) slots, and three SIP slots.
• The Cisco ASR 1004 Router is an 8-SPA, four rack-unit (RU) chassis with one ESP slot, one RP slot,
and two SIP slots.
• The Cisco ASR 1002 Router is a 3-SPA, 2-RU chassis with one embedded services processor slot that
comes with the route processor, Cisco ASR 1000 Series Shared Port Adapter Interface Processor (SIP),
and 4 Gigabit Ethernet ports built in. For more information about the type of connectors and cables used
by the 4-port Gigabit Ethernet built-in SPA, the Cisco ASR 1000 Series Aggregation Services Routers
SIP and SPA Hardware Installation Guide .
• The Cisco ASR 1002-F Router is a one half-height SPA, 2-RU chassis. The embedded services processor,
route processor, and SPA interface processor (SIP) are integrated with the chassis. In addition, 4 Gigabit
Ethernet ports are built into the chassis.
• The Cisco ASR 1013 Router is a 24 half-height shared port adapters, 13-RU chassis that can hold 6 SIPs
and provides superslots (more height and power) for the Cisco ASR1000-RP2s and Cisco ASR1000-ESPs.
The Cisco ASR 1013 Router is designed with two zones (Zone 1 and Zone 0) for redundancy and
superslot spacing. The Cisco ASR 1013 router has four 40G slots and two 100G slots.
• The Cisco ASR 1001 Router is a one rack-unit chassis that offers a compact form factor router that
satisfies customer demands such as low power consumption and decreased usage of rack space. The
Cisco ASR 1001 Router has the route processor, embedded services processor, and SIP integrated within
the chassis with one half-height SPA slot.
• The Cisco ASR 1002-X Router is a 3-SPA, 2-RU chassis. The embedded services processor and route
processor of this router are integrated in the chassis. There are six small form factor pluggable (SFP)
Gigabit Ethernet ports. Depending on the Cisco software license that you install, the router can provide
a forwarding bandwidth of 5 Gbps, 10 Gbps, 20 Gbps, or 36 Gbps.
For the single-route-processor Cisco ASR 1000 platforms (Cisco ASR 1002, Cisco ASR 1002-F, Cisco ASR
1002-X and Cisco ASR 1004), the route processor has a dual Cisco IOS Software option that allows these
routers to use Cisco IOS software redundancy, Cisco high-availability features, and Nonstop Forwarding
(NSF). Single-route-processor Cisco ASR 1000 platforms do not support ISSU upgrade or downgrade. Instead
sub-package software upgrade is supported only if the router is running in sub-package mode.
Note
The Software Redundancy feature requires the router to have 8 GB of DRAM memory.
Cisco ASR 1000 Series Router Hardware Installation Guide
2
Cisco ASR 1000 Series Routers Hardware Overview
Cisco ASR 1000 Series Router Features
The Cisco ASR 1000 Series Routers run Cisco IOS XE Software and introduce a distributed software
architecture that moves many operating system responsibilities out of the IOS process. In this architecture,
Cisco IOS, which previously was responsible for almost all of the internal software processes, now runs as
one of many Cisco IOS XE processes while allowing other Cisco IOS XE processes to share responsibility
for running the router.
The Cisco ASR 1000 Series Routers use the powerful Cisco QuantumFlow Processor which provides
performance and resiliency for network processors.
The Cisco ASR 1000 Series Routers deliver multiple services embedded in the Cisco QuantumFlow Processor.
The services supported on the Cisco Packet QuantumFlow Processor include security services (for example,
encryption and firewall), quality of service (QoS), Network Based Application Recognition (NBAR), broadband
aggregation, and session border controller, among others.
Cisco ASR 1000 Series Router Features
The Cisco ASR 1000 Series Aggregation Services routers use different field replaceable units:
• Cisco ASR 1000 Series route processor— Cisco ASR1000-RP1, ASR1000-RP2
• Cisco ASR 1000 Series embedded services processors (ESPs):
◦Cisco ASR1000-ESP5
◦Cisco ASR1000-ESP10
◦Cisco ASR1000-ESP20
◦Integrated Cisco ASR1002-ESP-F
◦Cisco ASR1000-ESP40
◦Cisco ASR1000-ESP100
◦Cisco ASR1000-ESP200
Note
See xref Chapter 3, “Cisco ASR 1000 Series Routers Embedded Services Processors” for detailed
information about Cisco ESPs.
• Cisco ASR 1000 SPA Interface Processors (SIPs):
◦Cisco ASR1000-SIP10
◦Cisco ASR1002-SIP10-F
◦Cisco ASR1000-SIP-40
Note
See xref Chapter 4, “Cisco ASR 1000 Series Router SPA Interface Processors (SIPs)” for detailed
information about Cisco SIPs.
Cisco ASR 1000 Series Routers provide the following features:
Cisco ASR 1000 Series Router Hardware Installation Guide
3
Cisco ASR 1000 Series Routers Hardware Overview
Cisco ASR 1000 Series Router Features
• Online insertion and removal (OIR) capability
• Route processor and embedded services processor redundancy in the Cisco ASR 1000 Series Routers
(Cisco ASR 1013 Router and Cisco ASR 1006 Router)
• Control processor for ASR 1000 Series SPA Interface Processor
• Control processor for embedded services processors (Cisco ASR1000-ESP5, Cisco ASR1000-ESP10,
Cisco ASR1000-ESP20, integrated Cisco ASR1002-ESP-F, Cisco ASR1000-ESP40, Cisco
ASR1000-ESP100, and Cisco ASR1000-ESP200)
• 10 Gbps and 20 Gbps interconnect between Cisco QuantumFlow Processor with redundant Cisco ASR
1000 Series ESP to mirror data for stateful features
• Power supply redundancy
• Environmental monitoring and reporting functions
• Family of routers using common hardware and software architecture
• Centralized forwarding design (all network traffic passes through one engine)
• Front-to-back airflow—Allows you to mount the router from either front or back into 19-inch equipment
rack
• Supports half-height shared port adapters (HHSPAs) and full-height shared port adapters (FHSPAs)
Note
The Cisco ASR 1001 Router does not support full-height SPAs.
• Single midplane design (all connectors on one interface midplane)
• One 10/100/1000-Mbps Ethernet Management port—To be used only as a management port; not to be
used as an Ethernet interface port
• Both quarter-rate (87.5 MHz) and full-rate (350 MHz) shared port adapter operation
The Cisco QuantumFlow Processor processing provides:
• Architecture to address Cisco ASR 1000 Series router performance, cost, power, and feature velocity
• Next Generation forwarding and queuing subsystems for Cisco routers to provide data path acceleration.
The Cisco ASR 1000 Series route processor system performs the following system management functions:
• Sending and receiving routing protocol updates
• Managing tables, caches, and buffers
• Monitoring interface and environmental status
• Providing Simple Network Management Protocol (SNMP) management through the console and Telnet
interface
• Accounting for and switching of data traffic
• Booting and reloading images
Cisco ASR 1000 Series Router Hardware Installation Guide
4
Cisco ASR 1000 Series Routers Hardware Overview
Cisco ASR 1000 Series Routers Compatibility Information
Cisco ASR 1000 Series Routers Compatibility Information
The following table lists the Cisco ASR 1000 Series Routers configurations. It shows the combination of
chassis, Cisco ASR1000-ESP, and Cisco ASR1000-SIP supported on the Cisco ASR 1000 Series Routers.
Table 1: Cisco ASR 1000 Series Routers Component Compatibility
ASR 1004
ASR 1006
ASR 1013
Embedded
Services
Processor
SIP10
SIP40
SIP10
SIP40
SIP10*
SIP40
ESP10
Yes
Yes
Yes
Yes
No
No
ESP20
Yes
Yes
Yes
Yes
No
No
ESP40
Yes
Yes
Yes
Yes
Yes*
Yes
ESP100
No
No
Yes
Yes
Yes
Yes
ESP200
No
No
No
No
Yes
Yes
Note
The Cisco ASR 1001 Router supports Cisco ASR1000-ESP2.5 up to Cisco ASR1000-ESP5. The Cisco
ASR 1002 Router, Cisco ASR 1002-F Router, and Cisco ASR 1002-X Router do not support Cisco
ASR1000-ESP20, Cisco ASR1000-ESP40, Cisco ASR1000-ESP100, or Cisco ASR1000-RP2. Cisco
ASR1000-ESP100 can be installed only on Cisco ASR 1006 and Cisco ASR 1013 routers. Cisco
ASR1000-ESP200 can be installed only on Cisco ASR 1013 routers.
Hardware Compatibility
The following table lists the Cisco ASR 1000 Series Routers that support and are compatible with Cisco
hardware products.
Table 2: Cisco ASR 1000 Series Routers and Component Compatibility and Support Matrix
Hardware
Component
Cisco ASR 1013
Router
Cisco ASR 1006
Router
Cisco ASR 1004
Router
Cisco ASR 1002 Cisco ASR 1001
Router and Cisco Router
ASR 1002-F
Router
Cisco ASR 1002-X
Router
ASR1000-ESP5
Not compatible
Not compatible
Not supported
Supported
Not applicable
Not applicable
Supported
Supported
Supported
Not applicable
Not applicable
ASR1000-ESP10 Not compatible
Cisco ASR 1000 Series Router Hardware Installation Guide
5
Cisco ASR 1000 Series Routers Hardware Overview
Hardware Compatibility
Hardware
Component
Cisco ASR 1013
Router
Cisco ASR 1006
Router
Cisco ASR 1004
Router
Cisco ASR 1002 Cisco ASR 1001
Router and Cisco Router
ASR 1002-F
Router
Cisco ASR 1002-X
Router
ASR1000-ESP20 Not supported
Supported
Supported
Not compatible
Not applicable
Not applicable
ASR1000-ESP40 Supported
Supported
Supported
Not compatible
Not applicable
Not applicable
ASR1000-ESP100 Supported
Supported
Not compatible
Not compatible
Not applicable
Not applicable
ASR1000-ESP200 Supported
Not compatible
Not compatible
Not compatible
Not compatible
Not compatible
ASR1000-RP1
Not compatible
Supported
Supported
Not applicable
Not applicable
Not applicable
ASR1000-RP2
Supported
Supported
Supported
Not applicable
Not applicable
Not applicable
ASR1000-SIP10 Supported
Supported
Supported
Not applicable
Not applicable
Not applicable
ASR1000-SIP40 Supported
Supported
Supported
Not applicable
Not applicable
Not applicable
ASR1000 PEMs ASR 1013 PEM
supported
ASR 1013 PEM
supported
ASR1004 PEM
supported
ASR 1002 PEM
supported
Supported with
its own AC and
DC power
supplies
ASR 1002 PEM
supported
ASR 1006 PEM
supported
The following is the outcome of upgrades performed using incompatible combinations of hardware components:
• The embedded services processor card is disabled and an error message is generated in either of the
following scenarios:
◦Cisco ASR1000-ESP20, Cisco ASR1000-ESP40, or Cisco ASR1000-ESP100 is inserted in the
Cisco ASR 1002 Router.
◦Cisco ASR1000-ESP5 is inserted into Cisco ASR 1004 Router, Cisco ASR 1006 Router, or Cisco
ASR 1013 Router.
• The Complex Programmable Logic Device (CPLD) field programmable upgrade for Cisco
ASR1000-SIP10 cannot be performed in slot 5. Cisco ASR1000-SIP10 can be upgraded only in any one
of the slots from slots 0 to 4.
• If Cisco ASR1000-RP1 is inserted into Cisco ASR 1013 Router, the card is disabled and an error message
is generated
The Cisco ASR 1013 Router supports only the following components:
• Cisco ASR1000-RP2
• Cisco ASR1000-ESP40 or Cisco ASR1000-ESP200
• Cisco ASR1000-SIP10 or Cisco ASR1000-SIP40
Cisco ASR 1000 Series Router Hardware Installation Guide
6
Cisco ASR 1000 Series Routers Hardware Overview
Cisco ASR 1000 Series Router Configurations
Existing Cisco ASR1000-RP2 and Cisco ASR1000-SIP10 cannot be used as is in the Cisco ASR 1013 Router.
These two components must be upgraded to support Cisco IOS XE Release 3.1S on the Cisco ASR 1013
Router.
Cisco ASR 1000 Series Router Configurations
The Cisco ASR 1000 Series Routers are available in different packaging configurations. Some of the chassis
configurations are modular with separate field-replaceable units (FRUs) for the Cisco ASR 1000 Series Route
Processors, the Cisco ASR 1000 Series Embedded Services Processors, and the shared port adapters.
All FRUs (Cisco ASR 1000 Series Route Processor 1, Cisco ASR 1000 Series Embedded Services Processor,
and SPAs) are designed to work in the different chassis models. The power supplies and fan modules are
chassis specific. The SPAs are supported in all chassis configurations although there are SPA restrictions in
the Cisco ASR 1002 Router and the Cisco ASR 1002-F Router.
The following table lists the Cisco ASR 1000 Series Router configurations. In this table, HH is half height
and FH is full height.
Table 3: Cisco ASR 1000 Series Router Product Family
Chassis
Number of ESP
Slots
Maximum SPAs Number of RP
Supported
Slots
Number of SIP
Slots
Maximum
Bandwidth
Cisco ASR 1001 Built-in ESP 2.5 1 HH
Gbps/5 Gbps
Built-in ports 4
x 1GE SFP
One built-in
Fixed, SIP10
2.13GHz dual
core Intel Xeon
CPU
Up to 5 Gbps
(with software
license)
Cisco ASR 1013 2 superslots
24 HH
2 superslots
6
Up to 200 Gbps
Cisco ASR 1006 2
12 HH
2
3
Up to 100 Gbps
Cisco ASR 1004 1
8 HH
1
2
Up to 40 Gbps
Cisco ASR 1002 1
3 HH (1 built-in 1 integrated
4x1GE)
(RP1)
1 integrated
(SIP10)
Up to 10 Gbps
Cisco ASR
1002-F
1
1 HH (1 built-in 1 integrated
4x1 GE)
(RP1)
1 integrated
(SIP10)
Up to 2.5 Gbps
Cisco ASR
1002-X
1
3 HH and 1
1 integrated
built-in 6x1 GE
1 integrated
Up to 36 Gbps
(with software
license)
Field-Replaceable Units
The Cisco ASR 1000 Series routers are easy to service; many of their major components are field-replaceable
units (FRUs). The following are the Cisco ASR 1000 Series Router FRUs:
Cisco ASR 1000 Series Router Hardware Installation Guide
7
Cisco ASR 1000 Series Routers Hardware Overview
Functional Overview
• Cisco ASR 1000 Series route processors: RP1 and RP2
• Cisco ASR 1000 Series embedded services processors: Cisco ASR1000-ESP5, Cisco ASR1000-ESP10,
Cisco ASR1000-ESP20, Cisco ASR1000-ESP40, Cisco ASR1000-ESP100, and Cisco ASR1000-ESP200.
• Shared port adapters
• Cisco ASR 1000 Series shared port adapter interface processors (SIPs)
• Cisco ASR 1000 Series RP1 internal hard drive
• Cisco ASR 1000 Series RP1 DIMM memory module (Note that the integrated Cisco ASR1000-RP1 on
the Cisco ASR 1002 Router DIMM memory module is not field-replaceable.)
• USB flash token memory stick
• AC and DC power supplies
• Bracket kit—Custom cable-management brackets are mounted to each rack-mount bracket to provide
cable management to both sides of the chassis (parallel with card orientation). These brackets are
screw-mounted to the rack brackets to enable easy installation and removal. There is a rack-mount
bracket for each chassis:
◦For the Cisco ASR 1006 Router, the cable-management brackets contain five independent
cable-management U features to provide cable dressing for each card module slot. For SIPs, these
brackets work in tandem with SPA product feature cable management to allow installation and
removal of adjacent cards without having to remove cables.
◦For the Cisco ASR 1004 Router, the cable-management brackets contain three independent
cable-management U features to provide cable dressing for each card module slot. For SIPs, these
brackets work in tandem with SPA product feature cable management to allow installation and
removal of adjacent cards without having to remove cables.
◦For the Cisco ASR 1002 Router, the cable-management brackets contains one independent
cable-management U feature to provide cable dressing for each card module slot. These brackets
work in tandem with SPA product feature cable management to allow installation and removal of
adjacent cards without having to remove cables.
Note
The Cisco ASR 1002-F Router and Cisco ASR 1002-X Router use the same accessories as the Cisco ASR
1002 Router.
•
◦For the Cisco ASR 1013 Router, the cable-management brackets contain four independent
cable-management U features to provide cable dressing for modules. There are two brackets with
four U-feature hooks for each side of the chassis.
◦For the Cisco ASR 1001 Router, the cable-management bracket contains one independent
cable-management U feature to provide cable dressing for each card module slot.
Functional Overview
This section contains the following topics:
Cisco ASR 1000 Series Router Hardware Installation Guide
8
Cisco ASR 1000 Series Routers Hardware Overview
Chassis Slot and Logical Interface Numbering
Chassis Slot and Logical Interface Numbering
The Cisco ASR 1000 Series Routers have a slot numbering system located on both sides of the card module
location. The chassis slots are physically numbered from zero starting at the bottom of the chassis. This section
describes the slot numbering for the Cisco ASR 1000 Series Routers:
Cisco ASR 1000 Series SPA Interface Processor (SIP) subslots begin their numbering with “0” and have a
horizontal orientation. The SIP subslot numbering is indicated by a small numeric label beside the subslot on
the faceplate. Some commands allow you to display information about the SPA itself, such as show idprom
module and show hw-module subslot. These commands require you to specify both the physical location
of the SIP and SPA in the format, Slot/Subslot, where:
• Slot—Specifies the chassis slot number in the Cisco ASR 1000 Series Routers where the SIP is installed.
• Subslot—Specifies a subslot of the SIP where the SPA is installed.
• Superslots (power zone 0 and power zone 1)—Specifies the Cisco ASR 1013 Router slot spacing divided
into zones.
Note
See the router-specific chapter for chassis slot numbering and naming descriptions.
MAC Address Information
The Media Access Control (MAC) or hardware address is a standardized data link layer address that is required
for certain network interface types. These addresses are specific and unique to each port and are not used by
other devices in the network. The Cisco ASR 1000 Series Routers assign and control the MAC addresses of
its shared port adapters.
You can identify shared port adapter slots by using software commands. To display information about:
• All shared port adapter slots, use the show interfaces command.
• A specific shared port adapter slot, use the show interfaces command with the shared port adapter type
and slot number in the format show interfaces port-adapter-type slot-number/port-number.
Note
If you abbreviate the command (sh int) and do not specify shared port adapter type and slot number (or
arguments), the system interprets the command as show interfaces and displays the status of all shared
port adapters and ports.
The MAC addresses are assigned to the slots in sequence. For example, in the Cisco ASR 1006 Router, the
first address is assigned to slot 0 and the last address is assigned to slot 6. The actual MAC address assignment
is 16 MAC addresses per SPA slot for half-height SPAs and 64 per SPA slot for full-height SPAs. Also, the
Cisco ASR 1000 Series RP1 RP Management Ethernet port is assigned one MAC address from the end of the
pool and for the Cisco ASR 1006 Router with two Cisco ASR 1000 RP1s, each ASR10000 RP1 is assigned
one MAC address.
Using this address scheme, you can remove shared port adapters and insert them into other routers without
causing the MAC addresses to move around the network or be assigned to multiple devices.
Cisco ASR 1000 Series Router Hardware Installation Guide
9
Cisco ASR 1000 Series Routers Hardware Overview
Online Insertion and Removal
If the MAC addresses were stored on each shared port adapter, online insertion and removal would not function
because you could never replace one shared port adapter with an identical one; the MAC addresses would
always be different. Also, each time a shared port adapter was replaced, other devices on the network would
have to update their data structures with the new address. If the other devices did not update quickly enough,
the same MAC address could appear in more than one device at the same time.
Note
Storing the MAC addresses for every slot in one central location means the addresses stay with the memory
device on which they are stored.
Online Insertion and Removal
In the modular chassis configurations, most Cisco ASR 1000 Series Router field-replaceable units (FRUs)
support online insertion and removal (OIR). However, the removal of critical non-redundant FRUs will result
in service interruption.
Note
As you disengage the shared port adapter from the router, online insertion and removal (OIR)
administratively shuts down all active interfaces in the shared port adapter.
Online insertion and removal (OIR) feature allows you to install and replace shared port adapters while the
router is operating; you do not need to notify the software or shut down the system power, although you should
not run traffic through the shared port adapter you are removing while it is being removed. Online insertion
and removal is a method that is seamless to end users on the network, maintains all routing information, and
preserves sessions.
All SPA OIR events are independent of one another. An OIR event of a single SPA does not affect the other
SPAs in that ASR1000-SIP10 or any other system function.
The following items describe the OIR differences between the Cisco ASR 1002 Router, the Cisco ASR 1002-F
Router, and the Cisco ASR 1002-X Router:
• The Cisco ASR 1002 Router supports the integrated Cisco ASR1000-RP1, which is a combined route
processor and carrier card that are not field-replaceable units. The Cisco ASR1000-ESP5 or
ASR1000-ESP10 are field-replaceable units.
• The Cisco ASR 1002-F Router supports an integrated route processor Cisco ASR1002-RP1 and an
integrated embedded services processor Cisco ASR1000-ESP-F, which are not field-replaceable. The
Cisco ASR1002-SIP10-F module is not removable; but the one half-height SPA is a field-replaceable
unit.
• The Cisco ASR 1002-X Router supports an integrated route processor (Cisco ASR1002-RP2) and an
integrated embedded services processor. Both these components are not field-replaceable. The router
has a built-in 6x1GE SPA that occupies the SPA Bay 0. In addition, there are three half-height SPA
bays for field-replaceable SPAs.
The following is a functional description of OIR for background information only; for specific procedures
for installing and replacing a shared port adapter in Cisco ASR 1000 Series Routers, refer to the online
configuration note for each shared port adapter.
Cisco ASR 1000 Series Router Hardware Installation Guide
10
Cisco ASR 1000 Series Routers Hardware Overview
Environmental Monitoring and Reporting Functions
When you remove or insert a shared port adapter in a Cisco ASR 1000 Series Router, the Control Processor
notifies the Cisco ASR1000-RP1, which in turn notifies the forwarding engine control processor (FECP), and
then performs the following steps:
• Rapidly scans the midplane for configuration changes.
• Initializes all newly inserted shared port adapters, noting any removed interfaces and placing them in
the administratively shutdown state.
• Brings all previously configured interfaces on the shared port adapter back to the state they were in when
they were removed. Any newly inserted interfaces are put in the administratively shutdown state, as if
they were present (but not configured) at boot time. If a similar shared port adapter type is reinserted
into a slot, its ports are configured and brought online up to the port count of the original SPA.
Environmental Monitoring and Reporting Functions
Environmental monitoring and reporting functions allow you to maintain normal system operation by identifying
and resolving adverse conditions prior to loss of operation.
Caution
To prevent overheating the chassis, ensure that your system is drawing cool inlet air. Over temperature
conditions can occur if the system is drawing in the exhaust air of other equipment. Ensure adequate
clearance around the sides of the chassis so that cooling air can flow through the chassis interior unimpeded
and exhaust air exits the chassis and is not drawn into the inlet vent of another device.
Environmental Monitoring
The environmental monitoring functions use sensors to monitor the temperature of the cooling air as it moves
through the chassis.
The local power supplies provide the ability to monitor:
• Input and output voltage
• Output current
• Outlet temperature
The Cisco ASR 1000 Series Routers are expected to meet the following environmental operating conditions:
• Operating Temperature Nominal: 5° to 40°C
• Operating Temperature Short Term: –5° to +55°C (not applicable to the Cisco ASR 1001 Router)
• Operating Humidity Nominal: 5% to 85% noncondensing
• Operating Humidity Short Term: 5% to 90% noncondensing (not applicable to the Cisco ASR 1001
Router)
• Operating Altitude: 198 to 13,200 feet (60 to 4000 meters)
• DC Input Range: –40.5 to –72 VDC
• AC Input Range: 85 to 264 VAC
Cisco ASR 1000 Series Router Hardware Installation Guide
11
Cisco ASR 1000 Series Routers Hardware Overview
Environmental Monitoring and Reporting Functions
If the air temperature exceeds a defined threshold, the system controller displays warning messages on the
console terminal, and if the temperature exceeds the shutdown threshold, the system controller shuts down
the system.
In addition, the power supplies monitor internal power supply temperatures and voltages. A power supply is
either within tolerance (normal) or out of tolerance (critical). If an internal power supply temperature or voltage
reaches a critical level, the power supply shuts down without any interaction with the system processor.
The environmental monitoring functions use the following levels of status conditions to monitor the system:
• Normal—All monitored parameters are within normal tolerances.
• Warning—The system has exceeded a specified threshold. The system continues to operate, but operator
action is recommended to bring the system back to a normal state.
• Critical—An out-of-tolerance temperature or voltage condition exists. The system continues to operate;
however, the system is approaching shutdown. Immediate operator action is required.
• Shutdown—The processor has detected a temperature condition that could result in physical damage to
system components and has disabled DC power to all internal components. This condition requires
immediate operator action. All DC power remains disabled until you toggle the power switch. Before
any shutdown, the system logs the status of monitored parameters in NVRAM so you can retrieve it
later to help determine the cause of the problem.
• Power supply shutdown—The power supply detected an internal out-of-tolerance overvoltage, overcurrent,
or temperature condition and shut itself down. All DC power remains disabled until you toggle the power
switch.
Fan Failures
When the system power is on, all fans should be operational. The system continues to operate if a fan fails.
When a fan fails, the system displays the following message:
router: 00:03:46:%ENVM-3-BLOWER:Fan 2 may have failed
If the air temperature exceeds a defined threshold, the system controller displays warning messages on the
console terminal, and if the temperature exceeds the shutdown threshold, the system controller shuts down
the system.
If the system does shut down because the temperature exceeded the shutdown threshold, the system displays
the following message on the console screen and in the environment display when the system restarts:
Queued messages:
%ENVM-1-SHUTDOWN: Environmental Monitor initiated shutdown
Reporting Functions
The chassis manager on the forwarding engine control processor manages the local resources of the forwarding
processor. It manages the ESI (Enhanced Serdes Interconnect) which are the datapath links on the midplane
connecting the Cisco ASR 1000 Series RP1s, SIPs, and standby ESP modules to the active Cisco ASR 1000
Series Embedded Services Processor. It communicates with the chassis manager on the Cisco ASR 1000
Series Route Processor 1 to report the status and health, including detected hardware failures, ESI status,
software process status, and the state of thermal sensors.
Cisco ASR 1000 Series Router Hardware Installation Guide
12
Cisco ASR 1000 Series Routers Hardware Overview
Environmental Monitoring and Reporting Functions
The Cisco ASR 1000 Series Routers display warning messages on the console if the chassis interface-monitored
parameters exceed a threshold. You can also retrieve and display environmental status reports with the following
commands:
• show environment all
• show version
• show inventory
• show platform
• show platform software status control-processor
• show diag
Parameters are measured and reporting functions are updated every 60 seconds. A brief description of each
of these commands follows.
Note
The example outputs displayed in this section are from the Cisco ASR 1004 Router. Similar output is
displayed for all Cisco ASR 1000 Series Routers.
Router# show environment all
Sensor List: Environmental Monitoring
Sensor
Location
State
V1: VMA
F0
Normal
V1: VMB
F0
Normal
V1: VMC
F0
Normal
V1: VMD
F0
Normal
V1: VME
F0
Normal
V1: 12v
F0
Normal
V1: VDD
F0
Normal
V1: GP1
F0
Normal
V2: VMA
F0
Normal
V2: VMB
F0
Normal
V2: VMC
F0
10% high
V2: VMD
F0
Normal
V2: VME
F0
Normal
V2: VMF
F0
Normal
V2: 12v
F0
Normal
V2: VDD
F0
Normal
V2: GP1
F0
10% high
Temp: Inlet
F0
Normal
Temp: Asic1
F0
Normal
Temp: Exhaust1
F0
Normal
Temp: Exhaust2
F0
Normal
Temp: Asic2
F0
Normal
V1: VMA
0
Normal
V1: VMB
0
Normal
V1: VMC
0
Normal
V1: VMD
0
Normal
V1: VME
0
Normal
V1: VMF
0
Normal
V1: 12v
0
Normal
V1: VDD
0
Normal
V1: GP1
0
Normal
V1: GP2
0
Normal
V2: VMA
0
20% low
V2: VMB
0
Normal
V2: VMC
0
20% low
V2: VMD
0
20% low
V2: VME
0
20% low
V2: VMF
0
20% low
V2: 12v
0
Normal
V2: VDD
0
Normal
Reading
1791 mV
1196 mV
1191 mV
1093 mV
996 mV
11894 mV
3261 mV
900 mV
3286 mV
2495 mV
1796 mV
1093 mV
996 mV
996 mV
11850 mV
3261 mV
898 mV
29 Celsius
47 Celsius
36 Celsius
36 Celsius
43 Celsius
1093 mV
1196 mV
1494 mV
1791 mV
2490 mV
3291 mV
11894 mV
3266 mV
747 mV
898 mV
0 mV
1201 mV
0 mV
0 mV
0 mV
0 mV
11909 mV
3271 mV
Cisco ASR 1000 Series Router Hardware Installation Guide
13
Cisco ASR 1000 Series Routers Hardware Overview
Environmental Monitoring and Reporting Functions
V2: GP2
Temp: Left
Temp: Center
Temp: Asic1
Temp: Right
PEM Iout
PEM Vout
PEM Vin
Temp: PEM
Temp: FC
Temp: FM
Temp: FC
V1: VMA
V1: VMB
V1: VMC
V1: VMD
V1: VME
V1: VMF
V1: 12v
V1: VDD
V1: GP1
V1: GP2
Temp: CPU
Temp: Outlet
Temp: Inlet
Temp: Asic1
0
0
0
0
0
P0
P0
P0
P0
P0
P1
P1
R0
R0
R0
R0
R0
R0
R0
R0
R0
R0
R0
R0
R0
R0
Normal
Normal
Normal
Normal
Normal
Normal
Normal
Normal
Normal
Fan Speed 65%
Normal
Fan Speed 65%
Normal
Normal
Normal
Normal
Normal
Normal
Normal
Normal
Normal
Normal
Normal
Normal
Normal
Normal
903 mV
25 Celsius
26 Celsius
36 Celsius
23 Celsius
17 A
12 V AC
115 V AC
27 Celsius
26 Celsius
24 Celsius
26 Celsius
1098 mV
3295 mV
2495 mV
1791 mV
1499 mV
1201 mV
11938 mV
3261 mV
903 mV
1242 mV
33 Celsius
32 Celsius
26 Celsius
32 Celsius
The show version command displays the system hardware configuration, software version, and names and
sources of configuration files and boot images.
The following is sample output of the show versioncommand:
Router# show version
Cisco IOS Software, IOS-XE Software (PPC_LINUX_IOSD-ADVENTERPRISEK9-M), Version 12.2(33)XNA,
RELEASE SOFTWARE
Technical Support: http://www.cisco.com/techsupport
Copyright (c) 1986-2008 by Cisco Systems, Inc.
Compiled Thu 01-May-08 00:29 by mcpre
Cisco IOS-XE software, Copyright (c) 1986-2008 by Cisco Systems, Inc.
All rights reserved. Certain components of Cisco IOS-XE software are
licensed under the GNU General Public License (GPL) Version 2.0. The
software code licensed under GPL Version 2.0 is free software that comes
with ABSOLUTELY NO WARRANTY. You can redistribute and/or modify such
GPL code under the terms of GPL Version 2.0. For more details, see the
documentation or License Notice file accompanying the IOS-XE software,
or the applicable URL provided on the flyer accompanying the IOS-XE
software.
A summary of U.S. laws governing Cisco cryptographic products may be found at:
http://www.cisco.com/wwl/export/crypto/tool/stqrg.html
If you require further assistance please contact us by sending email to
[email protected].
cisco ASR1004 (RP1) processor with 757182K/6147K bytes of memory.
2 Packet over SONET interfaces
32768K bytes of non-volatile configuration memory.
2097152K bytes of physical memory.
439807K bytes of eUSB flash at bootflash:.
39004543K bytes of SATA hard disk at harddisk:.
Configuration register is 0x0
The show inventory command displays an extended report that includes the product inventory listing of all
Cisco products installed in the networking device.
The following is sample output of the show inventory command:
Router# show inventory
NAME: Chassis, DESCR: Cisco ASR1004 Chassis
PID: ASR1004
, VID: V00, SN:
NAME: module 0, DESCR: Cisco ASR1000 SPA Interface Processor 10
PID: MCP-CC
, VID: V00, SN: JAB1104064G
Cisco ASR 1000 Series Router Hardware Installation Guide
14
Cisco ASR 1000 Series Routers Hardware Overview
Environmental Monitoring and Reporting Functions
NAME: SPA subslot 0/1, DESCR: 2-port OC3/STM1 POS Shared Port Adapter
PID: SPA-2XOC3-POS
, VID: V01, SN: JAB1006095Z
NAME: subslot 0/1 transceiver 0, DESCR: OC3 SR-1/STM1 MM
PID: N/A
, VID:
, SN: 2008692
NAME: SPA subslot 0/2, DESCR: 4-port T3/E3 Serial Shared Port Adapter
PID: SPA-4XT3/E3
, VID: V01, SN: JAB09210247
NAME: module R0, DESCR: Cisco ASR1000 Route Processor 1
PID: ASR1000-RP1
, VID: V00, SN: JAB110200CQ
NAME: module F0, DESCR: Cisco ASR1000 Embedded Services Processor, 10Gbps
PID: ASR1000-ESP10
, VID: V00, SN: JAB111101A1
NAME: Power Supply Module 0, DESCR: Cisco ASR1004 AC Power Supply
PID: ASR1004-PWR-AC
, VID: V00, SN: ART1103K00C
NAME: Fan Module 1, DESCR: Cisco ASR1004 Fan Module
PID: ASR1004-FAN
, VID: V00, SN: ART1052L01U
The show platform command displays platform information.
The following is sample output of the show platform command:
Router# show platform
Chassis type: ASR1004
Slot
--------0
0/1
0/2
R0
F0
P0
P1
Type
------------------MCP-CC
SPA-2XOC3-POS
SPA-4XT3/E3
ASR1000-RP1
ASR1000-ESP10
ASR1004-PWR-AC
ASR1004-FAN
State
--------------------ok
ok
ok
ok, active
ok, active
ok
ok
Insert time (ago)
----------------16:20:27
16:18:49
16:18:56
16:20:27
16:20:27
16:19:27
16:19:27
Slot
--------0
R0
F0
CPLD Version
------------------07091401
0706210B
07051650
Firmware Version
--------------------------------------12.2(33r)XN1
12.2(33r)XN1
12.2(33r)XN1
The show platform software status control-processor command displays the average load, memory usage,
and CPU utilization levels at which the router is running. The output also specifies whether the levels of these
system health parameters are within defined thresholds.
The following is sample output of the show platform software status control-processor command:
Router# show platform software status control-processor
RP0: online, statistics updated 4 seconds ago
Load Average: healthy
1-Min: 0.00, status: healthy, under 5.00
5-Min: 0.00, status: healthy, under 5.00
15-Min: 0.00, status: healthy, under 5.00
Memory (kb): healthy
Total: 8133932
Used: 1754156 (21%), status: healthy, under 90%
Free: 6379776 (78%), status: healthy, over 10%
Committed: 5059032 (62%), status: healthy, under 90%
Per-core Statistics
CPU0: CPU Utilization (percentage of time spent)
User: 0.09, System: 0.00, Nice: 0.00, Idle: 99.80
IRQ: 0.09, SIRQ: 0.00, IOwait: 0.00
CPU1: CPU Utilization (percentage of time spent)
User: 0.00, System: 0.00, Nice: 0.00, Idle:100.00
IRQ: 0.00, SIRQ: 0.00, IOwait: 0.00
ESP0: online, statistics updated 8 seconds ago
Load Average: healthy
1-Min: 0.02, status: healthy, under 5.00
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15
Cisco ASR 1000 Series Routers Hardware Overview
Environmental Monitoring and Reporting Functions
5-Min: 0.02, status: healthy, under 5.00
15-Min: 0.00, status: healthy, under 5.00
Memory (kb): healthy
Total: 3895500
Used: 547868 (13%), status: healthy, under 90%
Free: 3347632 (81%), status: healthy, over 10%
Committed: 2509772 (60%), status: healthy, under 300%
Per-core Statistics
CPU0: CPU Utilization (percentage of time spent)
User: 1.20, System: 2.10, Nice: 0.00, Idle: 96.70
IRQ: 0.00, SIRQ: 0.00, IOwait: 0.00
SIP0: online, statistics updated 7 seconds ago
Load Average: healthy
1-Min: 0.01, status: healthy, under 5.00
5-Min: 0.02, status: healthy, under 5.00
15-Min: 0.00, status: healthy, under 5.00
Memory (kb): healthy
Total: 483592
Used: 366728 (69%), status: healthy, under 90%
Free: 116864 (22%), status: healthy, over 10%
Committed: 365968 (69%), status: healthy, under 90%
Per-core Statistics
CPU0: CPU Utilization (percentage of time spent)
User: 0.40, System: 0.50, Nice: 0.00, Idle: 99.10
IRQ: 0.00, SIRQ: 0.00, IOwait: 0.00
SIP1: online, statistics updated 6 seconds ago
Load Average: healthy
1-Min: 0.00, status: healthy, under 5.00
5-Min: 0.01, status: healthy, under 5.00
15-Min: 0.00, status: healthy, under 5.00
Memory (kb): healthy
Total: 483592
Used: 351388 (67%), status: healthy, under 90%
Free: 132204 (25%), status: healthy, over 10%
Committed: 365840 (69%), status: healthy, under 90%
Per-core Statistics
CPU0: CPU Utilization (percentage of time spent)
User: 1.80, System: 2.50, Nice: 0.00, Idle: 95.59
IRQ: 0.00, SIRQ: 0.10, IOwait: 0.00
The show diag slot R0 eeprom detail command displays the configuration hardware information including
DRAM and Static RAM (SRAM) on line cards. To display more details than the normal show diag slot R0
eeprom detail command output, use show diag [slot-number] [details].
The following is sample output of the show diag slot R0 eeprom detail command:
Router# show diag slot R0 eeprom detail
Slot R0 EEPROM data:
EEPROM version : 4
Compatible Type : 0xFF
Controller Type : 1460
Hardware Revision : 4.7
PCB Part Number : 73-10253-04
Board Revision : 03
Deviation Number : 0-0
Fab Version : 04
PCB Serial Number : JAB110200CQ
RMA Test History : 00
RMA Number : 0-0-0-0
RMA History : 00
Top Assy. Part Number : 68-2625-04
Product Identifier (PID) : ASR1000-RP1
CLEI Code : UNASSIGNED
Version Identifier (VID) : V00
Manufacturing Test Data : 00 00 00 00 00 00 00 00
Field Diagnostics Data : 00 00 00 00 00 00 00 00
Asset ID : AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
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16
Cisco ASR 1000 Series Routers Hardware Overview
Cisco Product Identification Standard
Cisco Product Identification Standard
This section describes the Cisco products and services product identification standard. This feature provides
you with the ability to effectively integrate and manage Cisco products in your network and business operations.
Unique Device Identifier
The Unique Device Identifier (UDI) is the Cisco product identification standard for hardware products. A
product identification standard removes barriers to enterprise automation and can help you reduce operating
expenses.
The UDI provides a consistent electronic, physical, and associated business-to-business information product
identification standard.
The UDI is a combination of five data elements. The following table lists the UDI elements.
Table 4: Cisco UDI Elements
UDI Data Element
Electronic Visibility
Physical Visibility
Description
PID
Yes
Yes
Product ID, also known
as product name, model
name, product number
VID
Yes
Yes
Version ID
SN
Yes
Yes
Serial number, the unique
instance of the PID (see
xref Figure 1-1, Figure
1-2, Figure 1-3, Figure
1-4, Figure 1-5, and
Figure 1-6 in the next
section for location of the
serial number label)
Entity Name
Yes
No
Type, such as chassis,
slot, or power supply
Product Description
Yes
No
Additional product
information
The combination of serial number and product ID (PID) is unique and consistent across all Cisco products.
The PID that is coded on hardware is called a base product identifier.
Additional orderable PIDs may be associated to a base PID. For instance, an orderable PID may describe a
packaging configuration for a product or a bundled group of products sold, tested, and shipped together.
Specific unique device identifier (UDI) benefits include the following:
• Identifies:
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17
Cisco ASR 1000 Series Routers Hardware Overview
Serial Number Label Location
◦Individual Cisco products in your networks
◦PIDs and SNs for service and replaceable products
◦VIDs for product version visibility
• Facilitates discovery of products subject to recall or upgrade
• Enhances inventory automation of Cisco products
The Cisco product identification standard provides the following features:
• Version visibility—Cisco continuously improves products through feature additions. Product changes
are indicated by incrementing the version ID (VID), which provides version visibility to help you
understand and manage product changes. The VID management ensures consistency of changes from
product to product.
• Operating expense reduction— The Cisco UDI provides accurate and detailed network inventory
information; identifying each Cisco product in a network element through a standard interface. Cisco
operating systems can view and use this data, allowing you to automate your electronic inventory.
• Consistency across product layers—The UDI is designed into hardware products and cannot overwritten
in error. Operating and management systems discover the UDI through standard interfaces and display
the UDI in standard outputs. Standard interfaces include the IETF standard ENTITY-MIB.
Note
Go to the following URL for complete information on the product identification standard: http://
www.cisco.com/go/udi/
Serial Number Label Location
This section contains graphics of each chassis showing the location of the serial number label:
Cisco ASR 1000 Series Router Hardware Installation Guide
18
Cisco ASR 1000 Series Routers Hardware Overview
Serial Number Label Location
The following figure shows the serial number location for the Cisco ASR 1006 Router.
Figure 1: Cisco ASR 1006 Router Serial Number Label Location
Cisco ASR 1000 Series Router Hardware Installation Guide
19
Cisco ASR 1000 Series Routers Hardware Overview
Serial Number Label Location
The following figure shows the serial number label location for the Cisco ASR 1004 Router.
Figure 2: Cisco ASR 1004 Router Serial Number Label Location
Cisco ASR 1000 Series Router Hardware Installation Guide
20
Cisco ASR 1000 Series Routers Hardware Overview
Serial Number Label Location
The following figure shows the serial number label location for the Cisco ASR 1002 Router.
Figure 3: Cisco ASR 1002 Router Serial Number Label Location
Cisco ASR 1000 Series Router Hardware Installation Guide
21
Cisco ASR 1000 Series Routers Hardware Overview
Serial Number Label Location
The following figure shows the serial number label location for the Cisco ASR 1002-F Router.
Figure 4: Cisco ASR 1002-F Router Serial Number Label Location
Cisco ASR 1000 Series Router Hardware Installation Guide
22
Cisco ASR 1000 Series Routers Hardware Overview
Serial Number Label Location
The following figure shows the serial number label location for the Cisco ASR 1013 Router (Note that this
is the bottom of the chassis).
Figure 5: Cisco ASR 1013 Router Serial Number Label Location
Cisco ASR 1000 Series Router Hardware Installation Guide
23
Cisco ASR 1000 Series Routers Hardware Overview
Serial Number Label Location
The following figure shows the serial number label location for the Cisco ASR 1001 Router.
Figure 6: Cisco ASR 1001 Router Serial Number Label Location
The following figure shows the serial number label location for the Cisco ASR 1002-X Router.
Figure 7: Cisco ASR 1002-X Router Serial Number Label Location
Cisco ASR 1000 Series Router Hardware Installation Guide
24
CHAPTER
2
Cisco ASR 1000 Series Routers Component
Overview
This chapter contains the following sections:
Note
For the Cisco Embedded Services Processor see, xref and for the SPA Interface Processor see, xref
• Cisco ASR 1000 Series Routers Component Software Support, page 25
• Supported ASR 1000 Hardware Components, page 27
• Cisco ASR 1000 Series Route Processor, page 36
• Cisco ASR 1000 Series Router Power Supplies, page 48
• Power Supplies for the Cisco ASR 1006 Router, page 51
• Power Supplies for the Cisco ASR 1004 Router, page 59
• Power Supplies for the Cisco ASR 1002 Router, page 66
• Power Supplies for the Cisco ASR 1013 Router, page 76
• Power Supplies for the Cisco ASR 1001 Router, page 83
Cisco ASR 1000 Series Routers Component Software Support
This section lists the new hardware supported on the Cisco ASR 1000 Series routers and the version of Cisco
IOS software code required to support the component. xref table lists the components that are not supported
by earlier releases of Cisco IOS XE.
Cisco ASR 1000 Series Router Hardware Installation Guide
25
Cisco ASR 1000 Series Routers Component Overview
Upgrading to New Software
Upgrading to New Software
Note
For a listing of the new SPAs, click the corresponding link in the table.
Table 5: Cisco ASR 1000 Series Router Component Software Support
Cisco IOS XE Software Support
Cisco IOS XE Release 2.1.0
Cisco Hardware Components
• Cisco ASR 1002 Router
• Cisco ASR 1004 Router
• Cisco ASR 1006 Router
• Cisco ASR 1000 Embedded Services Processors
• Cisco ASR 1000 Route Processor 1
• Cisco ASR 1000 SPA Interface Processor
• Shared Port Adapters
• 1 GB USB Flash Token for Cisco ASR 1000
Series
Cisco IOS XE Release 2.2.1
• Cisco ASR 1000 Embedded Services Processor
10G Non Crypto Capable (ASR1000-ESP10-N)
• Cisco ASR1000-ESP20 embedded services
processor
• Shared Port Adapters
Cisco IOS XE Release 2.3.0
• Cisco ASR 1000 Series Route Processor 2
(Cisco ASR1000-RP2)
• Shared Port Adapters
Cisco IOS XE Release 2.4.0
• Cisco ASR 1002-F Router
• WebEx SPA
Cisco ASR 1000 Series Router Hardware Installation Guide
26
Cisco ASR 1000 Series Routers Component Overview
Supported ASR 1000 Hardware Components
Cisco IOS XE Software Support
Cisco IOS XE Release 2.5.0
Cisco Hardware Components
• 1-Port Clear Channel OC-12 ATM SPA
(SPA-1XOC12-ATM-v2)
• New XFP/SFPs Supported with SPAs and the
Built-In Gigabit Ethernet Interface
Cisco IOS XE Release 2.6.0
Cisco IOS XE 3.1S (formerly Release 2.7.0)
1-Port Channelized OC-12/STM-4 SPA
(SPA-1XCHOC12/DS0)
• Chapter 11, “Cisco ASR 1013 Router Overview
and Installation”
• Chapter 3, “Cisco ASR 1000 Series Routers
Embedded Services Processors”
• Chapter 4, “Cisco ASR 1000 Series Router SPA
Interface Processors (SIPs)”
Cisco IOS XE 3.2S (formerly Release 2.8.0)
• Chapter 12, “Cisco ASR 1001 Router Overview
and Installation”
• Cisco ASR1000-ESP40 and Cisco
ASR1000-SIP40 support on Cisco ASR 1004
Router
Cisco IOS XE 3.7S
• Chapter 10, “Cisco ASR 1002-X Router
Overview and Installation”
• Cisco ASR1000-ESP100 support on Cisco ASR
1006 Router and Cisco ASR 1013 Router
Supported ASR 1000 Hardware Components
This section contains the following topics:
Cisco ASR 1000 Series Router Hardware Installation Guide
27
Cisco ASR 1000 Series Routers Component Overview
Supported Cisco ASR 1000 Platforms
Supported Cisco ASR 1000 Platforms
The following table lists the Cisco ASR 1000 Series Routers and the hardware components supported in each
router.
Table 6: Supported Cisco ASR 1000 Platforms and Components
Component ASR 1001
Chassis
ESP
ASR 1002-F ASR 1002
ASR 1006
ASR 1013
Scalable to Scalable to Scalable to Scalable to Scalable to Scalable to Scalable to
5 Gbps
2.5 Gbps
10 Gbps
36 Gbps
40 Gbps
100 Gbps
100 Gbps
—
Supports
Supports
Supports
Supports
Supports
Supports
software
software
software
software
hardware
hardware
redundancy redundancy redundancy redundancy redundancy redundancy
One built-in
4x1 Gigabit
Ethernet
SPA
Four
built-in
Gigabit
Ethernet
ports
Four
built-in
Gigabit
Ethernet
ports
Six built-in —
Gigabit
Ethernet
ports
—
—
Single
Single
Single
Single
integrated integrated ASR1000-ESP5 integrated
ASR1000-ESP2.5 ASR1000-ESP2.5
embedded
services
processor
Single
Single or
—
ASR1000-ESP10 Dual
ASR1000-ESP10
—
Single
—
ASR1000-ESP10
Single
Single or
—
ASR1000-ESP20 Dual
ASR1000-ESP20
—
—
—
ASR1000-ESP40 Single or
Single or
Dual
Dual
ASR1000-ESP40 ASR1000-ESP40
—
—
—
—
2.5 up to 5
Gbps
5 or 10
Gbps
5 Gbps, 10 10 or 20
Gbps, 20
Gbps
Gbps, or 36
Gbps,
depending
on the
Cisco
software
license
installed
Cisco ASR 1000 Series Router Hardware Installation Guide
28
ASR 1002-X ASR 1004
Single or
Single or
Dual
Dual
ASR1000-ESP100 ASR1000-ESP100
10, 20, 40,
or 100
Gbps
40 or 100
Gbps
Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1000 Series Hardware Configuration Combinations
Component ASR 1001
ASR 1002-F ASR 1002
Route
Processor
Single
Single
Single
integrated integrated integrated
ASR1000-RP1 ASR1000-RP1 route
processor
Single
integrated
route
processor
—
SIP
Integrated
SIP
Integrated
SIP
1
half-height
(HH) SPA
bay
1
ASR 1006
ASR 1013
Single
Single or
—
ASR1000-RP1 Dual
ASR1000-RP1
—
—
Single
Single or
Single or
ASR1000-RP2 Dual
Dual
ASR1000-RP2 ASR1000-RP2
Integrated
SIP
Integrated
SIP
ASR1000-SIP10 ASR1000-SIP10 ASR1000-SIP10
—
ASR1000-SIP40 ASR1000-SIP40 ASR1000-SIP40
3 HH SPA
bays
8
—
SPA Slots
ASR 1002-X ASR 1004
3
12
24
Cisco ASR 1000 Series Hardware Configuration Combinations
This section provides Cisco ASR 1000 Series hardware configuration combinations and whether they are
supported from Cisco IOS XE Release 3.1S onward. The tables list the router and the route processor, SIPs,
and power modules supported on that router. The tables include the following categories
• Supported hardware before IOS XE Release 3.1S—xref table
• Supported hardware from IOS XE Release 3.1S—xref table
• Requires upgrade—xref table
• Not compatible—xref table
• Not supported in IOS XE Release 3.1S—xref table
• Incompatible HA—xref table
Note
When an unsupported combination of hardware components occurs, the card or cards not supported are
shutdown and an error message occurs. Following each table in this section, a description of the error
message is provided.To prevent any errors from occurring, read the compatibility tables before you insert
any Cisco ASR 1000 Series Router components on a router running Cisco IOS XE Release 3.1S or later
releases.
Cisco ASR 1000 Series Router Hardware Installation Guide
29
Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1000 Series Hardware Configuration Combinations
Hardware Requiring a CPLD Upgrade
For details about Cisco ASR 1000 hardware configuration combinations that require a CPLD field
programmable upgrade for components to be supported in IOS XE Release 3.1S, see Upgrading Field
Programmable Hardware Devices for Cisco ASR 1000 Series Routers .
Incompatible Hardware Configuration Combinations
The following table lists ASR 1000 hardware configuration combinations that are not compatible from Cisco
IOS XE Release 3.1S onward.
Table 7: Incompatible Cisco Hardware Configuration Combinations from IOS XE Release 3.1S Onward
Chassis
ASR1000-RP
ASR1000-ESP
ASR1000-SIP
Result
Cisco ASR 1002
Router
NA (built in)
ESP-20
NA (built in)
ESP-20 disabled
ESP-40
ESP-40 disabled
ESP-100
ESP-100 disabled
Cisco ASR 1004
Router
—
Cisco ASR 1006
Router
—
ESP-5
—
ESP-5 disabled
Cisco ASR 1013
Router
RP1
—
—
RP1 disabled
Cisco ASR 1001
Router
NA (built in)
Integrated
embedded services
processor
NA (built in)
—
Cisco ASR 1002-X NA (built in)
Router
Integrated
embedded services
processor
NA (built in)
—
ESP-5
—
ESP-100
ESP-5 disabled
ESP-100 disabled
Incompatible ASR1000-ESP Error Message
This section describes what happens when an incompatible Cisco ASR1000-ESP is inserted into the following
Cisco ASR 1000 series router:
• Cisco ASR1000-ESP20 is inserted into Cisco ASR 1002 Router
• Cisco ASR1000-ESP40 is inserted into Cisco ASR 1002 Router
• Cisco ASR1000-ESP100 is inserted into Cisco ASR 1002 Router
• Cisco ASR1000-ESP5 or Cisco ASR1000-ESP100 is inserted into Cisco ASR 1004 Router or ASR 1006
Router
Cisco ASR 1000 Series Router Hardware Installation Guide
30
Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1000 Series Hardware Configuration Combinations
Error message
The Cisco ASR1000-ESP card is disabled, and the following error message is displayed on the console:
Error message: %CMRP-3-INCOMPATIBLE_FRU: [chars] in slot [chars] is not compatible with
[chars] and so it is disabled.
fp_name: ESP-5/ESP-20/ESP-40/ESP-100
fp_slot: F0/F1
hw_config: ASR-1002/ASR-1004/ASR-1006 chassis
Reason
The Product ID read from the FRU IDPROM is not compatible with this hardware configuration.
Recommended action
Remove the embedded services processor from the chassis.
Incompatible ASR1000-RP Error Message
This section describes what happens when a Cisco ASR1000-RP1 is inserted into the Cisco ASR 1013 router
and provides the error message and explanation as to why this occurred:
Error message
The ASR1000-RP1 is disabled and the following error message displays at the console.
Error message: %CMRP-3-INCOMPATIBLE_FRU: [chars] in slot [chars] is not compatible with
[chars] and so it is disabled”
rp_name: RP1
rp_slot: R0/R1
hw_config: ASR-1013 chassis
Reason
The Product ID read from the FRU IDPROM is not supported in this hardware configuration.
Recommended action
Remove the Cisco ASR1000-RP1 from the chassis.
Unsupported Hardware Configurations
The following table lists Cisco ASR 1000 Series Routers hardware configurations that are not supported.
Table 8: Cisco ASR 1000 Series Routers Hardware Configurations That Are Not Supported
Router
ASR1000-RP
ASR1000-ESP
ASR1000-SIP
Result
Cisco ASR 1004
Router
—
ESP-40
—
ESP-100 disabled
Cisco ASR 1006
Router
RP1
—
ESP-40 disabled
ESP-100
ESP-40
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31
Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1000 Series Hardware Configuration Combinations
Router
ASR1000-RP
ASR1000-ESP
ASR1000-SIP
Result
Cisco ASR 1001
Router
—
Integrated
embedded services
processor
—
—
—
—
—
SIP-40 disabled
The following may be the outcome when using unsupported Cisco ASR 1000 components in a high-availability
feature configuration:
• Unsupported ASR1000-RP in a redundant Cisco ASR 1006 configuration—If you insert an Cisco
ASR1000-RP1 or RP2 in an ASR 1006 redundant setup, the following occurs:
The standby ASR1000-RP card is disabled and this error message prints on the active RP console:
Error message: %CMRP-3-RP_MISMATCH: [chars] has been held in reset because the part number
differs from that of the active RP.
rp_fru: R0/R1
Reason: The part number read from the FRU IDPROM is not compatible with part number of the active
ASR1000-RP; as a result it may not act as a standby.
Recommended action: Remove the FRU from the chassis
• Unsupported Cisco ASR 1000 series router power supply—If you insert the Cisco ASR 1013 router
power supply into the Cisco ASR 1006 Router or insert the Cisco ASR 1006 Router power supply into
the Cisco ASR 1013 Router, the following occurs:
The following error message displays when detected and then periodically after that (every 1 hour) until the
problem is corrected.
Error message: %CMRP-3-UNSUPPORTED_PEM: [chars] in slot [chars] is not supported with [chars]
and it needs to be replaced immediately
pem_name: ASR1006-PWR-AC/ASR1006-PWR-DC/ASR1013-PWR-AC/ASR1013-PWR-DC
pem_slot_num: P0-P3
hw_config: ASR-1006/ASR-1013 chassis
Reason: The Product ID read from the PEM IDPROM is not supported in this hardware configuration. It will
be allowed to continue but immediate replacement is required.
Recommended action: Remove the PEM from the chassis and replace it with a supported PEM.
If the above combinations occur, you will see the following error messages.
Unsupported ASR1000-ESP Error Message
This section describes what happens when a Cisco ASR1000-ESP40 is present when the router is booting or
inserted at a later time into the Cisco ASR 1000 Router and provides the error message and explanation as to
why this occurred.
Error message
The ASR1000-ESP40 card is disabled and the following error message displays at the console.
Error message
%CMRP-3-UNSUPPORTED_FRU: [chars] in slot [chars] is not supported with [chars] and so it
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32
Cisco ASR 1000 Series Routers Component Overview
Upgrading Existing Hardware Components to Support the Cisco ASR 1013 Router
is disabled
fru_name: ESP40
fru_slot: F0
hw_config: ASR-1004 chassis
Reason
The Product ID read from the FRU IDPROM is not supported in this hardware configuration.
Recommended action
Remove the Cisco ASR1000-ESP40 from the chassis.
Unsupported ASR1000-SIP Error Message
This section describes what happens when a Cisco ASR1000-SIP40 is present when the router is booting or
inserted at a later time into the Cisco ASR 1000 Router and provides the error message and explanation as to
why this occurred.
Error message
The ASR1000-SIP40 card is disabled and the following error message displays at the console.
Error message: %CMRP-3-UNSUPPORTED_FRU: [chars] in slot [chars] is not supported with [chars]
and so it is disabled
fru_name: SIP40
fru_slot: 0-1
hw_config: ASR-1004 chassis
Reason
The Product ID read from the FRU IDPROM is not supported in this hardware configuration.
Recommended action
Remove the Cisco ASR1000-SIP40 from the chassis.
Incompatible Cisco High Availability Hardware Configurations
The Cisco ASR 1006 Router hardware configuration for the High Availability feature is incompatible in Cisco
IOS XE Release 3.1S when you have the following hardware configuration combinations:
• Cisco ASR100-RP1 with a Cisco ASR1000-ESP10 and a Cisco ASR1000-SIP10
• Cisco ASR100-RP2 with a Cisco ASR1000-ESP20
Upgrading Existing Hardware Components to Support the Cisco ASR 1013
Router
Beginning with Cisco IOS XE Release 3.10S, Cisco ASR 1000 Series Routers have the capability to allow
users to perform upgrades in the field on programmable hardware devices. Field programmable hardware
devices include the Complex Programmable Logic Device (CPLD) and the field programmable gate array
(FPGA).
Cisco ASR 1000 Series Router Hardware Installation Guide
33
Cisco ASR 1000 Series Routers Component Overview
Upgrading Existing Hardware Components to Support the Cisco ASR 1013 Router
Previously released Cisco ASR1000-RP2 and Cisco ASR1000-SIP10 modules are not compatible when
inserted in the Cisco ASR 1013 Router. If an incompatible component is inserted into the Cisco ASR 1013
Router, Cisco software detects the out-of-revision hardware. In order to reuse the Cisco ASR1000-RP2 and
Cisco ASR1000-SIP10 in the Cisco ASR 1013 Router, you must perform a CPLD field programmable hardware
upgrade on these modules.
For procedures on performing a Complex Programmable Logic Device (CPLD) field programmable upgrade,
see Upgrading Field Programmable Hardware Devices for Cisco ASR 1000 Series Routers .
This sections describes:
Unsupported Active ASR1000-RP2 Requires Upgrade
This section describes what happens when an active Cisco ASR1000-RP2 with an older version of CPLD is
inserted into the Cisco ASR 1013 Router. This section describes the error message, reason, and under what
types of configuration an upgrade of CPLD firmware is required.
Error message
CMRP-3-RP_CPLD_INCOMPATIBLE: All other cards in the system has been held in reset as the
Active RP [chars] in slot [chars] has CPLD firmware version that is incompatible with
[chars]"
fru_model_string: ASR1000-RP2
fru_string: R0/R1
hw_config_string: ASR1013
Reason
Active RP requires newer CPLD firmware to function properly in this chassis.
Recommended action
Upgrade the CPLD firmware on this FRU using the <b> upgrade hw-programmable CPLD file <pkg_file>
slot <fru_slot> </b> command. See http://www.cisco.com/en/US/docs/routers/asr1000/cpld/hw_fp_upgrade.html
for more details.
Configurations—When an Upgrade of CPLD Firmware Is Required
In order to use existing ASR1000-RP2 and ASR1000-SIP10 hardware components in the Cisco ASR 1013
Router, you must perform a CPLD upgrade on the RP2 and SIP10 components (with older CPLD) if the
following configurations occur:
• System powering up with both RPs with older CPLD—The system comes up in redundant mode and
the message stating that the CPLD needs upgrade (for both RPs) displays on the console with a clear
warning that the system may not work properly unless it is upgraded, and a summary of the instructions
to upgrade. A message for standby RP will appear in the standby console and the active RP.
• System powering up with one RP with older CPLD—The message will be printed for the RP with older
CPLD.
• System powering up with RP running latest CPLD and RP with older CPLD inserted—The message
will be printed for the newly inserted RP.
• System powering up with RP running older CPLD and RP with latest CPLD inserted—The message
will be printed when the system powered up before this event. When the second RP is inserted no special
action is taken.
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Cisco ASR 1000 Series Routers Component Overview
Upgrading Existing Hardware Components to Support the Cisco ASR 1013 Router
• System up with RP running older CPLD and RP with older CPLD inserted—The message will be printed
when the system powered up before this event. When the second RP is inserted, similar message for the
new card will be printed.
When To Perform a CPLD Upgrade
In order to use existing ASR1000-RP2 and ASR1000-SIP10 hardware components in the Cisco ASR 1013
Router, you must perform a CPLD upgrade on the RP2 and SIP10 components (with older CPLD) if the
following configurations occur:
• System powering up with both RPs with older CPLD—The system comes up in redundant mode and
the message stating that the CPLD needs upgrade (for both RPs) displays on the console with a clear
warning that the system may not work properly unless it is upgraded, and a summary of the instructions
to upgrade. A message for standby RP will appear in the standby console and the active RP.
• System powering up with one RP with older CPLD—The message will be printed for the RP with older
CPLD.
• System powering up with RP running latest CPLD and RP with older CPLD inserted—The message
will be printed for the newly inserted RP.
• System powering up with RP running older CPLD and RP with latest CPLD inserted—The message
will be printed when the system powered up before this event. When the second RP is inserted no special
action is taken.
• System up with RP running older CPLD and RP with older CPLD inserted—The message will be printed
when the system powered up before this event. When the second RP is inserted, similar message for the
new card will be printed.
Unsupported Standby ASR1000-RP2 or ASR1000-SIP10 Requires Upgrade
This section describes what happens when a standby Cisco ASR1000-RP2 or Cisco ASR1000-SIP10 with an
older version of CPLD is inserted into the Cisco ASR 1013 Router. The error message that is displayed on
the console and the message explanation and recommended action are described.
Error message
CMRP-2-FRU_CPLD_INCOMPATIBLE: [chars] in slot [chars] has been held in reset as its CPLD
firmware version is incompatible with [chars]
fru_model_string: ASR1000-RP2/ASR1000-SIP10
fru_string: [0-5]/R0/R1
hw_config_string: ASR1013
Reason
This FRU requires a newer CPLD firmware to function properly in this chassis.
Recommended action
Upgrade the CPLD firmware on this FRU using the upgrade hw-programmable CPLD file <pkg_file> slot
<fru_slot> command. For more details, see Upgrading Field Programmable Hardware Devices for Cisco ASR
1000 Series Routers .
Cisco ASR 1000 Series Router Hardware Installation Guide
35
Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1000 Series Route Processor
Image to Upgrade Field-Programmable Hardware Devices
Starting in Cisco IOS XE Release 3.1S, an independent image used to upgrade field programmable hardware
devices is released periodically, separate from the consolidated packages. An image is provided for the field
programmable device to customers in cases where a field upgrade is required. If the Cisco ASR 1000 Series
Router contains an earlier released version of the hardware programmable firmware on the Cisco ASR1000-RP,
Cisco ASR1000-SIP, or Cisco ASR 1000-ESP, then that hardware programmable firmware may need to be
upgraded.
Generally an upgrade is only necessary in cases where a system message indicates one of the field programmable
devices on the Cisco ASR 1000 Series Routers needs an upgrade or a Cisco technical support representative
suggests an upgrade.
For example, in Cisco IOS XE Release 3.1S, a hardware (hw)-programmable upgrade package file image that
contains a new version of the Complex Programmable Logic Device (CPLD) code is available for users who
need to update prior released Cisco ASR1000-RP2 and Cisco ASR1000-SIP10 modules in the Cisco ASR
1013 Router.
For information on performing a field programmable hardware device upgrade in the field, see Upgrading
Field Programmable Hardware Devices for Cisco ASR 1000 Series Routers .
Cisco ASR 1000 Series Route Processor
The Cisco ASR 1000 Series route processor is the central network clocking card and runs the network operating
system, BINOS kernel plus IOSD (IOS daemon). The Cisco ASR1000-RP1 and Cisco ASR1000-RP2 are
responsible for:
• Selection of the active Cisco ASR 1000 Series Route Processor and the Cisco ASR 1000 Series Embedded
Services Processor and notification of the Cisco ASR 1000 Series SPA Interface Processor of these
events.
• All the control processors communicating and performing packet processing on packets punted to it by
the Cisco ASR 1000 Series Embedded Services Processors.
The Cisco ASR 1000-RP1 and Cisco ASR1000-RP2 have LED status indicators, an RJ-45 plug for DTI and
BITS timing reference, and two USB ports which can be used with smart cards for secure key distribution.
Specific system tasks performed by the Cisco ASR 1000 Series Route Processors include the following:
• Runs the router control plane, including network control packets, and connection setup
• Supports single-bit error correction and multi-bit error detection
• User interfaces: 10/100/1000 Mbps Management Ethernet, CON/AUX, USB
• Active and standby ASR1000-RP1, ASR1000-RP2, and Cisco ASR 1000 Series Embedded Services
Processor master and standby synchronization (Tasks include switchover from failing master to standby.)
• Code storage, management, and upgrade.
• Supports on-board failure logging (OBFL) with 2 MB of memory.
• Downloading operational code for SIPs and Cisco ASR 1000 Series Embedded Services Processor over
Ethernet out of band channel (EOBC), which is used for communication between the control processors
on the Cisco ASR 1000 Series Routers
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Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1000 Series Route Processor Differences
• Command line interface (CLI), alarm, network management, logging, and statistics aggregation
• Chassis management
• Ethernet out-of-band management
• Punt path processing for packets not supported by the embedded services processors
• Provide a configuration repository along with a hard disk drive (optionally a solid-state drive) for logging
system statistics, records, events, errors, and dumps (for both the Cisco ASR 1006 Router, Cisco ASR
1004 Router and Cisco ASR 1013 Router).
• Provide the management interfaces of the platform including Dual Asynchronous Receiver/Transmitter
(DUART) that is used for the CON and AUX serial ports. The MGMT Ethernet (ENET) management
ports, CLI, status indicators, BITS interface, reset switch, Audible Cutoff (ACO) button, and USB ports
for secure keys.
• Provide chassis management (environmental)
• Are field-replaceable units (FRU) with online insertion and removal (OIR) (except for Cisco ASR 1002
router).
• Provide non-volatile storage for the system used as the image and configuration repository along with
the logger for system statistics, records, events, errors, and dumps.
• Are responsible for the chassis management including activation and initialization of the other cards,
selection or switchover of active versus standby cards, image management and distribution, logging
facilities, distribution of user configuration information, and alarm control.
• Provide control signals and Ethernet out of band channel (EOBC) for the two Cisco ASR 1000 Series
Embedded Services Processors and Cisco ASR 1000 Series Route Processors.
• Include control signals for monitoring the health of power entry modules, shutting down the power and
driving alarm relays located on the power entry modules.
• The Cisco ASR 1000 Series route processor modules can be configured with either a 40 GB or a 32 GB
disk.
Cisco ASR 1000 Series Route Processor Differences
The Cisco ASR 1000 route processors receive and transmit all network packets through the active embedded
services processors. The following table describes the differences between the Cisco ASR1000-RP1 and Cisco
ASR1000-RP2.
Table 9: Differences in the Cisco ASR 1000 Series Route Processors
Feature
Cisco ASR1000-RP1
Cisco ASR1000-RP2
CPU
Single 1.5 GHz PowerPC
Dual 2.66 GHz Intel x86
DRAM Memory
Supports 4 GB default
Supports up to 8 GB of
field-replaceable memory
Bulk Storage hard Disk
Internal 40 GB hard-disk
Front-mounted 80 GB hard-disk
(field replaceable)
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Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1000 Series Route Processor Differences
Feature
Cisco ASR1000-RP1
Cisco ASR1000-RP2
Bootflash/NVRAM
512 MB eUSB
2 GB eUSB
On the Cisco ASR 1002-F router,
scaling is constrained by
throughput of 2.5G.Unless
otherwise noted, features for the
Cisco ASR 1002-F Router are the
same as the Cisco ASR 1002
Router.
The Cisco ASR 1000 Series route processor modules consist of a front panel label for indicator and control
functions and a separate label for the I/O connectors. The Cisco ASR1000-RP1 and Cisco ASR1000-RP2
model number labeling is located next to the left card module handle. The modules also contain card handles
to assist in insertion or removal of the module.
Note
The Cisco ASR1000-RP1 and Cisco ASR1000-RP2 cannot exist in the same chassis.
The Cisco ASR1000-RP1 and Cisco ASR1000-RP2, Cisco ASR1000-ESPs, and power supplies can support
redundancy. Only one RP and one ESP are considered active at a time and no load sharing is performed.
However, the non-active RP or ESP is maintained in a warm standby state so that it can take over the active
role as quickly as possible if necessary. The following combinations of components are supported:
• Single RP—single ESP
• Single RP—dual ESP
• Dual RP—dual ESP
• Dual RP—single ESP
In a fully redundant chassis, each RP is separately connected to each FP and I/O card slot over separate
point-to-point connections of the system interconnect over the midplane. The selection of the active RP is
made separately from the selection of the active ESP.
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Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1000 Series Route Processor Differences
The following figure shows the Cisco ASR 1000 Series Route Processor faceplate.
Figure 8: Cisco ASR1000-RP Route Processor Faceplate LEDs and Connectors
1
Internal hard drive LED
4
2
External USB Flash LED 5
3
Internal USB bootflash
LED
—
USB 0, USB 1 connector
ASR1000-RP1 or
ASR1000-RP2 LEDs
—
The following figure shows the Cisco route processor with faceplate connectors.
Figure 9: Cisco ASR1000-RP Route Processor Connectors
1
CARRIER LED
4
MGMT Ethernet
connector
2
BITS connector
5
CON connector
3
LINK LED
6
AUX connector
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Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1000 Series Route Processor Differences
The following table lists the Cisco ASR 1000 Series Route Processor LEDs and behavior.
Table 10: Cisco ASR 1000 Series Route Processor LEDs
LED Label
LED
Color —State
Behavior Description
PWR
Power
Solid green
All power requirements
are within specification
—
Off
Off, the router is in
standby mode.
System status
Solid green
Cisco IOS software has
booted.
—
Yellow
ROMMON has
successfully loaded.
—
Red
System failure or during
boot process.
ACTV
Active
Green
Lit when the Cisco ASR
1000 Series RP is active.
STBY
Standby
Yellow
Lit when the Cisco ASR
1000 Series RP is the
standby processor.
CRIT
Critical
Solid Red
Critical alarm indicator or
during boot process. An
example: the ambient air
temperature is above 60ºC
and will begin shutdown
in 5 minutes.
MAJ
Major
Solid Red
Major alarm indicator.
For example: Ambient air
temperature is beyond
short term operating range
of 55ºC. System will shut
down above 60ºC.
STAT
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Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1000 Series Route Processor Differences
LED Label
LED
Color —State
Behavior Description
MIN
Minor
Amber
Minor alarm indicator.
Ambient air temperature
is beyond normal
operating range of 40ºC.
For example: if the RP
software determines that
an unknown card has
been installed or if the
card has failed, the card
can power it off or set a
minor alarm.
DISK HD
Internal hard drive LED
Flashing Green
Activity indicator.
Off
No activity.
Flashing Green
Activity indicator.
Off
No activity.
Flashing Green
Activity indicator.
Off
No activity.
Off
Out of service or not
configured.
Solid Green
In frame and working
properly.
Amber
Fault or loop condition
exists.
Off
Warmup, Free-run, or
Holdover.
Solid Green
Normal or bridging.
Amber
Fast.
Solid Green
Link with no activity.
Flashing Green
Link with Activity.
Off
No link.
DISK USB
External USB Flash
LED
DISK BF
BITS I/F Mode
CARRIER
DTI ModeCARRIER
Internal USB bootflash
LED
LED
LED
for Cisco ASR1000-RP2
LINK
10/100/1000 RJ-45
Interface LED
The following table lists the Cisco ASR 1000 Series Route Processors connectors and description.
Cisco ASR 1000 Series Router Hardware Installation Guide
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Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1000 Series Route Processor Differences
Table 11: Cisco ASR 1000 Series Route Processor Connectors
Note
Label
Type
Description
ACO
Audible Cutoff button
A recessed button to cut off the
audible alarm. This is triggered
when the critical, major, or minor
LED is set.
0
USB0 interface
Side-by-side USB connector used
with memory sticks or smart cards
for secure key distribution
1
USB1 interface
Side-by-side USB connector used
with memory sticks or smart cards
for secure key distribution
BITS
RJ-45 connector
Indicates BITS timing reference.
MGMT ETHERNET
One RJ-45 jack for copper Ethernet The route processor has an ENET
Management Port
port with a RJ-45 connector to
attach a management device or
network for network management.
CON
One RJ-45 for CON/AUX
Console port used to connect to a
terminal.
AUX
One RJ-45 for CON/AUX
Auxiliary port used for remote
management purposes.
Out of Band (OOB) or modem connection in the AUX and/or CON ports, regardless of being properly
configured, the connection is not established and a call cannot be setup. This functionality is not supported
on any of the Cisco ASR 1000 Series Aggregation Services Routers or on any of the Cisco IOS XE
versions.
The Cisco ASR 1000 Series Route Processor meets the following requirements:
• Supports up to 4 GB of memory with single-bit error correction and multi-bit error detection (except
for the Cisco ASR 1002 embedded route processor)
• Supports On-board Failure Logging (OBFL) with 2MB of memory
• Supports the Cisco ASR 1000 Series Router system architecture and midplane
• Enhanced Serdes Interconnect (ESI) at 11.5 Gbps.
• Gigibit Ethernet switches for EOBC communication and boot-up of the Cisco ASR 1000 Series SPA
Interface (SIP) and Cisco ASR 1000 Series Embedded Services Processor.
• Runs Cisco IOS network control plane (routing protocol, connections setup)
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Cisco ASR 1000 Series Routers Component Overview
Cisco Integrated ASR1000-RP1 for Cisco ASR 1002 Router
• Cisco IOS punt packet forwarding
• Active/Standby Cisco ASR 1000 Series Route Processor 1 and Cisco ASR 1000 Series Embedded
Services Processor selection
• Code storage and download operational code to Cisco ASR 1000 Series Embedded Services Processor
and Cisco ASR 1000 Series SPA Interface (SIP)
• Bulk storage: by default, it comes with a 40 GB hard disk drive (HDD).
Note
The HDD on ASR1000 products may have capacity in excess of that defined in the datasheet. However,
during manufacturing, steps may be taken to reduce the capacity visible to the IOS, so that the visible size
matches to the size specified in the datasheet.
• 2 MB upgradeable BootROM, 1 GB Embedded USB memory (eUSB)
• Comes with 2 GB of DRAM as default and can be upgradeable to 4 GB DRAM (except for the Cisco
ASR 1002 embedded route processor).
• Front panel support: Console, 10/100 Management port, two USB ports, CON port, and AUX port.The
Cisco ASR 1000 Series Routers have one Gigabit Ethernet Management Ethernet interface on each
Route Processor. The purpose of this interface is to allow users to perform management tasks on the
router; it is basically an interface that should not and often cannot forward network traffic but can
otherwise access the router, often via Telnet and SSH, and perform most management tasks on the router.
The interface is most useful before a router has begun routing, or in troubleshooting scenarios when the
SPA interfaces are inactive. The following aspects of the Management Ethernet interface should be
noted:
◦Each RP has a Management Ethernet interface, but only the active RP has an accessible Management
Ethernet interface (the standby RP can be accessed using the console port, however).
◦IPv4, IPv6, and ARP are the only routed protocols supported for the interface.
◦The interface provides a method of access to the router even if the SPA interfaces or the IOS
processes are down.
• A console port can run up to 115.2 kbps with hardware flow control. One port is used as the CONSOLE
port for secure configuration and status display. The default BAUD rate for the CONSOLE port should
be set at 9600 BAUD. Both the console and auxiliary ports are asynchronous serial ports.
Cisco Integrated ASR1000-RP1 for Cisco ASR 1002 Router
The route processor for the Cisco ASR 1002 Router is integrated in the chassis and supports all the typical
customer management interfaces such as the Ethernet network management port and console and auxiliary
serial ports of the route processor for the Cisco ASR 1006 and ASR 1004 routers. It also has LED status
indicators, an RJ-45 plug for a BITS timing reference and one USB ports which can be used with smart cards
for secure key distribution or for image or configuration file updates.
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Cisco ASR 1000 Series Routers Component Overview
Cisco Integrated ASR1000-RP1 for Cisco ASR 1002 Router
The following figure shows the Cisco ASR1000-RP1 LEDs for the Cisco ASR 1002 Router.
Figure 10: Embedded Cisco ASR1000-RP1 LEDs
The embedded route processors for the Cisco ASR 1002 Router provides connection for one SPA bay and
the circuitry for the a built-in 4xGE SPA.
The Cisco route processor for ASR 1002 Router meets the requirements of route processors for the Cisco
ASR 1006 and the Cisco ASR 1004 routers; except for the following deviations:
• No SATA hard drive supported. Bulk file storage is on a large fixed eUSB device (up to 8 GB (bytes)
supported).
• No support for redundant route processors.
• Hardware memory and storage options (such as DRAM) are not field upgradeable.
• Network clock changes. No second BITS clock input supported.
• The LED order is from top to bottom on the route processor is MIN, MAJ, CRIT.
• The Cisco ASR1000-RP2 is not supported on the Cisco ASR 1002 router or Cisco ASR 1002-F router
The following table lists the Cisco embedded ASR1000-RP1 LEDs and behaviors.
Table 12: Cisco Embedded ASR1000-RP1 LEDs in the Cisco ASR 1002 Router
LED Label
LED
Color —State
Behavior Description
PWR
Power
Solid green
All power requirements
are within specification
Off
Off, the router is in
standby mode.
Solid green
Cisco IOS has
successfully booted.
Yellow
ROMMON is running or
when the Process
Manager declares that a
critical ASR 1000 Series
RP1 process is not
running
STAT
System status
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Cisco ASR 1000 Series Routers Component Overview
Cisco Integrated ASR1000-RP1 for Cisco ASR 1002 Router
LED Label
LED
Color —State
Behavior Description
Red
System failure or
powering up.
MIN
Minor
Amber
Minor alarm indicator.
MAJ
Major
Red
Major alarm indicator.
CRIT
Critical
Red
Critical alarm indicator.
BOOT
eUSB0 FLASH(BootDisk Flashing Green
CARRIER
LINK
4 LEDs
PWR
10/100 /1000 RJ-45
Interface LED
Built-in SPA SFP port
status
Carrier card power
Activity indicator.
Off
No activity.
Off
Out of service or not
configured.
Green
In frame and working
properly.
Amber
Fault or loop condition.
Green
Link with no activity.
Flashing Green
Link with activity.
Off
No link.
Off
Port is not enabled.
Amber
Port enabled but there is
a problem with the
Ethernet link.
Green
Port enabled, valid
Ethernet link
Green
All carrier card
requirements are within
specification.
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Cisco ASR 1000 Series Routers Component Overview
Cisco Integrated ASR1000-RP1 for Cisco ASR 1002 Router
LED Label
LED
Color —State
Behavior Description
STAT
Carrier card status
Green
Only when the SPA
drivers have started and
are running and all critical
processes are running
Yellow
When ROMMON is
running and during the
download and boot of the
operating system
Red
A fault is detected or the
card is powering up.
The built-in Gigabit
Ethernet ports on the
Cisco ASR 1002 Router
support the same small
form-factor pluggable
(SFP) optical transceivers
as the 5x1 GE SPA. Note
that the Cisco ASR 1002
built-in GE ports support
only the SFP-GE-T but
not the SFP-GLC-T.
The following table lists the Cisco embedded ASR1000-RP1in the Cisco ASR 1002 Router connectors and
description.
Table 13: Cisco Embedded ASR1000-RP1 Connectors
Label
Type
Description
BITS
Standard E1/T1 RJ-45 connector
Indicates BITS timing references.
MGMT
One RJ-45 jack for copper Ethernet The route processor has an ENET
Management Ethernet Port
port with a RJ-45 connector to
attach a management device or
network for network management.
CON
One RJ-45 for CON
Console port used to connect to a
terminal.
AUX
One RJ-45 for AUX
Auxiliary port used for remote
management purposes.
xref fig shows a fully loaded Cisco ASR 1002 Router.
Cisco ASR 1000 Series Router Hardware Installation Guide
46
Cisco ASR 1000 Series Routers Component Overview
How Cisco ASR1000-RP Alarm Monitoring Works
Note
1
F0 slot
3
The eUSB panel door on
the side of the Cisco ASR
1002 Router must not be
opened. There is a Do Not
Tamper label on the panel
door. Do not remove the
label. If there is a problem
with eUSB flash card, the
chassis should be
returned.
2
R0 slot
4
Grounding stud location
Unless otherwise noted, features for the Cisco ASR 1002-F Router are the same as the Cisco ASR 1002
Router. The Cisco ASR1002-ESP-F supports 2.5 Gbps, and it is integrated in the chassis. It is not a
field-replaceable unit.
How Cisco ASR1000-RP Alarm Monitoring Works
The Cisco ASR1000-RP1 or Cisco ASR1000-RP2 faceplate displays the CRIT, MAJ, and MIN alarm indicator
LEDs. An external element can be connected to a power supply using the DB-25 alarm connector on the
power supply. The external element is a DC light bulb for a visual alarm and a bell for an audible alarm.
If an alarm illuminates the CRIT, MIN, or MAJ LED on the Cisco ASR 1000 Series Route Processor (RP)
faceplate, and a visual or audible alarm is wired, the alarm also activates an alarm relay in the power supply
DB-25 connector (on the Cisco ASR 1006 Router and Cisco ASR 1004 Router). The bell rings or the light
bulb flashes and alerts site personnel that a router alarm condition exists.
Note
Shielded cables must be used to connect to the DB-25 alarm connector on both the AC and DC power
supplies, in order to comply with the FCC/EN55022/CISPR22 Class A emissions requirements.
The alarm signals sent to this DB-25 connector are identical in function to those sent to the system LEDs on
the Cisco ASR1000-RP1 and Cisco ASR1000-RP2. Each alarm consists of three contact pins that are switched
when an alarm becomes active which causes a corresponding contact closure between the DB-25 connector
Cisco ASR 1000 Series Router Hardware Installation Guide
47
Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1000 Series Router Power Supplies
pins. As a result a critical, major, or minor alarm condition detected in the router can trigger a simultaneous
fault indication in some of the following ways:
• System alarm LEDs—The three system alarm LEDs on the Cisco ASR1000-RP1 and RP2 faceplate
constitute the standard method of alarm notification in the router. These LEDs indicate router status at
all times, but you must directly observe these LEDs to become aware of a router alarm condition See
xref table for LED descriptions.
• External alarm monitoring facility—By equipping your router with a telco-style external alarm monitoring
facility, you can provide a more physical indication of router status. A visual alarm, however, can be
reset only by resolving the problem that caused the alarm condition.
An external audible alarm can be reset by clearing the condition that caused the alarm or by pressing the
Audible Cutoff (ACO) button on the Cisco ASR1000-RP1 and RP2. An audible alarm can be sounded to
immediately alert you of an alarm condition in the router. An audible alarm generated by the system continues
to sound until you either clear the alarm condition itself or press the ACO button to silence the alarm. Pressing
this button does not resolve the alarm condition.
• To clear an audible alarm, do one of the following:
◦Press the Audible Cut Off button on the route processor faceplate (see xref fig)
◦Enter the clear facility-alarm command.
• To clear a visual alarm, you must resolve the alarm condition. The clear facility-alarm command does
not clear an alarm LED on the RP faceplate or turn off the DC light bulb. For example, if a critical alarm
LED is illuminated because an active SPA was removed without a graceful deactivation of the SPA, the
only way to resolve that alarm is to replace the SPA.
Note
For alarm relay pinouts, see xref table for Cisco ASR 1006 router and xref table for Cisco ASR 1004
router.
Cisco ASR 1000 Series Router Power Supplies
All Cisco ASR 1000 Series Router configurations support AC and DC power supply options. The modular
chassis configurations support the installation of two power supplies for redundancy. When an external power
supply fails or is removed, the other power supply provides power requirements for the chassis.
You are required to always have two power supplies installed in the chassis to insure sufficient cooling for
the box. The system fans are inside the power supply unit and must spin for cooling. No Cisco ASR 1000
Series Router will operate for more than two to three minutes without two power supplies installed. Since all
the system fans can be powered by one power supply, it is not required for the second power supply unit to
be powered on, but it must be installed. Cisco IOS software specifically looks for two power supplies in the
chassis and will automatically initiate a shutdown if only one power supply is detected.
This section contains the following topics:
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48
Cisco ASR 1000 Series Routers Component Overview
Power Supply Requirements for All Cisco ASR 1000 Series Routers
Power Supply Requirements for All Cisco ASR 1000 Series Routers
This section contains power supply specifications for all Cisco ASR 1000 Series Routers. The following topics
are covered:
• DC power supply input ratings and circuit breaker specifications
◦Maximum and minimum Amps for the branch circuit breakers
◦Maximum and minimum size of the AWG wire required for each circuit breaker.
• AC and DC power supply types
• AC and DC power supply ratings
DC Power System Input Requirements for Cisco ASR 1000 Series Routers
The DC power supply for the Cisco ASR 1006, Cisco ASR 1004, Cisco ASR 100, Cisco ASR 1013, and Cisco
ASR 1001 routers operate at individual specifications.
The following table shows the common input ranges and circuit breaker requirements.
Table 14: Cisco ASR 1000 Series Router DC Power Supply System Input Requirements
Cisco ASR 1000 System Input
Series Router
Rating (Amps)
DC Power
Supply
Circuit Breaker AWG # Wire
Amps
Minimum
Maximum
Minimum
Maximum
Cisco ASR 1006 40
Always 50
Always AWG
#6 wire
Cisco ASR 1004 24
30
40
10
8
Cisco ASR
1002:
16
20
30
12
10
32
40
40
8
8
Cisco ASR 1013 40
Always 50
Always AWG
#6 wire
Cisco ASR 1001 14
20
30
10
10
• –48 VDC
• +24 VDC
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49
Cisco ASR 1000 Series Routers Component Overview
AC and DC Power Supply Types
Cisco ASR 1000 System Input
Series Router
Rating (Amps)
DC Power
Supply
Cisco ASR
1002-X:
• –48 VDC
Circuit Breaker AWG # Wire
Amps
16
20
30
12
10
32
40
40
8
8
• +24 VDC
For example, the
Cisco ASR 1002
Router DC
power supply,
with 16 Amp
input rating
must use an
AWG #12 gauge
wire for a 20 A
circuit breaker
and an AWG
#10 gauge wire
for a 30 A
circuit breaker.
Note
All Cisco ASR 1000 Series Router AC power supplies must be connected to a branch circuit that does
not exceed 20 A.
AC and DC Power Supply Types
The AC and DC power supplies for the Cisco ASR 1000 Series Routers support different types of power
supply switches. The following table defines which power supplies the Cisco ASR 1000 Series routers support
(a standby or an On/Off switch).
Table 15: Cisco ASR 1000 Series Routers AC and DC Power Supply Switches
Switch Type Supported
Symbol
Cisco ASR 1000 Series Router
Power Supply
On/Off circuit
I/O
ASR 1006 –48 VDC
ASR 1004 –48 VDC
ASR 1002 AC
ASR 1002-X AC
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Cisco ASR 1000 Series Routers Component Overview
AC and DC System Power Ratings
Switch Type Supported
Symbol
Cisco ASR 1000 Series Router
Power Supply
Standby switch
A broken circle with a vertical line ASR 1006 AC
through the top of it
ASR 1004 AC
ASR 1002 –48 VDC
ASR 1002 +24 VDC
ASR 1013 AC and DC
ASR 1001 AC and DC
ASR 1002-X –48 VDC
ASR 1002-X +24 VDC
AC and DC System Power Ratings
The following table lists AC and DC power supply system rating requirements for all Cisco ASR 1000 Series
Routers.
Table 16: AC and DC Power Supply System Rating Specifications for the Cisco ASR 1000 Series Routers
Description
Specification
Power supply declared ratings
AC = 100-240 VAC
DC = –48/ –60 VDC
+24 VDC = +21 / +36 VDC
Nominal line frequency rating
50/60 Hz for AC power supplies
Power Supplies for the Cisco ASR 1006 Router
Note
The information in this section applies to the ASR1006-PWR-DC and ASR1006-PWR-AC power supplies.
The Cisco ASR 1006 Router also supports the ASR1013/06-PWR-DC and ASR1013/06-PWR-AC power
supplies, which are described in the Power Supplies for the Cisco ASR 1013 Router, on page 76.
The Cisco ASR 1006 Router can support up to 1200 W output (AC and –48 VDC input). The 1200 W power
supply module consists of either an AC or –48 VDC input and 1200 watt output closed frame power supply
with two DC voltage outputs: 12 V and 3.3 V.
Each power supply module contains three internal fan modules and provides the forced air cooling for the
chassis. These power supply modules contain a monitor circuit to determine the status of fan speed and
operation along with LED status indicating fan errors.
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51
Cisco ASR 1000 Series Routers Component Overview
AC Power Supply LEDs and Connector for Cisco ASR 1006
The system temperature operation is 0 to 40C normal and –5C to +55C.
• AC System—AC power input is an IEC 320-type power inlet, 20A service connector. The AC input
side contains a front panel with provisions for mounting screw, built in handle to extract the power
supply, three status LEDs, and fans for power supply and system cooling.
• –48 VDC System—Two-position terminal block-style connector, with labeled connections for - (–48/60
V input) and + (–48/60 V Return). The –48 VDC input side contains a front panel with provisions for
mounting screw, built in handle to extract the power supply, three status LEDs, and fans for power
supply and system cooling.
See xref Appendix A, “Cisco ASR 1000 Series Router Specifications for detailed power supply specifications.
Warning
This product relies on the building’s installation for short-circuit (overcurrent) protection. Ensure that the
protective device is rated not greater than: AC power supplies for the Cisco Aggregation Services Routers:
120 VAC, 20A U.S. maximum. DC power supplies for the Cisco ASR 1006 Router: 50A U.S. maximum;
Cisco ASR 1004 Router: 40A U.S. maximum: Cisco ASR 1002 Router: 30A U.S. maximum. Statement
1005
AC Power Supply LEDs and Connector for Cisco ASR 1006
Note
The information in this section applies to the ASR1006-PWR-AC power supply. If you are using the
ASR1013/06-PWR-AC power supply, see the xref
c_AC_Power_Supply_LEDs_and_Connector_for_Cisco_ASR_1013_1206731.xml.
The power supply module contains three fans. A total of six fans are used to cool the ASR 1006 system and
power supply. The airflow direction is front to back.
Power supply modules with internal fan modules install into the rear of the chassis. These modules contain
integral handles to ease installation and removal (no insertion or extraction levers are provided). A single
blind mate connector located on the inlet side of these modules mates with a connector mounted on back side
of the midplane.
Guide pins located at the rear of these modules help center locate the modules and reduce stress to the midplane
and module mounted connectors. Four captive screws (tool operated latches) are provided on the modules
face plate (chassis rear) to secure these modules into the chassis.
xref fig shows the ASR1006-PWR-AC power supply of the Cisco ASR 1006 Router. The Cisco ASR 1006
Router supports up to two power supplies. The power supply LEDs and connectors on the rear of the chassis
are described in xref table.
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52
Cisco ASR 1000 Series Routers Component Overview
AC Power Supply LEDs and Connector for Cisco ASR 1006
1
AC power supply fan
5
AC power supply handle
2
DB-25 alarm connector
6
AC power inlet
3
Tie-wrap tab
7
AC power supply standby
switch
4
AC power supply captive 8
screw
AC power supply LEDs
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Cisco ASR 1000 Series Routers Component Overview
AC Power Supply LEDs and Connector for Cisco ASR 1006
The following figure shows the AC power supply LEDs and DB-25 alarm connector.
Figure 11: Cisco ASR 1006 Router AC Power Supply LEDs and DB-25 Alarm Connector
1
AC power supply LEDs
3
DB-25 alarm connector
2
AC power supply fan
4
AC power supply fan
The following table describes the AC power supply LEDs on the Cisco ASR 1006 Router.
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54
Cisco ASR 1000 Series Routers Component Overview
AC Power Supply LEDs and Connector for Cisco ASR 1006
Table 17: Cisco ASR 1006 Router AC Power Supply LEDs
LED Label
LED
Color
Description
INPUT OK
Power supply activity
Green
LED illuminates green to
signal that the AC power
supply input voltage is
greater than 85 V.
None
If LED is not illuminated,
then the AC input voltage
is less than 70 V or the
power supply is turned
off. For an AC input
voltage between 70 V and
85V, the INPUT OK LED
can be either on, off, or
flashing
Green
LED illuminates green
when all fans are
operational.
Red
The LED illuminates red
when a fan failure is
detected.
Red
LED is red and turned off
to signal that the -48 VDC
output voltages are within
the normal operating
range; output voltage
between the minimum
and maximum limits will
not create an output fail
alarm, and output
voltages below the
minimum or above the
maximum will create an
output fail alarm.
FAN OK
OUTPUT FAIL
Bi-color LED indicates
fan status
Power supply activity
When you turn the power
supply on, the red LED is
illuminated for two to
three seconds for testing
LED operation before
going off.
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55
Cisco ASR 1000 Series Routers Component Overview
–48 VDC Power Supply LEDs and Connectors for Cisco ASR 1006
–48 VDC Power Supply LEDs and Connectors for Cisco ASR 1006
Note
The information in this section applies to the ASR1006-PWR-DC power supply. If you are using the
ASR1013/06-PWR-DC power supply, see the xref
c_–48_VDC_Power_Supply_LEDs_and_Connectors_for_Cisco_ASR_1013_1206865.xml.
The maximum branch circuit for the –48 VDC power supply module is 60 A and the minimum is 50 A. The
–48 VDC power supply operates within specification from –48 VDC to –60 VDC continuously. The Cisco
ASR 1006 Router has two of the same type power supplies in power supply slot 0 and power supply slot 1.
The power supply slot numbers are on the left side of the chassis and the power supplies are located on the
floor of the chassis.
The –48 VDC input connector is a terminal block style that supports a AWG #6 wire. The terminal block is
compliant with safety agencies’ guidelines and electrical requirements of the supply. Use the tie wraps to dress
the input cable wires. There are three tie wrap tabs on the power supply.
The terminal block accepts two double-hole lugs, one for –48 V input and another for –48 V RTN. A plastic
cover fits over the terminal block to prevent accidental contact. See xref figure.
Note
The studs on the terminal block are similar to the safety ground device on the side of the Cisco ASR 1006
Router. For information on the safety ground lug on the side of the chassis.
The unit requires a power switch circuit breaker to serve as the main disconnect for the –48 VDC input to the
power supply. The circuit breaker meets international safety requirements and supports 80 VDC and has a
current rating of 50 A. The power supply unit is secured into the system chassis with four captive screws
mounted on the faceplate.
The following figure shows the –48 VDC power supplies at the rear of the Cisco ASR 1006 Router. The Cisco
ASR 1006 Router supports up to two power supplies.
Figure 12: Cisco ASR 1006 Router –48 VDC Power Supply
1
Fans
Cisco ASR 1000 Series Router Hardware Installation Guide
56
6
Ground lugs
Cisco ASR 1000 Series Routers Component Overview
–48 VDC Power Supply LEDs and Connectors for Cisco ASR 1006
2
DB-25 alarm connector
7
Captive screws
3
Tie-wrap tabs
8
Power supply handle
4
Terminal and plastic
cover
9
Power supply On (|) /Off
(O) switch
5
Grounding symbol
10
Power supply LEDs
The following table describes the power supply LEDs and connectors on the rear of the chassis.
Table 18: Cisco ASR 1006 Router –48 VDC Power Supply LEDs
LED Label
LED
Color
INPUT OK
A bi-color LED indicates Green
presence of input voltage
Amber
FAN OK
A bi-color LED indicates Green
power supply fan status
Red
Description
LED illuminates green to
signal that the –48 VDC
power supply input
voltage is greater
than–43.5VDC at turn-on
and remains green down
to –39VDC.
The LED illuminates
amber when the input
voltage (falls below
–39VDC) and indicates
that there is still a voltage
present (voltage on the
terminal block). The LED
remains amber and is
active to around 20 V
+/-5 V. The LED is not
illuminated if the input is
below –15 V.
The LED illuminates s
green when all fans are
operational.
The LED illuminates red
when a fan failure is
detected.
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Cisco ASR 1000 Series Routers Component Overview
AC/DC Power System Output for Cisco ASR 1006
LED Label
LED
Color
Description
OUTPUT FAIL
Power supply activity
Red
When the LED is off, it
signals that the –48 VDC
output voltage are within
the normal operating
range. Output voltage
between the minimum
and maximum limits will
not create an output fail
alarm, and output
voltages below the
minimum or above the
maximum will create an
Output Fail alarm.
When you turn the power
supply on, the red LED
illuminates for two to
three seconds to test LED
operation before going
off.
AC/DC Power System Output for Cisco ASR 1006
The power supply output tolerance is defined in the following table under all combinations of line variation.
Total system consumption per power supply should not exceed 1200 W.
Table 19: Cisco ASR 1006 Router Power System Output Voltage and Current
Output Voltage
+12 VDC
+3.3 V
Minimum
11.80 VDC
3.20 VDC
Nominal
12.00 VDC
3.30 VDC
Maximum
12.20 VDC
3.40 VDC
Minimum
2.80 A
0.10 A
Maximum
101.7 A
3.125 A
Output Current
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Cisco ASR 1000 Series Routers Component Overview
Power Supplies for the Cisco ASR 1004 Router
Power Supplies for the Cisco ASR 1004 Router
The Cisco ASR 1004 Router can support up to 735 W output (AC and –48 VDC input). The 735 W power
supply module consists of either an AC or –48 VDC input with two DC voltage outputs: 12 V and 3.3 V.
Each power supply module contains three internal fan modules and provides the forced air cooling for the
chassis. These power supply modules contain a monitor circuit to determine the status of fan speed and
operation along with LED status indicating fan errors.
The system temperature operation is 0 to 40C and –5C to +55C.
• AC System—AC power input is an IEC 320-type power inlet, 15A service connector. The AC input
side contains a front panel with provisions for mounting screw, built in handle to remove the power
supply, three status LEDs, and fans for power supply and system cooling.
• DC System—Three-position terminal block-style connector, with labeled connections for - (–48/60 V
input) and + (–48/60 V Return) and GND (ground symbol). The –48 VDC input side contains a front
panel with provisions for mounting screw, built in handle to extract the power supply, three status LEDs,
and fans for power supply and system cooling.
See xref Appendix A, “Cisco ASR 1000 Series Router Specifications” for detailed power supply specifications.
Warning
This product relies on the building’s installation for short-circuit (overcurrent) protection. Ensure that the
protective device is rated not greater than: AC power supplies for the Cisco Aggregation Services Routers:
120 VAC, 20A U.S. maximum. DC power supplies for the Cisco ASR 1006 Router: 50A U.S. maximum;
Cisco ASR 1004 Router: 40A U.S. maximum: Cisco ASR 1002 Router: 30A U.S. maximum. Statement
1005
Cisco ASR 1004 AC Power Supply
This section provides information about the AC power supplies on the rear of the Cisco ASR 1004 Router.
The power supply module contains three fans. A total of six fans are used to cool the ASR 1004 system and
power supply. The airflow direction is front to back.
Power supply modules with internal fan modules install into the rear of the chassis. These modules contain
handles to ease installation and removal. The AC power supply has a front panel mounted switch that powers
on and off the power supply. This switch will not disconnect the AC line, but will act only as a standby switch
to the power supply. The front panel includes a mechanical guard to prevent the standby switch from being
tripped due to accidental contact.
Guide pins located at the rear of these modules help center locate the modules and reduce stress to the midplane
and module mounted connectors. Four captive screws (tool operated latches) are provided on the modules
face plate (chassis rear) to secure these modules into the chassis.
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59
Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1004 AC Power Supply LEDs and Connector
Cisco ASR 1004 AC Power Supply LEDs and Connector
The following figure shows the AC power supplies at the rear of the Cisco ASR 1004 Router.The Cisco ASR
1004 Router supports up to two power supplies.
Figure 13: Cisco ASR 1004 Router AC Power Supply
1
AC power supply standby 4
switch (standby symbol
is a broken circle with a
vertical line through the
top of it)
AC power supply fan
2
AC power supply LEDs
5
AC power inlet
3
DB-25 alarm connector
6
AC power supply handle
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Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1004 AC Power Supply LEDs and Connector
The following figure shows the AC power supply LEDs and DB -25 alarm connector.
Figure 14: Cisco ASR 1004 Router AC Power Supply LEDs and DB -25 Alarm Connector
1
AC power supply LEDs
3
DB-25 alarm connector
2
Power supply fan
4
AC power supply fan
The following table describes the power supply LEDs and connectors on the rear of the chassis.
Table 20: Cisco ASR 1004 Router AC Power Supply LEDs and Connector
LED Label
LED
Color
Description
INPUT OK
Power supply activity
Green
LED illuminates green to signal
that the AC power supply input
voltage is greater than 85 V.
None
If LED is not illuminated, then
the AC input voltage is less than
70 V or the power supply is
turned off. For an AC input
voltage between 70 V and 85V,
the INPUT OK LED can be
either on, off, or flashing
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61
Cisco ASR 1000 Series Routers Component Overview
Cisco ASR Router 1004 –48 VDC Power Supply
LED Label
LED
Color
Description
FAN OK
Bi-color LED indicates fan
status
Green
LED illuminates green when all
fans are operational.
Red
The LED illuminates red when
a fan failure is detected.
Red
LED is red and turned off to
signal that the –48 VDC output
voltages are within the normal
operating range; output voltage
between the minimum and
maximum limits will not create
an output fail alarm, and output
voltages below the minimum or
above the maximum will create
an output fail alarm.
OUTPUT FAIL
Power supply activity
When you turn the power
supply on, the red LED is
illuminated for two to three
seconds for testing LED
operation before going off.
Cisco ASR Router 1004 –48 VDC Power Supply
This section provides information about the –48 VDC power supplies on the rear of the Cisco ASR 1004
Router. For the maximum branch circuit for the –48 VDC power supply module, see xref table.
The –48 VDC power supply operates within specification from –48 VDC to –60 VDC continuously. The
Cisco ASR 1004 Router has two of the same type power supplies in power supply slot 0 and power supply
slot 1. The power supply slot numbers are on the left side of the chassis and the power supplies are located
on the floor of the chassis.
The –48 VDC power supply input connector is a terminal block style that will allow crimp type lugs accepting
up to AWG #8 wire. The terminal block is compliant with safety agencies’ guidelines and electrical requirements
of the supply. The terminal block accepts two-hole lugs (#10 stud) for all connections with center to center
spacing of 0.625 inches. A plastic cover goes over the terminal block to prevent accidental contact. The
connection order is negative (–), positive (+), and GND.
The unit requires a power switch circuit breaker to serve as the main disconnect for the –48 VDC input to the
power supply (xref table see for current rating requirements.) The power supply unit is secured into the system
chassis with four captive screws mounted on the faceplate.
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62
Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1004 Router –48 VDC Power Supply LEDs and Connector
Cisco ASR 1004 Router –48 VDC Power Supply LEDs and Connector
The following figure shows the –48 VDC power supplies at the rear of the Cisco ASR 1004 Router. The Cisco
ASR 1004 Router supports up to two power supplies.
Figure 15: Cisco ASR 1004 Router –48 VDC Power Supply
1
Terminal and plastic
cover
5
Grounding symbol
2
Power supply LEDs
6
Power supply On (|) /Off
(O) switch
3
DB-25 alarm connector
7
Power supply handle
—
—
Power supply ground lugs
(+ and –)
4
Power supply fan
The following table describes the power supply LEDs and connectors on the rear of the chassis.
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63
Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1004 Router –48 VDC Power Supply LEDs and Connector
Table 21: Cisco ASR 1004 Router –48 VDC Power Supply LEDs
LED Label
LED
Color
INPUT OK
A bi-color LED indicates Green
presence of input voltage
Amber
FAN OK
A bi-color LED indicates Green
power supply fan status
Red
Cisco ASR 1000 Series Router Hardware Installation Guide
64
Description
LED illuminates green to
signal that the –48 VDC
power supply input
voltage is greater
than–43.5VDC at turn-on
and remains green down
to –39VDC.
The LED illuminates
amber when the input
voltage (falls below
–39VDC) and indicates
that there is still a voltage
present (voltage on the
terminal block). The LED
remains amber and is
active to around 20 V
+/-5 V. The LED is not
illuminated if the input is
below –15 V.
The LED illuminates s
green when all fans are
operational.
The LED illuminates red
when a fan failure is
detected.
Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1004 Router –48 VDC Power Supply LEDs and Connector
LED Label
LED
Color
Description
OUTPUT FAIL
Power supply activity
Red
When the LED is off, it
signals that the –48 VDC
output voltage are within
the normal operating
range. Output voltage
between the minimum
and maximum limits will
not create an output fail
alarm, and output
voltages below the
minimum or above the
maximum will create an
Output Fail alarm.
When you turn the power
supply on, the red LED
illuminates for two to
three seconds to test LED
operation before going
off.
DC Power System Input for Cisco ASR 1004
The –48 VDC power supply operates within specification from –40.5VDC to –72VDC continuously once the
power supply –48 VDC input turn on threshold of –43.5 V has been reached. The following table shows the
common input ranges for reference only.
Table 22: Cisco ASR 1004 Router –48 VDC Power System Input
Voltage Range (VDC)
Minimum
Nominal
Maximum
Domestic
–40.5
–48
–56
International
–55
–60
–72
AC/DC Power System Output for Cisco ASR 1004
The power supply output tolerance is defined in the following table under all combinations of line variation.
Total system consumption per power supply should not exceed 735 W.
Table 23: Cisco ASR 1004 Router Power System Output Voltage and Current
Output Voltage
+12 VDC
+3.3 V
Minimum
11.80 VDC
3.20 VDC
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65
Cisco ASR 1000 Series Routers Component Overview
Power Supplies for the Cisco ASR 1002 Router
Output Voltage
+12 VDC
+3.3 V
Nominal
12.00 VDC
3.30 VDC
Maximum
12.20 VDC
3.40 VDC
Minimum
2.80 A
0.10 A
Maximum
61.44A
3.125 A
Output Current
Power Supplies for the Cisco ASR 1002 Router
Note
Unless otherwise noted, the Cisco ASR 1002-F Router and the Cisco ASR 1002-X Router supports all
the general-purpose routing and security features of the Cisco ASR 1002 Router and uses the same internal
control and data-plane architecture as Cisco ASR 1002 Router. The Cisco 24 V power supply is currently
supported only on the Cisco ASR 1002 Router and the Cisco ASR 1002-X Router but not on the Cisco
ASR 1002-F Router.
The Cisco ASR 1002 Router supports an AC or –48 VDC power supply and a +24 VDC power supply:
Cisco ASR 1002 Router Power Supply Fans
Cisco ASR 1002 Router system level cooling is provided by two 12 VDC type fans in each power supply
module. The fans in each module provide system cooling back-up in the event of a single fan failure. In
addition, the fans in each of the power supplies can be powered from a single supply when only one unit is
operational. The airflow direction is front to back.
Warning
This product relies on the building’s installation for short-circuit (overcurrent) protection. Ensure that the
protective device is rated not greater than: AC power supplies for the Cisco Aggregation Services Routers:
120 VAC, 20A U.S. maximum. DC power supplies for the Cisco ASR 1006 Router: 50A U.S. maximum;
Cisco ASR 1004 Router: 40A U.S. maximum: Cisco ASR 1002 Router: 30A U.S. maximum. Statement
1005
Cisco ASR 1002 Router AC Power Supply
This section provides information about the AC power supplies on the rear of the Cisco ASR 1002 Router.
The Cisco ASR 1002 Router system level cooling is provided by two 12 VDC type fans in each of the two
power supply modules. The fans in each module are intended to provide system cooling back-up in the event
of a single fan failure. In addition, the fans in each of the power supplies can be powered from a single supply
when only one unit is operational. The airflow direction is front to back. The power supplies plug directly
into the Cisco ASR1000-RP1 and distributes power back to the midplane.
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66
Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1002 Router AC Power Supply
Guide pins located at the rear of these modules help center locate the modules and reduce stress to the midplane
and module mounted connectors. Two captive screws (tool operated latches) are provided on the modules
face plate (chassis rear) to secure these modules into the chassis.
Cisco ASR 1002 AC Power Supply LEDs and Connector
The following figure shows the AC power supplies at the rear of the Cisco ASR 1002 Router. The Cisco ASR
1002 Router supports up to two power supplies.
Figure 16: Cisco ASR 1002 Router AC Power Supply
1
Chassis ESD socket
5
AC power supply fan
2
AC power supply slot
number 0
6
AC power supply captive
installation screw
3
AC power supply On (|)
/Off (O) switch
7
AC power supply slot
number 1
4
AC power supply LEDs
8
AC power inlet
The following table describes the power supply LEDs and connectors on the rear of the chassis.
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67
Cisco ASR 1000 Series Routers Component Overview
Cisco ASR 1002 Router –48 VDC Power Supply
Table 24: Cisco ASR 1002 Router Power Supply LEDs
LED Label
LED
Color
Description
INPUT OK
Power supply activity
Green
The AC input voltage is greater
than 85V.
None
If the LED is not illuminated,
then either the input voltage is
less than 70V, or the power
supply is turned off.
If the AC input voltage is
between 70V and 85V, the
INPUT OK LED can be on, off,
or flashing.
FAN OK
OUTPUT FAIL
Power supply fan activity
Green
All fans are operational.
A bi-color LED indicates fan
status.
Red
A fan failure is detected.
Power supply activity
Red
If the INPUT OK LED is
illuminated, this LED is red if
the DC output voltages are
below the minimum limit or
above the maximum limit.
If the INPUT OK LED is not
illuminated, this LED might be
off or red.
AC Power System Output Voltage Alarm Range for Cisco ASR 1002 Router
The AC power supply output voltage alarm occurs when the output voltage is below the low end of the
minimum or above the high end of the maximum limits shown in the following table.
Table 25: Cisco ASR 1002 Router AC Power Supply Output Voltage Alarm Range
Power Supply Type
Minimum
Maximum
12 V
10.0 to 11.2V
12.8 to 13.8 V
3.3 V
2.6 to 3.0 V
None
Cisco ASR 1002 Router –48 VDC Power Supply
This section provides information about the –48 VDC power supplies on the rear of the Cisco ASR 1002
Router. The recommended branch circuit breaker for the Cisco ASR 1002 Router –48 VDC power supply is
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Cisco ASR 1002 Router –48 VDC Power Supply
30 A. Use an AWG #10 maximum wire gauge on the 30 A circuit. The maximum branch circuit for the –48
VDC power supply module must not exceed 30 A.
The Cisco ASR 1002 Router has two of the same type power supplies in power supply slot 0 and power supply
slot 1. The power supply slot numbers are on the left side of the chassis and the power supplies are located
on the floor of the chassis. The power supply switch is a standby switch and is not considered a disconnect.
The –48 VDC input connector is a Euro-style terminal block. The largest size gauge of wire that the front
panel euro-terminal block can accept is AWG #10 wire. The terminal block is compliant with safety agencies’
guidelines and electrical requirements of the supply. Use the tie wraps to dress the input cable wires; there
are two tie wrap tabs on the –48 VDC power supply.
The –48 VDC power supply unit is secured into the system chassis with two captive screws mounted on the
faceplate.
Cisco ASR 1002 Router –48 VDC Power Supply LEDs and Connector
The following figure shows the –48 VDC power supplies at the rear of the Cisco ASR 1002 Router. The Cisco
ASR 1002 Router supports up to two power supplies.
Figure 17: Cisco ASR 1002 Router –48 VDC Power Supply
1
Chassis ESD socket
6
Power supply captive
installation screw
2
Power supply slot 0 label 7
Power supply slot 1 label
3
Power supply switch
standby/On (|)
8
Ground lead
4
Power supply LEDs
9
Positive lead
5
Fan
10
Negative lead
The following table describes the power supply LEDs and connectors on the rear of the chassis.
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Cisco ASR 1002 Router –48 VDC Power Supply
Table 26: Cisco ASR 1002 Router –48 VDC Power Supply LEDs
LED Label
LED
Color
Description
INPUT OK
A bi-color LED indicates
presence of input voltage
Green
LED illuminates green to signal
that the –48 VDC power supply
input voltage is greater
than–43.5VDC at turn-on and
remains green down to
–39VDC.
Amber
The LED illuminates amber
when the input voltage (falls
below –39VDC) and indicates
that there is still a voltage
present (voltage on the terminal
block). The LED remains amber
and is active to around 20 V
+/-5 V. The LED is not
illuminated if the input is below
–15 V.
FAN OK
A bi-color LED indicates power Green
supply fan status
OUTPUT FAIL
Power supply activity
The LED illuminates s green
when all fans are operational.
Red
The LED illuminates red when
a fan failure is detected.
Red
When the LED is off, it signals
that the –48 VDC output
voltage are within the normal
operating range. Output voltage
between the minimum and
maximum limits will not create
an output fail alarm, and output
voltages below the minimum or
above the maximum will create
an Output Fail alarm.
When you turn the power
supply on, the red LED
illuminates for two to three
seconds to test LED operation
before going off.
–48 VDC Power System Input for Cisco ASR 1002 Router
The –48 VDC power supply operates within specification from –40.5VDC to –72VDC continuously once the
power supply –48 VDC input turn on threshold of –43.5 V has been reached. The following table shows the
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Cisco ASR 1002 Router +24 VDC Power Supply
common input ranges for reference only. The –48 VDC power input connector is a Euro-style terminal block
that accepts three wires, one positive, one negative, and one grounding wire.
Table 27: Cisco ASR 1002 Router –48 VDC Power System Input
Voltage Range (VDC)
Minimum
Nominal
Maximum
Domestic
–40.5
–48
–56
International
–55
–60
–72
–48 VDC Power System Output for Cisco ASR 1002 Router
The –48 VDC power supply output tolerance is defined in the following table under all combinations of –48
VDC input line variation. Total system power consumption should not exceed 470 watts or output rating of
each power supply.
Note
Two power supplies are used for redundant operation. System total power consumption shall never exceed
rating of one power supply to maintain redundancy.
Table 28: Cisco ASR 1002 Router –48 VDC Power System Output Voltage and Current
Output Voltage
+12 VDC
+3.3 V
Minimum
–11.80 VDC
–3.20 VDC
Nominal
–12.00 VDC
–3.30 VDC
Maximum
–12.20 VDC
–3.40 VDC
Minimum
–2.0 A
–0.10 A
Maximum
–39 A
–3.125 A
Output Current
Cisco ASR 1002 Router +24 VDC Power Supply
This section provides information about the +24 VDC power supplies on the rear of the Cisco ASR 1002
Router. The recommended branch circuit breaker for the Cisco ASR 1002 Router +24 VDC power supply is
a 40 A UL listed circuit breaker.
The Cisco ASR 1002 Router has two of the same type power supplies in power supply slot 0 and power supply
slot 1. The power supply slot identifiers are zero (0) on the left side of the chassis rear and one (1) on the right
side of the chassis rear. The power supply switch is a standby switch and is not considered a disconnect.
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Cisco ASR 1002 Router +24 VDC Power Supply
The +24 VDC power supply uses a spring-loaded terminal block. The input terminal block requires maximum
8AWG multi-strand wiring to support input current. The terminal block is compliant with safety agencies’
guidelines and electrical requirements of the supply. Use the tie wraps to dress the input cable wires; there
are two tie wrap tabs on the +24 VDC power supply. The +24 VDC power supply unit is secured into the
system chassis with two captive screws mounted on the faceplate.
Cisco ASR 1002 Router +24 VDC Power Supply LEDs and Connector
The following figure shows the +24 VDC power supplies at the rear of the Cisco ASR 1002 Router. The Cisco
ASR 1002 Router supports two +24 VDC power supplies.
Figure 18: Cisco ASR 1002 Router Rear View With +24 VDC Power Supply
1
+24 VDC terminal block 6
Standby/On switch
2
Positive (+) lead
7
Captive fastener
3
Negative (-) lead
8
Power supply tabs
4
Ground (GND) lead
9
+27 VDC INPUT label
5
Power supply LEDs
—
—
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Cisco ASR 1002 Router +24 VDC Power Supply
Note
The +24 VDC power supply product is labeled at +27 VDC input because the typical battery float voltage
is +27V; but generically, these power systems can be labeled +24 V and referred to as +24 VDC (see the
following figure for more information).
Figure 19: Cisco ASR 1002 Router Rear View With +24 VDC Power Supply Terminal Block
1
Positive (+) lead
6
GROUND (GND) LEAD
2
Negative (-) lead
7
+27VDC label
The following table describes the power supply LEDs and connectors on the rear of the chassis.
Table 29: Cisco ASR 1002 Router +24 VDC Power Supply LEDs
LED Label
LED
Color
Description
OUTPUT FAIL
Power supply activity
Red
When the LED is off, it signals
that the +24 VDC output
voltage are within the normal
operating range. Output voltage
between the minimum and
maximum limits will not create
an output fail alarm, and output
voltages below the minimum or
above the maximum will create
an Output Fail alarm.
When you turn the power
supply on, the red LED
illuminates for two to three
seconds to test LED operation
before going off.
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Cisco ASR 1002 Router +24 VDC Power Supply
LED Label
LED
Color
Description
INPUT OK
A bi-color LED indicates
presence of input voltage
Green
LED illuminates green to signal
that voltage is > or = to 20VDC
at turn-on and down to
19.0VDC (+/- 0.5 V tolerance).
Amber
The LED illuminates amber
when the input voltage is active
down to 16.0VDC and indicates
that there is still a voltage
present (voltage on the terminal
block). The LED remains amber
and is active to around 10 V.
The LED can be OFF below
15.8VDC.
FAN OK
A bi-color LED indicates power Green
supply fan status
The LED illuminates s green
when all fans are operational.
Red
The LED illuminates red when
a fan failure is detected.
+24 VDC Power System Input for Cisco ASR 1002 Router
The +24 VDC power supply operates within specification between +21 and +36 VDC continuously once the
power supply DC input is turned on. The power supply shall measure the input voltage at the terminals of the
power supply and turn off the supply when the input voltage reaches 19.0 volts +/- 0.5 volts. Once this low
voltage threshold is reached, the power supply does not resume operation until the input voltage has reached
20.0 volts +/- 0.5 volts. Once the turn-on threshold of 20 volts is reached, then the +24 VDC power supply
meets all specification requirements down to low voltage threshold of 19 volts (+/- tolerance).
+24 VDC Power System Output for Cisco ASR 1002 Router
The +24 VDC power supply output tolerance is defined in the following table under all combinations of +24
VDC input line variation. Total system power consumption should not exceed 470 watts or output rating of
each power supply.
Note
Two power supplies are used for redundant operation. System total power consumption shall never exceed
rating of one power supply to maintain redundancy.
Table 30: Cisco ASR 1002 Router +24 VDC Power System Output Voltage and Current
Output Voltage
+12 VDC
+3.3 V
Minimum
11.80
3.20
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Cisco ASR 1002 Router +24 VDC Power Supply
Output Voltage
+12 VDC
+3.3 V
Nominal
12.00
3.30
Maximum
12.20
3.40
Minimum
2.0 A
0.10 A
Maximum
39 A
3.125 A
Output Current
Note
Any combination of output voltage/currents cannot exceed total power rating of 470 Watts.
+24 VDC Power Supply Important Notices
The following items list important notes regarding the +24 VDC power supply in the Cisco ASR 1002 Router:
• Output Voltage Alarm Threshold—The Output Voltage Alarm is declared when the output voltage is
below the low end of the minimum or above the high end of the maximum limits (as shown in the
following table). When the output voltage is above the high end of the minimum or below the low end
of the maximum limits, then the Red state is not activated.
Table 31: +24 VDC Output Voltage Alarm Threshold Ranges
Output
Minimum
Maximum
12V
10.0-11.2V
12.8-13.8V
3.3V
2.6 – 3.0V
None
• Temperature—If a single fan fails, the power supply meets the functional requirements specified in
Table 24. Above 55°C with less than two fans, calculated MTBF does not apply; however all component
stress remains within the manufacturer’s specified rating.
• Thermal Shutdown—The +24 VDC power supply will shut down to protect its components due to
excessive internal temperature. The +24 VDC power supply then automatically restarts if the internal
temperature returns to a safe operating level.
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Power Supplies for the Cisco ASR 1013 Router
Power Supplies for the Cisco ASR 1013 Router
Note
The information in this section applies to the ASR1013/06-PWR-DC and ASR1013/06-PWR-AC power
supplies. These power supplies are supported by both the Cisco ASR 1013 Router and the Cisco ASR
1006 Router. However, the power zones mentioned in this section are supported only on the Cisco ASR
1013 Router.
The Cisco ASR 1013 Router can support up to 1600 W output and operates between 180 VAC and 260 VAC.
The 1600 W power supply module consists of either an AC or –48 VDC input and 1600 watt output closed
frame power supply with two DC voltage outputs: +12 V and +3.3 V can be used as a single supply, dual,
triple, or quadruple hot pluggable system.
Note
The Cisco ASR 1013 router power supply +12 V is not bussed between the two power zones but the +3.3
V is bussed between them.
The Cisco ASR 1013 system has two power zones, each powered by two power supplies in a redundant
configuration. Three power voltages are provided by the dual 1+1 configured power supplies, which are
12V_A, 12V_B, and 3.3V_BACKPLANE. The12V_A AND 121V_B are distributed to provide power to one
half of the chassis each. A single (non-redundant) or a dual (1 + 1 redundant) supply configuration is able to
support loads up to 1600 W on the 12 V and 10 W on the 3.3 V output.
Each power supply module contains three internal fan modules and provides the forced air cooling for the
chassis. These power supply modules contain a monitor circuit to determine the status of fan speed and
operation along with LED status indicating fan errors.
The system temperature operation is 0 to 40C normal and –5C to +55C.
AC System—AC power input is an IEC 320-type power inlet, 20 A service connector. The switch does not
disconnect the AC line; but enables the signal to the power supply. The AC cord disconnects the power supply
from the AC source. The unit is secured with four captive fasteners mounted on the faceplate (see xref Figure
2-15). The AC power supply input range operates within specification from 180 VAC to 264 VAC.
• –48 VDC System—Two-position terminal block-style connector, with labeled connections for - (–48/60
V input) and + (–48/60 V Return). The –48 VDC input side contains a front panel with provisions for
mounting screw, built in handle to extract the power supply, three status LEDs, and fans for power
supply and system cooling.
The DC input range is –40.5 to –72 VDC.
See xref Appendix A, “Cisco ASR 1000 Series Router Specifications” for detailed power supply specifications.
Warning
This product relies on the building’s installation for short-circuit (overcurrent) protection. Ensure that the
protective device is rated not greater than: AC power supplies for the Cisco Aggregation Services Routers:
120 VAC, 20A U.S. maximum. DC power supplies for the Cisco ASR 1013 Router and Cisco ASR 1006
Router: 50A U.S. maximum; Cisco ASR 1004 Router: 40A U.S. maximum: Cisco ASR 1002 Router: 30A
U.S. maximum. Statement 1005
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AC Power Supply LEDs and Connector for Cisco ASR 1013
AC Power Supply LEDs and Connector for Cisco ASR 1013
This section provides information about the AC power supplies on the rear of the Cisco ASR 1013 Router.
The power supply module contains three fans. A total of six fans are used to cool the ASR 1013 system and
power supply. The airflow direction is front to back.
Note
The information in this section applies to the ASR1013/06-PWR-AC power supply. The Cisco ASR 1013
Router and the Cisco ASR 1006 Router support this power supply.
Power supply modules with internal fan modules install into the rear of the chassis. These modules contain
integral handles to ease installation and removal (no insertion or extraction levers are provided).
Guide pins located at the rear of these modules help center locate the modules and reduce stress to the midplane
and module mounted connectors. Four captive screws (tool operated latches) are provided on the modules
face plate (chassis rear) to secure these modules into the chassis. The following figure shows the AC power
supply for the Cisco ASR 1013 Router. The Cisco ASR 1013 Router supports up to four power supplies.
1
AC power supply fan
6
AC power inlet
2
DB-25 alarm connector
7
AC power supply standby
switch
3
Tie-wrap tab
8
Protective shielding on
both sides of the standby
switch
4
AC power supply captive 9
screw
AC power supply LEDs
5
AC power supply handle —
—
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AC Power Supply LEDs and Connector for Cisco ASR 1013
The following figure shows the AC power supplies LEDs and DB-25 Alarm connector.
Figure 20: Cisco ASR 1013 Router AC Power Supply LEDs and DB-25 Alarm Connector
1
AC power supply LEDs
3
DB-25 alarm connector
2
AC power supply fan
4
AC power supply fan
The following table describes the AC power supply LEDs on the Cisco ASR 1013 Router.
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AC Power Supply LEDs and Connector for Cisco ASR 1013
Table 32: Cisco ASR 1013 Router AC Power Supply LEDs
LED Label
LED
Color
Description
INPUT OK
Power supply activity
Green
LED illuminates green to
signal that the AC power
supply input voltage is
greater than 85 V.
None
If LED is not illuminated,
then the AC input voltage
is less than 70 V or the
power supply is turned
off. For an AC input
voltage between 70 V and
85V, the INPUT OK LED
can be either on, off, or
flashing
Green
LED illuminates green
when all fans are
operational.
Red
The LED illuminates red
when a fan failure is
detected.
Red
LED is red and turned off
to signal that the –48
VDC output voltages are
within the normal
operating range; output
voltage between the
minimum and maximum
limits will not create an
output fail alarm, and
output voltages below the
minimum or above the
maximum will create an
output fail alarm.
FAN OK
OUTPUT FAIL
Bi-color LED indicates
fan status
Power supply activity
When you turn the power
supply on, the red LED is
illuminated for two to
three seconds for testing
LED operation before
going off.
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–48 VDC Power Supply LEDs and Connectors for Cisco ASR 1013
–48 VDC Power Supply LEDs and Connectors for Cisco ASR 1013
This section provides information about the –48 VDC power supplies on the rear of the Cisco ASR 1013
Router. The maximum branch circuit for the–48 VDC power supply module is 60 A and the minimum is 50
A.
Note
The information in this section applies to the ASR1013/06-PWR-DC power supply. The Cisco ASR 1013
Router and the Cisco ASR 1006 Router support this power supply.
The –48 VDC power supply operates within specification from –40.5 VDC to –72 VDC continuously. The
Cisco ASR 1013 Router has two of the same type power supplies in power supply slot 0 and power supply
slot 1. The power supply slot numbers are on the left side of the chassis and the power supplies are located
on the floor of the chassis.
The –48 VDC input connector is a terminal block style that supports a AWG #6 wire. The terminal block is
compliant with safety agencies’ guidelines and electrical requirements of the supply. Use the tie wraps to dress
the input cable wires. There are three tie wrap tabs on the power supply.
The terminal block accepts two-hole lugs, one for the –48 V input and the other for the –48 V RTN. A plastic
cover is fitted over the terminal block to prevent accidental contact.
Note
The studs on the terminal block are similar to the safety ground device on the bottom rear of the Cisco
ASR 1013 Router. For information on the safety ground lug on bottom rear of the chassis, see the xref
“Attaching a Chassis Ground Connection” section.
The unit requires a power switch circuit breaker to serve as the main disconnect for the –48 VDC input to the
power supply. The circuit breaker meets international safety requirements and supports 80VDC and has a
current rating of 50 A. The power supply unit is secured into the system chassis with four captive screws
mounted on the faceplate.
The following figure shows the –48 VDC power supplies at the rear of the Cisco ASR 1013 Router. The Cisco
ASR 1013 Router supports up to four power supplies.
Figure 21: Cisco ASR 1013 Router –48 VDC Power Supply
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–48 VDC Power Supply LEDs and Connectors for Cisco ASR 1013
1
Fan
7
DC power supply captive
screw
2
DB-25 alarm connector* 8
DC power supply handle
3
Tie-wrap tab
Terminal block and
plastic cover single screw
4
DC power supply
10
terminal block and plastic
cover
On/Off (|/O) circuit
breaker switch
5
Ground symbol
11
Terminal block and
plastic cover slot tab
6
DC power supply ground 12
studs
Power supply LEDs
9
The following table describes the power supply LEDs and connectors on the rear of the chassis.
Table 33: Cisco ASR 1013 Router –48 VDC Power Supply LEDs
LED Label
LED
Color
INPUT OK
A bi-color LED indicates input Green
voltage
Amber
FAN OK
A bi-color LED indicates power Green
supply fan status
Red
Description
LED illuminates green to signal
that the –48 VDC power supply
input voltage is greater
than–43.5VDC at turn-on and
remains green down to
–39VDC.
The LED illuminates amber
when the input voltage (falls
below –39VDC) and indicates
that there is still a voltage
present (voltage on the terminal
block). The LED remains amber
and is active to around 25 V
+/-5 V. The LED is not
illuminated if the input is below
–15 V input.
The LED illuminates s green
when all fans are operational.
The LED illuminates red when
a fan failure is detected.
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–48 VDC Power Supply LEDs and Connectors for Cisco ASR 1013
LED Label
LED
Color
Description
OUTPUT FAIL
Power supply activity
Red
When the LED is off, it signals
that the –48 VDC output
voltage are within the normal
operating range. Output voltage
between the minimum and
maximum limits will not create
an output fail alarm, and output
voltages below the minimum or
above the maximum will create
an Output Fail alarm.
When you turn the power
supply on, the red LED
illuminates for two to three
seconds to test LED operation
before going off.
AC/DC Power System Output for Cisco ASR 1013
The power supply output tolerance is defined in the following table under all combinations of line variation.
Total system consumption per power supply should not exceed 1600 W.
Note
The output tolerance values shown in this table apply to the ASR1013/06-PWR-DC and
ASR1013/06-PWR-AC power supplies. The Cisco ASR 1013 Router and the Cisco ASR 1006 Router
support these power supplies.
Table 34: Cisco ASR 1013 Router Power System Output Voltage and Output Current
Output Voltage
+12 VDC
+3.3 V
Minimum
11.80 VDC
3.20 VDC
Nominal
12.00 VDC
3.30 VDC
Maximum
12.20 VDC
3.40 VDC
Minimum
0A
0A
Maximum
136 A
3.125 A
Output Current
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Power Supplies for the Cisco ASR 1001 Router
Power Supplies for the Cisco ASR 1001 Router
Each Cisco ASR 1001 Router power supply provides 400 W of output power. The power supplies are used
in a 1 + 1 redundant configuration. There is no input switch on the faceplate of the power supplies. The power
supply is switched from standby to On by way of a system chassis STANDBY/ON switch. The power supply
slot numbers are on the rear of the chassis to the left side of each power supply. When facing the rear of the
chassis, power supply slot 0 (PS0) is to the left and power supply slot 1(PS1) is to the right (next to the power
supply standby switch).
The Cisco ASR 1001 Router supports the following power supplies:
• Cisco ASR 1001 Router AC power supply—Provides 400 watt output power with two DC voltage
outputs: +12 V and +5 V. The AC power supply operates between 85 and 264 VAC. The AC power
supply current shares on the 12 V output and is used in a dual hot pluggable configuration. The AC
power supply consumes a maximum of 471 W of input power.
• Cisco ASR 1001 Router DC power supply—Provides 400 watt output power with two DC voltage
outputs: +12 V and +5.0 V. The power supply operates between –40.5 and –72 VDC. The DC power
supply current shares on the 12 V output and is used in a dual hot pluggable configuration. The DC
power supply consumes a maximum of 500 W of input power.
Note
The Cisco ASR 1001 Router can support two AC or two DC power supplies. Do not install the AC and
DC power supply units in the same chassis.
The following figure shows both the AC and DC power supplies for the Cisco ASR 1001 Router.
Figure 22: Cisco ASR 1001 Router AC Power Supply and DC Power Supply
1
AC and DC power supply 5
fasteners
DC power supply ground
symbol
2
AC power supply inlet
DC power supply
terminal block connection
6
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Cisco ASR 1001 Router AC Power Supply
3
DC power supply
negative (-) connection
7
4
DC power supply positive —
(+) connection
AC and DC power supply
handles
—
Cisco ASR 1001 Router Power Supply Fans
Cisco ASR 1001 Router system-level cooling is provided by seven fans in each chassis at rated 12 VDC
voltage. Fan failure is determined by fan rotation sensors. A fan failure state is declared when the actual speed
of a fan is less than 60% of its nominal speed. The fans provide system cooling backup in the event of a
single-fan failure. The airflow direction is front to back.
Warning
This product relies on the building’s installation for short-circuit (overcurrent) protection. Ensure that the
protective device is rated not greater than: AC power supplies for the Cisco Aggregation Services Routers:
120 VAC, 20A U.S. maximum. DC power supplies for the Cisco ASR 1006 Router: 50A U.S. maximum;
Cisco ASR 1004 Router: 40A U.S. maximum: Cisco ASR 1002 Router: 30A U.S. maximum, Cisco ASR
1001 Router: 10A U.S. maximum Statement 1005
Cisco ASR 1001 Router AC Power Supply
The Cisco ASR 1001 Router has two AC power supplies in the rear of the chassis. The input receptacle is an
IEC60320 C14 type of filtered AC inlet. The current rating on the connector is 10 A. The following figure
shows the ASR 1001 Router AC power supplies.
Figure 23: Cisco ASR 1001 Router AC Power Supplies
Cisco ASR 1001 Router DC Power Supply
The Cisco ASR 1001 Router DC input connector is compatible with a pluggable Euro-style plug. The input
connector and plug must be UL recognized under UL 486 for field wiring. The connection polarity is from
left to right: negative (–), positive (+), and ground.
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Cisco ASR 1001 Router DC Power Supply
The power supply has a handle to be used for insertion and extraction. The module must be supported with
one hand because of its length. The following figure shows the Cisco ASR 1001 Router DC power supplies.
Figure 24: Cisco ASR 1001 Router With DC Power Supplies
1
DC power supply in slot
PS0
2
DC power supply in slot
PS1
AC/DC Power System Input Range and Voltage for Cisco ASR 1001
The power supply DC Input Range is –40.5 to –72 VDC, and the AC Input Range is 85 to 264 VAC. The
following table describes the Cisco ASR 1001 Router power supply LED.
Table 35: Cisco ASR 1001 Router—AC and DC Power Supply LED
LED Label
LED
Color
Description
PWR OK
Indicates power supply status
Red
Off if output power is within
specification range
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Cisco ASR 1001 Router DC Power Supply
Cisco ASR 1000 Series Router Hardware Installation Guide
86
CHAPTER
3
Cisco ASR 1000 Series Routers Embedded
Services Processors
The Cisco ASR 1000 Series embedded services processors are based on the Cisco QuantumFlow Processor
(QFP) for next-generation forwarding and queuing. The Cisco ASR1000-ESP5, Cisco ASR1000-ESP10,
Cisco ASR1000-ESP10-N, Cisco ASR1000-ESP20, Cisco ASR1000-ESP40, Cisco ASR1000-ESP100, and
Cisco ASR 1000-ESP200 provide centralized forwarding-engine options for the Cisco ASR 1000 Series
Aggregation Services Routers.
Additionally, the Cisco ASR 1002 Fixed Router includes a nonmodular, fixed embedded services processor
with a throughput of 2.5 Gbps and the Cisco ASR 1001 Router has a nonmodular, fixed embedded services
processor with a throughput of 2.5 Gbps, which is upgradable with a software activated performance upgrade
license to 5 Gbps.
The Cisco ASR 1000 Series embedded service processors:
• Provide the centralized embedded forwarding services responsible for the bulk of the data plane
processing tasks. All network traffic through the Cisco ASR 1000 Series system flows through the
Cisco ASR 1000 Series Embedded Services Processors.
• Are responsible for the data-plane processing tasks and all network traffic flows through them.
• Support Forwarding Engine Control Processor which provide hardware abstraction layer between the
QFP-based forwarding engine and other system components, allowing datapath and management
functions to be independent.
• Support Cisco QuantumFlow Processor (QFP) forwarding engines.
• Support QFP provisioned with two TCAM4 devices for ACL lookup and other software features.
• Perform all baseline packet routing operations, including MAC classification, Layer 2 and Layer 3
forwarding, quality-of-service (QoS) classification, policing and shaping, security access control lists
(ACLs), VPNs, load balancing, NetFlow.
• Are responsible for features such as firewalls, intrusion prevention, Network Based Application
Recognition (NBAR), Network Address Translation (NAT), and flexible pattern matching.
• Incorporates a security encryption coprocessor to assist encryption processing common to all embedded
services processors. The security processor operates in coprocessor mode and only processes packets
sent to it by the Cisco QFP.
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Cisco ASR 1000 Series Routers Embedded Services Processors
Cisco ASR 1000-ESP5
• Provide hardware abstraction layer between the packet processing-based forwarding engine and other
system components.
The Cisco ASR1000-ESP5, Cisco ASR1000-ESP10, Cisco ASR1000-ESP10-N, Cisco ASR1000-ESP20,
Cisco ASR1000-ESP40, Cisco ASR1000-ESP100, and Cisco ASR1000-ESP200 provide centralized
forwarding-engine options for the Cisco ASR 1000 Series Aggregation Services Routers. The Cisco ASR
1002-F Router includes a nonmodular, integrated embedded services processor with a forwarding bandwidth
(throughput) of 2.5 Gbps. The integrated embedded services processor of the Cisco ASR 1002-X Router can
provide a forwarding bandwidth of 5 Gbps, 10 Gbps, 20 Gbps, or 36 Gbps.
The Cisco ASR1000-ESP10-N is the nonencryption version of the Cisco ASR1000-ESP10. The Cisco
ASR1000-ESP10-N can only support noncrypto Cisco IOS software images. It does not support encryption
capabilities such as IPsec.
The Cisco ASR 1000 Series Routers support the following Cisco ASR 1000 Series Embedded Services
Processors:
Note
The embedded services processor can be upgraded only on redundant embedded services processor systems
(Cisco ASR 1006 Router and Cisco ASR 1013 Router). The Cisco ASR 1002 router supports only one
Cisco ASR1000-ESP5 or ASR1000-ESP10. The Cisco ASR 1006 Router and Cisco ASR 1004 Router
do not support the Cisco ASR1000-ESP5. When performing upgrades, the Cisco ASR1000-ESP10, Cisco
ASR1000-ESP20, and any future ESPs can be upgraded.
Note
Do not have different embedded services processors operating in the same chassis. The only time this
condition occurs is when you are performing an upgrade.
• Cisco ASR 1000-ESP5, page 88
• Cisco ASR 1000-ESP10, page 89
• Cisco ASR 1000-ESP20, page 89
• Cisco ASR 1000-ESP40, page 89
• Cisco ASR 1000-ESP100, page 90
• Cisco ASR 1000-ESP200, page 91
• Features of the Cisco ASR 1000 Series Embedded Services Processors, page 94
Cisco ASR 1000-ESP5
The Cisco ASR1000-ESP5 forwarding performance will vary depending on features configured. Up to 4 Mpps
for the combination of the following commonly-used features: IPv4 forwarding, IP Multicast, ACL, QoS,
Reverse Path Forwarding (RPF), load balancing, and Sampled NetFlow.
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Cisco ASR 1000 Series Routers Embedded Services Processors
Cisco ASR 1000-ESP10
Cisco ASR 1000-ESP10
The encryption capability of the 10 Gbps ESP is rated for 4 Gbps whereas the 5 Gbps ESP is rated for 1.8
Gbps and the 2.5 Gbps ESP is rated for 1.0 Gbps. The ASR1000-ESP10-N has the same performance
characteristics as the ASR1000-ESP10 but does not support encryption services.
The Cisco ASR1000-ESP10 supports the following forwarding engines:
• Cisco ASR1002-ESP-F
• Cisco ASR1000-ESP10
• Cisco ASR1000-ESP10-N—The Cisco ASR1000 Embedded Services Processor 10G Non Crypto
Capable board provides an ASR 1000 series router solution for customers who are under export restrictions
and not qualified to implement products that support strong encryption services. The Cisco ASR1000
Embedded Services Processor 10G Non Crypto Capable feature support is the same as the Cisco
ASR100-ESP10 except that SSH, SSL and IPSec VPN services are not supported. For detailed information
about this feature, see Cisco ASR 1000 Series Aggregation Services Routers Software Configuration
Guide and Cisco ASR 1000 Embedded Services Processor 10G Non Crypto Capable Feature Guide.
The ASR1000-ESP10-N has the same performance characteristics as the ASR1000-ESP10 but does not support
encryption services.
Cisco ASR 1000-ESP20
Cisco ASR 1000-ESP20 supports the Cisco ASR 1006 Router and ASR 1004 Router. Performance highlights
of the Cisco ASR1000-ESP20 include hardware-assisted policing, encryption capability of 8 Gbps, and special
jitter- and latency-minimizing multicast packet replication.
Cisco ASR 1000-ESP20 supports 1Gb Cisco QuantumFlow Processor, 4Gb DRAM, 40Mb TCAM, and
256Mb packet buffer memory and high availability 1 + 1 redundancy in dual ESP configuration in combination
with the Cisco ASR 1006 Router.
Cisco ASR 1000-ESP40
Cisco ASR1000-ESP40 is a field-replaceable unit (FRU) capable of supporting online insertion and removal
(OIR) operation in conjunction with one or two route processors, a secondary forwarding processor, and up
to six SPA carrier cards.
Cisco ASR 1000-ESP40 is a CPP-based forwarding processor for the Cisco ASR1000 Series Routers. Cisco
ASR 1000-ESP40 is supported on the following routers:
• Cisco ASR 1006 Router
• Cisco ASR 1004 Router
• Cisco ASR 1013 Router
The Cisco ASR1000-ESP40G supports:
• ESI (enhanced serial interface) punt path support for dual redundant ASR 1000 route processors with a
bandwidth of 11 Gbps
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Cisco ASR 1000 Series Routers Embedded Services Processors
Cisco ASR 1000-ESP100
• ESI state path support for redundant ASR 1000 forward processors
• Dual ESI support for four carrier cards (in slots 0 though 3) and single ESI support for two carrier cards
(in slots 4 and 5).
• Total bandwidth or throughput of 40 Gbps
It provides 40 Gbps bandwidth per system and at least 10 Gbps aggregated security traffic.
All initial Cisco ASR 1000 Series Embedded Services Processors are based on a common highly-programmable
network Cisco QuantumFlow Processor (packet processing). The Cisco ASR 1013 Router slots are keyed
using rotated guide pins so that plug-in cards can only be fully inserted in slots where they are intended to
operate. This keying prevents cards from making midplane contact in slots the cards are not allowed.
Note
The Cisco ASR1000-ESP10 and ESP20 will not plug into the Cisco ASR 1013 Router ESP slots.
Cisco ASR 1000-ESP100
Cisco ASR1000-ESP100 is a CPP-based embedded services processor for the Cisco ASR1000 Series Routers.
It is a field-replaceable unit (FRU), and it is capable of supporting online insertion and removal (OIR) operations
in conjunction with one or two route processors, a secondary embedded services processor, and up to six SPA
carrier cards.
Cisco ASR 1000-ESP100 is supported on the following routers:
• Cisco ASR 1006 Router
• Cisco ASR 1013 Router
Cisco ASR1000-ESP100 provides the following features:
• 24 configurable ESI links for SPA Carrier Card and native Line Card support:
◦ESI links support with a bandwidth of up to 46 Gbps for the Cisco ASR 1013 Router on Sip slots
0,1,4, and 5.
◦ESI links support with a bandwidth of up to 110 Gbps for the Cisco ASR 1013 Router on Sip slots
2 and 3.
• ESI punt path support for dual redundant ASR 1000 route processors with a bandwidth of 11 Gbps
• ESI state path support for redundant ASR 1000 forward processors
It can support at least 20 Gbps of aggregated security traffic.
All Cisco ASR 1000 Series embedded services processors are based on a common highly-programmable
network Cisco QuantumFlow Processor (packet processing). The Cisco ASR 1013 Router slots are keyed
using rotated guide pins so that plug-in cards can only be fully inserted in slots where they are intended to
operate. This keying prevents cards from making midplane contact in slots the cards are not allowed.
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Cisco ASR 1000 Series Routers Embedded Services Processors
Cisco ASR 1000-ESP200
Cisco ASR 1000-ESP200
Cisco ASR1000-ESP200 is a CPP-based embedded services processor for the Cisco ASR1000 Series Routers.
It is a field-replaceable unit (FRU), and it is capable of supporting online insertion and removal (OIR) operations
in conjunction with one or two route processors, a secondary embedded services processor, and up to six SPA
carrier cards.
Cisco ASR 1000-ESP200 is supported on the Cisco ASR 1013 Router.
Cisco ASR1000-ESP200 provides the following features:
• 24 configurable ESI links for SPA Carrier Card and native Line Card support:
◦ESI links support with a bandwidth of up to 46 Gbps for the Cisco ASR 1013 Router on Sip slots
0,1,4, and 5.
◦ESI links support with a bandwidth of up to 110 Gbps for the Cisco ASR 1013 Router on Sip slots
2 and 3.
It can support at least 40 Gbps of aggregated security traffic.
All Cisco ASR 1000 Series embedded services processors are based on a common highly-programmable
network Cisco QuantumFlow Processor (packet processing). The Cisco ASR 1013 Router slots are keyed
using rotated guide pins so that plug-in cards can only be fully inserted in slots where they are intended to
operate. This keying prevents cards from making midplane contact in slots the cards are not allowed.
Cisco ASR 1000-ESP200 and Third Generation Cisco QFP
Each Cisco ASR 1000-ESP200 uses 4 third generation Cisco QFPs (QFP-3rd-Gen) Application Specific
Integrated Circuits (ASICs) to achieve maximum performance. Each QFP-3rd-Gen ASIC is mapped with a
subset of SPA bays and interfaces (SIP). Through this mapping, the Cisco ASR 1000-ESP200 can perform
all baseline packet routing operations such as Quality of Service (QoS) classification and IP multicasting.
They can also perform Network Address Translation (NAT) tasks.
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Cisco ASR 1000 Series Routers Embedded Services Processors
Cisco ASR 1000-ESP200 and Third Generation Cisco QFP
The following figure displays the SIP and SPA bays of the Cisco ASR 1013 Router and their mappings to the
QFP-3rd-Gen ASICs.
Figure 25: Cisco ASR 1000-ESP200 and their QFP-3rd-Gen ASIC Mappings
1
Egress queueing for
interfaces handled by
QFP-3rd-Gen 3
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3
Egress queueing for
interfaces handled by
QFP-3rd-Gen 1
Cisco ASR 1000 Series Routers Embedded Services Processors
Cisco ASR 1000-ESP200 and Third Generation Cisco QFP
2
Egress queueing for
interfaces handled by
QFP-3rd-Gen 2
4
Egress queueing for
interfaces handled by
QFP-3rd-Gen 0
The following figure displays an example of a packet flow in the Cisco ASR 1000 ESP 200.
Figure 26: Packet flow in the Cisco ASR 1000 ESP 200
Implications of SIP and SPA Slot Mapping
Interfaces and sessions that have an egress QoS have their schedules and queues present in the QFP-3rd-Gen
ASIC that services the particular slot. Since there is a limitation of 29000 schedules and 116000 queues per
QFP-3rd-Gen ASIC, multiple QFP-3rd-Gen ASICs should be targeted by placing the SIP and SPA in the
correct order, in order to achieve full system scalability for schedules and queues.
For example, A 5xGE SPA supports more than 32000 point-to-point protocol (PPP) sessions depending on
the ESP. However, if QoS is applied to these sessions, the QFP-3rd-Gen ASIC that supports the SIP and SPA
slot can support only 29000 schedules, and these sessions share the 116000 queue limit. To support PPP
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Cisco ASR 1000 Series Routers Embedded Services Processors
Features of the Cisco ASR 1000 Series Embedded Services Processors
sessions with QoS that are greater than 29000, a different SIP and SPA should be used to map to a different
QFP-3rd-Gen ASIC. This will enable additional schedules and queues.
Features of the Cisco ASR 1000 Series Embedded Services
Processors
The following table summarizes the features of the embedded services processors.
Table 36: Differences in Cisco ASR 1000 Series Embedded Services Processors
Embedded Services Memory
Processor
Performance
Cisco
ASR1000-ESP5
256MB Cisco
QuantumFlow
Processor, 5Mb
TCAM, 64 MB
packet buffer, and 1
GB FECP DRAM
4 Mpps for the
5 Gbps
combination of the
following
commonly-used
features: IPv4
forwarding, IP
Multicast, ACL,
QoS, Reverse Path
Forwarding (RPF),
load balancing, and
Sampled NetFlow
1 Gbps
Cisco
ASR1000-ESP10
512MB Cisco
QuantumFlow
Processor, 10Mb
TCAM, and 128MB
packet buffer, and 2
GB FECP DRAM
8 Mpps forwarding 10 Gbps
for the combination
of the following
commonly-used
features: IPv4
forwarding, IP
Multicast, ACL,
QoS, Reverse Path
Forwarding (RPF),
load balancing, and
Sampled NetFlow
3 Gbps
Cisco
ASR1000-ESP20
1 GB Cisco
QuantumFlow
Processor, 40Mb
TCAM, 256 MB
packet buffer, 4 GB
FECP DRAM
16 Mpps forwarding 20 Gbps
for the combination
of the following
commonly-used
features: IPv4
forwarding, IP
Multicast, ACL,
QoS, Reverse Path
Forwarding (RPF),
load balancing, and
Sampled NetFlow
8 Gbps
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Bandwidth
Security Traffic
Performance
Cisco ASR 1000 Series Routers Embedded Services Processors
Features of the Cisco ASR 1000 Series Embedded Services Processors
Embedded Services Memory
Processor
Cisco
ASR1002-ESP-F
Cisco
ASR1000-ESP401
Performance
Bandwidth
Security Traffic
Performance
Same as Cisco ASR Same as the Cisco Limited to 2.5 Gbps 1 Gbps
1002 Router
ASR 1002 router
except where
limited by
constrained
throughput of 2.5G
ASR1000-ESP40
• 1 GB Cisco
performance**
QuantumFlow
Processor,
40Mb TCAM,
256MB packet
buffer, 4 GB
FECP DRAM
40 Gbps
12.9 Gb of
aggregate security
traffic
• 8 GB of
registered
DDR2
SDRAM
memory
within two
DIMM
connectors (4
GB DIMMs)
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Cisco ASR 1000 Series Routers Embedded Services Processors
Features of the Cisco ASR 1000 Series Embedded Services Processors
Embedded Services Memory
Processor
Cisco
ASR1000-ESP100
Performance
• Dual Quantum
Flow packet
processor
complex:
◦1 GB
total
packet
buffer
◦4 GB
total
resource
memory
• Single 80MB
TCAM4
feature lookup
memory
• 16 GB of 1066
MHz DDR3
SDRAM:
◦Two
8GB,
2-rank
registered
DIMMs
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Bandwidth
Security Traffic
Performance
100 Gbps
20 Gbps
Cisco ASR 1000 Series Routers Embedded Services Processors
Features of the Cisco ASR 1000 Series Embedded Services Processors
Embedded Services Memory
Processor
Cisco
ASR1000-ESP200
Performance
• Quad
Quantum
Flow packet
processor
complex:
Bandwidth
Security Traffic
Performance
200 Gbps
40 Gbps
◦2 GB
total
packet
buffer
◦8 GB
total
resource
memory
• Dual 80MB
TCAM4
feature lookup
memory
• 32GB of
1066MHz
DDR3
SDRAM:
◦Four
8GB,
2-rank
registered
DIMMs
1 While both the Cisco ASR1000-ESP40 and ASR1000-ESP20 exceed the 16 Mpps forwarding rate, the ESP40 packets per second rate is slightly less than
ESP20 when sending continuous stream of small, 64-byte packets. However, at 92 bytes and larger, the ASR1000-ESP40 outperforms ESP20. The difference
at small packet sizes is a side-effect of optimizations made to achieve 40 Gbps for medium to large packets.
Note
For unsupported hardware component configuration combinations, see xref Table 2-4.
The embedded services processor consists of a front panel label for indicator and control functions. The Cisco
ASR 1000 Series Embedded Services Processor model number labeling is located next to the left card module
handle. The module also contains card handles to assist in insertion or removal of the module. There are no
front panel interfaces on the Cisco ASR1000-ESP modules.
The following figure displays the Cisco ASR 1000 Series Embedded Services Processor LEDS on the front
panel.
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Cisco ASR 1000 Series Routers Embedded Services Processors
Features of the Cisco ASR 1000 Series Embedded Services Processors
Note
The Cisco ASR 1000 Series embedded services processors have the same faceplate and status information
except for the name label, such as Cisco ASR1000-ESP40, Cisco ASR1000-ESP20, Cisco ASR1000-ESP10,
Cisco ASR1000-ESP10-N, and Cisco ASR1000-ESP5.
Figure 27: Cisco ASR1000-ESP Faceplate LEDs
1
PWR—Power LED
3
STAT—Status LED
2
ACTV—Active LED
4
STBY—Standby LED
The following table describes the LEDs on the embedded services processors.
Table 37: LEDs on the Embedded Services Processors
LED Label
LED
Color
Behavior Description
PWR
Power
Solid green
All power requirements
are within specification
Off
The embedded services
processor is not powered
on.
Solid green
Cisco IOS has
successfully booted.
Amber
ROMmon is running or
when the Process
Manager declares that a
critical route processor
process is not running.
STAT
System status
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Cisco ASR 1000 Series Routers Embedded Services Processors
Features of the Cisco ASR 1000 Series Embedded Services Processors
LED Label
ACTV
LED
Active
Color
Behavior Description
Red
System failure or
powering up.
Green
The ACTV LED indicates
(in a redundant system)
the embedded services
processor board that is
actively forwarding
packets.
On the active embedded
services processor board,
the ACTV LED is green
and the STBY LED is off.
On the standby embedded
services processor board,
the STBY LED is yellow
and the ACTV LED is
off.
On Cisco ASR 1002
Router, Cisco ASR 1004
Router, and Cisco ASR
1002-F Router, the
embedded services
processor board is always
active because these
routers do not support
redundancy. The Cisco
ASR1000-ESP5 does not
support redundancy.
Therefore, it is always
active.
STBY
Standby
Yellow
On a redundant system,
the STBY LED indicates
which embedded services
processor is in the
standby state and is
waiting to take over
packet forwarding in the
event that the active
embedded services
processor experiences a
failure. The STBY LED
is in the off state while
the active embedded
services processor is in
the on state.
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Cisco ASR 1000 Series Routers Embedded Services Processors
Features of the Cisco ASR 1000 Series Embedded Services Processors
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100
CHAPTER
4
Cisco ASR 1000 Series Router SPA Interface
Processors (SIPs)
This chapter describes the Cisco ASR 1000 Series Router SPA Interface Processors supported on the Cisco
ASR 1000 Series Routers.
This chapter contains the following sections:
For detailed documentation on Cisco ASR 1000 SIPs and SPAs, see:
• Cisco ASR 1000 Series Aggregation Services Routers SIP and SPA Hardware Installation Guide
• Cisco ASR 1000 Series Aggregation Services Routers SIP and SPA Software Configuration Guide
Note
Throughout this document, the term slot refers to the Cisco ASR 1000 Series Router chassis slot. The
Cisco ASR 1000 Series Route Processor, Cisco ASR 1000 Series Embedded Services Processor, and
Cisco ASR 1000 Series SPA Interface Processor (SIP), and power supplies plug into these slots. Shared
port adapters plug into SIP bays.
• Cisco ASR 1000 Series SPA Interface Processor, page 101
• SPA Interface Processor Slot Numbering, page 104
Cisco ASR 1000 Series SPA Interface Processor
This section describes the Cisco SPA interface processors for the Cisco ASR 1006, Cisco ASR 1004, Cisco
ASR 1002, and Cisco ASR 1013 routers. The Cisco ASR 1000 Series Routers support the following Cisco
ASR 1000-SIPs:
• Cisco ASR 1000-SIP10—This SIP supports:
◦4 half height (¼ Rate or full rate or combination) SPAs with up to 16 ports per SPA
◦2 full height (¼ Rate or full rate or combination) SPAs with up to 32 ports per SPA
◦2 half height and 1 full height comb in at on that does not exceed 64 ports
◦Up to 10 Gbps of oversubscription
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Cisco ASR 1000 Series Router SPA Interface Processors (SIPs)
Cisco ASR 1000 Series SPA Interface Processor
• Cisco ASR 1000-SIP40—This SIP supports:
◦4 half height (¼ Rate or full rate or combination) SPAs with up to 24 ports per SPA
◦2 full height (¼ Rate or full rate or combination) SPAs with up to 48 ports per SPA
◦2 half height and 1 full height combination that does not exceed 96 ports
◦Up to 40 Gbps aggregate bandwidth from the four SPA bays
◦ESI bandwidth of 11 to 46 Gbps
◦Ingress buffering at 128 MB and egress buffering at 6MB
For information about what hardware is supported and compatible and not compatible with the new ASR
1000 40G components and Cisco ASR 1013 Router, see Table 2-4 and Table 2-3 .
The Cisco SPAs provide the physical interfaces for router connectivity ranging from copper, channelized,
POS, ATM and Ethernet. The Cisco ASR 1000 Series SIP provides the physical termination for the SPAs
and accepts up to four half-height and 2 full height Cisco SPAs.
The is a list of characteristics of the Cisco ASR 1000 Series SPA Interface Processors for the Cisco ASR
1006, Cisco ASR 1004, and Cisco ASR 1013 routers:
• A SIP is a carrier card that inserts into a router slot like a line card. It provides no network connectivity
on its own.
• A SIP contains one or more subslots, which are used to house one or more SPAs. The SPA provides
interface ports for network connectivity.
• During normal operation, the SIP should reside in the router fully populated either with functional SPAs
in all subslots, or with a blank filler plate (SPA-BLANK=) inserted in all empty subslots.
• SIPs support online insertion and removal (OIR) with SPAs inserted in their subslots. SPAs also support
OIR and can be inserted or removed independently from the SIP.
Note
Fully populate all slots and subslots with blank filler plates or functional SPAs for maximum efficiency
of the cooling system.
This section describes the Cisco ASR 1000 Series SPA Interface (SIP) components and subslot
identification.Figure 4-1 shows an example of the Cisco ASR 1000 Series SPA Interface (SIP) module.
1
SPA subslot 0
4
STATUS Led
2
SPA subslot 1
5
PWR Led
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Cisco ASR 1000 Series Router SPA Interface Processors (SIPs)
Cisco ASR 1000 Series SPA Interface Processor
3
SPA subslot 2
6
SPA subslot 3
Figure 28: Cisco ASR1000-SIP10 SPA Interface Processor, on page 103 shows the LEDs on the Cisco
ASR1000-SIP10.
Figure 28: Cisco ASR1000-SIP10 SPA Interface Processor
1
STATUS LED
2
PWR LED
Table 38: Cisco ASR1000-SIP LEDs , on page 103 describes the Cisco ASR1000-SIP10 and Cisco
ASR1000-SIP40 LEDs on the front panel.
Table 38: Cisco ASR1000-SIP LEDs
LED Label
LED
Color
Behavior Description
PWR
Power
Solid green
Cisco ASR 1000 Series
SIP is powered on and all
power supplies are within
their tolerances
Off
Cisco ASR 1000 Series
SIP is powered off
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Cisco ASR 1000 Series Router SPA Interface Processors (SIPs)
SPA Interface Processor Slot Numbering
LED Label
LED
Color
Behavior Description
STATUS
System status
Red
The Cisco ASR 1000
Series SPA Interface
Processor has
encountered an error
Yellow
Lit when the Cisco ASR
1000 Series SIP is loading
Solid green
The SPA drivers have
started and are running
and all critical processes
are running (as
determined by the Cisco
ASR 1000 Series SPA
Interface (SIP) Process
Manager).
The Cisco ASR1002-SIP10 supports a built-in 4xGE SPA and three half-height SPAs (one half-height and
one full-height SPA). The Cisco ASR1002-SIP10 also functions as the base board for the Cisco embedded
ASR1000-RP1. The Cisco 1002 Router has one slot for FP0 with three subslots for SPAs, subslots 1 - 3.
SPA Interface Processor Slot Numbering
A shared port adapter is a modular type of port adapter that inserts into a subslot of a compatible SIP to provide
network connectivity and increased interface port density. The Cisco ASR 1000 Series SPA Interface Processor
(SIP) provides an aggregation function for SPAs.
Cisco ASR 1006 Router and Cisco ASR 1004 Router
In the Cisco ASR 1006 Router and Cisco ASR 1004 Router, the SIP supports:
• Four half-height (¼ rate or full rate or combination)
• Two full-height (¼ rate or full rate or combination) SPAs with up to 32 ports per SPA
• Two half-height and 1 full-height combination that does not exceed 64 ports
The slot numbering for the SPAs in the Cisco ASR 1004 Router is the same as in the Cisco ASR 1006 Router.
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Cisco ASR 1000 Series Router SPA Interface Processors (SIPs)
Cisco ASR 1002 Router
Figure 4-3 shows the slot numbering for the shared port adapters on the Cisco ASR 1000 Series SPA Interface
for the Cisco ASR 1006 Router and Cisco ASR 1004 Router.
Figure 29: Cisco ASR 1004 Router and Cisco ASR 1006 Router SPA Interface Subslot Numbering
Note
The slot numbering for the SPAs on the Cisco ASR 1004 Router is the same as the numbering on the
Cisco ASR 1006 Router.
Cisco ASR 1002 Router
In the Cisco ASR 1002 Router, the Cisco ASR1002-SIP10 supports:
• Three removable half-height SPAs on Bay 1, 2, and 3
• The fourth SPA is a built-in 4xGE SPA on Bay 0 located on the Cisco ASR 1000 Series RP1
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Cisco ASR 1000 Series Router SPA Interface Processors (SIPs)
Cisco ASR 1002-F Router
Note
The shared port adapters on the Cisco ASR1002-SIP10 support online insertion and removal. However,
the Cisco ASR1002-SIP10 in the Cisco ASR 1002 Router is built into the chassis and is not a
field-replaceable unit and does not support online insertion and removal.Figure 30: Cisco ASR1002-SIP10
Interface Subslot Numbering, on page 106 shows the slot numbering for the shared port adapters on the
Cisco ASR 1000 Series SPA Interface for the Cisco ASR 1002 Router.
Figure 30: Cisco ASR1002-SIP10 Interface Subslot Numbering
1
Cisco integrated
3
ASR1000-RP1 subslot 0
SPA subslot 1
2
SPA subslot 2
SPA subslot 3
4
The Cisco integrated ASR1000-SIP10 (in the Cisco ASR 1002 Router) supports one built-in 4xGE SPA and
three half height SPAs in any one of the following configurations:
• Built-in 4xGE SPA in bay 0 and three half height SPAs in bay 1, 2, 3.
• Built-in 4xGE SPA in bay 0, one half height SPA in bay 2, and one full height SPA in bay 1.
The Cisco ASR 1000 Series SPA interface processor houses SPA bay 2 and SPA bay 3. SPA bay 0 and SPA
bay 1 are physically located on Cisco integrated ASR1000-RP1. A portion of the Cisco integrated ASR1000-RP1
is reserved to provide connectivity between SPA bay 1 and the Cisco integrated ASR1000-SIP10.
Note
The integrated Cisco ASR1000-RP1 subslot 1 must communicate to subslot 3 of the integrated SIP when
running a full height SPA in subslot 1.
Cisco ASR 1002-F Router
In the Cisco ASR 1002-F Router, the Cisco ASR1002-SIP10-F supports:
• Three removable half-height SPAs in Bays 1, 2, and 3
• The fourth SPA is a built-in 4xGE SPA on Bay 0 located on the Cisco ASR 1000 Series RP1
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106
Cisco ASR 1000 Series Router SPA Interface Processors (SIPs)
Cisco ASR 1013 Router
Note
The shared port adapter on the Cisco ASR1002-SIP10-F supports online insertion and removal. However,
the Cisco ASR1002-SIP10-F in the Cisco ASR 1002-F Router is built into the chassis and is not a
field-replaceable unit.
Figure 4-5 shows the slot numbering for the Cisco ASR 1002-F Router.
1
Cisco integrated
3
ASR1002-ESP-F, slot F0
ASR1002-SIP-10-F, slot
0:
SPAs:
slot 0, subslot 0 4xGE-BUILT-IN
slot 0, subslot 1 SPA-2XOC3-POS
2
Cisco integrated RP, slot
R0
Cisco ASR 1013 Router
In the Cisco ASR 1013 Router, the Cisco ASR1000-SIP40 supports:
• Four half-height (¼ Rate or full rate or combination) SPAs with up to 24 ports per SPA
• Two full-height (¼ Rate or full rate or combination) SPAs with up to 48 ports per SPA
• Two half-height and 1 full-height combination that does not exceed 96 ports
The Cisco ASR 1013 Router uses the same SPA subslot numbering as the Cisco ASR 1006 and Cisco ASR
1004 routers.
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Cisco ASR 1000 Series Router SPA Interface Processors (SIPs)
Cisco ASR 1013 Router
Figure 31: Cisco ASR 1013 Router Slot Numbering , on page 108 shows the slot numbering for the shared
port adapters on the Cisco ASR 1013 Router.
Figure 31: Cisco ASR 1013 Router Slot Numbering
1
ASR 1000 Series SIP slot 6
5
Cisco ASR 1000 Series Router Hardware Installation Guide
108
Slot F0 with ASR 1000
Series ESP-40
Cisco ASR 1000 Series Router SPA Interface Processors (SIPs)
Cisco ASR 1001 Router
2
ASR 1000 Series SIP slot 7
4
Slot R0 with ASR 1000
Series RP2
3
ASR 1000 Series SIP slot 8
3
ASR 1000 Series SIP slot
2
4
Slot R1 with ASR 1000
Series RP2
9
ASR 1000 Series SIP slot
1
5
Slot F1 with ASR 1000
Series ESP-40
10
ASR 1000 Series SIP slot
0
Note: Slots 10, 9, 8, 7,
and 6 reside in Zone 0
and slots 5, 4, 3, 2, and
1 reside in Zone 1.
For detailed information about specifying SIP subslot location for a SPA and specifying slot location for a
SIP, see Cisco Aggregation Services Router 1000 Series SIP and SPA Software Configuration Guide .
Cisco ASR 1001 Router
In the Cisco ASR 1001 Router, the Cisco ASR1000-SIP10 supports:
• One flexible integrated daughter card I/O slot
• One half-height SPA bay
Figure 32: Cisco ASR 1001 Router Slot Numbering , on page 109 shows slot numbering on the Cisco ASR
1001 Router.
Figure 32: Cisco ASR 1001 Router Slot Numbering
1
Slot 2 connected to the
flexible integrated
daughter card
3
Slot 0 connected to the
built-in 4x1GE SPA on
the mainboard
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Cisco ASR 1000 Series Router SPA Interface Processors (SIPs)
Cisco ASR 1002-X Router
2
Slot 1 connected to the
half-height SPA slot
—
—
Cisco ASR 1002-X Router
In the Cisco ASR 1002-X Router, the integrated SIP supports:
• Three removable half-height SPAs in Bays 1, 2, and 3
• A built-in 6xGE SPA
Note
The SPAs on the Cisco ASR1002-X support online insertion and removal. However, the SIP on the Cisco
ASR 1002-X Router is built into the chassis and is not a field-replaceable unit.
Figure 4-8 shows the slot numbering for the Cisco ASR 1002-X Router.
1
6xGE Built-in SPA in
Subslot 0
3
Cisco SPA subslot 1
2
Cisco SPA subslot 2
4
Cisco SPA subslot 3
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CHAPTER
5
Preparing Your Site for Installation
This chapter contains important safety information you should know before working with the Cisco ASR
1000 Series Aggregation Services Routers and guides you through the process of preparing your site for
router installation.
This chapter contains the following sections:
• Prerequisites and Preparation , page 111
• Safety Guidelines , page 112
• Compliance Requirements, page 113
• Cautions and Regulatory Compliance Statements for NEBS , page 114
• Standard Warning Statements, page 115
• Site Planning, page 118
• Preventing Electrostatic Discharge Damage, page 130
• Electrical Safety, page 131
• Receiving the Cisco ASR 1000 Series Router, page 132
• Chassis-Lifting Guidelines, page 133
• Tools and Equipment, page 134
• Checking the Shipping Container Contents, page 135
• Cisco ASR 1000 Series Router Installation Checklist, page 136
Prerequisites and Preparation
Before you perform any of the procedures in this guide, we recommend that you:
• Read the safety guidelines in the next section and review the electrical safety and ESD-prevention
guidelines in this guide.
• Ensure that you have all of the necessary tools and equipment (see Tools and Equipment, on page 134).
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111
Preparing Your Site for Installation
Safety Guidelines
• Have access to the Cisco ASR 1000 Series Aggregation Services Routers Software Configuration Guide
(an online document that is available for viewing or download at Cisco.com) during the installation.
• The power and cabling requirements that must be in place at your installation site
• The equipment required to install the router
• The environmental conditions your installation site must meet to maintain normal operation
Before installing your Cisco ASR 1000 Series Aggregation Services Router, you must consider power and
cabling requirements that must be in place at your installation site, special equipment for installing the router,
and the environmental conditions your installation site must meet to maintain normal operation. This chapter
guides you through the process of preparing for router installation.
The shipping package for the router is engineered to reduce the chances of product damage associated with
routine material handling experienced during shipment:
• Router should always be transported or stored in its shipping package in the upright position.
• Keep the router in the shipping container until you have determined the installation site.
Note
Inspect all items for shipping damage. If an item appears damaged, contact a Cisco customer service
representative immediately.
Safety Guidelines
Before you begin the installation or replacement procedure, review the safety guidelines in this section to
avoid injuring yourself or damaging the equipment.
Note
This section contains guidelines and do not include every potentially hazardous situation. When you install
a router, always use common sense and caution.
Safety Warnings
Safety warnings appear throughout this publication in procedures that, if performed incorrectly, might harm
you. A warning symbol precedes each warning statement.
Before you install, configure, or perform maintenance on the router, review the documentation for the procedure
you are about to perform, paying special attention to the safety warnings. If you need translations of the safety
warnings.
Note
Do not unpack the system until you are ready to install it. Keep the chassis in the shipping container to
prevent accidental damage until you determined an installation site. Use the appropriate unpacking
documentation included with the system.
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Preparing Your Site for Installation
Safety Recommendations
Read the installation instructions in this document before you connect the system to its power source. Failure
to read and follow these guidelines could lead to an unsuccessful installation and possibly damage to the
system and components.
Safety Recommendations
The following guidelines will help to ensure your own safety and protect your Cisco equipment. This list does
not cover all potentially hazardous situations, so be alert .
• Cisco safety policy is that all of its routers must conform to the requirements of IEC 60950, with
appropriate national deviations, as a minimum. In addition, Cisco routers must also meet the requirements
of any other normative documents (for example, standards, technical specifications, laws or regulations).
• Review the safety warnings listed in the Regulatory Compliance and Safety Information for the Cisco
ASR 1000 Series Aggregation Services Routers that accompanied your Cisco ASR 1000 Series Router,
before installing, configuring, or maintaining the router.
• Never attempt to lift an object that might be too heavy for you to lift by yourself.
• Always turn all power supplies off and unplug all power cables before opening the chassis.
• Always unplug the power cable before installing or removing a chassis.
• Keep the chassis area clear and dust free during and after installation.
• Keep tools and chassis components away from walk areas.
• Do not wear loose clothing, jewelry (including rings and chains), or other items that could get caught
in the chassis. Fasten your tie or scarf and sleeves.
• The Cisco ASR 1000 Series Routers operate safely when it is used in accordance with its marked electrical
ratings and product usage instructions.
Compliance Requirements
This section includes Safety Compliance and Network Equipment Building Systems (NEBS) standards. The
Cisco ASR 1000 Series Routers are in compliance with national and international standards as described in
the following table.
You must observe the following safety guidelines when working with any equipment that connects to electrical
power or telephone wiring. These guidelines help you avoid injuring yourself or damaging the devices.
Table 39: Compliance Requirements
Safety Compliance and NEBS Requirements
Specification
Description
Safety
Caution
To comply with Class A emissions
requirements, shielded-twisted pair T1/E1
cables must be used with the 8-port
channelized T1/E1 SPA interface in any
Cisco ASR 1000 chassis.
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Preparing Your Site for Installation
Cautions and Regulatory Compliance Statements for NEBS
Safety Compliance and NEBS Requirements
Telcordia NEBS GR-1089-Core Statement
Caution
To comply with the Telcordia GR-1089
NEBS standard for electromagnetic
compatibility and safety, for Ethernet
RJ-45 ports, use only shielded Ethernet
cables that are grounded on both ends. In
a NEBS installation, all Ethernet ports are
limited to intrabuilding wiring.
GR-1089
GR-63
Note
The English warnings in this document are followed by a statement number. To see the translations of a
warning into other languages, look up its statement number in http://www.cisco.com/en/US/docs/routers/
asr1000/rcsi/asr1rcsi.html Regulatory, Compliance, and Safety Information for the Cisco Aggregation
Services Router 1000 Series .
Cautions and Regulatory Compliance Statements for NEBS
The following table lists cautions, regulatory compliance statements, and requirements for the Network
Equipment-Building System (NEBS) certification from the Telcordia Electromagnetic Compatibility and
Electrical Safety – Generic Criteria for Network Telecommunications Equipment (A Module of LSSGR,
FR-64; TSGR, FR-440; and NEBSFR, FR-2063) Telcordia Technologies Generic Requirements,
GR-1089-CORE.
Attach an ESD-preventive wrist strap to your wrist and to a bare metal surface.
Caution
To comply with the Telcordia GR-1089 NEBS standard for electromagnetic compatibility and safety, for
Ethernet RJ-45 ports, use only shielded Ethernet cables that are grounded on both ends. In a NEBS
installation, all Ethernet ports are limited to intrabuilding wiring.
Caution
The intrabuilding ports of the equipment or subassembly is only suitable for connection to intrabuilding
or unexposed wiring or cabling. The intrabuilding ports of the equipment or subassembly MUST NOT
be metallically connected to interfaces that connect to the OSP or its wiring. These interfaces are designed
for use only as intrabuilding interfaces (Type 2 or Type 4 ports as described in GR-1089-CORE), and
require isolation from the exposed OSP cabling. The addition of primary protectors is not sufficient
protection in order to connect these interfaces metallically to OSP wiring.
Products that have an AC power connection are intended for deployments where an external surge protective
device (SPD) is used at the AC power service equipment as defined by the National Electric Code (NEC).
This product is designed for a common bonding network (CBN) installation.
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Preparing Your Site for Installation
Standard Warning Statements
This product can be installed in a network telecommunication facility or location where the NEC applies.
An electrical conducting path shall exist between the product chassis and the metal surface of the enclosure
or rack in which it is mounted or to a grounding conductor. Electrical continuity shall be provided by using
thread-forming type mounting screws that remove any paint or nonconductive coatings and establish a
metal-to-metal contact. Any paint or other nonconductive coatings shall be removed on the surfaces between
the mounting hardware and the enclosure or rack. The surfaces shall be cleaned and an antioxidant applied
before installation.
The grounding architecture of this product is DC-isolated (DC-I).
DC-powered products have a nominal operating DC voltage of 48 VDC. Minimal steady state DC operating
voltage is 40.5 VDC. Reference American National Standards Institute (ANSI) T1.315, Table 1.
Standard Warning Statements
This section describes the warning definition and then lists core safety warnings grouped by topic.
Warning
This warning symbol means danger. You are in a situation that could cause bodily injury. Before you
work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with
standard practices for preventing accidents. Use the statement number provided at the end of each warning
to locate its translation in the translated safety warnings that accompanied this device.
Note: SAVE THESE INSTRUCTIONS Statement 1071
General Safety Warnings
Warning
Read the installation instructions before you connect the system to its power source. Statement 1004
Warning
Ultimate disposal of this product should be handled according to all national laws and regulations. Statement
1040
Warning
No user-serviceable parts inside Do not open. Statement 1040
Warning
Installation of the equipment must comply with local and national electrical codes. Statement 1074
Warning
To comply with the Class A emissions requirements shielded twisted pair T1/E1 cables must be used for
SPA-8-Port Channelized T1/E1 SPA (SPA-8XCHT1/E1) on the Cisco ASR 1006, ASR 1004, and ASR
1002. EN55022/CISPR22 Statement
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Preparing Your Site for Installation
General Safety Warnings
Warning
To comply with Class A emissions requirements- shielded management Ethernet, CON, and AUX cables
on the Cisco ASR 1002 Router must be used.
Warning
Power cable and AC adapter - When installing the product, please use the provided or designated connection
cables/power cables/AC adaptors. Using any other cables or adapters could cause a malfunction or a fire.
Electrical Appliance and Material Safety Law prohibits the use of certified cables (that have the ‘UL’
shown on the code) for any other electrical devices than products designated by Cisco. The use of cables
that are certified by Electrical Appliance and Material Safety Law (that have ‘PSE’ shown on the code) is
not limited to Cisco-designated products. Statement 371
Warning
Only trained and qualified personnel should be allowed to install or replace this equipmentStatement 1030
Warning
This product relies on the building’s installation for short-circuit (overcurrent) protection. Ensure that the
protective device is rated not greater than: AC power supplies for the Cisco ASR 1004 Router, Cisco ASR
1006 Router, and Cisco ASR 1002 Router: 120 VAC, 20A U.S. maximum. DC power supplies for the
Cisco ASR 1004 Router: 40A U.S. maximum. DC power supplies for the Cisco ASR 1006 Router: 50A
U.S. maximum. DC power supplies for the ASR 1002 Router: 30A U.S. maximum. Statement 1005
Warning
This product requires short-circuit (overcurrent) protection to be provided as part of the building installation.
Install only in accordance with national and local wiring regulations. Statement 1045
Warning
This unit may have more than one power supply connection. All connections must be removed to
de-energize the unit. Statement 1028
Warning
This unit is intended for installation in restricted access areas. A restricted access area can be accessed
only through the use of a special tool, lock and key, or other means of security. Statement 1017
Warning
The plug-socket combination must be accessible at all times, because it serves as the main disconnecting
device. Statement 1019
Warning
Hazardous voltage or energy may be present on the DC power terminals. Always replace cover when
terminals are not in service. Be sure uninsulated conductors are not accessible when cover is in place.
Statement 1075
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Preparing Your Site for Installation
General Safety Warnings
Warning
Use copper conductors only. Statement 1025
Warning
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority
or an electrician if you are uncertain that suitable grounding is available. Statement 1024
Warning
Hazardous voltage or energy is present on the backplane when the system is operating. Use caution when
servicing. Statement 1034
Warning
Class 1 laser product. Statement 1008
Warning
Class 1 LED product. Statement 1027
Warning
Laser radiation is present when the system is open. Statement 1009
Warning
Do not stare into the laser beam. Statement 1010
Warning
Class I(CDRH) and Class 1M (IEC) laser products. Statement 1055
Warning
Invisible laser radiation may be emitted from the end of the unterminated fiber cable or connector. Do not
view directly with optical instruments. Viewing the laser output with certain optical instruments (for
example, eye loupes, magnifiers, and microscopes) within a distance of 100 mm may pose an eye hazard.
Statement 1056
Warning
There is the danger of explosion if the battery is replaced incorrectly. Replace the battery only with the
same or equivalent type recommended by the manufacturer. Dispose of used batteries according to the
manufacturer’s instructions. Statement 1015
Warning
Do not touch or bridge the metal contacts on the battery. Unintentional discharge of the batteries can cause
serious burns. Statement 341
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Preparing Your Site for Installation
Site Planning
Warning
To prevent personal injury or damage to the chassis, never attempt to lift or tilt the chassis using the
handles on modules (such as power supplies, fans, or cards); these types of handles are not designed to
support the weight of the unit. Statement 1032
Warning
To prevent the system from overheating, do not operate it in an area that exceeds the maximum
recommended ambient temperature of: 40 degrees C. Statement 1047
Warning
This equipment must be externally grounded using a customer-supplied ground wire before power is
applied. Contact the appropriate electrical inspection authority or an electrician if you are uncertain that
suitable grounding is available. Statement 366
Warning
Blank faceplates and cover panels serve three important functions: they prevent exposure to hazardous
voltages and currents inside the chassis; they contain electromagnetic interference (EMI) that might disrupt
other equipment; and they direct the flow of cooling air through the chassis. Do not operate the system
unless all cards, faceplates, front covers, and rear covers are in place. Statement 1029
Site Planning
This section contains site planning information, and will help you plan for the installation of the Cisco ASR
1000 Series Routers.
General Precautions
Observe the following general precautions when using and working with your Cisco ASR 1000 Series Routers.
• Keep your system components away from radiators and heat sources and do not block cooling vents.
• Do not spill food or liquids on your system components and never operate the product in a wet
environment.
• Do not push any objects into the openings of your system components. Doing so can cause fire or electric
shock by shorting out interior components.
• Position system cables and power supply cables carefully. Route system cables and the power supply
cable and plug so that they cannot be stepped on or tripped over. Be sure that nothing else rests on your
system component cables or power cable.
• Do not modify power cables or plugs. Consult a licensed electrician or your power company for site
modifications. Always follow your local and national wiring rules.
• If you turn off your system, wait at least 30 seconds before turning it on again to avoid system component
damage.
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Preparing Your Site for Installation
Site Selection Guidelines
Site Selection Guidelines
The Cisco ASR 1000 Series Routers require specific environmental operating conditions. Temperature,
humidity, altitude, and vibration can affect the performance and reliability of the router. The following sections
provide specific information to help you plan for the proper operating environment.
The Cisco ASR 1000 Series Routers are designed to meet the industry EMC, safety, and environmental
standards described in the Regulatory Compliance and Safety Information for the Cisco ASR 1000 Series
Aggregation Services Routers document.
Site Environmental Requirements
Environmental monitoring in the Cisco ASR 1000 Series router protects the system and components from
damage caused by excessive voltage and temperature conditions. To ensure normal operation and avoid
unnecessary maintenance, plan and prepare your site configuration before installation. After installation, make
sure the site maintains the environmental characteristics as shown in the following table.
Table 40: Cisco ASR 1000 Series Router Environmental Tolerances
Environmental Characteristic
Minimum
Maximum
Steady State Operating
0 degree C
50 degree C
(50 degrees C at 10,000 feet)
Storage
–20 degrees C
+70 degrees C
Humidity operating
(noncondensing)
10%
90%
Humidity nonoperating
(noncondensing)
5%
95%
Altitude operating: over allowable –500 feet
temperature range (0 to 50 degrees
C)
Altitude, nonoperating: over
allowable temperature range
10,000 feet
–1000 feet
50,000 feet
Thermal shock non-operating with –25 degrees C
change over time of 3 minute
+70 degrees C
Thermal Shock - Operating at 2.5 0 degrees C
degree C per minute
+50 degrees C
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Site Selection Guidelines
Physical Characteristics
Be familiar with the physical characteristics of the Cisco ASR 1000 Series Router to assist you in placing the
system at the proper location.
For information regarding rack widths supported for ASR 1000 Routers, see the following sections:
19 in.— General Rack Selection Guidelines, on page 128
23 in.—Guidelines for 23 in. (Telco) Racks, on page 128
The following table shows the weight and dimensions of the Cisco ASR 1000 Series Routers.
Table 41: Physical Characteristics of Cisco ASR 1000 Series Routers
Characteristic
Cisco ASR 1001 Cisco ASR 1002, Cisco ASR 1004 Cisco ASR 1006 Cisco ASR 1013
1002-F, and
2
1002-X
Height
1.71 in. (43.43
mm) —1RU;
rack-mount per
EIA RS-310
Width
Depth
3.47 in. (88.13
mm) —2RU;
rack-mount per
EIA RS-310
6.95 in. (176.53
mm)—4RU;
rack-mount per
EIA RS-310
10.47 in.
(265.43
mm)—6RU;
rack-mount per
EIA RS-310
22.75 in. (57.8
cm)—13 RU
17.3 in. (439.42 17.25 in.
mm)
(438.15 mm)
17.25 in.
(438.15 mm)
17.25 in.
(438.15 mm)
17.25 in.
(438.15 mm)
22.50 in. (571.5
mm) Depth
includes
cable-management
brackets; card
and
power-supply
handles for
mounting in a
600mm-enclosed
cabinet.
22.50 in. (571.5
mm) Depth
includes
cable-management
brackets; card
and
power-supply
handles for
mounting in a
600mm-enclosed
cabinet.
22.50 in. (571.5
mm) Depth
includes
cable-management
brackets; card
and
power-supply
handles for
mounting in a
600mm-enclosed
cabinet.
22.60 in. (600.2
mm) Depth
includes
cable-management
brackets; card
and
power-supply
handles for
mounting in a
600mm-enclosed
cabinet
"hardware-platform
= Comment">.
20.75 in.
(527.05 mm)
Depth includes
cable-management
brackets; card
and
power-supply
handles for
mounting in a
600mm-enclosed
cabinet
"hardware-platform
= Comment">.
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Preparing Your Site for Installation
Site Selection Guidelines
Characteristic
Weight
Cisco ASR 1001 Cisco ASR 1002, Cisco ASR 1004 Cisco ASR 1006 Cisco ASR 1013
1002-F, and
2
1002-X
• 23.30 lb
(10.6 kg)
(with dual
AC power
and
integrated
daughter
card)
• 22.70 lb
(10.3 kg)
(with dual
DC power
and
integrated
daughter
card)
• 25 lb
(11.35 kg)
fully
loaded
50 lb (22.679
75 lb (34.019
• 40 lb
kg) fully loaded kg) fully loaded
(18.143
kg) for a
fully
loaded
Cisco
ASR 1002
Router or
Cisco
ASR
1002-F
Router
• 43.35 lb
(19.662
kg) for a
fully
loaded
Cisco
ASR
1002-X
Router
• Loaded
with AC
power
supply —
184 lb
(83.46 kg)
• Loaded
with DC
power
supply —
190.6 lb
(86.45 kg)
• Total
weight
with
superslots
— 202 lb
(91.62 kg)
with AC
and 208.60
lb (94.61
kg) with
DC
2 Unless otherwise noted, the physical characteristics for the Cisco ASR 1002-F Router and Cisco ASR 1002-X Router remain the same as those for the Cisco
ASR 1002 Router.
The following list describes additional Cisco ASR 1000 Series chassis characteristics:
• Cisco ASR 1001 Router:
◦Chassis height meets EIA-310 rack spacing 1RU (1.71 in./43.43 mm), universal rack-mount
◦Chassis width meets EIA-310 19-in. (17.3 in./439.42 mm) wide with rack brackets
◦Cable-management brackets allow a bend radius of 1.5 in. (38.1 mm) for cables
◦Ships with forward rack-mount brackets installed and an extra set included in the accessory kit
• Cisco ASR 1002 Router and Cisco ASR 1002-X Router:
◦Chassis height meets EIA-310 rack spacing 2RU (3.47 in./ 88.138 mm), universal rack-mount
◦Chassis width meets EIA-310 19-in. (17.25 in./438.15 mm) wide with rack brackets
◦Cable-management brackets at the Cisco ASR 1002 Router location can hold 16 ports of STP/UTP
RJ 45 cables
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Floor Loading Considerations
◦Cable-management brackets allow a bend radius of 1.5 in. (38.1 mm) for cables
◦Adjustable rack-mount brackets allow for a front to rear rail variance distance of 15.50 in./394 mm
to 19.00 in./482.6 mm
• Cisco ASR 1004 Router:
◦Chassis height meets EIA-310 rack spacing 4RU (6.95 in./176.53 mm), universal rack-mount
◦Chassis width meets EIA-310 19-in. (17.25 in./438.15 mm) wide with rack brackets
◦Cable-management brackets at each Cisco ASR 1000 Series SPA Interface (SIP) locations can
hold 16 ports of STP/UTP RJ 45 cables
◦Cable-management brackets allow a bend radius of 1.5 in. (38.1 mm) for cables
◦Adjustable rack-mount brackets allow for a front to rear rail variance distance of 15.50 in./394 mm
to 19.00 in. /482.6 mm
• Cisco ASR 1006 Router:
◦Chassis height meets EIA-310 rack spacing 6RU (10.47 in./266 mm), universal rack-mount
◦Chassis width meets EIA-310 19-in. (17.25 in./438.15 mm) wide with rack brackets
◦Cable-management brackets at each Cisco ASR 1000 Series SPA Interface (SIP) locations can
hold 16 ports of STP/UTP RJ 45 cables
◦Cable-management brackets allow a bend radius of 1.5 in. (38.1 mm) for cables
◦Adjustable rack-mount brackets allow for a front to rear rail variance distance of 15.50/394mm to
19.00/482.6mm
• Cisco ASR 1013 Router:
◦Chassis height meets EIA-310 rack spacing 13RU (22.8 in./579.12 mm), universal rack-mount
◦Chassis width meets EIA-310 19-in. (17.25 in./438.15 mm) wide with rack brackets
◦Cable-management brackets allow a bend radius of 1.5 in. (38.1 mm) for cables
◦Adjustable rack-mount brackets allow for a front to rear rail variance distance of 15.50/394mm to
19.00 in./482.6 mm
◦Ships with forward rack-mount brackets installed and an extra set in the accessory kit
Floor Loading Considerations
Ensure that the floor under the rack supporting the Cisco 1000 Series Routers is capable of supporting the
combined weight of the rack and all other installed equipment.
To assess the weight of the fully configured Cisco 1000 Series Router respectively, refer to the table in Physical
Characteristics, on page 120 section.
For additional information about floor loading requirements, consult the document GR-63-CORE, Network
Equipment Building System (NEBS) Requirements: Physical Protection .
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Site Power Guidelines
Site Power Guidelines
The Cisco ASR 1000 Series Routers have specific power and electrical wiring requirements. Adhering to
these requirements ensures reliable operation of the system. Follow these precautions and recommendations
when planning your site for the Cisco ASR 1000 Series Router:
• The redundant power option provides a second, identical power supply to ensure that power to the chassis
continues uninterrupted if one power supply fails or input power on one line fails.
• In systems configured with the redundant power option, connect each of the two power supplies to a
separate input power source. If you fail to do this, your system might be susceptible to total power failure
due to a fault in the external wiring or a tripped circuit breaker.
• To prevent a loss of input power, be sure the total maximum load on each circuit supplying the power
supplies is within the current ratings of the wiring and breakers.
• Check the power at your site before installation and periodically after installation to ensure that you are
receiving clean power. Install a power conditioner if necessary.
• Provide proper grounding to avoid personal injury and damage to the equipment due to lightning striking
power lines or due to power surges. The chassis ground must be attached to a central office or other
interior ground system.
Caution
This product requires short-circuit (overcurrent) protection, to be provided as part of the building installation.
Install only in accordance with national and local wiring regulations.
Note
The Cisco ASR 1000 Series Router installation must comply with all applicable codes and is approved
for use with copper conductors only. The ground bond fastening hardware should be of compatible material
and preclude loosening, deterioration, and electrochemical corrosion of hardware and joined material.
Attachment of the chassis ground to a central office or other interior ground system must be made with
an AWG #6 gauge wire, copper ground conductor at a minimum.
Electrical Circuit Requirements
Each Cisco 1000 Series Router requires a dedicated electrical circuit. If you equip it with dual power feeds,
provide a separate circuit for each power supply to avoid compromising the power redundancy feature.
The Cisco ASR 1000 Series Routers can be powered by a DC or AC source. Ensure that the equipment
grounding is present and observe power strip ratings. Make sure that the total ampere rating of all products
plugged into the power strip does not exceed 80% of the rating.
The following table contains specifications for DC-powered systems for all Cisco ASR 1000 Series Routers.
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Site Power Guidelines
Table 42: Cisco ASR 1000 Series Router DC Power Supply System Input Requirements
Cisco ASR 1000 System Input
Series Router
Rating (Amps)
DC Power
Supply
Circuit Breaker AWG # Wire
Amps
Minimum
Maximum
Minimum
Maximum
Cisco ASR 1006 40
Always 50
Always AWG
#6 wire
Cisco ASR 1004 24
30
40
10
8
Cisco ASR 1002 16
20
30
12
10
Cisco ASR 1013 40
Always 50
Always AWG
#6 wire
Cisco ASR 1001 14
20
30
10
10
For example, the
Cisco ASR 1002
Router DC
power supply,
with 16 Amp
input rating
must use an
AWG #12 gauge
wire for a 20 A
circuit breaker
and an AWG
#10 gauge wire
for a 30 A
circuit breaker.
Note
All Cisco ASR 1000 Series Router AC power supplies require a 20 A circuit breaker.
The AC and DC power supplies for the Cisco ASR 1000 Series Routers support different types of power
supply switches.
The following table lists AC and DC power supply system rating requirements for all Cisco ASR 1000 Series
Routers.
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Site Cabling Guidelines
Table 43: AC and DC Power Supply System Rating Specifications for the Cisco ASR 1000 Series Routers
Description
Specification
Power supply declared ratings
AC = 100-240 VAC
DC = –48/ –60 VDC
Line frequency rating
50/60 Hz for AC power supplies
Site Cabling Guidelines
This section contains guidelines for wiring and cabling at your site. When preparing your site for network
connections to the Cisco 1000 Series Router, consider the type of cable required for each component, and the
cable limitations. Consider the distance limitations for signaling, EMI, and connector compatibility. Possible
cable types are fiber, thick or thin coaxial, foil twisted-pair, or unshielded twisted-pair cabling.
Also consider any additional interface equipment you need, such as transceivers, hubs, switches, channel
service units (CSUs), or data service units (DSUs).
Before you begin, read these important notes about cabling:
• The E1 interface on the Cisco 8-Port Channelized T1/E1 SPA interface uses RJ-48c receptacles for E1
(120-Ohm) cables with RJ-45 connectors. You can use all ports simultaneously. Each E1 connection
supports interfaces that meet the G.703 standards. The RJ-45 connection does not require an external
transceiver. The E1 ports are E1 interfaces that use 120-ohm shielded twisted-pair (STP) cables.
• Shielded cables must be used to connect to the DB-25 alarm connector on both the AC and DC power
supplies in order to comply with FCC/EN55022/CISPR22 Class A emissions requirements. For
information about the power supply DB-25 alarm connector and alarm LEDs, see the xref “How Cisco
ASR1000-RP Alarm Monitoring Works” section on page 2-22 .
Warning
Shielded T1/E1 cables must be used to comply with FCC/EN55022/CISPR22 Class A emissions
requirements on the 8-port channelized T1/E1 SPA interface.
Before you install the Cisco 1000 Series Router, have all additional external equipment and cables on hand.
For ordering information, contact a customer service representative.
The extent of your network and the distances between network interface connections depend in part on the
following factors:
• Signal type
• Signal speed
• Transmission medium
The distance and rate limits referenced in the following sections are the IEEE-recommended maximum speeds
and distances for signaling purposes. Use this information as a guideline in planning your network connections
>prior to installing the Cisco 1000 Series Router.
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Site Cabling Guidelines
If wires exceed recommended distances, or if wires pass between buildings, give special consideration to the
effect of a lightning strike in your vicinity. The electromagnetic pulse caused by lightning or other high-energy
phenomena can easily couple enough energy into unshielded conductors to destroy electronic devices. If you
have had problems of this sort in the past, you may want to consult experts in electrical surge suppression and
shielding.
Asynchronous Terminal Connections
The route processors provide a console port to connect a terminal or computer for local console access. The
route processors also provide an auxiliary port for additional connections and for diagnostic use.
Both ports have RJ-45 connectors, support RS-232 asynchronous data, and have distance recommendations
specified in the IEEE RS-232 standard.
Interference Considerations
When wires are run for any significant distance, there is a risk that stray signals will be induced on the wires
as interference. If interference signals are strong, they can cause data errors or damage to the equipment.
The following sections describe sources of interference and how to minimize its effects on the Cisco ASR
1000 Series Router system.
Electromagnetic Interference
All equipment powered by AC current can propagate electrical energy that can cause electromagnetic
interference (EMI) and possibly affect the operation of other equipment. The typical sources of EMI are
equipment power cords and power service cables from electric utility companies.
Strong EMI can destroy the signal drivers and receivers in the Cisco ASR 1000 Series Router and even create
an electrical hazard by causing power surges through power lines into installed equipment. These problems
are rare, but could be catastrophic.
To resolve these problems, you need specialized knowledge and equipment, which could consume substantial
time and money. However, you should ensure that you have a properly grounded and shielded electrical
environment, paying special attention to the need for electrical surge suppression.
The following table lists electrode magnetic compliance standards for the Cisco ASR 1000 Series Routers.
Table 44: EMC Standards
EMC Standards
FCC 47 CFR Part 15 Class A
VCCI Class A
AS/NSZ Class A
ICES-003 Class A
EN55022/CISPR 22 Information Technology
Equipment (Emissions)
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Rack-Mounting Guidelines
EN55024/CISPR 24 Information Technology
Equipment (Immunity)
EN300 386 Telecommunications Network Equipment
(EMC)
EN50082-1/EN61000-6-1 Generic Immunity Standard
UL60950-1
CE marking
CSA C22.2 No. 60950-1-03
EN 60950-1
IEC 60950-1
AS/NZS 60950.1
Radio Frequency Interference
When electromagnetic fields act over a long distance, radio frequency interference (RFI) can be propagated.
Building wiring can often act as an antenna, receiving the RFI signals and creating more EMI on the wiring.
If you use twisted-pair cable in your plant wiring with a good distribution of grounding conductors, the plant
wiring is unlikely to emit radio interference. If you exceed the recommended distances, use a high-quality
twisted-pair cable with one ground conductor for each data signal.
Lightning and AC Power Fault Interference
If signal wires exceed recommended cabling distances, or if signal wires pass between buildings, you should
consider the effect that a lightning strike in your vicinity might have on the Cisco ASR 1000 Series Router.
The electromagnetic pulse (EMP) generated by lightning or other high-energy phenomena can couple enough
energy into unshielded conductors to damage or destroy electronic equipment. If you have previously
experienced such problems, you should consult with RFI/EMI experts to ensure that you have adequate
electrical surge suppression and shielding of signal cables in your Cisco ASR 1000 Series Router operating
environment.
Rack-Mounting Guidelines
This section describes guidelines on rack-mounting.
Precautions for Rack-Mounting
The following rack-mount guidelines are provided to ensure your safety:
• Do not move large racks by yourself. Due to the height and weight of a rack, a minimum of two people
are required to accomplish this task.
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Rack-Mounting Guidelines
• Ensure that the rack is level and stable before extending a component from the rack.
• Ensure that proper airflow is provided to components in the rack.
• Do not step or stand on any component or system when servicing other systems or components in a rack.
• When mounting the Cisco ASR 1000 Series Router in a partially filled rack, load the rack from the
bottom to the top with the heaviest component at the bottom of the rack.
• If the rack is provided with stabilizing devices, then install the stabilizers before mounting or servicing
the unit in the rack.
General Rack Selection Guidelines
Cisco ASR 1000 Series Routers can be mounted in most two-post or four-post, 19-in. equipment racks that
comply with the Electronics Industries Association (EIA) standard for equipment racks (EIA-310-D 19-in.).
The rack must have at least two posts with mounting flanges to mount the chassis.
Caution
When mounting a chassis in any type of rack equipment, ensure that the inlet air to the chassis does not
exceed 131°F (55°C).
The distance between the center lines of the mounting holes on the two mounting posts must be 18.31 in. ±
0.06 in. (46.50 cm ± 0.15 cm). The rack-mounting hardware included with the chassis is suitable for most
19-in. equipment racks.
Consider installing the Cisco ASR 1000 Series Router in a rack with the following features:
• NEBS compliant, 19-in. (48.3 cm) wide rack.
• EIA or ETSI hole patterns in the mounting rails. Required mounting hardware is shipped with the Cisco
ASR 1000 Series Router. If the rack that you plan to install the system in has metric-threaded rails, you
must provide your own metric mounting hardware.
• Perforated top and open bottom for ventilation to prevent overheating.
• Leveling feet for stability.
Note
The Cisco ASR 1000 Series Router should not be installed in an enclosed rack because the chassis requires
an unobstructed flow of cooling air to maintain acceptable operating temperatures for its internal
components. Installing the router in any type of enclosed rack—even with the front and back doors removed
—could disrupt the air flow, trap heat next to the chassis, and cause an overtemperature condition inside
the router. If you use an enclosed rack, make certain that there are air vents on all sides of the rack and
there is proper ventilation.
Guidelines for 23 in. (Telco) Racks
If needed, you can also install the Cisco ASR 1000 Series Routers in 23 in. (Telco) racks. For information on
adapters needed for 23 in. racks, please contact the Newton Instrument Company:
• http://www.enewton.com
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Rack-Mounting Guidelines
• 111 East A Street, Butner NC, USA, 27509
• 919 575-6426
Equipment Rack Guidelines
The placement of the rack can affect personnel safety, system maintenance, and the system ability to operate
within the environmental characteristics described in the Site Environmental Requirements topic. Choose a
proper location for the Cisco ASR 1000 Series Router by following the guidelines below.
Locating for Safety
If the Cisco ASR 1000 Series Router is the heaviest or the only piece of equipment in the rack, consider
installing it at or near the bottom to ensure that the rack center of gravity is as low as possible.
For additional information about the proper placement of electronic equipment, see the document GR-63-CORE,
Network Equipment Building System (NEBS) Requirements: Physical Protection.
Locating for Easy Maintenance
Keep at least 3 feet of clear space in front and behind the rack. This space ensures that you can remove the
Cisco ASR 1000 Series Router components and perform routine maintenance and upgrades easily.
Avoid installing the Cisco ASR 1000 Series Router in a congested rack and consider how the routing of cables
from other pieces of equipment in the same rack could affect access to the routers cards.
The front and top of the chassis must remain unobstructed to ensure adequate airflow and prevent overheating
inside the chassis.
Allow the following clearances for normal system maintenance:
• At the top of the chassis—At least 3 in. (7.6 cm)
• In the front of the chassis—3 to 4 ft (91.44 cm to 121.92 cm)
Note
When installing the Cisco ASR 1013 chassis in a 42RU equipment rack, allow at least one to two inches
(2.54 cm to 5.08 cm) of vertical clearance between the router and any equipment above or below it.
To avoid problems during installation and ongoing operation, follow these general precautions when you plan
the equipment locations and connections:
• Use the show environment all command regularly to check the internal system status. The environmental
monitor continually checks the interior chassis environment; it provides warnings for high temperature
and creates reports on any occurrences. If warning messages are displayed, take immediate action to
identify the cause and correct the problem.
• Keep the Cisco ASR 1000 Series Router off the floor and out of areas that collect dust.
• Follow ESD prevention procedures to avoid damage to equipment. Damage from static discharge can
cause immediate or intermittent equipment failure.
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Site Planning Checklist
Locating for Proper Airflow
Ensure the location of the Cisco 1000 Series Router has enough airflow to keep the system operating within
the environmental characteristics and the air temperature is sufficient to compensate for the heat dissipated
by the system.
Avoid locating the Cisco 1000 Series Router in a location in which the chassis air intake vents could draw in
the exhaust air from adjacent equipment. Consider how the air flows through the Cisco 1000 Series Router.
The Cisco 1000 Series Router airflow direction is front to back with ambient air drawn in from the venting
located on the chassis front sides.
Site Planning Checklist
Use the following checklist to perform and account for all the site-planning tasks described in this chapter:
• The site meets the environmental requirements.
• The site air conditioning system can compensate for the heat dissipation of the Cisco ASR 1000 Series
Routers.
• The floor space that the Cisco ASR 1000 Series Routers occupy can support the weight of the system).
• Electrical service to the site complies with the requirements.
• The electrical circuit servicing the Cisco ASR 1000 Series Routers complies with the requirements).
• Consideration has been given to the console port wiring, and limitations of the cabling involved, according
to TIA/EIA-232F.
• The Cisco ASR 1000 Series Router Ethernet cabling distances are within limitations.
• The equipment rack in which you plan to install the Cisco ASR 1000 Series chassis complies with
requirements.
• Careful consideration has be given to safety, ease of maintenance, and proper airflow in selecting the
location of the rack.
Preventing Electrostatic Discharge Damage
Electrostatic discharge (ESD) damage, occurs when electronic cards or components are improperly handled
and can result in complete or intermittent failures. The performance routing engine (PRE), and all line cards
consist of a printed circuit card that is fixed in a metal carrier. Electromagnetic interference (EMI) shielding
and connectors are integral components of the carrier. Although the metal carrier helps to protect the cards
from ESD, use an antistatic strap each time you handle the modules. Handle the carriers by the edges only;
never touch the cards or connector pins.
Caution
Always tighten the captive installation screws on all system components when you are installing them.
These screws prevent accidental removal of the module, provide proper grounding for the system, and
help to ensure that the bus connectors are properly seated in the backplane.
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Electrical Safety
Static electricity can harm delicate components inside your system. To prevent static damage, discharge static
electricity from your body before you touch any of your system components, such as an microprocessor. As
you continue to work on your system, periodically touch an unpainted metal surface on the computer chassis.
Following are guidelines for preventing ESD damage:
• Always use an ESD-preventive wrist or ankle strap and ensure that it makes good skin contact. Before
removing a card from the chassis, connect the equipment end of the strap to the ESD plug at the bottom
of the chassis below the power entry modules.
• Handle line cards by the faceplates and carrier edges only; avoid touching the card components or any
connector pins.
• When removing a card, place the removed module component-side-up on an antistatic surface or in a
static-shielding bag. If the module will be returned to the factory, immediately place it in a static-shielding
bag.
• Avoid contact between the modules and clothing. The wrist strap protects the card from ESD voltages
on the body only; ESD voltages on clothing can still cause damage.
• When transporting a sensitive component, first place it an antistatic container or packaging.
• Handle all sensitive components in a static-safe area. If possible, use antistatic floor pads and workbench
pads.
Caution
For safety, periodically check the resistance value of the antistatic strap. The measurement should be
between 1 and 10 ohms.
Caution
Always tighten the captive installation screws on all the system components when you are installing them.
These screws prevent accidental removal of the module, provide proper grounding for the system, and
help ensure that the bus connectors are properly seated in the backplane.
Note
The ESD strap socket can be in a different location on each Cisco ASR 1000 Series Router.
Electrical Safety
All system components are hot-swappable. They are designed to be removed and replaced while the system
is operating without presenting an electrical hazard or damage to the system.
Follow these basic guidelines when you are working with any electrical equipment:
• Before beginning any procedures requiring access to the chassis interior, locate the emergency power-off
switch for the room in which you are working.
• Disconnect all power and external cables before installing or removing a chassis.
• Do not work alone when potentially hazardous conditions exist.
• Never assume that power has been disconnected from a circuit; always check.
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Receiving the Cisco ASR 1000 Series Router
• Do not perform any action that creates a potential hazard to people or makes the equipment unsafe.
Never install equipment that appears damaged.
• Carefully examine your work area for possible hazards such as moist floors, ungrounded power extension
cables, and missing safety grounds.
In addition, use the guidelines that follow when working with any equipment that is disconnected from a
power source but is still connected to telephone wiring or other network cabling.
• Never install telephone wiring during a lightning storm.
• Never install telephone jacks in wet locations unless the jack is specifically designed for wet locations.
• Never touch uninsulated telephone wires or terminals unless the telephone line has been disconnected
at the network interface.
• Use caution when installing or modifying telephone lines.
Warning
Do not work on the system or connect or disconnect cables during periods of lightning activity. Statement
1006
Receiving the Cisco ASR 1000 Series Router
Each Cisco ASR 1000 Series chassis is shipped in a container that is strapped to a pallet as illustrated in the
following figure.
Figure 33: Cisco ASR 1000 Series Router Packaged for Shipping
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Chassis-Lifting Guidelines
Note
1
Outside carton
3
Packing straps
2
Pallet
—
—
We recommend that you have at least two people available to help with the installation and ensure safe
lifting.
Chassis-Lifting Guidelines
The chassis is not intended to be moved frequently. Before you install the system, ensure that your site is
properly prepared so you can avoid having to move the chassis later to accommodate power sources and
network connections.
Two or more people are required to lift the chassis. Each time you lift the chassis or any heavy object, follow
these guidelines:
• Never attempt to lift the chassis by yourself. Because of the size and weight of the chassis, use at least
two people to safely lift and move it without causing injury to yourself or damaging the equipment.
• Ensure that your footing is solid, and balance the weight of the chassis between your feet.
• Lift the chassis slowly; never move suddenly or twist your body as you lift.
• Keep your back straight and lift with your legs, not your back. If you must bend down to lift the chassis,
bend at the knees, not at the waist, to reduce the strain on your back muscles.
• Do not remove installed components from the chassis.
• Always disconnect all external cables before lifting or moving the chassis.General Safety Guidelines.
Warning
To prevent injury and equipment damage, never attempt to lift or tilt the router chassis using the handles
on the fan tray or on line cards. These handles do not support the weight of the chassis.
SUMMARY STEPS
1. Each person should stand on either side of the chassis and place one hand under the air intake at the bottom
front of the chassis.
2. With the other hand, grasp the top rear of the chassis under the air exhaust and carefully lift the chassis.
DETAILED STEPS
Step 1
Step 2
Each person should stand on either side of the chassis and place one hand under the air intake at the bottom front of the
chassis.
With the other hand, grasp the top rear of the chassis under the air exhaust and carefully lift the chassis.
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Tools and Equipment
Tools and Equipment
The tools and equipment listed below are recommended as the minimum necessary to install the Cisco ASR
1000 Series Router. You may need additional tools and equipment to install associated equipment and cables.
You may also require test equipment to check electronic and optical signal levels, power levels, and
communications links.
• Phillips hand screwdriver
• 3.5mm flat-blade screwdriver
• Tape measure (optional)
• Level (optional)
• Power drill
• 8-gauge wire
• Rack-mount brackets
• Cable-management brackets
Unpacking and Verifying Shipping Contents
When you receive your chassis, perform the following steps and use the shipping contents checklist from the
next section:
SUMMARY STEPS
1.
2.
3.
4.
Inspect the box for any shipping damage. (if there is damage contact your service representative).
Unpack the Cisco ASR 1000 Series Router.
Perform a visual inspection of the chassis.
After you have unpacked the system verify that you have received all of the required components. Using
the packing list as a guide, take the following steps to check the contents of the Cisco ASR 1000 Series
Router shipping container:
5. Check the contents of the boxes containing accessory items. Verify that you have received all equipment
listed in your order.
6. Check that all Cisco ASR 1000 Series route processors, Cisco ASR 1000 Series embedded services
processors, Cisco ASR 1000 Series SPA interface processors (SIPs), and power supplies you ordered are
installed in the chassis. Ensure that the configuration matches the packing list.
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Checking the Shipping Container Contents
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Inspect the box for any shipping damage. (if there is damage contact your service representative).
Unpack the Cisco ASR 1000 Series Router.
Perform a visual inspection of the chassis.
After you have unpacked the system verify that you have received all of the required components. Using the packing
list as a guide, take the following steps to check the contents of the Cisco ASR 1000 Series Router shipping container:
Check the contents of the boxes containing accessory items. Verify that you have received all equipment listed in your
order.
Check that all Cisco ASR 1000 Series route processors, Cisco ASR 1000 Series embedded services processors, Cisco
ASR 1000 Series SPA interface processors (SIPs), and power supplies you ordered are installed in the chassis. Ensure
that the configuration matches the packing list.
Checking the Shipping Container Contents
Use the components list shown in the following table to check the contents of the Cisco ASR 1000 Series
Router shipping container. Do not discard the shipping container. You need the container if you move or ship
the Cisco ASR 1000 Series Router in the future.
Table 45: Cisco ASR 1000 Series Router Shipping Container Contents
Component
Description
Chassis
Cisco ASR 1000 Series Router configured with dual
AC or dual DC power supplies and a shared port
adapter blank panel if a shared port adapter has not
been ordered.
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Cisco ASR 1000 Series Router Installation Checklist
Component
Description
Accessories Kit
Front and rear chassis rack-mount brackets that you
will attach to the chassis with the respective screws
Note
You must order the Accessories Kit
separately if you order the Cisco ASR
1009-X Router or Cisco ASR 1006-X Router Three sets of screws, one set for:
chassis as a spare.
• Front rack-mount brackets (use the black
screws)
• Rear rack-mount brackets (use the package with
the 5 screws)
• Cable-management brackets (use the package
with the 4 screws)
Two cable-management brackets with U-feature
design devices attached, with a different size for each
chassis.
1 RJ-45 to RJ-45 crossover cable
1 RJ-45 to DB-9 (female) adapter
Note
ESD, Wrist Strap (disposable)
One disposable wrist strap
Documentation
Regulatory Compliance and Safety Information for
the Cisco ASR 1000 Series Aggregation Services
Routers at http://www.cisco.com/c/en/us/td/docs/
routers/asr1000/rcsi/asr1rcsi.html.
Optional Equipment
Power cord if an AC power supply was shipped.
There are none for the DC power supply units.
Most Cisco documentation is online or on the Cisco Documentation DVD. Documentation that ships with
your Cisco ASR 1000 Series Router includes the Regulatory Compliance and Safety Information for the
Cisco ASR 1000 Series Aggregation Services Routers document, and the Documentation Roadmap for
Cisco ASR 1000 Series, which provides links and information for the Cisco ASR 1000 Series Aggregation
Services Routers documentation.
Cisco ASR 1000 Series Router Installation Checklist
To assist you with your installation and to provide a historical record of what was done by whom, photocopy
the Cisco ASR 1000 Series Router Installation Checklist shown in the following table. Use this to record
when each procedure or verification is completed. When the checklist is completed, place it in your site log
along with the other records for your new router.
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Cisco ASR 1000 Series Router Installation Checklist
Table 46: Cisco ASR 1000 Series Router Installation Checklist
Task
Verified By
Date
Date chassis received
Chassis and all accessories
unpacked
Types and numbers of interfaces
verified
Safety recommendations and
guidelines reviewed
Installation Checklist copied
Site log established and
background information entered
Site power voltages verified
Site environmental specifications
verified
Required passwords, IP addresses,
device names, and so on, available
Required tools available
Network connection equipment
available
Cable-management brackets
installed (optional, but
recommended)
AC power cable(s) connected to
AC source(s) and router
DC power cable(s) connected to
DC source(s) and router
Network interface cables and
devices connected
System power turned on
System boot complete (STATUS
LED is on)
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Cisco ASR 1000 Series Router Installation Checklist
Task
Verified By
Shared port adapters are
operational
Correct hardware configuration
displayed after system banner
appears
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Date
CHAPTER
6
Cisco ASR 1006 Router Overview and Installation
This chapter describes the Cisco ASR 1006 Router and the procedures for installing the Cisco ASR 1006
Router on an equipment shelf or in equipment racks. It also describes how to connect interface and power
cables.
This chapter contains the following sections:
• Cisco ASR 1006 Router Description, page 139
• Installation Methods, page 143
• General Rack Installation Guidelines, page 143
• Guidelines for an Equipment Shelf or Tabletop Installation, page 145
• Equipment Shelf or Tabletop Installation, page 146
• Rack-Mounting the Cisco ASR 1006 Router, page 148
• Attaching the Chassis Rack-Mount Brackets, page 149
• Installing the Cisco ASR 1006 Router in a Rack, page 153
• Attaching the Cable-Management Brackets, page 158
• Attaching a Chassis Ground Connection, page 161
• Connecting the Shared Port Adapter Cables, page 163
• Connecting the Console and Auxiliary Port Cables, page 163
• Connecting Power to the Cisco ASR 1006 Router, page 165
• Connecting a Terminal to the Cisco ASR 1000 Series RP Console Port, page 176
• Connecting the System Cables, page 179
• Attaching Cable Retention Bracket on AC Power Supply, page 179
Cisco ASR 1006 Router Description
The Cisco ASR 1006 Router supports full-width card modules. It is designed with a single midplane with
connectors on one interface midplane. The Cisco ASR 1006 Router supports:
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Front View
• Three Cisco ASR 1000 Series SPA Interface Processors (SIPs)
• Twelve SPA slots
• Two embedded services processors (Cisco ASR1000-ESP10, Cisco ASR1000-ESP20, Cisco
ASR1000-ESP40, or Cisco ASR1000-ESP100)
Note
Cisco ASR1000-ESP40 and Cisco ASR1000-ESP100 are supported on Cisco ASR 1006 Router only if
Cisco ASR1000-RP2 is installed on the router.
• Two Cisco ASR 1000 Series Route Processors (Cisco ASR1000-RP1 or Cisco ASR1000-RP2
)
• Dual (redundant) AC and DC power supplies
This section contains the following topics:
Front View
The following image shows the Cisco ASR 1006 Router with modules and filler plates installed.
Figure 34: Cisco ASR 1006 Router—Front View
1
Slot R0 with ASR 1000
Series RP
5
ASR 1000 Series SIP slot
0
2
Slot R1 with ASR 1000
Series RP
6
ASR 1000 Series SIP slot
1
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Rear View
3
Slot F0 with ASR 1000
Series ESP
4
Slot F1 with ASR 1000
Series ESP
7
ASR 1000 Series SIP slot
2
Rear View
The following image shows the rear of the Cisco ASR 1006 Router with the ASR1006-PWR-AC power supply
installed.
Figure 35: Cisco ASR 1006 Router Rear View with the AC Power Supply (ASR1006-PWR-AC)
1
AC power supply fan
5
2
AC power supply DB-25 6
alarm connector—A
female DB-25 sub
connector which enables
you to attach an external
alarm monitoring facility
to the router, thus
supporting a telco-style of
handling alarm conditions
in the router.
AC power supply handle
AC power inlet
For a description of the
DB-25 alarm connector,
see the “How Cisco
ASR1000-RP Alarm
Monitoring Works”
section on page 2-22 .
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Rear View
3
Cable tie wrap tabs
7
AC power supply
Standby switch. A
Standby switch is not
considered a disconnect.
4
AC power supply captive 8
screws
AC power supply LEDs
Internal fans draw cooling air into the chassis and across internal components to maintain an acceptable
operating temperature. (See Figure 35: Cisco ASR 1006 Router Rear View with the AC Power Supply
(ASR1006-PWR-AC), on page 141.) The fans are located at the rear of the chassis. A two-hole grounding
lug is located on the side of the chassis. Two power supplies, either two AC power supplies or two DC power
supplies, are accessed from the rear of the router.
Note
You have already unpacked your chassis and read all the site requirements for your new equipment.
Proceed with the installation.
Note
Do not combine AC and DC power supplies in the same chassis.
Warning
This warning symbol means danger. You are in a situation that could cause bodily injury. Before you
work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with
standard practices for preventing accidents. Use the statement number provided at the end of each warning
to locate its translation in the translated safety warnings that accompanied this device. Statement 1071
Warning
Before you install, operate, or service the system, read the Regulatory Compliance and Safety Information
for Cisco ASR 1000 Series Aggregation Services Routers publication. This document provides important
safety information you should know before working with the system. Statement 200
Note
You have already unpacked your chassis and read all the site requirements for your new equipment.
Proceed with the installation.
Cisco ASR 1006 Router Slot Numbering
The Cisco ASR 1006 Router is designed with each slot numbered as shown in Figure 36: Cisco ASR 1006
Router — Slot Numbering, on page 142.
Figure 36: Cisco ASR 1006 Router — Slot Numbering
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Installation Methods
1
Slot RP0 with ASR 1000 5
Series RP1
ASR 1000 Series SIP slot
0
2
Slot RP1 with ASR 1000 6
Series RP1
ASR 1000 Series SIP slot
1
3
Slot FP0 with ASR 1000 7
Series ESP
ASR 1000 Series SIP slot
2
4
Slot FP1 with ASR 1000 —
Series ESP
—
The Cisco ASR 1006 Router contains three Cisco ASR 1000 Series SPA Interfaces (SIPs) that support four
subslots for the installation of SPAs.
Figure 37: Cisco ASR 1006 Router — SIP Subslots, on page 143 shows the Cisco ASR 1006 Router SPA
subslot location.
Figure 37: Cisco ASR 1006 Router — SIP Subslots
Installation Methods
Although rack-mounting is the preferred method of installation for the Cisco ASR 1006 Router, you can
mount the chassis:
• On an equipment shelf or tabletop
• In a19-inch wide (standard), 4-post equipment rack or two-post, using the rack-mount brackets in the
accessory kit
Note
The Cisco ASR 1006 Router usually ships fully loaded. However, you can remove components from the
chassis to make the chassis lighter for your rack installation.
General Rack Installation Guidelines
When planning your rack installation, consider the following guidelines:
• The Cisco ASR 1006 Router requires a minimum of 6 rack units (10.45 inches or 26.6 cm) of vertical
rack space. Measure the proposed rack location before mounting the chassis in the rack.
• Before using a particular rack, check for obstructions (such as a power strip) that could impair rack-mount
installation. If a power strip does impair a rack-mount installation, remove the power strip before installing
the chassis, and then replace it after the chassis is installed.
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General Rack Installation Guidelines
• Allow sufficient clearance around the rack for maintenance. If the rack is mobile, you can push it back
near a wall or cabinet for normal operation and pull it out for maintenance (installing or moving cards,
connecting cables, or replacing or upgrading components). Otherwise, allow 19 inches (48.3 cm) of
clearance to remove field-replaceable units
.
• Maintain a minimum clearance of 3 inches (7.62 cm) for the front and rear of the chassis for proper
chassis cooling. Avoid placing the chassis in an overly congested rack or directly next to another
equipment rack; otherwise, the heated exhaust air from other equipment can enter the inlet air vents and
cause an overtemperature condition inside the router.
• If rack space allows, it is recommended to leave one rack unit (1.75 inch or 4.45 cm) of vertical clearance
between the chassis and any equipment directly above it or below.
Caution
Depending on your installation and co-located equipment power dissipation, it is recommended to have
some air gap between chassis, if space allows, to reduce residual heating from one chassis to another.
• Always install heavier equipment in the lower half of a rack to maintain a low center of gravity to prevent
the rack from falling over.
• Install and use the cable-management brackets included with the Cisco ASR 1006 Router to keep cables
organized and out of the way of the cards and processors. Ensure that cables from other equipment
already installed in the rack do not impair access to the cards or require you to disconnect cables
unnecessarily to perform equipment maintenance or upgrades.
• Install rack stabilizers (if available) before you mount the chassis.
• Provide an adequate chassis ground (earth) connection for your router chassis
.
In addition to the preceding guidelines, review the precautions for avoiding excessive temperature conditions
in the “Electrical Safety” section on page 5-21 .
Table 47: Cisco ASR 1006 Router Dimensions and Weight, on page 144 provides the Cisco ASR 1006 Router
dimensions and weight information.
Table 47: Cisco ASR 1006 Router Dimensions and Weight
Cisco ASR 1006
Dimensions
Depth
22.50 in. (57.15 cm)(including card handles,
cable-management brackets, power supply handles)
Height
10.45 in. (26.543 cm) - 6RU rack-mount per EIA
RS-310 standard
Width
17.25 in. (43.815 cm) - 19 inch rack-mount
Weight
77.1 lb (34.971 kg) - fully configured
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Guidelines for an Equipment Shelf or Tabletop Installation
Guidelines for an Equipment Shelf or Tabletop Installation
The chassis should already be in the area where you will install it. If you have not determined where to install
your chassis, see the “Cisco ASR 1000 Series Routers Component Overview” section on page 2-1 for
information about site considerations.
If you are not rack-mounting your Cisco ASR 1000 series chassis, place it on a sturdy equipment shelf or
tabletop.
When installing the Cisco ASR 1006 Router on an equipment shelf or tabletop, ensure that the surface is clean
and that you have considered the following:
• The Cisco ASR 1006 Router requires at least 3 inches (7.62 cm) of clearance at the inlet and exhaust
vents (the front and top/rear sides of the chassis).
• The Cisco ASR 1006 Router should be installed off the floor. Dust that accumulates on the floor is drawn
into the interior of the router by the cooling fans. Excessive dust inside the router can cause
overtemperature conditions and component failures.
• There must be approximately 19 inches (48.3 cm) of clearance at the front and rear of the chassis to
install and replace FRUs, or to access network cables and equipment
.
• The Cisco ASR 1006 Router needs adequate ventilation. Do not install it in an enclosed cabinet where
ventilation is inadequate.
• Keep the cable-management brackets ready if you plan to install it on the front of the chassis.
• An adequate chassis ground (earth) connection exists for your router chassis (see the Attaching a Chassis
Ground Connection, on page 161).
• Always follow proper lifting practices as outlined in the “Chassis-Lifting Guidelines” section on page
5-23 when handling the chassis
.
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Equipment Shelf or Tabletop Installation
Equipment Shelf or Tabletop Installation
At least two people are required to lift the chassis onto a tabletop or platform. To prevent injury, keep your
back straight and lift with your legs, not your back. Statement 164
Figure 38: Lifting the Chassis
The chassis in the image does not represent the Cisco ASR 1000 Series Router. This is only an example of
how to lift a Cisco chassis.
SUMMARY STEPS
1. Attach the front rack-mount brackets. Locate the threaded holes in the front sides of the chassis (first holes
beyond the vent holes) and use the package of black screws that shipped with the chassis.
2. Align the front rack-mount bracket to one side of the chassis.
3. Insert and tighten the screws on one side.
4. Repeat Step 2 through Step 3 on the other side of the chassis. Use at least 4 screws to secure the rack-mount
brackets to the chassis.
5. Gather the two cable-management brackets and screws shipped with the chassis. The following image
shows the cable-management brackets attached on the front of the Cisco ASR 1006 Router when the
chassis is placed on a table top or equipment shelf.
6. Screw the cable-management bracket to each side of the rack-mount brackets already attached to the
chassis. For each cable-management bracket, use two screws from the package of four screws.
7. Ensure that all the screws are securely tightened.
8. Go to the Attaching a Chassis Ground Connection, on page 161 for instructions about completing the
installation.
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Equipment Shelf or Tabletop Installation
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Attach the front rack-mount brackets. Locate the threaded holes in the front sides of the chassis (first holes beyond the
vent holes) and use the package of black screws that shipped with the chassis.
Align the front rack-mount bracket to one side of the chassis.
Insert and tighten the screws on one side.
Repeat Step 2 through Step 3 on the other side of the chassis. Use at least 4 screws to secure the rack-mount brackets to
the chassis.
Note
The cable-management brackets are installed on the chassis after you install the chassis rack-mount brackets.
Gather the two cable-management brackets and screws shipped with the chassis. The following image shows the
cable-management brackets attached on the front of the Cisco ASR 1006 Router when the chassis is placed on a table
top or equipment shelf.
Note
Make certain that the cable-management ‘U’ feature device has the open end pointing upwards when you attach
it to the chassis.
Figure 39: Attaching the Cable-Management Brackets to the Cisco ASR 1006 Router
1
Cable-management screws
3
Chassis front rack-mount
bracket
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Rack-Mounting the Cisco ASR 1006 Router
2
Step 6
Step 7
Step 8
Cable-management bracket —
—
Screw the cable-management bracket to each side of the rack-mount brackets already attached to the chassis. For each
cable-management bracket, use two screws from the package of four screws.
Ensure that all the screws are securely tightened.
Go to the Attaching a Chassis Ground Connection, on page 161 for instructions about completing the installation.
Rack-Mounting the Cisco ASR 1006 Router
The Cisco ASR 1006 Router can be installed with both front or rear rack-mount brackets. The chassis
rack-mounting flanges are secured directly to the chassis before you lift it into the rack. For installing Cisco
ASR 1006 Router rack-mount brackets, go to:
Verifying Rack Dimensions
Before you install the chassis, measure the space between the vertical mounting flanges (rails) on your
equipment rack to verify that the rack conforms to the measurements shown in the following image.
SUMMARY STEPS
1. Mark and measure the distance between two holes on the left and right mounting rails.
2. Measure the space between the inner edges of the left front and right front mounting flanges on the
equipment rack.
DETAILED STEPS
Step 1
Mark and measure the distance between two holes on the left and right mounting rails.
The distance should measure 18.31 inches ± 0.06 inches (46.5 cm ± 0.15 cm).
Measure for pairs of holes near the bottom, middle and top of the equipment rack to ensure that the rack posts
are parallel.
Measure the space between the inner edges of the left front and right front mounting flanges on the equipment rack.
Note
Step 2
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Attaching the Chassis Rack-Mount Brackets
The space must be at least 17.7 inches (45 cm) to accommodate the chassis which is 17.25 inches (43.8 cm) wide and
fits between the mounting posts on the rack.
Figure 40: Verifying Equipment Rack Dimensions
Attaching the Chassis Rack-Mount Brackets
This section explains how to attach the front and rear rack-mount brackets to the chassis. Before installing
the chassis in the rack, you must install the rack-mount brackets on each side of the chassis.
The parts and tools required for installing the rack-mount brackets and cable-management brackets are listed
in the “Tools and Equipment” section on page 5-23 .
Note
The cable-management brackets are installed on the chassis after you install the chassis rack-mount brackets
and mount the chassis in the rack.
Chassis Front Rack-Mount Brackets
Determine where in the rack you want the chassis to be mounted. If you are mounting more than one chassis
in the rack, then start from the bottom up or the center of the rack. The following image shows the brackets
attached to the chassis. Depending on the bracket holes you use, the chassis may protrude in the rack.
To install the front rack-mount brackets on the Cisco ASR 1006 Router, perform the following steps:
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Chassis Front Rack-Mount Brackets
SUMMARY STEPS
1. Locate the threaded holes on the side of the chassis. Make certain that you hold the front rack-mount
bracket with the ear and holes facing outward and towards the front of the chassis (see the following
image).
2. Position the front rack-mount bracket top hole with the chassis first top hole behind the side vent holes
(see Figure 41: Attaching the Front Rack-Mount Brackets to the Cisco ASR 1006 Router, on page 150).
3. Insert and tighten the black screws on one side.
4. Repeat Step 1 through Step 3 on the other side of the chassis. Use black screws to secure the rack-mount
brackets to the chassis.
5. Install the chassis in the rack. To install the Cisco ASR 1006 Router in a rack, go to the Installing the
Cisco ASR 1006 Router in a Rack, on page 153.
DETAILED STEPS
Step 1
Locate the threaded holes on the side of the chassis. Make certain that you hold the front rack-mount bracket with the
ear and holes facing outward and towards the front of the chassis (see the following image).
Figure 41: Attaching the Front Rack-Mount Brackets to the Cisco ASR 1006 Router
1
Front rack-mount bracket
screws
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3
Front rack-mount bracket ear
and holes
Cisco ASR 1006 Router Overview and Installation
Chassis Rear Rack-Mount Brackets
2
Step 2
Step 3
Step 4
Step 5
Front rack-mount bracket
4
Chassis side vent location
Position the front rack-mount bracket top hole with the chassis first top hole behind the side vent holes (see Figure 41:
Attaching the Front Rack-Mount Brackets to the Cisco ASR 1006 Router, on page 150).
Insert and tighten the black screws on one side.
Repeat Step 1 through Step 3 on the other side of the chassis. Use black screws to secure the rack-mount brackets to the
chassis.
Install the chassis in the rack. To install the Cisco ASR 1006 Router in a rack, go to the Installing the Cisco ASR 1006
Router in a Rack, on page 153.
What to Do Next
This completes the steps for attaching the front rack-mount brackets to the Cisco ASR 1006 Router.
Chassis Rear Rack-Mount Brackets
If you are rack-mounting the chassis using the rear rack-mount brackets, then this type of installation provides
for the chassis being recessed in the rack.
To install the front rack-mount brackets on the Cisco ASR 1006 Router, perform the following steps:
SUMMARY STEPS
1. Locate the threaded holes on the rear side of the chassis. Make certain that you hold the rear t rack-mount
bracket with the ear and holes facing outward and towards the rear of the chassis.
2. Position the rear rack-mount bracket top hole with the chassis second top hole from the back (See Figure
42: Attaching the Rear Rack-Mount Brackets to the Cisco ASR 1006 Router, on page 152).
3. Insert and tighten the screws on one side.
4. After the bracket is secured to the side of the chassis, slide the two remaining components into the side
rack-mount bracket.
5. Repeat Step 1 through Step 3 on the other side of the chassis. Use all the screws to secure the rear
rack-mount brackets to the chassis.
DETAILED STEPS
Step 1
Locate the threaded holes on the rear side of the chassis. Make certain that you hold the rear t rack-mount bracket with
the ear and holes facing outward and towards the rear of the chassis.
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Chassis Rear Rack-Mount Brackets
The following image shows where to attach the rear rack-mount brackets to the Cisco ASR 1006 Router.
Figure 42: Attaching the Rear Rack-Mount Brackets to the Cisco ASR 1006 Router
Step 2
Step 3
Step 4
Step 5
1
Rear rack-mount bracket ear 3
and holes
Rear rack-mount bracket
components that slide into
rear bracket attached to the
chassis
2
Rear rack-mount bracket
Rear rack-mount bracket
screws
4
Position the rear rack-mount bracket top hole with the chassis second top hole from the back (See Figure 42: Attaching
the Rear Rack-Mount Brackets to the Cisco ASR 1006 Router, on page 152).
Insert and tighten the screws on one side.
After the bracket is secured to the side of the chassis, slide the two remaining components into the side rack-mount
bracket.
Repeat Step 1 through Step 3 on the other side of the chassis. Use all the screws to secure the rear rack-mount brackets
to the chassis.
What to Do Next
This completes the steps for attaching the rear rack-mount brackets to the Cisco ASR 1006 Router.
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Installing the Cisco ASR 1006 Router in a Rack
Caution
Before you mount the Cisco ASR 1006 Router on a rack, make certain you read which rack-mount bracket
ear holes to use when positioning the chassis in the rack. Installation of the cable-management bracket is
simplified when you use the designated ear holes on the rack-mount bracket. For cable-management
installation instructions, see the Attaching the Cable-Management Brackets, on page 158
Installing the Cisco ASR 1006 Router in a Rack
After installing the rack-mount brackets on the chassis, you mount the chassis by securing the rack-mount
brackets to two posts or mounting strips in the rack using the screws provided. Because the rack-mount brackets
support the weight of the entire chassis, be sure to use all screws to fasten the two rack-mount brackets to the
rack posts.
Warning
To prevent bodily injury when mounting or servicing this unit in a rack, you must take special precautions
to ensure that the system remains stable. The following guidelines are provided to ensure your safety:-This
unit should be mounted at the bottom of the rack if it is the only unit in the rack.-When mounting this unit
in a partially filled rack, load the rack from the bottom to the top with the heaviest component at the bottom
of the rack.-If the rack is provided with stabilizing devices, install the stabilizers before mounting or
servicing the unit in the rack. Statement 1006
We recommend that you allow at least 1 or 2 inches (2.54 or 5.08 cm) of vertical clearance between the router
and any equipment directly above and below it.
To install the chassis in the rack, perform the following steps:
SUMMARY STEPS
1. On the chassis, ensure that all screw fasteners on the installed components are securely tightened.
2. Make sure that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are
engaged or that the rack is otherwise stabilized. See the next sections on the types of racks you can use to
install the chassis.
3. (Optional) Install a shelf in the rack to support the Cisco ASR 1006 Router. If you use a shelf, this will
help support the chassis while you secure it to the rack.
4. With two people, lift the chassis into position between the rack posts.
5. Align the mounting bracket holes with the rack post holes and attach the chassis to the rack.
6. Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
7. Hold the chassis in position against the mounting rails and follow these steps:
8. Tighten all screws on each side to secure the chassis to the equipment rack.
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Installing the Cisco ASR 1006 Router in a Rack
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Step 8
On the chassis, ensure that all screw fasteners on the installed components are securely tightened.
Make sure that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are engaged or that
the rack is otherwise stabilized. See the next sections on the types of racks you can use to install the chassis.
(Optional) Install a shelf in the rack to support the Cisco ASR 1006 Router. If you use a shelf, this will help support the
chassis while you secure it to the rack.
With two people, lift the chassis into position between the rack posts.
Align the mounting bracket holes with the rack post holes and attach the chassis to the rack.
Note
If you are using a shelf then raise the chassis to the level of the shelf. Let the bottom of the chassis rest on the
brackets, but continue to support the chassis.
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
Hold the chassis in position against the mounting rails and follow these steps:
a) Insert the bottom screw into the third hole up from the bottom of the rack-mount ear and use a hand-held screwdriver
to tighten the screw to the rack rail.
Tip
In the next step, insert the top screw diagonally from the bottom screw that you just attached.This helps with
keeping the chassis in place.
b) Insert the top screw into the third hole down from the top of the rack-mount ear and tighten the screw to the rack rail.
c) Insert a screw in the middle of the rack-mount bracket on both sides of the chassis.
d) Repeat these steps for the other side of the chassis.
Note
By using the specified rack-mount bracket ear holes, the cable-management bracket can be easily attached
to the rack-mount bracket when the chassis is in the rack.
Tighten all screws on each side to secure the chassis to the equipment rack.
What to Do Next
You can install your Cisco ASR 1006 Router in a two-post rack or a four-post rack. To install the router in a
two-post rack, see the Two-Post Rack Installation, on page 155. To install the router in a four-post rack, see
the Four-Post Rack Installation, on page 156.
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Two-Post Rack Installation
Two-Post Rack Installation
The Cisco ASR 1006 Router can be installed in a two-post rack, either 19 inch or 23 inch. The following
image shows the router installed on a two-post rack.
Figure 43: Installing the Cisco ASR 1006 Router in a Two-Post Equipment Rack
1
Cisco ASR 1006 Router 2
front rack-mount bracket
Two-post equipment rack
rail
Note
Inner clearance (the width between the inner sides of the two posts or rails) must be at least 19 inches
(48.26 cm). The height of the chassis is 10.45 inches (26.543 cm). Airflow through the chassis is from
front to back.
Caution
If you are using a two-post rack secure the rack to the floor surface to prevent tipping and avoid bodily
injury and component damage.
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Four-Post Rack Installation
SUMMARY STEPS
1. Position the chassis so the front is closest to you and lift it carefully into the rack. To prevent injury, avoid
any sudden twists or moves.
2. Slide the chassis into the rack, pushing it back until the brackets meet the mounting strips or posts on both
sides of the rack.
3. Keeping the brackets flush against the posts or mounting strips, align the holes in the brackets with the
holes on the rack or mounting strip.
4. For each bracket, insert and tighten two screws to the rack on both sides.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Position the chassis so the front is closest to you and lift it carefully into the rack. To prevent injury, avoid any sudden
twists or moves.
Slide the chassis into the rack, pushing it back until the brackets meet the mounting strips or posts on both sides of the
rack.
Keeping the brackets flush against the posts or mounting strips, align the holes in the brackets with the holes on the rack
or mounting strip.
For each bracket, insert and tighten two screws to the rack on both sides.
Note
Use the third hole up from the bottom of the rack-mount bracket and the third hole down from the top of the
rack-mount bracket. See “Installing the Cable-Management Bracket” figure in the Attaching the
Cable-Management Brackets section for position and location of the ear holes on the rack-mount bracket.
What to Do Next
This completes the procedure for installing the chassis in a two-post rack. Proceed to the Attaching a Chassis
Ground Connection, on page 161 to continue the installation.
Four-Post Rack Installation
The Cisco ASR 1006 Router can be flush-mounted in a 19-inch equipment rack using the rack-mounting kit
provided with your system. The Cisco ASR 1006 Router can be mounted into the rack using two recommended
methods:
• Installing the chassis in an existing rack with equipment.
• Installing an empty chassis in a rack with no equipment installed.
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Four-Post Rack Installation
The following image shows the router installed on a four-post rack.
Figure 44: Installing the Cisco ASR 1006 Router in a Four-Post Equipment Rack
1
Four-post equipment rack 3
rear rail
Cisco ASR 1006 front
rack-mount brackets
2
Cisco ASR 1006 rear
rack-mount brackets
Four-post equipment rack
front rail
4
When handling the chassis, always follow proper lifting practices. See the “Chassis-Lifting Guidelines” section
on page 5-23 .
Note
Inner clearance (the width between the inner sides of the two posts or rails) must be at least 19 inches
(48.26cm). The height of the chassis is 10.45 inches (26.543 cm). Airflow through the chassis is from
front to back.
Note
Make sure the rack is stabilized.
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Attaching the Cable-Management Brackets
SUMMARY STEPS
1. (Optional) Install a shelf in the rack to support the Cisco ASR 1006 Router. If you are using a shelf then
raise the chassis to the level of the shelf. Let the bottom of the chassis rest on the brackets, but continue
to support the chassis.Using two people, lift the chassis into the rack using the side handles and grasping
underneath the power supply bays.
2. Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
3. Hold the chassis in position against the mounting rails while the second person finger-tightens a screw to
the rack rails on each side of the chassis.
4. Finger-tighten 4 more screws to the rack rails on each side of the chassis.
5. Tighten all screws on each side to secure the chassis to the equipment rack.
6. Use a level to verify that the tops of the two brackets are level, or use a measuring tape to verify that both
brackets are the same distance from the top of the rack rails.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
(Optional) Install a shelf in the rack to support the Cisco ASR 1006 Router. If you are using a shelf then raise the chassis
to the level of the shelf. Let the bottom of the chassis rest on the brackets, but continue to support the chassis.Using two
people, lift the chassis into the rack using the side handles and grasping underneath the power supply bays.
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
Note
Use the third hole up from the bottom of the rack-mount bracket and the third hole down from the top of the
rack-mount bracket. See “Installing the Cable-Management Bracket” figure in the Attaching the
Cable-Management Brackets section for position and location of the ear holes on the rack-mount bracket.
Hold the chassis in position against the mounting rails while the second person finger-tightens a screw to the rack rails
on each side of the chassis.
Finger-tighten 4 more screws to the rack rails on each side of the chassis.
Tighten all screws on each side to secure the chassis to the equipment rack.
Use a level to verify that the tops of the two brackets are level, or use a measuring tape to verify that both brackets are
the same distance from the top of the rack rails.
What to Do Next
This completes the procedure for installing the chassis in the rack. Proceed to the Attaching the
Cable-Management Brackets, on page 158 to continue the installation.
Attaching the Cable-Management Brackets
The cable-management brackets are mounted on each rack-mount bracket on the chassis to provide cable
management to both sides of the chassis (parallel with card orientation). These brackets are screw mounted
to the rack-mount brackets to allow easy installation and removal of cables.
The cable-management brackets for the Cisco ASR 1006 Router contain five independent cable-management
“U” type features with four screws and provides cable dressing of each card module slots. For Cisco ASR
1000 SIPs, these brackets work in tandem with shared port adapter product feature cable-management device
to allow installation and removal of adjacent cards without having to remove cables.
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Attaching the Cable-Management Brackets
Note
Make certain that the cable-management bracket “U” type feature is facing upwards when you attach it to
the chassis.
Follow these steps to attach the cable-management brackets to both sides of the Cisco ASR 1006 Router in
the rack:
SUMMARY STEPS
1. Align the cable-management bracket to the rack-mount bracket on one side of the Cisco ASR 1006 Router.
The cable-management bracket aligns to the top hole of the chassis rack-mount bracket.
2. Using a Phillips screwdriver, insert the screw through the cable-management bracket and into the rack-mount
bracket and then tighten the screw.
3. Using the bottom rack-mount ear hole, insert the screw through the cable-management bracket and into
the rack-mount bracket.
DETAILED STEPS
Step 1
Step 2
Step 3
Align the cable-management bracket to the rack-mount bracket on one side of the Cisco ASR 1006 Router. The
cable-management bracket aligns to the top hole of the chassis rack-mount bracket.
Using a Phillips screwdriver, insert the screw through the cable-management bracket and into the rack-mount bracket
and then tighten the screw.
Note
Use a screw from the package of four
screws.
Using the bottom rack-mount ear hole, insert the screw through the cable-management bracket and into the rack-mount
bracket.
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Attaching the Cable-Management Brackets
The following image shows the cable-management bracket attached to the chassis in a rack.
Figure 45: Installing the Cable-Management Bracket
1
Cable-management bracket 3
screw location
Chassis front rack-mount
bracket and ear holes
2
Cable-management bracket —
—
What to Do Next
This completes the procedure for installing the cable-management brackets on the chassis.
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Attaching a Chassis Ground Connection
Attaching a Chassis Ground Connection
Connecting the Cisco ASR 1006 Router chassis to ground is required for all DC powered installations and
any AC powered installation where compliance with Telcordia grounding requirements is necessary.
Caution
The dual-lug chassis stud must be installed, the SIP and SPA must be fully inserted and screwed in and
earthed to prevent a potential hazard in a telecom line.
Have the recommended tools and supplies available before you begin this procedure.
The following image shows how to attach the ground lugs on the Cisco ASR 1006 chassis.
Warning
1
Chassis ground studs and 3
lead wire
Ground connector on the
chassis
2
Grounding screws
Ground symbol
4
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority
or an electrician if you are uncertain that suitable grounding is available. Statement 1024
Before you connect power or turn on power to your chassis, you must provide an adequate chassis ground
(earth) connection for the chassis. A chassis ground connector is provided on each Cisco ASR 1006 Router.
There is a stud on the side of the chassis and on the DC power supply (primary grounding stud).
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Recommended Tools and Supplies
Caution
The grounding wire is always the first to be installed or connected and the last to be removed or
disconnected.
Recommended Tools and Supplies
The following tools, equipment, and supplies necessary to connect the system ground to the chassis:
• Phillips screwdriver
• Dual-lug chassis ground component
• Grounding wire
Use the following procedure to attach the grounding lug to the chassis ground connector on your chassis:
SUMMARY STEPS
1. Use the wire stripper to strip one end of the AWG #6 wire approximately 0.75 inches (19.05 mm).
2. Insert the AWG #6 wire into the wire receptacle on the grounding lug.
3. Use the crimping tool to carefully crimp the wire receptacle around the wire; this step is required to ensure
a proper mechanical connection.
4. Attach the grounding lug with the wire so that the grounding wire does not overlap the power supply (see
Figure 46: Attaching a Grounding Lug to the Chassis Ground Connector, on page 162).
5. Locate the chassis ground connector on the side of your chassis.
6. Insert the two screws through the holes in the grounding lug.
7. Use the Number 2 Phillips screwdriver to carefully tighten the screws until the grounding lug is held firmly
to the chassis. Do not overtighten the screws.
8. Connect the opposite end of the grounding wire to the appropriate grounding point at your site to ensure
an adequate chassis ground.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Use the wire stripper to strip one end of the AWG #6 wire approximately 0.75 inches (19.05 mm).
Insert the AWG #6 wire into the wire receptacle on the grounding lug.
Use the crimping tool to carefully crimp the wire receptacle around the wire; this step is required to ensure a proper
mechanical connection.
Attach the grounding lug with the wire so that the grounding wire does not overlap the power supply (see Figure 46:
Attaching a Grounding Lug to the Chassis Ground Connector, on page 162).
Figure 46: Attaching a Grounding Lug to the Chassis Ground Connector
1
Chassis ground lead wire
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3
Ground screws
Cisco ASR 1006 Router Overview and Installation
Connecting the Shared Port Adapter Cables
2
Step 5
Step 6
Step 7
Step 8
Grounding stud
4
Chassis ground connector
holes
Locate the chassis ground connector on the side of your chassis.
Insert the two screws through the holes in the grounding lug.
Use the Number 2 Phillips screwdriver to carefully tighten the screws until the grounding lug is held firmly to the chassis.
Do not overtighten the screws.
Connect the opposite end of the grounding wire to the appropriate grounding point at your site to ensure an adequate
chassis ground.
What to Do Next
This completes the procedure for attaching a chassis ground connection. Go to the following cabling sections
for information on attaching cables.
Connecting the Shared Port Adapter Cables
The instructions for connecting the cables for the shared port adapter installed in the Cisco ASR 1006 Router
are contained in the respective configuration documents for each port adapter. For example, if you are
connecting the optical fiber cables for the PA-POS-OC3 port adapter, see PA-POS-OC3 Port Adapter
Installation and Configuration at the following location:
http://www.cisco.com/en/US/partner/docs/interfaces_modules/port_adapters/install_upgrade/pos/pa-pos-oc3_install_config/paposoc3.html
Shared port adapter documents are also available on the Cisco Documentation DVD.
Connecting the Console and Auxiliary Port Cables
The Cisco ASR 1006 Router has a DCE-mode console port for connecting a console terminal and an auxiliary
port for additional connections to your chassis. The auxiliary port can also be used for diagnostics. The
following image shows the CON and AUX ports on the Cisco ASR 1000 Series route processor card.
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Connecting the Ethernet Management Port Cable
1
CON connector
2
AUX connector
The Cisco ASR 1006 Router uses RJ-45 ports for both the auxiliary port and the console port. Both the console
and the auxiliary ports are asynchronous serial ports; any devices connected to these ports must be capable
of asynchronous transmission.
Note
A connection will not be established when setting up an out-of-band connection or modem connection in
the auxiliary port and the console port.
For console and auxiliary port pinouts for the RJ-45 connector, see Appendix A, “Cisco ASR 1006 Router
Specifications.” Both ports are configured as asynchronous serial ports.
SUMMARY STEPS
1. Before connecting a terminal to the console port, configure the terminal to match the chassis console port
as follows: 9600 baud, 8 data bits, no parity, 1 stop bits (9600 8N1).
2. After you establish normal router operation, you can disconnect the terminal.
DETAILED STEPS
Step 1
Step 2
Before connecting a terminal to the console port, configure the terminal to match the chassis console port as follows:
9600 baud, 8 data bits, no parity, 1 stop bits (9600 8N1).
After you establish normal router operation, you can disconnect the terminal.
Connecting the Ethernet Management Port Cable
When using the Fast Ethernet Management port in the default mode (speed-auto and duplex-auto) the port
operates in auto-MDI/MDI-X mode. The port automatically provides the correct signal connectivity through
the Auto-MDI/MDI-X feature. The port automatically senses a crossover or straight-through cable and adapts
to it.
However, when the Fast Ethernet Management port is configured to a fixed speed (10 or 100 Mbps) through
command-line interface (CLI) commands, the port is forced to MDI mode.
When in a fixed-speed configuration and MDI mode:
• Use a crossover cable to connect to an MDI port
• Use a straight-through cable to connect to an MDI-X port
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Connecting Power to the Cisco ASR 1006 Router
Connecting Power to the Cisco ASR 1006 Router
Warning
The covers are an integral part of the safety design of the product. Do not operate the unit without the
covers installed. Statement 1077
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
This section describes the procedure to connect AC input and DC input power to your Cisco ASR 1006 Router.
The DC power supply for the Cisco ASR 1006, ASR 1004, ASR 1002, and ASR 1013 routers operate at
individual specifications. The following table shows the common input ranges and circuit breaker requirements.
Table 48: Cisco ASR 1000 Series Router DC Power Supply System Input Requirements
Cisco ASR 1000
Series Router DC
Power Supply
System Input Rating Circuit Breaker
(Amps)
Amps
AWG # Wire
Minimum
Maximum
Minimum
Maximum
Cisco ASR 1006
40
Always 50
Always AWG #6
wire
Cisco ASR 1004
24
30
40
10
8
Cisco ASR 1002
16
20
30
12
10
Cisco ASR 1013
40
Always 50
Always AWG #6
wire
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Power Cords Supported by the Cisco ASR 1006 Router
Cisco ASR 1000
Series Router DC
Power Supply
System Input Rating Circuit Breaker
(Amps)
Amps
AWG # Wire
For example, the
Cisco ASR 1002
Router DC power
supply, with 16
Amp input rating
must use an AWG
#12 gauge wire for
a 20 A circuit
breaker and an
AWG #10 gauge
wire for a 30 A
circuit breaker.
Power Cords Supported by the Cisco ASR 1006 Router
The following power cords are supported by the Cisco ASR 1006 Router:
• CAB-AC20A-90L-IN—20 A AC right-angle power cord—International
• CAB-4000W-US1—Power cord, 250 VAC 20 A, Right Angle C19, NEMA 6-20 Plug, US
• CAB-US520-C19-US—NEMA 5-15 to IEC-C19 14ft US
The Cisco ASR 1006 Router modular chassis supports redundant power entry modules (PEMs). In the Cisco
ASR 1006 Router, at least one PEM must be functioning. In the event that one of the fans fails, the remaining
fans are sufficient to cool the entire chassis. However, fan speed may have to be increased. For power
consumption specifications, see the “Cisco ASR 1006 Router Specifications” section on page A-1 .
Note
At least one power supply must be powered on before the software is started.
Note
All Cisco ASR 1000 Series Router AC power supplies must be connected to a branch circuit that does
not exceed 20 A.
Note
Detailed instructions for removing and replacing the Cisco ASR 1000 Series AC and DC power supplies
are provided in “Removing and Replacing the Cisco ASR 1006 Router Power Supplies” section on page
14-55 .
Connecting AC Input Power to Cisco ASR 1006 Router
Follow these steps to connect an AC-input power supply to the Cisco 1006 chassis:
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SUMMARY STEPS
1. At the rear of the chassis, check whether the power switch on the power supply is in the Standby position.
2. Plug the power cable into the inlet.
DETAILED STEPS
Step 1
Step 2
At the rear of the chassis, check whether the power switch on the power supply is in the Standby position.
Plug the power cable into the inlet.
Note
For additional AC power cable strain relief, secure the cable to the power supply handle by inserting a nylon
cable tie through the hole in the handle and around the cable.
The following image shows the ASR1006-PWR-AC power supply of the Cisco ASR 1006 Router.
Figure 47: Cisco ASR 1006 Router AC Power Supply (ASR1006-PWR-AC)
1
AC power supply fan
5
AC power supply handle
2
DB-25 alarm connector
6
AC power inlet
3
Tie-wrap tab
7
AC power supply Standby
switch
4
AC power supply captive
screw
8
AC power supply LEDs
The following image shows the ASR1013/06-PWR-AC power supply of the Cisco ASR 1006 Router.
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1
AC power supply fan
6
AC power inlet
2
DB-25 alarm connector
7
AC power supply Standby
switch
3
Tie-wrap tab
8
Protective shielding on both
sides of the Standby switch
4
AC power supply captive
screw
9
AC power supply LEDs
5
AC power supply handle
What to Do Next
Plug the AC power supply cable into the AC power source.
This completes the procedure for connecting AC-input power.
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Connecting DC Input Power to Cisco ASR 1006 Router
Connecting DC Input Power to Cisco ASR 1006 Router
This section describes how to connect the DC power supply into the Cisco ASR 1006 Router. The followoing
image shows the ASR1006-PWR-DC power supply of the Cisco ASR 1006 Router.
Figure 48: Cisco ASR 1006 Router DC Power Supply (ASR1006-PWR-DC)
1
Fans
6
DC power supply ground
lugs
2
DB-25 alarm connector
7
DC power supply captive
screws
3
Tie-wrap tabs
8
DC power supply handle
4
DC power supply
9
terminal and plastic cover
DC power supply On (|)
/Off (O) switch
5
Grounding symbol
DC power supply LEDs
10
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Connecting DC Input Power to Cisco ASR 1006 Router
The following image shows the ASR1013/06-PWR-DC power supply of the Cisco ASR 1006 Router.
Figure 49: Cisco ASR 1006 Router –48 VDC Power Supply (ASR1013/06-PWR-DC)
Note
1
Fan
7
DC power supply captive
screw
2
DB-25 alarm connector
8
DC power supply handle
3
Tie-wrap tab
9
Terminal block and
plastic cover single screw
4
DC power supply
10
terminal block and plastic
cover
On/Off (|/O) circuit
breaker switch
5
Ground symbol
11
Terminal block and
plastic cover slot tab
6
DC power supply ground 12
studs
Power supply LEDs
Shielded cables must be used to connect to the DB-25 alarm connector on both the AC and DC power
supplies in order to comply with the FCC/EN55022/CISPR22 Class A emissions requirements. See the
“How Cisco ASR1000-RP Alarm Monitoring Works” section on page 2-22 .
Before you begin the procedure to connect DC input power, read these important notices:
• The color coding of the DC input power supply leads depends on the color coding of the DC power
source at your site. Typically, green or green/yellow is used for ground (GND), black is used for –48 V
on negative (–) terminal, and red is used for RTN on the positive (+) terminal. Make certain the lead
color coding you choose for the DC input power supply matches the lead color coding used at the DC
power source.
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• For DC input power cables, select the appropriate wire gauge based on the National Electrical Code
(NEC) and local codes for 40-amp service at nominal DC input voltage (–48/–60 VDC). Three pairs of
cable leads, source DC (–) and source DC return (+), are required for each power distribution unit (PDU).
These cables are available from any commercial cable vendor. All input power cables for the chassis
should have the same wire gauge and cable lengths should match within 10 percent of deviation.
Each DC input power cable is terminated at the PDU by a cable lug. The cable lugs must be dual-hole, and
have a straight tongue. They must be able to fit over 1/4-inch terminal studs at 0.625-inch (15.88-mm) centers.
Note
DC input power cables must be connected to the PDU terminal studs in the proper positive (+) and negative
(–) polarity. In some cases, the DC cable leads are labeled, which is a relatively safe indication of the
polarity. However, you must verify the polarity by measuring the voltage between the DC cable leads.
When making the measurement, the positive (+) lead and the negative (–) lead must always match the (+)
and (–) labels on the power distribution unit.
• A ground cable is required for each DC PDU. We recommend that you use at least 6-AWG multistrand
copper wire. This wire is not available from Cisco Systems; it is available from any commercial cable
vendor.
The ground wire cable lug should be dual-hole (see Figure 50: DC Input Power Cable Lug , on page 171) and
able to fit over M6 terminal studs at 0.625 inch (15.88mm) centers. Recommended lug terminal wire size
Panduit part number:
•
◦LCD8-14A-L for 8AWG wire size
◦LCD6-14A-L for 6AWG wire size
Figure 50: DC Input Power Cable Lug
Note
Warning
To avoid hazardous conditions, all components in the area where DC input power is accessible must be
properly insulated. Therefore, before installing the DC cable lugs, be sure to insulate the lugs according
to the manufacturer’s instructions.
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
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Connecting DC Input Power to Cisco ASR 1006 Router
To connect the DC power supply, follow these steps:
SUMMARY STEPS
1. Make certain that the chassis grounding is connected before you begin installing the DC power supply.
2. Locate the stud on the DC power supply for the GND connection which must be connected first and follow
these steps:
3. Attach the other end of the cable to the site’s ground connection.
4. Remove the plastic cover from the terminal block.
5. Wrap the positive and negative lead cables with sleeving. Take each lead wire and cover the area from
the lug to the wire with heavy shrink sleeving.
6. For easier cable management, insert the negative lead cable first. Replace the ground lug with cable in the
following order:
7. Tighten the Kepnut screw to recommended torque of 18 in-lbs minimum to 22 in-lbs maximum for the
positive stud and wire.
8. Use tie wraps to secure the wires, so that the wires are not pulled from the terminal block by casual contact.
Ti-wrap studs are located below the power supply terminal block (see Figure 53: Cisco ASR 1006 Router
DC Power Supply (ASR1006-PWR-DC) Terminal Block Plastic Cover, on page 175).
9. Replace the terminal block plastic cover and tighten the screw. The plastic cover is slotted and keyed to
fit correctly over the terminal block.
10. Remove the tape from the circuit-breaker switch handle, and move the circuit-breaker handle to the On
position.
11. Move the circuit breaker switch to the On position.
DETAILED STEPS
Step 1
Step 2
Make certain that the chassis grounding is connected before you begin installing the DC power supply.
Locate the stud on the DC power supply for the GND connection which must be connected first and follow these steps:
a) Using the grounding lug, replace the washers and Kepnut screw in the following order.
•
◦Flat washer
◦Grounding cable lug
◦Kepnut screw
b) Tighten the Kepnut screws on the power supply studs.
Step 3
Step 4
Step 5
Attach the other end of the cable to the site’s ground connection.
Remove the plastic cover from the terminal block.
Caution
Before you continue to install the terminal block ground wires, stop and perform Step 5. To prevent any
contact with metal lead on the ground wire and the plastic cover.
Wrap the positive and negative lead cables with sleeving. Take each lead wire and cover the area from the lug to the
wire with heavy shrink sleeving.
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Connecting DC Input Power to Cisco ASR 1006 Router
The following image shows the ASR1006-PWR-DC power supply for the Cisco ASR 1006 Router.
Figure 51: Cisco ASR 1006 Router DC Power Supply (ASR1006-PWR-DC) Terminal Block Ground Cable Lugs
1
Negative lug and wire with 3
sleeving wrapped around the
wire and end of lug
Location of sleeving
wrapped around the wire and
end of the grounding stud
2
Positive lug and wire with 4
sleeving wrapped around the
wire and end of lug
Ground lug and wire
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The followng image shows the ASR1013/06-PWR-DC power supply for the Cisco ASR 1006 Router.
Figure 52: Cisco ASR 1006 Router DC Power Supply (ASR1013/06-PWR-DC) Terminal Block Ground Cable Lugs
1
Negative lug and wire with 3
sleeving wrapped around the
wire and end of lug
Location of sleeving
wrapped around the wire and
end of the grounding stud
2
Positive lug and wire with 4
sleeving wrapped around the
wire and end of lug
Ground lug and wire
Step 6
For easier cable management, insert the negative lead cable first. Replace the ground lug with cable in the following
order:
a) Flat Washer
b) Ground lug with negative wire
c) Kepnut screw
Step 7
Tighten the Kepnut screw to recommended torque of 18 in-lbs minimum to 22 in-lbs maximum for the positive stud and
wire.
Note
Secure the wires coming in from the terminal block so that they cannot be disturbed by casual contact.
Step 8
Use tie wraps to secure the wires, so that the wires are not pulled from the terminal block by casual contact. Ti-wrap
studs are located below the power supply terminal block (see Figure 53: Cisco ASR 1006 Router DC Power Supply
(ASR1006-PWR-DC) Terminal Block Plastic Cover, on page 175).
Replace the terminal block plastic cover and tighten the screw. The plastic cover is slotted and keyed to fit correctly over
the terminal block.
Step 9
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Connecting DC Input Power to Cisco ASR 1006 Router
The followng image shows the ASR1006-PWR-DC power supply for the Cisco ASR 1006 Router.
Figure 53: Cisco ASR 1006 Router DC Power Supply (ASR1006-PWR-DC) Terminal Block Plastic Cover
1
Negative lead
3
Plastic cover slotted area
2
Positive lead
4
Terminal block plastic cover
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Connecting a Terminal to the Cisco ASR 1000 Series RP Console Port
The following image shows the ASR1013/06-PWR-DC power supply for the Cisco ASR 1006 Router.
Figure 54: Cisco ASR 1006 Router DC Power Supply (ASR1013/06-PWR-DC) Terminal Block and Plastic Cover
Step 10
Step 11
1
Negative terminal
4
Plastic cover slotted area
2
Positive terminal
5
Terminal block plastic cover
single screw
3
Terminal block plastic cover
Remove the tape from the circuit-breaker switch handle, and move the circuit-breaker handle to the On position.
Move the circuit breaker switch to the On position.
What to Do Next
This completes the procedure for connecting the DC power supply in the Cisco ASR 1006 Router.
Connecting a Terminal to the Cisco ASR 1000 Series RP Console
Port
The Cisco ASR 1006 route processor has an asynchronous serial (EIA/TIA-232) RJ-45 console port labeled
CON on its front panel. You can connect this port to most types of video terminals through use of the console
cable kit that is included with your Cisco ASR 1006 Router. The console cable kit contains:
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Connecting a Terminal to the Cisco ASR 1000 Series RP Console Port
• One RJ-45 to RJ-45 crossover cable
• One RJ-45 to DB-25 (female) adapter
• One RJ-45 to DB-9 (female) adapter
A crossover cable reverses pin connections from one end to the other. In other words, it connects pin 1 (at
one end) to pin 8 (at the other end), pin 2 to pin 7, pin 3 to pin 6, and so on. You can identify a crossover cable
by comparing the two modular ends of the cable. Hold the cable ends in your hand, side-by-side, with the
tabs at the back. Ensure that the wire connected to the outside (left) pin of the left plug (pin 1) is the same
color as the wire connected to the outside (right) pin of the right plug (pin 8).
Use the following procedure to connect a video terminal to the console port on a route processor.
Note
Each Cisco ASR 1000 Series Route Processor must have a console port connection (typically to a terminal
server) if you are running a redundant configuration in the chassis.
SUMMARY STEPS
1. Connect one end of the RJ-45 cables to the serial RJ-45 port (CON) on the Cisco ASR 1000 Series Route
Processor 1 (see the following image).
2. Run the cable up and through the cable-management bracket and connect the other end of the RJ-45 cable
to the RJ-45 adapter (see the following image).
3. Connect the adapter to your video terminal to complete the cable connection.
4. Power on your video terminal.
5. Configure your video terminal to match the following default console port settings: 9600 baud, 8 data bits,
No parity generation or checking, 1 stop bit, and No flow control.
6. Go to the Connecting the System Cables, on page 179 to continue the installation.
DETAILED STEPS
Step 1
Connect one end of the RJ-45 cables to the serial RJ-45 port (CON) on the Cisco ASR 1000 Series Route Processor 1
(see the following image).
Figure 55: Console Port Connection on the ASR 1000 Series Route Processor
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1
Step 2
CONsole port
2
AUXiliary port
Run the cable up and through the cable-management bracket and connect the other end of the RJ-45 cable to the RJ-45
adapter (see the following image).
Figure 56: Cable-Management Bracket with Cabling in the Cisco ASR 1006 Router
Step 3
Step 4
Step 5
Step 6
1
AUXiliary connection
3
BITS port
2
MGMT Ethernet port
4
Cable-management U
feature device
Connect the adapter to your video terminal to complete the cable connection.
Power on your video terminal.
Configure your video terminal to match the following default console port settings: 9600 baud, 8 data bits, No parity
generation or checking, 1 stop bit, and No flow control.
Go to the Connecting the System Cables, on page 179 to continue the installation.
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Connecting the System Cables
Connecting the System Cables
Keep the following guidelines in mind when connecting external cables to the Cisco ASR 1006 Router:
• To reduce the chance of interference, avoid crossing high-power lines with any interface cables.
• Verify all cabling limitations (particularly distance) before powering on the system.
Attaching Cable Retention Bracket on AC Power Supply
This section explains how to attach the cable retention bracket on AC power supply of the chassis.
The following shows the cable retention bracket attaching to the AC power supply.
Figure 57: Cable Retention Bracket Attaching to the AC Power Supply
SUMMARY STEPS
1.
2.
3.
4.
5.
Remove the two M3X5mm screws and discard.
Install AC cord retainer by inserting tabs into lance features on panel.
Secure AC cord retainer with two M3X8mm screws included in kit.
Connect AC power cord.
Secure AC cord by tightening retainer screw.
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Attaching Cable Retention Bracket on AC Power Supply
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Remove the two M3X5mm screws and discard.
Install AC cord retainer by inserting tabs into lance features on panel.
Secure AC cord retainer with two M3X8mm screws included in kit.
Connect AC power cord.
Secure AC cord by tightening retainer screw.
What to Do Next
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CHAPTER
7
Cisco ASR 1004 Router Overview and Installation
This chapter describes the Cisco ASR 1004 Router and the procedures for installing the Cisco ASR 1004
Router on an equipment shelf or tabletop or in equipment racks. It also describes how to connect interface
and power cables.
This chapter contains the following sections:
Warning
This warning symbol means danger. You are in a situation that could cause bodily injury. Before you
work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with
standard practices for preventing accidents. Use the statement number provided at the end of each warning
to locate its translation in the translated safety warnings that accompanied this device. Statement 1071
Warning
Before you install, operate, or service the system, read the Regulatory Compliance and Safety Information
for Cisco ASR 1000 Series Aggregation Services Routers publication. This document provides important
safety information you should know before working with the system. Statement 200
• Cisco ASR 1004 Router Description, page 182
• Installation Methods, page 186
• General Rack Installation Guidelines, page 186
• Guidelines for an Equipment Shelf or Tabletop Installation, page 187
• Equipment Shelf or Tabletop Installation, page 188
• Rack-Mounting the Cisco ASR 1004 Router, page 190
• Attaching the Chassis Rack-Mount Brackets, page 192
• Installing the Cisco ASR 1004 Router in a Rack, page 195
• Attaching a Chassis Ground Connection, page 201
• Attaching the Cable-Management Bracket, page 204
• Connecting the Shared Port Adapter Cables, page 205
• Connecting the Console and Auxiliary Port Cables, page 206
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Cisco ASR 1004 Router Description
• Connecting Power to Cisco ASR 1004 Router, page 208
• Connecting a Terminal to the Cisco ASR Series 1000 Route Processor Console Port, page 215
• Connecting the Network Management and Signal System Cables, page 218
Cisco ASR 1004 Router Description
The Cisco ASR 1004 Router system consists of the following system level components:
• Two Cisco ASR 1000 Series SPA Interface Processor (Cisco ASR1000-SIP10 or Cisco ASR1000-SIP40)
• One Cisco ASR 1000 Series Embedded Services Processor (Cisco ASR 1000-ESP10, Cisco ASR
1000-ESP20, or Cisco ASR1000-ESP40)
• One Cisco ASR 1000 Series Route Processor (Cisco ASR1000-RP1 or Cisco ASR1000-RP2)
• Dual (redundant) AC and DC power supplies
This section contains the following topics:
Front View
The following image shows the Cisco ASR 1004 Router with modules and filler plates installed.
Figure 58: Cisco ASR 1004 Router—Front and Side View
1
Slot R0 with ASR 1000
Series Route Processor
5
SPA subslot 2
2
Slot F0 with Cisco
ASR1000-ESP10, Cisco
ASR1000-ESP20, or
Cisco ASR1000-ESP40
6
SPA subslot 0
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Rear View
3
ASR 1000 Series SIP slot 7
0
SPA subslot 1
4
ASR 1000 Series SIP slot 8
1
SPA subslot 3
Rear View
The following image shows the rear of the Cisco ASR 1004 Router with two AC power supplies installed.
Figure 59: Cisco ASR 1004 Router Rear View with AC Power Supplies
1
AC power supply
Standby switch
4
AC power supply fan
2
AC power supply LEDs
5
AC power inlet
3
AC power supply DB-25 6
alarm connector
AC power supply handle
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Rear View
The following image shows the rear of the Cisco ASR 1004 Router with two –48 VDC power supplies installed.
Figure 60: Cisco ASR 1004 Router Rear View With –48 VDC Power Supplies
1
–48 VDC power supply
terminal block
5
Grounding symbol
2
–48 VDC power supply
LEDs
6
–48 VDC power supply
On/Off switch
3
–48 VDC power supply
DB-25 alarm connector
7
–48 VDC power supply
handle
4
–48 VDC power supply
fan
—
—
Internal fans draw cooling air into the chassis and across internal components to maintain an acceptable
operating temperature. (See Figure 59: Cisco ASR 1004 Router Rear View with AC Power Supplies, on page
183.) The fans are located at the rear of the chassis. A two-hole grounding lug is located on the side of the
chassis. Two power supplies, either two AC power supplies or two –48 VDC power supplies, are accessed
from the rear of the router.
Note
You have already unpacked your chassis and read all the site requirements for your new equipment.
Proceed with the installation.
Note
Do not combine AC and –48 VDC power supplies in the same chassis.
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Rear View
Warning
This warning symbol means danger. You are in a situation that could cause bodily injury. Before you
work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with
standard practices for preventing accidents. Use the statement number provided at the end of each warning
to locate its translation in the translated safety warnings that accompanied this device. Statement 1071
Warning
Before you install, operate, or service the system, read the Regulatory Compliance and Safety Information
for Cisco ASR 1000 Series Aggregation Services Routers publication. This document provides important
safety information you should know before working with the system. Statement 200
Note
You have already unpacked your chassis and read all the site requirements for your new equipment.
Proceed with the installation.
Cisco ASR 1004 Router Slot Numbering
The Cisco ASR 1004 Router contains two Cisco ASR 1000 Series SPA Interface Processors (SIPs) and
supports four subslots for the installation of SPAs.
The following image shows the Cisco ASR 1004 Router with modules and filler plates installed.
Figure 61: Cisco ASR 1004 Router—Front and Side View
1
Slot R0 with ASR 1000
Series RP1
5
SPA subslot 2
2
Slot F0 with Cisco
ASR1000-ESP10, Cisco
ASR1000-ESP20, or
Cisco ASR1000-ESP40
6
SPA subslot 0
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Installation Methods
3
ASR 1000 Series SIP slot 7
0
SPA subslot 1
4
ASR 1000 Series SIP slot 8
1
SPA subslot 3
Installation Methods
Although rack-mounting is the preferred method of installation for the Cisco ASR 1004 Router, you can
mount the chassis:
• On an equipment shelf or tabletop
• In a19-inch wide (standard), 4-post equipment rack or two-post, using the rack-mount brackets in the
accessory kit
Note
The Cisco ASR 1004 Router usually ships fully loaded. However, you can remove components from the
chassis to make the chassis lighter for your rack installation.
General Rack Installation Guidelines
When planning your rack installation, consider the following guidelines:
• The Cisco ASR 1004 Router requires a minimum of 4 rack units (7 inches or 17.8 cm) of vertical rack
space. Measure the proposed rack location before mounting the chassis in the rack.
• Before using a particular rack, check for obstructions (such as a power strip) that could impair rack-mount
installation. If a power strip does impair a rack-mount installation, remove the power strip before installing
the chassis, and then replace it after the chassis is installed.
• Allow sufficient clearance around the rack for maintenance. If the rack is mobile, you can push it back
near a wall or cabinet for normal operation and pull it out for maintenance (installing or moving cards,
connecting cables, or replacing or upgrading components). Otherwise, allow 19 inches (48.3 cm) of
clearance to remove field-replaceable units.
• Maintain a minimum clearance of 3 inches (7.62 cm) on the front, top, and sides of the chassis for the
cooling air inlet and exhaust ports, respectively. Avoid placing the chassis in an overly congested rack
or directly next to another equipment rack; otherwise, the heated exhaust air from other equipment can
enter the inlet air vents and cause an overtemperature condition inside the router.
Caution
To prevent chassis overheating, never install a Cisco ASR 1004 Router in an enclosed room that is not
properly ventilated or air conditioned.
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Guidelines for an Equipment Shelf or Tabletop Installation
• Always install heavier equipment in the lower half of a rack to maintain a low center of gravity to prevent
the rack from falling over.
• Install and use the cable-management brackets included with the Cisco ASR 1004 Router to keep cables
organized and out of the way of the cards and processors. Ensure that cables from other equipment
already installed in the rack do not impair access to the cards or require you to disconnect cables
unnecessarily to perform equipment maintenance or upgrades.
• Install rack stabilizers (if available) before you mount the chassis.
• Provide an adequate chassis ground (earth) connection for your router chassis.
In addition to the preceding guidelines, review the precautions for avoiding excessive temperature conditions
in the “Site Environmental Requirements” section on page 5-9 .
The following table provides the Cisco ASR 1004 Router dimensions and weight information.
Table 49: Cisco ASR 1004 Router Dimensions and Weight
Cisco ASR 1004
Dimensions
Depth
22.50 in. (57.15 cm)(including card handles,
cable-management brackets, power supply handles).
Height
6.95 in. (17.653cm) (4 rack-mount per EIA RS-310)
Width
17.25 in. (43.815 cm) (19 inch rack- mount or
optional 23 Telco rack-mount)
Weight
50 pounds (fully configured)
22.6796 kg
Guidelines for an Equipment Shelf or Tabletop Installation
The chassis should already be in the area where you will install it. If you have not determined where to install
your chassis, see the “Cisco ASR 1000 Series Routers Component Overview” section on page 2-1 for
information about site considerations.
If you are not rack-mounting your Cisco ASR 1000 series chassis, place it on a sturdy equipment shelf or
tabletop.
When installing the Cisco ASR 1004 Router on an equipment shelf or tabletop, ensure that the surface is clean
and that you have considered the following:
• The Cisco ASR 1004 Router requires at least 3 inches (7.62 cm) of clearance at the inlet and exhaust
vents (the front and top/rear sides of the chassis).
• The Cisco ASR 1004 Router should be installed off the floor. Dust that accumulates on the floor is drawn
into the interior of the router by the cooling fans. Excessive dust inside the router can cause
overtemperature conditions and component failures.
• There must be approximately 19 inches (48.3 cm) of clearance at the front and rear of the chassis to
install and replace FRUs, or to access network cables and equipment.
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Equipment Shelf or Tabletop Installation
• The Cisco ASR 1004 Router needs adequate ventilation. Do not install it in an enclosed cabinet where
ventilation is inadequate.
• Have the cable-management bracket available if you plan to install it on the front of the chassis.
• An adequate chassis ground (earth) connection exists for your router chassis (see the Attaching a Chassis
Ground Connection, on page 201).
• Always follow proper lifting practices as outlined in the “Electrical Safety” section on page 5-21 , when
handling the chassis.
Equipment Shelf or Tabletop Installation
Note
At least two people are required to lift the chassis onto a tabletop or platform. To prevent injury, keep
your back straight and lift with your legs, not your back. Statement 164
Figure 62: Lifting the Chassis
Note
The chassis in the image does not represent the Cisco ASR 1004 Router. This is only an example of how
to lift a Cisco chassis.
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Equipment Shelf or Tabletop Installation
SUMMARY STEPS
1. Attach the front rack-mount brackets. Locate the threaded holes in the front sides of the chassis (first holes
beyond the vent holes) and use the package of black screws that shipped with the chassis.
2. Align the front rack-mount bracket to one side of the chassis.
3. Insert and tighten the screws on one side.
4. Repeat Step 2 through Step 3 on the other side of the chassis. Use all the screws to secure the rack-mount
brackets to the chassis.
5. Gather the two cable-management brackets and screws shipped with your chassis. The followng image
shows attached cable-management brackets on the front of the Cisco ASR 1004 Router.
6. Screw the cable-management bracket to each side of the rack-mount brackets already attached to the
chassis. Use two screws for each cable-management bracket. Use the package of four screws.
7. Check that all screws are securely tightened.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Attach the front rack-mount brackets. Locate the threaded holes in the front sides of the chassis (first holes beyond the
vent holes) and use the package of black screws that shipped with the chassis.
Align the front rack-mount bracket to one side of the chassis.
Insert and tighten the screws on one side.
Repeat Step 2 through Step 3 on the other side of the chassis. Use all the screws to secure the rack-mount brackets to
the chassis.
Note
The cable-management brackets are installed on the chassis after you install the chassis rack-mount brackets
and mount the chassis in the rack.
Gather the two cable-management brackets and screws shipped with your chassis. The followng image shows attached
cable-management brackets on the front of the Cisco ASR 1004 Router.
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Rack-Mounting the Cisco ASR 1004 Router
Note
Make certain that the cable-management ‘U’ feature device has the open end pointing upwards when you attach
it to the chassis after the chassis is installed in a rack.
Figure 63: Attaching the Cable-Management Brackets to the Cisco ASR 1004 Router
Step 6
Step 7
1
Cable-management bracket 3
screws
Chassis front rack-mount
bracket ear
2
Cable-management bracket —
—
Screw the cable-management bracket to each side of the rack-mount brackets already attached to the chassis. Use two
screws for each cable-management bracket. Use the package of four screws.
Check that all screws are securely tightened.
What to Do Next
You have completed a tabletop or equipment shelf chassis installation. Go to the Attaching a Chassis Ground
Connection, on page 201 to continue the installation.
Rack-Mounting the Cisco ASR 1004 Router
The Cisco ASR 1004 Router can be installed with both front or rear rack-mount brackets.
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Verifying Rack Dimensions
Note
The chassis rack-mounting flanges are secured directly to the chassis before you lift it into the rack.
Verifying Rack Dimensions
Before you install the chassis, measure the space between the vertical mounting flanges (rails) on your
equipment rack to verify that the rack conforms to the measurements shown in the following image.
SUMMARY STEPS
1. Mark and measure the distance between two holes on the left and right mounting rails.
2. Measure the space between the inner edges of the left front and right front mounting flanges on the
equipment rack.
DETAILED STEPS
Step 1
Mark and measure the distance between two holes on the left and right mounting rails.
The distance should measure 18.31 inches ± 0.06 inches (46.5 cm ± 0.15 cm).
Measure for pairs of holes near the bottom, middle and top of the equipment rack to ensure that the rack posts
are parallel.
Measure the space between the inner edges of the left front and right front mounting flanges on the equipment rack.
The space must be at least 17.7 inches (45 cm) to accommodate the chassis which is 17.25 inches (43.8 cm) wide and
fits between the mounting posts on the rack.
Note
Step 2
Figure 64: Verifying Equipment Rack Dimensions
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Attaching the Chassis Rack-Mount Brackets
Attaching the Chassis Rack-Mount Brackets
This section explains how to attach the front and rear rack-mount brackets to the chassis. Before installing
the chassis in the rack, you must install the rack-mount brackets on each side of the chassis.
The parts and tools required for installing the rack-mount brackets and cable-management brackets are listed
in the “Tools and Equipment” section on page 5-23 .
Note
The cable-management brackets are installed on the chassis after you install the chassis rack-mount brackets
and mount the chassis in the rack.
Chassis Front Rack-Mount Brackets
Determine where in the rack you want the chassis to be mounted. If you are mounting more than one chassis
in the rack, then start from the bottom up or the center of the rack. Figure 65: Attaching the Front Rack-Mount
Brackets to the Cisco ASR 1004 Router, on page 193 image shows the brackets attached to the chassis.
Depending on the bracket holes you use, the chassis may protrude in the rack.
To install the front rack-mount brackets on the Cisco ASR 1004 Router, perform the following steps:
SUMMARY STEPS
1. Locate the threaded holes on the side of the chassis. Make certain that you hold the front rack-mount
bracket with the ear and holes facing outward and towards the front of the chassis (see Figure 65: Attaching
the Front Rack-Mount Brackets to the Cisco ASR 1004 Router, on page 193).
2. Position the front rack-mount bracket top hole with the chassis first top hole behind the side vent holes.
3. Insert and tighten the black screws on one side.
4. Repeat Step 1 through Step 3 on the other side of the chassis. Use black screws to secure the rack-mount
brackets to the chassis.
5. Install the chassis in a rack. To install the Cisco ASR 1004 Router in a rack, go to the Installing the Cisco
ASR 1004 Router in a Rack, on page 195.
DETAILED STEPS
Step 1
Locate the threaded holes on the side of the chassis. Make certain that you hold the front rack-mount bracket with the
ear and holes facing outward and towards the front of the chassis (see Figure 65: Attaching the Front Rack-Mount
Brackets to the Cisco ASR 1004 Router, on page 193).
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Chassis Rear Rack-Mount Brackets
The following shows where to attach the front rack-mount brackets to the Cisco ASR 1004 Router.
Figure 65: Attaching the Front Rack-Mount Brackets to the Cisco ASR 1004 Router
Step 2
Step 3
Step 4
Step 5
1
Front rack-mount bracket
3
Chassis side vent holes
2
Front rack-mount bracket
screws
4
Front rack-mount bracket
and ear holes
Position the front rack-mount bracket top hole with the chassis first top hole behind the side vent holes.
Insert and tighten the black screws on one side.
Repeat Step 1 through Step 3 on the other side of the chassis. Use black screws to secure the rack-mount brackets to the
chassis.
Install the chassis in a rack. To install the Cisco ASR 1004 Router in a rack, go to the Installing the Cisco ASR 1004
Router in a Rack, on page 195.
What to Do Next
This completes the steps for attaching the front rack-mount brackets to the Cisco ASR 1004 Router.
Chassis Rear Rack-Mount Brackets
If you are rack-mounting the chassis using the rear rack-mount brackets, then this type of installation provides
for the chassis being recessed in the rack.
To install the front rack-mount brackets on the Cisco ASR 1004 Router, perform the following steps:
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Chassis Rear Rack-Mount Brackets
SUMMARY STEPS
1. Locate the threaded holes on the rear side of the chassis. Make certain that you hold the rear rack-mount
bracket with the ear and holes facing outward and towards the rear of the chassis.
2. Position the rear rack-mount bracket top hole with the chassis second top hole from the back (see Figure
66: Attaching the Rear Rack-Mount Brackets to the Cisco ASR 1004 Router, on page 194).
3. Insert and tighten the five screws on one side.
4. After the bracket is secured to the side of the chassis, slide the two remaining components into the side
rack-mount bracket.
5. Repeat Step 1 through Step 3 on the other side of the chassis. Use five screws to secure the rear rack-mount
brackets to the chassis.
DETAILED STEPS
Step 1
Locate the threaded holes on the rear side of the chassis. Make certain that you hold the rear rack-mount bracket with
the ear and holes facing outward and towards the rear of the chassis.
The following image shows where to attach the rear rack-mount brackets to the Cisco ASR 1004 Router.
Figure 66: Attaching the Rear Rack-Mount Brackets to the Cisco ASR 1004 Router
1
Rear rack-mount bracket ear 3
and holes
Rear rack-mount bracket
components that slide into
rear bracket that is attached
to the chassis
2
Rear rack-mount bracket
(first bracket to attach to
chassis)
Rear rack-mount bracket
screws
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Installing the Cisco ASR 1004 Router in a Rack
Step 2
Step 3
Step 4
Step 5
Position the rear rack-mount bracket top hole with the chassis second top hole from the back (see Figure 66: Attaching
the Rear Rack-Mount Brackets to the Cisco ASR 1004 Router, on page 194).
Insert and tighten the five screws on one side.
After the bracket is secured to the side of the chassis, slide the two remaining components into the side rack-mount
bracket.
Repeat Step 1 through Step 3 on the other side of the chassis. Use five screws to secure the rear rack-mount brackets to
the chassis.
What to Do Next
This completes the steps for attaching the rear rack-mount brackets to the Cisco ASR 1004 Router.
Caution
Before you mount the Cisco ASR 1004 Router in a rack, make certain you read which rack-mount bracket
ear holes to use when positioning the chassis in the rack. As a result of using the designated ear holes on
the rack-mount bracket, the cable-management bracket installation will be made easier. For
cable-management installation instructions, go to the Attaching a Chassis Ground Connection, on page
201.
Installing the Cisco ASR 1004 Router in a Rack
After installing the rack-mount brackets on the chassis, you mount the chassis by securing the rack-mount
brackets to two posts or mounting strips in the rack using the screws provided. Because the rack-mount brackets
support the weight of the entire chassis, be sure to use all screws to fasten the two rack-mount brackets to the
rack posts.
Warning
To prevent bodily injury when mounting or servicing this unit in a rack, you must take special precautions
to ensure that the system remains stable. The following guidelines are provided to ensure your safety:-This
unit should be mounted at the bottom of the rack if it is the only unit in the rack.-When mounting this unit
in a partially filled rack, load the rack from the bottom to the top with the heaviest component at the bottom
of the rack.-If the rack is provided with stabilizing devices, install the stabilizers before mounting or
servicing the unit in the rack. Statement 1006
We recommend that you allow at least 1 or 2 inches (2.54 or 5.08 cm) of vertical clearance between the router
and any equipment directly above and below it.
To install the chassis in the rack, perform the following steps:
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Installing the Cisco ASR 1004 Router in a Rack
SUMMARY STEPS
1. On the chassis, ensure that all screw fasteners on the installed components are securely tightened.
2. Make sure that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are
engaged or that the rack is otherwise stabilized. See the next sections on the types of racks you can use to
install the chassis.
3. (Optional) Install a shelf in the rack to support the Cisco ASR 1004 Router. If you use a shelf, this will
help support the chassis while you secure it to the rack.
4. With two people, lift the chassis into position between the rack posts.
5. Align the mounting bracket holes with the rack post holes and attach the chassis to the rack.
6. Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
7. Hold the chassis in position against the mounting rails and follow these steps:
8. Tighten all screws on each side to secure the chassis to the equipment rack.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Step 8
On the chassis, ensure that all screw fasteners on the installed components are securely tightened.
Make sure that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are engaged or that
the rack is otherwise stabilized. See the next sections on the types of racks you can use to install the chassis.
(Optional) Install a shelf in the rack to support the Cisco ASR 1004 Router. If you use a shelf, this will help support the
chassis while you secure it to the rack.
With two people, lift the chassis into position between the rack posts.
Align the mounting bracket holes with the rack post holes and attach the chassis to the rack.
Note
If you are using a shelf then raise the chassis to the level of the shelf. Let the bottom of the chassis rest on the
brackets, but continue to support the chassis.
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
Hold the chassis in position against the mounting rails and follow these steps:
a) The Cisco ASR 1004 rack-mount ears contain 8 ear holes. Insert the bottom screw into the third hole up from the
bottom of the rack-mount ear and use a hand-held screwdriver to tighten the screw to the rack rail.
Note
In the next step, insert the top screw diagonally from the bottom screw that you just attached.This helps with
keeping the chassis in place.
b) Insert the top screw into the third hole down from the top of the rack-mount ear and tighten the screw to the rack rail.
c) Insert a screw in the middle of the rack-mount bracket on both sides of the chassis.
d) Repeat these steps for the other side of the chassis.
Note
As a result of using the specified rack-mount bracket ear holes, the cable-management bracket can be easily
attached to the rack-mount bracket when the chassis is in the rack.
Tighten all screws on each side to secure the chassis to the equipment rack.
What to Do Next
You can install your Cisco ASR 1004 chassis on a two-post rack or a four-post rack. For instructions, see the
Two-Post Rack Installation, on page 197 or the Four-Post Rack Installation, on page 199.
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Two-Post Rack Installation
Two-Post Rack Installation
The Cisco ASR 1004 Router can be installed on a two-post rack, either 19 inch or 23 inch.
Note
Caution
Inner clearance (the width between the inner sides of the two posts or rails) must be at least 19 inches
(48.26cm). The height of the chassis is 6.95 inches (17.653 cm). Airflow through the chassis is from front
to back.
If you are using a two-post rack secure the rack to the floor surface to prevent tipping and avoid bodily
injury and component damage.
SUMMARY STEPS
1. Position the chassis so the front is closest to you and lift it carefully into the rack. To prevent injury, avoid
any sudden twists or moves.
2. Slide the chassis into the rack, pushing it back until the brackets meet the mounting strips or posts on both
sides of the rack.
3. Keeping the brackets flush against the posts or mounting strips, align the holes in the brackets with the
holes on the rack or mounting strip.
4. For each bracket, insert and tighten two screws to the rack on both sides.
DETAILED STEPS
Step 1
Position the chassis so the front is closest to you and lift it carefully into the rack. To prevent injury, avoid any sudden
twists or moves.
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Two-Post Rack Installation
The following image shows where to attach the chassis rack-mount brackets to the equipment rack.
Figure 67: Attaching the Rear Rack-Mount Brackets to the Cisco ASR 1004 Router
1
Step 2
Step 3
Step 4
Rack-mount bracket ear and 2
holes
Rack equipment rail
Slide the chassis into the rack, pushing it back until the brackets meet the mounting strips or posts on both sides of the
rack.
Keeping the brackets flush against the posts or mounting strips, align the holes in the brackets with the holes on the rack
or mounting strip.
For each bracket, insert and tighten two screws to the rack on both sides.
What to Do Next
This completes the procedure for installing the chassis on a two-post rack. Proceed to the Attaching a Chassis
Ground Connection, on page 201 to continue the installation.
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Four-Post Rack Installation
Four-Post Rack Installation
The Cisco ASR 1004 Router can be flush-mounted in a 19-inch equipment rack using the rack-mounting kit
provided with your system. The Cisco ASR 1004 Router can be mounted into the rack using two recommended
methods:
• Installing the chassis in an existing rack with equipment.
• Installing an empty chassis in a rack with no equipment installed.
When handling the chassis, always follow proper lifting practices. See the “Chassis-Lifting Guidelines” section.
Note
Inner clearance (the width between the inner sides of the two posts or rails) must be at least 19 inches
(48.26cm). The height of the chassis is 6.95 inches (17.653 cm). Airflow through the chassis is from front
to back.
Note
Make sure the rack is stabilized.
SUMMARY STEPS
1. (Optional) Install a shelf in the rack to support the Cisco ASR 1004 Router. If you are using a shelf then
raise the chassis to the level of the shelf. Let the bottom of the chassis rest on the brackets, but continue
to support the chassis.Using two people, lift the chassis into the rack using the side handles and grasping
underneath the power supply bays.
2. Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
3. Hold the chassis in position against the mounting rails while the second person finger-tightens a screw to
the rack rails on each side of the chassis. The following image shows the rear rack-mount brackets and
the front rack-mount brackets on the Cisco ASR 1004 Router.
4. Finger-tighten 4 more screws to the rack rails on each side of the chassis.
5. Tighten all screws on each side to secure the chassis to the equipment rack.
6. Use a level to verify that the tops of the two brackets are level, or use a measuring tape to verify that both
brackets are the same distance from the top of the rack rails.
DETAILED STEPS
Step 1
Step 2
(Optional) Install a shelf in the rack to support the Cisco ASR 1004 Router. If you are using a shelf then raise the chassis
to the level of the shelf. Let the bottom of the chassis rest on the brackets, but continue to support the chassis.Using two
people, lift the chassis into the rack using the side handles and grasping underneath the power supply bays.
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
Note
Use the third hole up from the bottom of the rack-mount bracket and the third hole down from the top of the
rack-mount bracket.
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Four-Post Rack Installation
Step 3
Hold the chassis in position against the mounting rails while the second person finger-tightens a screw to the rack rails
on each side of the chassis. The following image shows the rear rack-mount brackets and the front rack-mount brackets
on the Cisco ASR 1004 Router.
Figure 68: Cisco ASR 1004 Router on a Four-Post Rack—Front and Rear Rack-Mounting
Step 4
Step 5
Step 6
1
Equipment rack rear rail
3
Front rack-mount bracket ear
and holes
2
Chassis rear rack-mount
bracket and ear holes
4
Equipment rack front rail
Finger-tighten 4 more screws to the rack rails on each side of the chassis.
Tighten all screws on each side to secure the chassis to the equipment rack.
Use a level to verify that the tops of the two brackets are level, or use a measuring tape to verify that both brackets are
the same distance from the top of the rack rails.
What to Do Next
This completes the procedure for installing the chassis in the rack. Proceed to the Attaching a Chassis Ground
Connection, on page 201 to continue the installation.
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Attaching a Chassis Ground Connection
Attaching a Chassis Ground Connection
Connecting the Cisco ASR 1004 Router chassis to ground is required for all DC powered installations and
any AC powered installation where compliance with Telcordia grounding requirements is necessary.
Caution
The dual-lug chassis ground stud must be installed, the SIP and SPA must be fully inserted and screwed
in and earthed to prevent a potential hazard in a telecom line.
Have the recommended tools and supplies available before you begin this procedure.
Warning
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority
or an electrician if you are uncertain that suitable grounding is available. Statement 1024
Before you connect power or turn on power to your chassis, you must provide an adequate chassis ground
(earth) connection for the chassis. A chassis ground connector is provided on each Cisco ASR 1004 Router.
(See the image on the following section “Recommended Tools and Supplies.”) There is a grounding stud on
the side of the chassis and on the –48 VDC power supply (primary grounding stud).
Caution
The grounding wire is always the first to be installed or connected and the last to be removed or
disconnected.
Recommended Tools and Supplies
The following tools, equipment, and supplies necessary to connect the system ground to the chassis:
• Phillips screwdriver
• Dual-lug chassis ground component
• Grounding wire
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Recommended Tools and Supplies
The following image shows the location of the dual ground lug on the rear of the of Cisco ASR 1004 Router.
Figure 69: Chassis Ground Lug Location on the Cisco ASR 1004 Router
1
Chassis ground connector on the Cisco ASR 1004
Router
Use the following procedure to attach the grounding lug to the chassis ground connector on your chassis:
SUMMARY STEPS
1. Use the wire stripper to strip one end of the AWG #6 wire approximately 0.75 inches (19.05 mm).
2. Insert the AWG #6 wire into the wire receptacle on the grounding lug.
3. Use the crimping tool to carefully crimp the wire receptacle around the wire; this step is required to ensure
a proper mechanical connection.
4. Attach the grounding lug with the wire on the left to avoid having the grounding wire overlapping the
power supply. The following image shows how to attach the grounding screws.
5. Locate the chassis ground connector on the side of your chassis.
6. Insert the two screws through the holes in the grounding lug as shown in Figure 70: Attaching a Grounding
Lug to the Chassis Ground Connector, on page 203.
7. Use the Number 2 Phillips screwdriver to carefully tighten the screws until the grounding lug is held firmly
to the chassis. Do not overtighten the screws.
8. Connect the opposite end of the grounding wire to the appropriate grounding point at your site to ensure
an adequate chassis ground.
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Recommended Tools and Supplies
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Use the wire stripper to strip one end of the AWG #6 wire approximately 0.75 inches (19.05 mm).
Insert the AWG #6 wire into the wire receptacle on the grounding lug.
Use the crimping tool to carefully crimp the wire receptacle around the wire; this step is required to ensure a proper
mechanical connection.
Attach the grounding lug with the wire on the left to avoid having the grounding wire overlapping the power supply.
The following image shows how to attach the grounding screws.
Figure 70: Attaching a Grounding Lug to the Chassis Ground Connector
1
Step 5
Step 6
Step 7
Step 8
Chassis ground connector
2
Ground symbol
Locate the chassis ground connector on the side of your chassis.
Insert the two screws through the holes in the grounding lug as shown in Figure 70: Attaching a Grounding Lug to the
Chassis Ground Connector, on page 203.
Use the Number 2 Phillips screwdriver to carefully tighten the screws until the grounding lug is held firmly to the chassis.
Do not overtighten the screws.
Connect the opposite end of the grounding wire to the appropriate grounding point at your site to ensure an adequate
chassis ground.
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Attaching the Cable-Management Bracket
What to Do Next
This completes the procedure for attaching a chassis ground connection. To continue, go to the Attaching the
Cable-Management Bracket, on page 204.
Attaching the Cable-Management Bracket
The cable-management brackets mount to each rack-mount bracket on the chassis to provide cable-management
to both sides of the chassis (parallel with card orientation). These brackets are screw mounted to the rack-mount
brackets to allow easy installation and removal of cables.
The cable-management brackets for the Cisco ASR 1004 Router contain three independent cable-management
“U” type features with four screws and provides cable dressing of each card module slots. For Cisco ASR
1000 SIPs, these brackets work in tandem with shared port adapter product feature cable-management device
to allow installation and removal of adjacent cards without the need to remove cables.
Note
Make certain that the cable-management bracket “U” type feature is facing upwards when you attach it to
the chassis.
Follow these steps to attach the cable-management brackets to both sides of the Cisco ASR 1004 Router in
the equipment rack:
SUMMARY STEPS
1. Align the cable-management bracket to the rack-mount bracket on one side of the Cisco ASR 1004 Router.
The cable-management bracket aligns to the top hole of the chassis rack-mount bracket.
2. Using a Phillips screwdriver, insert the screw through cable-management bracket and into the chassis
rack-mount and tighten the screw.
3. Using the bottom rack-mount ear hole, insert the screw through cable-management bracket and into the
chassis rack-mount (see Figure 71: Chassis Rack-Mount Bracket Ear Holes for the Cable-Management
Bracket, on page 205).
DETAILED STEPS
Step 1
Step 2
Align the cable-management bracket to the rack-mount bracket on one side of the Cisco ASR 1004 Router. The
cable-management bracket aligns to the top hole of the chassis rack-mount bracket.
Using a Phillips screwdriver, insert the screw through cable-management bracket and into the chassis rack-mount and
tighten the screw.
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Connecting the Shared Port Adapter Cables
The following image shows where to attach the cable-management brackets to the Cisco ASR 1004 Router in a rack.
Figure 71: Chassis Rack-Mount Bracket Ear Holes for the Cable-Management Bracket
Step 3
1
Cable-management bracket 3
top and bottom screw
Chassis rack-mount bracket
2
Cable-management bracket —
and U feature device
—
Using the bottom rack-mount ear hole, insert the screw through cable-management bracket and into the chassis rack-mount
(see Figure 71: Chassis Rack-Mount Bracket Ear Holes for the Cable-Management Bracket, on page 205).
What to Do Next
This completes the procedure for installing the cable-management brackets on the chassis in a rack.
Connecting the Shared Port Adapter Cables
The instructions for connecting the cables for the shared port adapter installed in the Cisco ASR 1004 Router
are contained in the respective configuration documents for each port adapter. For example, if you are
connecting the optical fiber cables for the PA-POS-OC3 port adapter, see PA-POS-OC3 Port Adapter
Installation and Configuration at the following location:
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Connecting the Console and Auxiliary Port Cables
http://www.cisco.com/en/US/partner/docs/interfaces_modules/port_adapters/install_upgrade/pos/
pa-pos-oc3_install_config/paposoc3.html
Connecting the Console and Auxiliary Port Cables
The Cisco ASR 1004 Router has a DCE-mode console port for connecting a console terminal and an auxiliary
port for additional connections to your chassis. The auxiliary port can also be used for diagnostics. The
following shows the CON and AUX ports on the Cisco ASR 1000 Series route processor.
1
Console port - CON
2
Auxiliary port - AUX
The Cisco ASR 1004 Router uses RJ-45 ports for both the auxiliary port and the console port. Both the console
and the auxiliary ports are asynchronous serial ports; any devices connected to these ports must be capable
of asynchronous transmission.
Note
A connection will not be established when setting up an out-of-band connection or modem connection in
the auxiliary port and the console port.
For console and auxiliary port pinouts for the RJ-45 connector, see “Cisco ASR 1004 Router Specifications”
section on page A-5 . Both ports are configured as asynchronous serial ports.
SUMMARY STEPS
1. Before connecting a terminal to the console port, configure the terminal to match the chassis console port
as follows: 9600 baud, 8 data bits, no parity, 1 stop bits (9600 8N1).
2. After you establish normal router operation, you can disconnect the terminal.
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Connecting the Ethernet Management Port Cable
DETAILED STEPS
Step 1
Step 2
Before connecting a terminal to the console port, configure the terminal to match the chassis console port as follows:
9600 baud, 8 data bits, no parity, 1 stop bits (9600 8N1).
After you establish normal router operation, you can disconnect the terminal.
Connecting the Ethernet Management Port Cable
When using the Fast Ethernet Management port in the default mode (speed-auto and duplex-auto) the port
operates in auto-MDI/MDI-X mode. The port automatically provides the correct signal connectivity through
the Auto-MDI/MDI-X feature. The port automatically senses a crossover or straight-through cable and adapts
to it.
However, when the Fast Ethernet Management port is configured to a fixed speed (10/100/1000 Mbps) through
command-line interface (CLI) commands, the port is forced to MDI mode.
When in a fixed-speed configuration and MDI mode:
• Use a crossover cable to connect to an MDI port
• Use a straight-through cable to connect to an MDI-X port
The following figure shows the MGMT Ethernet port connector.
Figure 72: Cisco ASR 1000 Series Route Processor MGMT Ethernet Port Connector
1
MGMT Ethernet port
2
Cable-management
bracket and U feature
device
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Connecting Power to Cisco ASR 1004 Router
Connecting Power to Cisco ASR 1004 Router
Warning
The covers are an integral part of the safety design of the product. Do not operate the unit without the
covers installed. Statement 1077
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
This section provides the procedures for connecting AC-input and –48 VDC input power to your Cisco ASR
1004 Router.
The –48 VDC power supply for the Cisco ASR 1006, ASR 1004, and ASR 1002 routers operate at individual
specifications. The following table shows the common input ranges and circuit breaker requirements.
Table 50: Cisco ASR 1000 Series Router –48 VDC Power Supply System Input Requirements
Cisco ASR 1000 System Input
Series Router
Rating (Amps)
DC Power
Supply
Circuit Breaker AWG # Wire
Amps
Minimum
Maximum
Cisco ASR 1006 40
Always 50
Always AWG
#6 wire
Cisco ASR 1004 24
30
Cisco ASR 1002 16
20
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Minimum
Maximum
40
10
8
30
12
10
Cisco ASR 1004 Router Overview and Installation
Power Cords Supported by the Cisco ASR 1004 Router
Cisco ASR 1000 System Input
Series Router
Rating (Amps)
DC Power
Supply
Circuit Breaker AWG # Wire
Amps
For example, the
Cisco ASR 1002
Router –48
VDC power
supply, with 16
Amp input
rating must use
an AWG #12
gauge wire for a
20 A circuit
breaker and an
AWG #10 gauge
wire for a 30 A
circuit breaker.
Note
All Cisco ASR 1000 Series Router AC power supplies must be connected to a branch circuit that does
not exceed 20 A.
Note
Detailed instructions for removing and replacing the Cisco ASR 1000 Series AC and DC power supplies
are in Chapter 14, “Removing and Replacing FRUs from the Cisco ASR 1000 Series Routers.”
Power Cords Supported by the Cisco ASR 1004 Router
Table 51: Power Cords Supported by the Cisco ASR 1004 Router , on page 209 lists the power cords that are
supported by the Cisco ASR 1004 Router.
Table 51: Power Cords Supported by the Cisco ASR 1004 Router
Power Cord Item Number
Description
CAB-AC-RA
Power Cord, 110 V, Right Angle
CAB-AC10A-90L-AU
10 A AC Power Cord, Left Angle (Australia) (bundle
option)
CAB-AC10A-90L-EU
10 A AC Power Cord, Left Angle (Europe) (bundle
option)
CAB-AC10A-90L-IT
10 A AC Power Cord, Left Angle (Italy) (bundle
option)
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Power Cord Item Number
Description
CAB-AC10A-90L-UK
10 A AC Power Cord, Left Angle (United Kingdom)
(bundle option)
CAB-AC15A-90L-US
15 A AC Power Cord, Left Angle (United States)
(bundle option)
CAB-ACA-RA
Plug, Power Cord, Australian, 10 A, Right Angle
CAB-ACB10A-RA
Power Cord, Brazil, Right Angle, 10 A
CAB-ACB16A-RA
Power Cord, Brazil, Right Angle, 16 A
CAB-ACC-RA
Power Cord China, Right Angle
CAB-ACE-RA
Power Cord Europe, Right Angle
CAB-ACI-RA
Power Cord, Italian, Right Angle
CAB-ACR-RA
Power Cord Argentina, Right Angle
CAB-ACS-RA
Power Cord, Switzerland, Right Angle
CAB-ACU-RA
Power Cord UK, Right Angle
CAB-JPN-RA
Power Cord-Japan, Right Angle
Connecting AC Input Power to Cisco ASR 1004 Router
Follow these steps to connect an AC input power supply to the Cisco 1004 chassis:
SUMMARY STEPS
1.
2.
3.
4.
5.
Insert an AC power supply in power supply slot 0 or power supply slot 1 until it is fully seated.
Tighten the captive screws.
Insert the AC power cable into the power inlet.
Plug the power supply cable into the power source.
Turn the power supply switch to the On position.
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Connecting --48 VDC Input Power to Cisco ASR 1004 Router
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Insert an AC power supply in power supply slot 0 or power supply slot 1 until it is fully seated.
Tighten the captive screws.
Insert the AC power cable into the power inlet.
Plug the power supply cable into the power source.
Note
For additional AC power cable strain relief, secure the cable to the power supply handle by inserting a nylon
cable tie through the hole in the handle and around the cable.
Figure 73: Cisco ASR 1004 Router AC Power Supply, on page 211 shows the Cisco ASR 1004 Router AC power supply.
Figure 73: Cisco ASR 1004 Router AC Power Supply
1
AC power supply Standby
switch
4
AC power supply fan
2
AC power supply LEDs
5
AC power inlet
3
DB-25 alarm connector
6
AC power supply handle
Shielded cables must be used to connect to the DB-25 alarm connector on both the AC and –48 VDC power
supplies in order to comply with FCC/EN55022/CISPR22 Class A emissions requirements. See the “How Cisco
ASR1000-RP Alarm Monitoring Works” section on page 2-22 .
Turn the power supply switch to the On position.
Note
Step 5
What to Do Next
This completes the procedure for connecting AC input power.
Connecting --48 VDC Input Power to Cisco ASR 1004 Router
This section describes how to connect the –48 VDC power supply in the Cisco ASR 1004 Router.
Figure 74: Cisco ASR 1004 Router –48 VDC Power Supply , on page 211 shows the –48 VDC power supply.
Figure 74: Cisco ASR 1004 Router –48 VDC Power Supply
1
–48 VDC power supply 5
terminal block and plastic
cover
–48 VDC power supply
ground symbol
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Connecting --48 VDC Input Power to Cisco ASR 1004 Router
Note
2
–48 VDC power supply
LEDs
6
–48 VDC power supply
On (|)/ Off (O)
3
DB-25 alarm connector
7
–48 VDC power supply
handle
4
–48 VDC power supply
fan
—
—
Shielded cables must be used to connect to the DB-25 alarm connector on both the AC and –48 VDC
power supplies in order to comply with FCC/EN55022/CISPR22 Class A emissions requirements. See
the “How Cisco ASR1000-RP Alarm Monitoring Works” section on page 2-22 .
Before you begin, read these important notices:
• The color coding of the –48 VDC input power supply leads depends on the color coding of the –48 VDC
power source at your site. Typically, green or green/yellow is used for ground (GND), black is used for
–48 V on negative (–) terminal and red is used for RTN on the positive (+) terminal. Make certain the
lead color coding you choose for the –48 VDC input power supply matches lead color coding used at
the –48 VDC power source.
• For –48 VDC input power cables, select the appropriate wire gauge based on the National Electrical
Code (NEC) and local codes for 60-amp service at nominal –48 VDC input voltage (–48/–60 VDC).
Three pairs of cable leads, source DC (–) and source DC return (+), are required for each power
distribution unit (PDU). These cables are available from any commercial cable vendor. All input power
cables for the chassis should have the same wire gauge and cable lengths should match within 10 percent
of deviation.
Each DC input power cable is terminated at the PDU by a cable lug. The cable lugs must be dual-hole, and
have a 45-degree angle tongue. They must be able to fit over #10 power terminal stud.
Note
–48 VDC input power cables must be connected to the PDU terminal studs in the proper positive (+) and
negative (–) polarity. In some cases, the –48 VDC cable leads are labeled, which is a relatively safe
indication of the polarity. However, you must verify the polarity by measuring the voltage between the
–48 VDC cable leads. When making the measurement, the positive (+) lead and the negative (–) lead must
always match the (+) and (–) labels on the PDU.
• A ground cable is required for each –48 VDC PDU. We recommend that you use at least 6-AWG
multistrand copper wire. This wire is not available from Cisco Systems; it is available from any
commercial cable vendor.
The ground wire cable lug should be dual-hole (as shown in Figure 75: Cisco ASR 1004 Router –48 VDC
Power Supply Grounding Wire and Stud, on page 214) and able to fit over M6 terminal studs at 0.625-inch
(15.88-mm) centers. Recommended lug terminal wire size Panduit part number:
•
◦LCD8-14A-L for 8AWG wire size
◦LCD6-14A-L for 6AWG wire size
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Connecting --48 VDC Input Power to Cisco ASR 1004 Router
To avoid hazardous conditions, all components in the area where –48 VDC input power is accessible must
be properly insulated. Therefore, before installing the –48 VDC cable lugs, be sure to insulate the lugs
according to the manufacturer’s instructions.
Note
Danger
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
To connect the Cisco ASR 1004 Router DC power supply, follow these steps:
SUMMARY STEPS
1. Make certain that the chassis grounding is connected before you begin installing the –48 VDC power
supply.
2. Locate the terminal block and remove the plastic cover.
3. On the –48 VDC power supply terminal block, locate the GND connection which must be connected first
and follow these steps:
4. Attach the other end of the cable to the site ground connection.
5. You must wrap the positive and negative cables with sleeving. Take each wire and cover the area from
the lug to the wire with heavy shrink sleeving.
6. For easier cable-management, insert the negative cable first. Replace the ground lug with cable in the
following order:
7. Tighten the Kepnut screw (use the screwdriver to tighten the screw in the terminal block to a torque of 8
in-lbs / 4 per.) and repeat the same steps for the positive stud and wire.
8. Use tie wraps to secure the wires, so that the wires are not pulled from the terminal block by casual contact.
Ti-wrap studs are located below the supply terminal block.
9. Replace the terminal block plastic cover, which slides over the terminal block; then tighten the screws
(tighten the screw to a torque of 5 in-lbs / 1 per.).
10. Remove the tape from the circuit-breaker switch handle and move the circuit-breaker handle to the on
position, if you taped the circuit breaker.
11. Switch the On/Off circuit breaker switch to the On (|) position.
DETAILED STEPS
Step 1
Step 2
Step 3
Make certain that the chassis grounding is connected before you begin installing the –48 VDC power supply.
Locate the terminal block and remove the plastic cover.
a) Unscrew and remove the two screws.
b) Slide the plastic cover off of the terminal block.
On the –48 VDC power supply terminal block, locate the GND connection which must be connected first and follow
these steps:
a) Using the two-hole grounding lug, replace the washers and Kepnut screw in the following order.
•
◦Flat washer
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Connecting --48 VDC Input Power to Cisco ASR 1004 Router
◦Grounding cable lug
◦Kepnut screw
b) Tighten the Kepnut screws (use the screwdriver to tighten the screw in the terminal block to a torque of 8 in-lbs / 2
per.) on the power supply studs.
Figure 75: Cisco ASR 1004 Router –48 VDC Power Supply Grounding Wire and Stud, on page 214 shows the –48
VDC power supply grounding wire and stud.
Figure 75: Cisco ASR 1004 Router –48 VDC Power Supply Grounding Wire and Stud
Step 4
Step 5
Attach the other end of the cable to the site ground connection.
Caution
Before you continue to install the terminal block wires, stop and perform Step 5. To prevent any contact with
metal lead on the wire and the plastic cover.
You must wrap the positive and negative cables with sleeving. Take each wire and cover the area from the lug to the
wire with heavy shrink sleeving.
Figure 76: Cisco ASR 1004 Router –48 VDC Power Supply Cable Connection, on page 214 shows the –48 VDC power
supply cable connection.
Figure 76: Cisco ASR 1004 Router –48 VDC Power Supply Cable Connection
1
Power supply stud and wire 4
Flat washer
2
Ground lug nut
5
Kepnut screw
3
Ground symbol
—
—
Step 6
For easier cable-management, insert the negative cable first. Replace the ground lug with cable in the following order:
a) Flat Washer
b) Ground lug with negative wire
c) Kepnut screw
Step 7
Tighten the Kepnut screw (use the screwdriver to tighten the screw in the terminal block to a torque of 8 in-lbs / 4 per.)
and repeat the same steps for the positive stud and wire.
Note
Secure the wires coming in from the terminal block so that they cannot be disturbed by casual contact.
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Connecting a Terminal to the Cisco ASR Series 1000 Route Processor Console Port
Step 8
Step 9
Step 10
Step 11
Use tie wraps to secure the wires, so that the wires are not pulled from the terminal block by casual contact. Ti-wrap
studs are located below the supply terminal block.
Replace the terminal block plastic cover, which slides over the terminal block; then tighten the screws (tighten the screw
to a torque of 5 in-lbs / 1 per.).
Remove the tape from the circuit-breaker switch handle and move the circuit-breaker handle to the on position, if you
taped the circuit breaker.
Switch the On/Off circuit breaker switch to the On (|) position.
What to Do Next
This completes the procedure for connecting the –48 VDC power supply in the Cisco ASR 1004 Router.
Connecting a Terminal to the Cisco ASR Series 1000 Route
Processor Console Port
The Cisco ASR 1004 route processor has an asynchronous serial (EIA/TIA-232) RJ-45 console port labeled
CON on its front panel. You can connect this port to most types of video terminals through use of the console
cable kit that is included with your Cisco ASR 1004 Router. The console cable kit contains:
• One RJ-45 to RJ-45 crossover cable
• One RJ-45 to DB-9 (female) adapter
A crossover cable reverses pin connections from one end to the other. In other words, it connects pin 1 (at
one end) to pin 8 (at the other end), pin 2 to pin 7, pin 3 to pin 6, and so on. You can identify a crossover cable
by comparing the two modular ends of the cable. Hold the cable ends in your hand, side-by-side, with the
tabs at the back. Ensure that the wire connected to the outside (left) pin of the left plug (pin 1) is the same
color as the wire connected to the outside (right) pin of the right plug (pin 8).
Use the following procedure to connect a video terminal to the console port on a route processor.
Note
Each Cisco ASR 1000 Series Route Processor 1 must have a console port connection (typically to a
terminal server) if you are running a redundant configuration in the chassis.
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Connecting a Terminal to the Cisco ASR Series 1000 Route Processor Console Port
The following shows the route processor console port.
Figure 77: Cisco ASR 1004 Router ASR 1000 Series Route Processor Console Port
1
CON port connection
2
AUX port connection
SUMMARY STEPS
1. Connect one end of the RJ-45 cables to the serial RJ-45 port (CON) on the Cisco ASR 1000 Series Route
Processor 1 (see Figure 77: Cisco ASR 1004 Router ASR 1000 Series Route Processor Console Port, on
page 216).
2. Run the cable up and through the cable-management bracket and connect the other end of the RJ-45 cable
to the RJ-45 adapter (see the following image).
3. Connect the adapter to your video terminal to complete the cable connection.
4. Power on your video terminal.
5. Configure your video terminal to match the following default console port settings:
6. Go to the Connecting the Network Management and Signal System Cables, on page 218 to continue the
installation.
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Connecting a Terminal to the Cisco ASR Series 1000 Route Processor Console Port
DETAILED STEPS
Step 1
Step 2
Connect one end of the RJ-45 cables to the serial RJ-45 port (CON) on the Cisco ASR 1000 Series Route Processor 1
(see Figure 77: Cisco ASR 1004 Router ASR 1000 Series Route Processor Console Port, on page 216).
Run the cable up and through the cable-management bracket and connect the other end of the RJ-45 cable to the RJ-45
adapter (see the following image).
Figure 78: Cisco ASR 1004 Router Cable-Management Bracket
1
Step 3
Step 4
Step 5
BITS port connection
2
Cable-management bracket
U feature device
Connect the adapter to your video terminal to complete the cable connection.
Power on your video terminal.
Configure your video terminal to match the following default console port settings:
• 9600 baud
• 8 data bits
• No parity generation or checking
• 1 stop bit
• No flow control
Step 6
Go to the Connecting the Network Management and Signal System Cables, on page 218 to continue the installation.
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Connecting the Network Management and Signal System Cables
Connecting the Network Management and Signal System Cables
The Cisco ASR 1004 Router has connections to both the internal Ethernet management network and the
external data network.
•T
he internal Ethernet management network connections are made through an Ethernet port on the front
panel of the Cisco ASR 1000 Series Route Processor 1.
• The external data network connections are made through front panel ports on several types of SPAs.
Keep the following guidelines in mind when connecting external cables to the Cisco ASR 1004 Router:
• To reduce the chance of interference, avoid crossing high-power lines with any interface cables.
• Verify all cabling limitations (particularly distance) before powering on the system.
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CHAPTER
8
Cisco ASR 1002 Router Overview and Installation
This chapter describes the Cisco ASR 1002 Router and provides procedures for installing the Cisco ASR
1002 Router on an equipment shelf or tabletop or in an equipment rack.
This chapter contains the following sections:
• Cisco ASR 1002 Router Description, page 219
• Installation Methods, page 234
• General Rack Installation Guidelines, page 234
• Guidelines for an Equipment Shelf or Tabletop Installation, page 235
• Equipment Shelf or Tabletop Installation, page 236
• Rack-Mounting the Cisco ASR 1002 Router, page 238
• Attaching the Chassis Rack-Mount Brackets, page 240
• Installing the Cisco ASR 1002 Router in a Rack, page 243
• Attaching the Cable-Management Bracket, page 248
• Attaching a Chassis Ground Connection, page 249
• Connecting the Shared Port Adapter Cables, page 252
• Connecting the Console and Auxiliary Port Cables, page 253
• Cisco ASR 1002 Router Power Supplies, page 255
• Connecting a Terminal to the Cisco ASR1000-RP1 Console Port, page 272
• Connecting Cables, page 273
Cisco ASR 1002 Router Description
The Cisco ASR 1002 Router is part of the Cisco aggregation services family of routers. The Cisco ASR 1002
Router offers a compact form factor router that satisfies customer demands such as low power consumption
and decreased usage of rack space.
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Front View
The Cisco ASR 1002 Router supports three half-height SPAs and an optional built-in 4xGE SPA. The Cisco
ASR 1002 Router supports all the general-purpose routing and security features of the Cisco ASR 1000 Series
Routers. It uses the same internal control and data-plane architecture as the other Cisco ASR 1000 Series
Routers.
The Cisco ASR 1002 Router supports:
• Cisco ASR1000-ESP5 or Cisco ASR1000-ESP10 as a field-replaceable unit (FRU)
• The Cisco Embedded Route Processor which supports 2MB upgradeable BootROM and 8 GB eUSB
bulk storage.
• 1 + 1 redundant AC or DC power supplies.
• Stratum-3 network clocking per GR-1244-CORE, with T1/E1 BITS interface or SPAs as timing sources.
• A built-in 4x1GE SPA providing four small form-factor pluggable (SFP-based) GE connections,
designated as SPA bay 0.
For information about the SFP transceiver modules that are compatible with Cisco ASR 1002 Built-in Gigabit
Ethernet Ports (4x1GE), refer to the “Modular Optics Compatibility” section in Cisco ASR 1000 Series
Aggregation Services Routers SIP and SPA Hardware Installation Guide .
The Cisco ASR 1002 Router supports upgradeable Cisco ASR1000-ESP5 or ASR1000-ESP10 assembly and
the power supply modules as field-replaceable units. The Cisco integrated ASR1000-SIP10 and Cisco built-in
ASR1000-RP1 assemblies are fixed into the chassis and are not upgradeable; but the shared port adapters in
the SIP are field upgradable.
This section contains the following topics:
• Front View, on page 220
• Rear View, on page 221
• Cisco ASR 1002 Router Slot Numbering, on page 222
Front View
Cisco ASR 1002 router front view shows the Cisco ASR 1002 Router with modules installed.
Figure 79: Cisco ASR 1002 Router—Front View
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Rear View
Note
1
Embedded ASR 1000
3
Series Route Processor in
the subslot and represents
the built in 4xGE SPA.
SPA subslot 1
2
SPA subslot 2
SPA subslot 3
4
The SPAs in subslots 1-3 are field upgradeable. The SIP that the SPAs reside in is not field-upgradeable
and the Cisco ASR 1000 Series Route Processor is embedded in the chassis and not field upgradeable.
Rear View
Cisco ASR 1002 router AC power supply image shows the Cisco ASR 1002 Router AC power supply.
Figure 80: Cisco ASR 1002 Router AC Power Supply
1
Chassis ESD socket
5
AC power supply fan
2
AC power supply slot
number 0
6
AC power supply captive
installation screw
3
AC power supply On (|)
/Off (O) switch
7
AC power supply slot
number 1
4
AC power supply LEDs
8
AC power inlet
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Rear View
c_Rear_View_1271213.xml shows the Cisco ASR 1002 Router DC power supply.
Figure 81: Cisco ASR 1002 Router DC Power Supply
1
Chassis ESD socket
6
DC power supply captive
installation screw
2
DC power supply slot 0
label
7
DC power supply slot 1
label
3
DC power supply switch 8
Standby/On (|)
Ground lead
4
DC power supply LEDs
9
Positive lead
5
Power supply fan
10
Negative lead
Internal fans draw cooling air into the chassis and across internal components to maintain an acceptable
operating temperature. The fans are located at the rear of the chassis. A two-hole grounding lug is located on
the side of the chassis. Two power supplies, either two AC power supplies or two DC power supplies are
accessed from the rear of the router.
Caution
Use only AC power supplies or DC power supplies in the Cisco ASR 1002 Router. Do not mix power
supply types.
Cisco ASR 1002 Router Slot Numbering
The Cisco ASR 1002 Router contains one Cisco embedded ASR1002-RP1 which is addressed as R0 and one
Cisco ASR1000-ESP5 or ASR1000-ESP10 forwarding processor in slot F0. The Cisco ASR 1002 Router
consists of an embedded ASR1000-RP1 and embedded ASR1000-SIP10 board supporting three half-height
SPAs or 1half-height and one full-height SPA and one Cisco ASR1000-ESP5 forwarding processor.
The SPA bays are bay 1, bay 2, and bay 3. The built-in 4xGE SPA ports are located in the SPA 0 location
and will be addressed as GE 0/0/x. The Cisco ASR 1002 Router provides a built-in 4-Gigabit Ethernet interface
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Cisco ASR 1002 Router Components
and this SPA is physically located on the Cisco embedded ASR1000-RP1 board. The Cisco ASR 1000 Series
ESP card is located in slot 1 and labeled as FP0.
c_Cisco_ASR_1002_Router_Slot_Numbering_1243123.xml shows the Cisco ASR 1002 Router slot numbering.
Figure 82: Cisco ASR 1002 Router Slot Numbering
1
Embedded route
3
processor RP0 in subslot
0
Cisco SPA subslot 1
2
Cisco SPA subslot 2
Cisco SPA subslot 3
4
Cisco ASR 1002 Router Components
The Cisco ASR 1002 Router system is derived from the architecture of the other Cisco ASR 1000 Series
routers. The three main subassemblies of any Cisco ASR 1000 Series Routers are all supported in the Cisco
ASR 1002 Router, which is the:
•C
isco embedded ASR1000-RP1 and Cisco embedded ASR1000-SIP10 (not field upgradable)
• Cisco ASR1000-ESP5 and Cisco ASR1000-ESP10 embedded services processors are field-replaceable
units (FRU)
• AC or DC power supplies which are field-replaceable units
Cisco Embedded ASR1000-RP1 for Cisco ASR 1002 Router Description
The Cisco ASR 1000 Series route processor (embedded for the Cisco ASR 1002 Router) is the central control
processor and runs the network operating system.
The Cisco embedded ASR1000-RP1 supports management interfaces such as the Ethernet network management
port and console and auxiliary serial ports. It has LED status indicators, an RJ-45 plug for a BITS timing
reference and one USB port which can be used with smart cards for secure key distribution or for image or
configuration file updates.
The Cisco embedded ASR1000-RP1 deviates from the other ASR Series Route Processor 1 for the Cisco
ASR 1006 router and the Cisco ASR 1004 Router in the following ways:
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Cisco ASR 1002 Router Components
• Bulk file storage is on a large eUSB device (to 8 GB supported) with no SATA hard-drive supported.
• Redundant Cisco Route Processor 1 is not supported.
• Network clock changes. No second BITS clock input supported.
• A built-in 4x1GE SPA is included. This shared port adapter provides four SFP-based GE connections.
For information about the SFP transceiver modules that are compatible with Cisco ASR 1002 Built-in Gigabit
Ethernet Ports (4x1GE), refer to the “Modular Optics Compatibility” section in Cisco ASR 1000 Series
Aggregation Services Routers SIP and SPA Hardware Installation Guide .
Cisco Embedded ASR1000-SIP10 and SPAs for Cisco ASR 1002 Router Description
The Cisco embedded ASR1000-SIP10 in the Cisco ASR 1002 Router is built into the Cisco ASR 1002 Router.
The Cisco embedded ASR1000-SIP10 provides the physical and electrical termination for up to three half-height
SPAs or one full-height and one half-height SPA. Double-wide SPAs are not supported. The fourth SPA slot
is connected to the built-in 4xGE SPA that resides on the Cisco embedded ASR1000-RP1.
The Cisco embedded ASR1000-SIP10 interface, like the Cisco ASR 1006 Router and Cisco ASR 1004 Router,
supports all Cisco embedded ASR1000-SIP10 functions and services. However, the Cisco embedded
ASR1000-SIP10 differs in the following areas:
• Functions as the base board for Cisco embedded ASR1000-RP1
• Only supports three removable half-height SPAs on Bay 1, 2, and 3. The fourth SPA is a built-in 4xGE
SPA on Bay 0, which is located on the Cisco embedded ASR1000-RP1.
• Is not a field-replaceable unit (FRU) and does not support online insertion and removal (OIR).
Note
The shared port adapters (SPAs) on the Cisco embedded ASR1000-SIP10 in the Cisco ASR 1002 Router
do support online insertion and removal.
The Cisco ASR 1002 Router embedded ASR1000-RP1 also provides the circuitry for the built-in 4xGE SPA.
Cisco ASR1000-ESP5 and ASR1000-ESP10 Description
The Cisco ASR 1002 Router supports the Cisco ASR1000-ESP5 or Cisco ASR1000-ESP10 embedded services
processors. The Cisco ASR 1002 Router does not support the Cisco ASR1000-ESP20.
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Cisco ASR 1002 Router Components
Cisco ASR1000-ESP10 image shows the LEDs on the Cisco ASR1000-ESP10.
Figure 83: Cisco ASR1000-ESP10 LEDs
c_Cisco_ASR1000-ESP5_and_ASR1000-ESP10_Description_1222814.xml describes the Cisco ASR1000-ESP5
and Cisco ASR1000-ESP10 LEDs.
Table 52: Cisco ASR1000-ESP5 and Cisco ASR1000-ESP10 LEDs
No.
LED Label
LED
Color
Behavior in the
Power-Up State
1
PWR
Power
Solid green
All power supplies are
within operational limits.
Off
Off, the router is in
standby mode.
2
ACTV
Active
Green
The embedded services
processor is green when
active.
3
STAT
STATUS
Green
Code has successfully
downloaded and is
operational.
Yellow
BOOT ROM has
successfully loaded.
Red
Not booted.
None
Will always be off.
4
STBY
Standby
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Power Supplies in the Cisco ASR 1002 Router
Note
The Cisco ASR 1000-ESP5 can only be used in the Cisco ASR 1002 Router.
Power Supplies in the Cisco ASR 1002 Router
The Cisco ASR 1002 Router power supply module supports the following Cisco power supplies:
• AC power supply operates between 85VAC to 264VAC and DC operates between –40.5 to –72VDC
• –48 VDC power supply operates between
• +24 VDC power supply operates
The power supplies are installed into the rear of the chassis and are hot pluggable. The Cisco ASR 1002 Router
supports up to 588 W input power from an infrastructure standpoint (cooling capacity, midplane and power
distribution) but initial power supply development limit is up to 470 W output (AC and DC Input).
AC Power Supply for Cisco ASR 1002 Router
The AC power supply input inlet is an IEC connector with AC switch and the current rating on the connector
and switch is 10 Amps. The AC power supply is secured into the chassis with two captive screws mounted
on the faceplate.
The following table describes the AC power supply LEDs on the Cisco ASR 1002 Router.
Table 53: Cisco ASR 1002 Router AC Power Supply LEDs
LED Label
LED
Color
Description
INPUT OK
Power supply activity
Green
The AC input voltage is greater
than 85V.
None
If the LED is not illuminated,
then either the input voltage is
less than 70V, or the power
supply is turned off.
If the AC input voltage is
between 70V and 85V, the
INPUT OK LED can be on, off,
or flashing.
FAN OK
Power supply fan activity
Green
All fans are operational.
A bi-color LED indicates fan
status.
Red
A fan failure is detected.
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Power Supplies in the Cisco ASR 1002 Router
LED Label
LED
Color
Description
OUTPUT FAIL
Power supply activity
Red
If the INPUT OK LED is
illuminated, this LED is red if
the DC output voltages are
below the minimum limit or
above the maximum limit.
If the INPUT OK LED is not
illuminated, this LED might be
off or red.
The following image shows the AC Power Supply for the Cisco ASR 1002 Router.
Figure 84: AC Power Supply for the Cisco ASR 1002 Router
1
Chassis ESD socket
5
AC power supply fan
2
AC power supply slot
number 0
6
AC power supply captive
installation screw
3
AC power supply On (|)
/Off (O) switch
7
AC power supply slot
number 1
4
AC power supply LEDs
8
AC power supply inlet
48 VDC Power Supply for Cisco ASR 1002 Router
The –48 VDC power supply input connector is a Euro-style terminal block. It is compliant with safety agencies’
guidelines and electrical requirements of the supply. The DC power supply operates within specification from
–40.5VDC to –72VDC continuously once the power supply DC input turn on threshold of –43.5 V has been
reached.
The –48 VDC power input connector Euro-style terminal block will accept three wires: one positive polarity,
one negative polarity, and one ground wire. There are provisions on the front panel to wire tie and strain relief
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Power Supplies in the Cisco ASR 1002 Router
the DC input wiring. The connection order is negative (–), positive (+), and GND. The DC power supply is
secured into the system chassis with two captive screws mounted on the faceplate.
The following image shows the –48 VDC Power Supply for the Cisco ASR 1002 Router.
Figure 85: –48 VDC Power Supply for the Cisco ASR 1002 Router
1
Chassis ESD socket
6
Power supply captive
installation screw
2
Power supply slot 0 label 7
Power supply slot 1 label
3
Power supply switch
Standby/On (|)
8
Ground lead
4
Power supply LEDs
9
Positive lead
5
Fan
10
Negative lead
The Cisco ASR 1002 Router –48 VDC power supply LEDs are described in the following table.
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Power Supplies in the Cisco ASR 1002 Router
Table 54: Cisco ASR 1002 Router –48 VDC Power Supply LEDs
LED Label
LED
Color
Description
INPUT OK
A bi-color LED indicates
presence of input voltage
Green
LED illuminates green to signal
that the DC power supply input
voltage is greater than 43.5VDC
at turn-on and remains green
down to 39VDC.
Amber
The LED illuminates amber if
the power supply turns off due
to low input voltage (falls below
39VDC) and indicates that there
is still a hazard present (voltage
on the terminal block). The
LED remains amber and is
active to around 20 V +/-5 V.
The LED is not illuminated if
the input is below 15 V.
FAN OK
OUTPUT FAIL
A bi-color LED indicates power Green
supply fan status
Power supply activity
The LED illuminates s green
when all fans are operational.
Red
The LED illuminates red when
a fan failure is detected.
Red
When the LED is off, it signals
that the DC output voltage are
within the normal operating
range. Output voltage between
the minimum and maximum
limits will not create an output
fail alarm, and output voltages
below the minimum or above
the maximum will create an
Output Fail alarm.
Led illuminates red to indicate
that the DC output is out of the
specified range.
When you turn the power
supply on, the red LED
illuminates for two to three
seconds to test LED operation
before going off.
The output voltage alarm is declared when the output voltage is below the low end of the minimum or above
the high end of the maximum limits. When the output voltage is above the high end of the minimum or below
the low end of the maximum limits, the red state will not be activated.
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Power Supplies in the Cisco ASR 1002 Router
The following table shows the –48 VDC power supply output voltage alarm range.
Table 55: –48 VDC Power Supply Output Voltage Alarm Threshold Ranges
Output
Minimum
Maximum
12V
10.0-11.2V
12.8-13.8V
3.3V
2.6 - 3.0 V
None
24 VDC Power Supply for Cisco ASR 1002 Router
This section provides information about the +24 VDC power supplies on the rear of the Cisco ASR 1002
Router. The recommended branch circuit breaker for the Cisco ASR 1002 Router +24 VDC power supply is
a 40 A UL listed circuit breaker.
The Cisco ASR 1002 Router has two of the same type power supplies in power supply slot 0 and power supply
slot 1. The power supply slot identifiers are zero (0) on the left side of the chassis rear and one (1) on the right
side of the chassis rear. The power supply switch is a Standby switch and is not considered a disconnect.
The +24 VDC power supply uses a spring-loaded terminal block. The input terminal block requires maximum
8AWG multi-strand wiring to support input current. The terminal block is compliant with safety agencies’
guidelines and electrical requirements of the supply. Use the tie wraps to dress the input cable wires; there
are two tie wrap tabs on the +24 VDC power supply. The +24 VDC power supply unit is secured into the
system chassis with two captive screws mounted on the faceplate.
The following image shows the +24 VDC Power Supply for the Cisco ASR 1002 Router.
Figure 86: Cisco ASR 1002 Router +24 VDC Power Supply
1
+24 VDC terminal block 6
Standby/On switch
2
Positive (+) lead
7
Captive fastener
3
Negative (-) lead
8
Power supply tabs
4
Ground (GND) lead
9
+27 VDC INPUT label
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5
Power supply LEDs
—
—
The Cisco ASR 1002 Router +24 VDC power supply LEDs are defined in the following table.
Table 56: Cisco ASR 1002 Router +24 VDC Power Supply LEDs
LED Label
LED
Color
Description
OUTPUT FAIL
Power supply activity
Red
When the LED is off, it signals
that the +24 VDC output
voltage are within the normal
operating range. Output voltage
between the minimum and
maximum limits will not create
an output fail alarm, and output
voltages below the minimum or
above the maximum will create
an Output Fail alarm.
When you turn the power
supply on, the red LED
illuminates for two to three
seconds to test LED operation
before going off.
INPUT OK
FAN OK
A bi-color LED indicates
presence of input voltage
Green
LED illuminates green to signal
that voltage is > or = to 20VDC
at turn-on and down to
19.0VDC (+/- 0.5 V tolerance).
Amber
The LED illuminates amber
when the input voltage is active
down to 16.0VDC and indicates
that there is still a voltage
present (voltage on the terminal
block). The LED remains amber
and is active to around 10 V.
The LED can be OFF below
15.8VDC.
A bi-color LED indicates power Green
supply fan status
Red
The LED illuminates s green
when all fans are operational.
The LED illuminates red when
a fan failure is detected.
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24 VDC Power System Input for Cisco ASR 1002 Router
The +24 VDC power supply operates within specification between +21 and +36 VDC continuously once the
power supply DC input is turned on. The power supply shall measure the input voltage at the terminals of the
power supply and turn off the supply when the input voltage reaches 19.0 volts +/- 0.5 volts. Once this low
voltage threshold is reached, the power supply does not resume operation until the input voltage has reached
20.0 volts +/- 0.5 volts. Once the turn-on threshold of 20 volts is reached, then the +24 VDC power supply
meets all specification requirements down to low voltage threshold of 19 volts (+/- tolerance).
+24 VDC Power System Output for Cisco ASR 1002 Router
The +24 VDC power supply output tolerance is defined in Cisco ASR 1002 Router +24 VDC Power System
Output Voltage and Current table under all combinations of +24 VDC input line variation. Total system power
consumption should not exceed 470 watts or output rating of each power supply.
Note
Two power supplies are used for redundant operation. System total power consumption shall never exceed
rating of one power supply to maintain redundancy.
Table 57: Cisco ASR 1002 Router +24 VDC Power System Output Voltage and Current
Output Voltage
+12 VDC
+3.3 V
Minimum
11.80
3.20
Nominal
12.00
3.30
Maximum
12.20
3.40
Minimum
2.0 A
0.10 A
Maximum
39 A
3.125 A
Output Current
Note
Any combination of output voltage/currents cannot exceed total power rating of 470 Watts.
+24 VDC Power Supply Important Notices
The following items list important notes regarding the +24 VDC power supply in the Cisco ASR 1002 Router:
• Output Voltage Alarm Threshold—The Output Voltage Alarm is declared when the output voltage is
below the low end of the minimum or above the high end of the maximum limits (as shown in VDC
Output Voltage Alarm Threshold Ranges table). When the output voltage is above the high end of the
minimum or below the low end of the maximum limits, then the Red state is not activated.
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Table 58: +24 VDC Output Voltage Alarm Threshold Ranges
Output
Minimum
Maximum
12V
10.0-11.2V
12.8-13.8V
3.3V
2.6 – 3.0V
None
• Temperature—If a single fan fails, the power supply meets the functional requirements specified in
Table 24. Above 55°C with less than two fans, calculated MTBF does not apply; however all component
stress remains within the manufacturer’s specified rating.
• Thermal Shutdown—The +24 VDC power supply will shut down to protect its components due to
excessive internal temperature. The +24 VDC power supply then automatically restarts if the internal
temperature returns to a safe operating level.
Power Cords Supported by the Cisco ASR 1002 Router
The following table lists the power cords that are supported by the Cisco ASR 1002 Router.
Table 59: Power Cords Supported by the Cisco ASR 1002 Router
Power Cord Item Number
Description
CAB-AC-RA
Power Cord, 110 V, Right Angle
CAB-ACA-RA
Plug, Power Cord, Australian, 10 A, Right Angle
CAB-ACB10A-RA
Power Cord, Brazil, Right Angle, 10 A
CAB-ACC-RA
Power Cord China, Right Angle
CAB-ACE-RA
Power Cord Europe, Right Angle
CAB-ACI-RA
Power Cord, Italian, Right Angle
CAB-ACR-RA
Power Cord Argentina, Right Angle
CAB-ACS-RA
Power Cord, Switzerland, Right Angle
CAB-ACU-RA
Power Cord UK, Right Angle
CAB-IND-RA
Power Cord India, Right Angle
CAB-JPN-RA
Power Cord-Japan, Right Angle
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Installation Methods
Installation Methods
Cisco ASR 1002 Router is designed for standalone, two rail 19-inch rack-mount (front rail only), four rail
19-inch rack-mount (front and rear rail).
Although rack-mounting is the preferred method of installation for the Cisco ASR 1002 Router, you can
mount the chassis on an equipment shelf or tabletop.
Note
The Cisco ASR 1002 Router usually ships fully loaded. However, you can remove components from the
chassis to make the chassis lighter for your rack installation, such as the power supplies.
Warning
This warning symbol means danger. You are in a situation that could cause bodily injury. Before you
work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with
standard practices for preventing accidents. Use the statement number provided at the end of each warning
to locate its translation in the translated safety warnings that accompanied this device. Statement 1071
Warning
Before you install, operate, or service the system, read the Regulatory Compliance and Safety Information
for Cisco ASR 1000 Series Aggregation Services Routers publication. This document provides important
safety information you should know before working with the system. Statement 200
Note
You have already unpacked your chassis and read all the site requirements for your new equipment.
Proceed with the installation.
General Rack Installation Guidelines
When planning your rack installation, consider the following guidelines:
• The Cisco ASR 1002 Router requires a minimum of 3.5 inches or 8.9 cm rack units of vertical rack
space. Measure the proposed rack location before mounting the chassis in the rack.
• Before using a particular rack, check for obstructions (such as a power strip) that could impair rack-mount
installation. If a power strip does impair a rack-mount installation, remove the power strip before installing
the chassis, and then replace it after the chassis is installed.
• Allow sufficient clearance around the rack for maintenance. If the rack is mobile, you can push it back
near a wall or cabinet for normal operation and pull it out for maintenance (installing or moving cards,
connecting cables, or replacing or upgrading components). Otherwise, allow 19 inches (48.3 cm) of
clearance to remove field-replaceable units.
• Maintain a minimum clearance of 3 inches on the front and back sides of the chassis for the cooling air
inlet and exhaust ports, respectively. Avoid placing the chassis in an overly congested rack or directly
next to another equipment rack; otherwise, the heated exhaust air from other equipment can enter the
inlet air vents and cause an overtemperature condition inside the router.
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Guidelines for an Equipment Shelf or Tabletop Installation
Caution
To prevent chassis overheating, never install a Cisco ASR 1002 Router in an enclosed room that is not
properly ventilated or air conditioned.
• Always install heavier equipment in the lower half of a rack to maintain a low center of gravity to prevent
the rack from falling over.
• Install and use the cable-management brackets included with the Cisco ASR 1002 Router to keep cables
organized and out of the way of the cards and processors. Ensure that cables from other equipment
already installed in the rack do not impair access to the cards or require you to disconnect cables
unnecessarily to perform equipment maintenance or upgrades.
• Install rack stabilizers (if available) before you mount the chassis.
• Provide an adequate chassis ground (earth) connection for your router chassis.
In addition to the preceding guidelines, review the precautions for avoiding excessive temperature conditions
in the Site Environmental Requirements” section on page 5-9 .
The following table provides the Cisco ASR 1002 Router dimensions and weight information.
Table 60: Cisco ASR 1002 Router Dimensions and Weight
Cisco ASR 1002
Dimensions
Depth
22.50 in. (57.15 cm)(including card handles,
cable-management brackets, power supply handles).
Height
3.47 in. (8.813 cm) - 2RU rack-mount per EIA
RS-310
Width
17.25 in. (43.815 cm) - 19 inch rack-mount
Weight
40 lb (18.143 k) - fully configured
Guidelines for an Equipment Shelf or Tabletop Installation
The chassis should already be in the area where you will install it. If you have not determined where to install
your chassis, see the Cisco ASR 1000 Series Routers Component Overview” section on page 2-1 for information
about site considerations.
If you are not rack-mounting your Cisco ASR 1000 series chassis, place it on a sturdy equipment shelf or
tabletop.
When installing the Cisco ASR 1002 Router on an equipment shelf or tabletop, ensure that the surface is clean
and that you have considered the following:
• The Cisco ASR 1002 Router requires at least 3 inches (7.62 cm) of clearance at the inlet and exhaust
vents (the front and top/rear sides of the chassis).
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Equipment Shelf or Tabletop Installation
• The Cisco ASR 1002 Router should be installed off the floor. Dust that accumulates on the floor is drawn
into the interior of the router by the cooling fans. Excessive dust inside the router can cause
overtemperature conditions and component failures.
• There must be approximately 19 inches (48.3 cm) of clearance at the front and rear of the chassis to
install and replace FRUs, or to access network cables and equipment.
• The Cisco ASR 1002 Router needs adequate ventilation. Do not install it in an enclosed cabinet where
ventilation is inadequate.
• Have the cable-management bracket available if you plan to install it on the front of the chassis.
• An adequate chassis ground (earth) connection exists for your router chassis (see the Attaching a Chassis
Ground Connection, on page 249 section ).
• Always follow proper lifting practices as outlined in the Electrical Safety” section on page 5-21 , when
handling the chassis.
Equipment Shelf or Tabletop Installation
To mount your Cisco ASR 1002 Router on an equipment shelf or tabletop, follow these steps.
Remove any debris and dust from the tabletop or platform, as well as the surrounding area. Lift the chassis
into position on the equipment shelf or tabletop (see Equipmet Shelf for Tabletop Installation image .
Warning
At least two people are required to lift the chassis onto a tabletop or platform. To prevent injury, keep
your back straight and lift with your legs, not your back. Statement 164 The chassis in the follwing image
does not represent the Cisco ASR 1002 Router.
Figure 87: Lifting the Chassis
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Equipment Shelf or Tabletop Installation
SUMMARY STEPS
1. Attach the front rack-mount brackets. Locate the threaded holes in the front sides of the chassis (first holes
beyond the vent holes) and use the package of black screws that shipped with the chassis.
2. Align the front rack-mount bracket to one side of the chassis.
3. Insert and tighten the screws on one side.
4. Repeat Step 2 through Step 3 on the other side of the chassis. Use all screws to secure the rack-mount
brackets to the chassis.
5. Gather the two cable-management brackets and screws shipped with your chassis.
t_Equipment_Shelf_or_Tabletop_Installation_9100430.xml shows cable-management brackets attached
on the front of the Cisco ASR 1002 Router.
6. Screw the cable-management bracket to each side of the rack-mount brackets already attached to the
chassis. Use two screws for each cable-management bracket. Use the package of four screws.
7. Check that all screws are securely tightened.
8. Go to Attaching a Chassis Ground Connection, on page 249the to continue the installation.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Attach the front rack-mount brackets. Locate the threaded holes in the front sides of the chassis (first holes beyond the
vent holes) and use the package of black screws that shipped with the chassis.
Align the front rack-mount bracket to one side of the chassis.
Insert and tighten the screws on one side.
Repeat Step 2 through Step 3 on the other side of the chassis. Use all screws to secure the rack-mount brackets to the
chassis.
Note:The chassis rack-mount brackets must be installed first so that you can attach the cable-management brackets to
the chassis rack-mount brackets after the chassis is installed in the rack.
Gather the two cable-management brackets and screws shipped with your chassis.
t_Equipment_Shelf_or_Tabletop_Installation_9100430.xml shows cable-management brackets attached on the front of
the Cisco ASR 1002 Router.
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Rack-Mounting the Cisco ASR 1002 Router
Note
Make certain that the cable-management ‘U’ feature device has the open end pointing upwards when you attach
it to the chassis
Figure 88: Attaching the Cable-Management Brackets to the Cisco ASR 1002 Router
Step 6
Step 7
Step 8
1
Cable-management bracket 3
top and bottom screw
Chassis front rack-mount
bracket
2
Cable-management bracket —
—
Screw the cable-management bracket to each side of the rack-mount brackets already attached to the chassis. Use two
screws for each cable-management bracket. Use the package of four screws.
Check that all screws are securely tightened.
Go to Attaching a Chassis Ground Connection, on page 249the to continue the installation.
Rack-Mounting the Cisco ASR 1002 Router
The Cisco ASR 1002 Router can be installed in an existing rack with equipment or in an empty rack with no
equipment: The chassis can be mounted in either rack types:
• Two-post rack, either 19 inch or 23 inch. Inner clearance (the width between the inner sides of the two
posts or rails) must be at least 19 inches (48.26 cm). The height of the chassis is 3.47 inches (8.8 cm).
Airflow through the chassis is from front to back.
Note
If you are using a two-post rack secure the rack to the floor surface to prevent tipping and avoid bodily.
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Verifying Rack Dimensions
• Four post, 19-inch equipment rack. Inner clearance (the width between the inner sides of the two posts
or rails) must be at least 19 inches (48.26 cm). The height of the chassis is 3.47 inches (8.8 cm). Airflow
through the chassis is from front to back.
Note
When handling the chassis, always follow proper lifting practices. See the Chassis-Lifting Guidelines”
section on page 5-23 .
The Cisco ASR 1002 Router can be installed with both front or rear rack-mount brackets.
Verifying Rack Dimensions
Before you install the chassis, measure the space between the vertical mounting flanges (rails) on your
equipment rack to verify that the rack conforms to the measurements shown in
t_Verifying_Rack_Dimensions_1202731.xml.
SUMMARY STEPS
1. Mark and measure the distance between two holes on the left and right mounting rails.
2. Measure the space between the inner edges of the left front and right front mounting flanges on the
equipment rack.
DETAILED STEPS
Step 1
Mark and measure the distance between two holes on the left and right mounting rails.
The distance should measure 18.31 inches ± 0.06 inches (46.5 cm ± 0.15 cm).
Measure for pairs of holes near the bottom, middle and top of the equipment rack to ensure that the rack posts
are parallel.
Measure the space between the inner edges of the left front and right front mounting flanges on the equipment rack.
The space must be at least 17.7 inches (45 cm) to accommodate the chassis which is 17.25 inches (43.8 cm) wide and
fits between the mounting posts on the rack.
Note
Step 2
Figure 89: Verifying Equipment Rack Dimensions
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Attaching the Chassis Rack-Mount Brackets
Attaching the Chassis Rack-Mount Brackets
This section explains how to attach the front and rear rack-mount brackets to the chassis. Before installing
the chassis in the rack, you must install the rack-mount brackets on each side of the chassis.
The parts and tools required for installing the rack-mount brackets and cable-management brackets are listed
in the Tools and Equipment” section on page 5-23 .
Note
The cable-management brackets are attached to the chassis after you install the chassis rack-mount brackets
on the chassis and mount the chassis in the rack.
Chassis Front Rack-Mount Brackets
Determine where in the rack you want the chassis to be mounted. If you are mounting more than one chassis
in the rack, then start from the bottom up or the center of the rack.
t_Chassis_Front_Rack-Mount_Brackets_1106715.xml shows the brackets attached to the chassis. Depending
on the bracket holes you use, the chassis may protrude in the rack.
To install the front rack-mount brackets on the Cisco ASR 1002 Router, perform the following steps:
SUMMARY STEPS
1. Locate the threaded holes on the side of the chassis. Make certain that you hold the front rack-mount
bracket with the ear and holes facing outward and towards the front of the chassis.
2. Position the front rack-mount bracket top hole with the chassis first top hole behind the side vent holes.
3. Insert and tighten the black screws on one side.
4. Repeat Step 1 through Step 3 on the other side of the chassis. Use black screws to secure the rack-mount
brackets to the chassis.
5. Install the chassis in a rack. To install the Cisco ASR 1002 Router in a rack, go to the Installing the Cisco
ASR 1002 Router in a Rack, on page 243.
DETAILED STEPS
Step 1
Locate the threaded holes on the side of the chassis. Make certain that you hold the front rack-mount bracket with the
ear and holes facing outward and towards the front of the chassis.
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Chassis Rear Rack-Mount Brackets
The following image shows where to attach the front rack-mount brackets to the Cisco ASR 1002 Router.
Figure 90: Attaching the Front Rack-Mount Brackets to the Cisco ASR 1002 Router
Step 2
Step 3
Step 4
Step 5
1
Front rack-mount bracket ear 3
and holes
2
Front rack-mount bracket
Front rack-mount bracket
screws
Position the front rack-mount bracket top hole with the chassis first top hole behind the side vent holes.
Insert and tighten the black screws on one side.
Repeat Step 1 through Step 3 on the other side of the chassis. Use black screws to secure the rack-mount brackets to the
chassis.
Install the chassis in a rack. To install the Cisco ASR 1002 Router in a rack, go to the Installing the Cisco ASR 1002
Router in a Rack, on page 243.
Chassis Rear Rack-Mount Brackets
If you are rack-mounting the chassis using the rear rack-mount brackets, then this type of installation provides
for the chassis being recessed in the rack.
To install the rear rack-mount brackets on the Cisco ASR 1002 Router, perform the following steps:
SUMMARY STEPS
1. Locate the threaded holes on the rear side of the chassis. Make certain that you hold the rear rack-mount
bracket with the ear and holes facing outward and towards the rear of the chassis.
2. Position the rear rack-mount bracket top hole with the chassis top hole from the back.
3. Insert and tighten the screws on one side.
4. Repeat Step 1 through Step 3 on the other side of the chassis. Use the remaining screws to secure the rear
rack-mount brackets to the chassis.
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Chassis Rear Rack-Mount Brackets
DETAILED STEPS
Step 1
Locate the threaded holes on the rear side of the chassis. Make certain that you hold the rear rack-mount bracket with
the ear and holes facing outward and towards the rear of the chassis.
The followoing shows where to attach the rear rack-mount brackets to the Cisco ASR 1002 Router.
Figure 91: Attaching the Rear Rack-Mount Brackets to the Cisco ASR 1002 Router
Step 2
Step 3
Step 4
1
Rear rack-mount bracket ear 3
and holes
2
Rear rack-mount bracket
—
Rear rack-mount bracket
screws
—
Position the rear rack-mount bracket top hole with the chassis top hole from the back.
Insert and tighten the screws on one side.
Repeat Step 1 through Step 3 on the other side of the chassis. Use the remaining screws to secure the rear rack-mount
brackets to the chassis.
What to Do Next
This completes the steps for attaching the rear rack-mount brackets to the Cisco ASR 1002 Router.
Caution
To make installation easier, before you mount the ASR 1002 Router in a rack, make certain you read
which rack-mount bracket ear holes to use when positioning the chassis in the rack. As a result of using
the designated ear holes on the rack-mount bracket, the cable-management bracket installation will be
made easier.
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Installing the Cisco ASR 1002 Router in a Rack
Installing the Cisco ASR 1002 Router in a Rack
After installing the rack-mount brackets on the chassis, you mount the chassis by securing the rack-mount
brackets to two posts or mounting strips in the rack using the screws provided. Because the rack-mount brackets
support the weight of the entire chassis, be sure to use all screws to fasten the two rack-mount brackets to the
rack posts.
Warning
To prevent bodily injury when mounting or servicing this unit in a rack, you must take special precautions
to ensure that the system remains stable. The following guidelines are provided to ensure your safety:-This
unit should be mounted at the bottom of the rack if it is the only unit in the rack.-When mounting this unit
in a partially filled rack, load the rack from the bottom to the top with the heaviest component at the bottom
of the rack.-If the rack is provided with stabilizing devices, install the stabilizers before mounting or
servicing the unit in the rack. Statement 1006
We recommend that you allow at least 1 or 2 inches (2.54 or 5.08 cm) of vertical clearance between the router
and any equipment directly above and below it.
To install the chassis in the rack, perform the following steps:
SUMMARY STEPS
1. On the chassis, ensure that all screw fasteners on the installed components are securely tightened.
2. Make sure that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are
engaged or that the rack is otherwise stabilized. See the next sections on the types of racks you can use to
install the chassis.
3. (Optional) Install a shelf in the rack to support the Cisco ASR 1002 Router. If you use a shelf, this will
help support the chassis while you secure it to the rack.
4. With two people, lift the chassis into position between the rack posts.
5. Align the mounting bracket holes with the rack post holes and attach the chassis to the rack.
6. Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
7. Hold the chassis in position against the mounting rails in the equipment rack and follow these steps:
8. Tighten all screws on each side to secure the chassis to the equipment rack.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
On the chassis, ensure that all screw fasteners on the installed components are securely tightened.
Make sure that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are engaged or that
the rack is otherwise stabilized. See the next sections on the types of racks you can use to install the chassis.
(Optional) Install a shelf in the rack to support the Cisco ASR 1002 Router. If you use a shelf, this will help support the
chassis while you secure it to the rack.
With two people, lift the chassis into position between the rack posts.
Align the mounting bracket holes with the rack post holes and attach the chassis to the rack.
Note
If you are using a shelf then raise the chassis to the level of the shelf. Let the bottom of the chassis rest on the
brackets, but continue to support the chassis.
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
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Two-Post Rack Installation
To allow space to attach the cable-management brackets to the chassis in the rack easily, make certain that you
use the rack-mount bracket ear holes specified in the next steps.
Hold the chassis in position against the mounting rails in the equipment rack and follow these steps:
a) Insert the bottom screw into the second hole up from the bottom of the rack-mount ear and use a hand-held screwdriver
to tighten the screw to the rack rail.
Tip
To make installation easier, insert one screw at the bottom of the chassis and the next screw at the top of the
chassis diagonally from the first screw.
b) Insert the top screw into the second hole from the top of the rack-mount ear diagonally from the bottom screw and
tighten the screw to the rack rail.
c) Insert the four screws to secure the chassis to the rack equipment.
Tip
As a result of using the specified rack-mount bracket ear holes, the cable-management bracket can be easily
attached to the rack-mount bracket when the chassis is in the rack.
Tip
Step 7
Step 8
Tighten all screws on each side to secure the chassis to the equipment rack.
Two-Post Rack Installation
The Cisco ASR 1002 Router can be installed on a two-post rack, either 19 inch or 23 inch.
Note
Caution
Inner clearance (the width between the inner sides of the two posts or rails) must be at least 19 inches
(48.26 cm). The height of the chassis is 3.47 inches (8.8 cm). Airflow through the chassis is from front to
back.
If you are using a two-post rack secure the rack to the floor surface to prevent tipping and avoid bodily
injury and component damage.
SUMMARY STEPS
1. Position the chassis so the front is closest to you and lift it carefully into the rack. To prevent injury, avoid
any sudden twists or moves.
2. Slide the chassis into the rack, pushing it back until the brackets meet the mounting strips or posts on both
sides of the rack.
3. Keeping the brackets flush against the posts or mounting strips, align the holes in the brackets with the
holes on the rack or mounting strip.
4. For each bracket, insert and tighten two screws to the rack on both sides.
DETAILED STEPS
Step 1
Position the chassis so the front is closest to you and lift it carefully into the rack. To prevent injury, avoid any sudden
twists or moves.
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Four-Post Rack Installation
The following image shows where to attach the rear rack-mount brackets to the Cisco ASR 1002 Router.
Figure 92: Attaching the Rear Rack-Mount Brackets to the Cisco ASR 1002 Router
1
Step 2
Step 3
Step 4
Rack equipment rail
2
Rack-mount bracket ear and
holes
Slide the chassis into the rack, pushing it back until the brackets meet the mounting strips or posts on both sides of the
rack.
Keeping the brackets flush against the posts or mounting strips, align the holes in the brackets with the holes on the rack
or mounting strip.
For each bracket, insert and tighten two screws to the rack on both sides.
This completes the procedure for installing the chassis on a two-post rack. Proceed to the Attaching a Chassis Ground
Connection, on page 249 to continue the installation.
Four-Post Rack Installation
The Cisco ASR 1002 Router can be flush-mounted in a 19-inch equipment rack using the rack-mounting kit
provided with your system. The Cisco ASR 1002 Router can be mounted into the rack using two recommended
methods:
• Installing the chassis in an existing rack with equipment.
• Installing an empty chassis in a rack with no equipment installed.
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Four-Post Rack Installation
When handling the chassis, always follow proper lifting practices. See the Chassis-Lifting Guidelines” section
on page 5-23 .
Note
Inner clearance (the width between the inner sides of the two posts or rails) must be at least 19 inches
(48.26 cm). The height of the chassis is 3.47 inches (8.8 cm). Airflow through the chassis is from front to
back.
Note
Make sure the rack is stabilized.
SUMMARY STEPS
1. (Optional) Install a shelf in the rack to support the Cisco ASR 1002 Router. If you are using a shelf then
raise the chassis to the level of the shelf. Let the bottom of the chassis rest on the brackets, but continue
to support the chassis. Using two people, lift the chassis into the rack using the side handles and grasping
underneath the power supply bays.
2. Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
3. Hold the chassis in position against the mounting rails while the second person finger-tightens a screw to
the rack rails on each side of the chassis.
4. Finger-tighten screws to the rack rails on each side of the chassis.
5. Tighten all screws on each side to secure the chassis to the equipment rack (see the following image).
6. Use a level to verify that the tops of the two brackets are level, or use a measuring tape to verify that both
brackets are the same distance from the top of the rack rails.
DETAILED STEPS
Step 1
Step 2
(Optional) Install a shelf in the rack to support the Cisco ASR 1002 Router. If you are using a shelf then raise the chassis
to the level of the shelf. Let the bottom of the chassis rest on the brackets, but continue to support the chassis. Using two
people, lift the chassis into the rack using the side handles and grasping underneath the power supply bays.
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
Note
Use the second hole up from the bottom of the rack-mount bracket and the second hole down from the top of
the rack-mount bracket. This will make it easier to attach the cable-management bracket to the chassis in the
equipment rack.
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Four-Post Rack Installation
Step 3
Step 4
Step 5
Hold the chassis in position against the mounting rails while the second person finger-tightens a screw to the rack rails
on each side of the chassis.
Finger-tighten screws to the rack rails on each side of the chassis.
Tighten all screws on each side to secure the chassis to the equipment rack (see the following image).
Figure 93: Cisco ASR 1002 Router on a Four-Post Rack—Front and Rear Rack-Mounting
Step 6
1
Rear rack equipment rail
3
2
Rear rack-mount bracket ear 4
and holes
Front rack-mount bracket ear
and holes
Front rack equipment rail
Use a level to verify that the tops of the two brackets are level, or use a measuring tape to verify that both brackets are
the same distance from the top of the rack rails.
What to Do Next
This completes the procedure for installing the chassis in the rack. Proceed to the Attaching the
Cable-Management Bracket, on page 248 to continue the installation.
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Attaching the Cable-Management Bracket
Attaching the Cable-Management Bracket
The cable-management brackets mount to each rack-mount bracket on the chassis to provide cable-management
to both sides of the chassis (parallel with card orientation). These brackets are screw mounted to the rack-mount
brackets to allow easy installation and removal of cables.
The cable-management brackets for the Cisco ASR 1002 Router contain one independent cable-management
“U” type features with four screws and provides cable dressing of each card module slot.
Note
Make certain that the cable-management bracket “U” type feature is facing upwards when you attach it to
the chassis.
Follow these steps to attach the cable-management brackets to both sides of the Cisco ASR 1002 Router in
the rack:
SUMMARY STEPS
1. Align the cable-management bracket to the rack-mount bracket on one side of the Cisco ASR 1002 Router.
The cable-management bracket aligns to the top hole of the chassis rack-mount bracket.
2. Using a Phillips screwdriver, insert the screw through cable-management bracket and into the chassis
rack-mount and tighten the screw.
3. Using the bottom rack-mount ear hole, insert the screw through cable-management bracket and into the
chassis rack-mount (see Attaching the Cable-Management Bracket, on page 248).
DETAILED STEPS
Step 1
Step 2
Align the cable-management bracket to the rack-mount bracket on one side of the Cisco ASR 1002 Router. The
cable-management bracket aligns to the top hole of the chassis rack-mount bracket.
Using a Phillips screwdriver, insert the screw through cable-management bracket and into the chassis rack-mount and
tighten the screw.
Note
Use the package of four
screws.
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Attaching a Chassis Ground Connection
The following image shows the locations at which to attach the front rack-mount brackets to the Cisco ASR 1002 Router
in a rack.
Figure 94: Chassis Rack-Mount Bracket Ear Holes for the Cable-Management Brackets
Step 3
1
Secure the
3
cable-management top screw
and bottom to this ear hole
2
Cable-management bracket
Front rack-mount bracket
Using the bottom rack-mount ear hole, insert the screw through cable-management bracket and into the chassis rack-mount
(see Attaching the Cable-Management Bracket, on page 248).
What to Do Next
This completes the procedure for installing the cable-management brackets on the chassis.
Attaching a Chassis Ground Connection
Connecting the Cisco ASR 1002 chassis to ground is required for all DC powered installations and any AC
powered installation where compliance with Telcordia grounding requirements is necessary.
Caution
The dual-lug chassis ground stud must be installed, all cards or filler plates must be fully inserted and
screwed in and earthed to prevent a potential hazard in a telecom line.
Have the recommended tools and supplies available before you begin this procedure.
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Attaching a Chassis Ground Connection
Warning
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority
or an electrician if you are uncertain that suitable grounding is available. Statement 1024
Before you connect power or turn on power to your chassis, you must provide an adequate chassis ground
(earth) connection for the chassis. The chassis ground lug (two) and the respective screws (four) are provided
in the accessory kit that ships with your Cisco ASR 1002 Router.
Caution
The grounding wire is always the first to be installed or connected and the last to be removed or
disconnected.
The following tools, equipment, and supplies necessary to connect the system ground to the chassis:
• Phillips screwdriver
• Dual-lug chassis ground component (two) and respective screws (four) (shipped with the accessory kit)
• Grounding wire
The follwing image shows the location of the dual ground lug on the side of the of Cisco ASR 1002 Router.
Figure 95: Cisco ASR 1002 Router Chassis Ground Lug Location and Side Panel Door
1
F0 with ASR1000-ESP5 3
or ESP10.
The eUSB panel door on
the side of the Cisco ASR
1002 Router must not be
opened. If there is a
problem with eUSB flash
card, the chassis should
be returned.
2
R0 slot with embedded
ASR1000-RP1 and
embedded
ASR1000-SIP10.
Cisco ASR 1002 Router
ground stud location.
4
To attach the grounding lug to the chassis ground connector on your chassis, follow these steps:
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Attaching a Chassis Ground Connection
SUMMARY STEPS
1. Use the wire stripper to strip one end of the AWG #6 wire approximately 0.75 inches (19.05 mm).
2. Insert the AWG #6 wire into the wire receptacle on the grounding lug. Use the manufacturers’s
recommended crimping tool to carefully crimp the wire receptacle around the wire; this step is required
to ensure a proper mechanical connection.
3. Attach the grounding lug with the wire on the left to avoid having the grounding wire overlapping the
power supply.
4. Locate the chassis ground connector on the side of your chassis.
5. The following image shows how to attach the grounding lug to the chassis ground connector.
6. Insert the two screws through the holes in the grounding lug.
7. Use the Number 2 Phillips screwdriver to carefully tighten the screws until the grounding lug is held firmly
to the chassis. Do not overtighten the screws.
8. Connect the opposite end of the grounding wire to the appropriate grounding point at your site to ensure
an adequate chassis ground.
DETAILED STEPS
Step 1
Step 2
Use the wire stripper to strip one end of the AWG #6 wire approximately 0.75 inches (19.05 mm).
Insert the AWG #6 wire into the wire receptacle on the grounding lug. Use the manufacturers’s recommended crimping
tool to carefully crimp the wire receptacle around the wire; this step is required to ensure a proper mechanical connection.
The following image shows the parts of the grounding lug.
Figure 96: Parts of the Grounding Lug
1
Chassis ground connector
holes
3
Ground lug screws
2
Grounding lug
4
Ground wire
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Step 3
Step 4
Step 5
Attach the grounding lug with the wire on the left to avoid having the grounding wire overlapping the power supply.
Locate the chassis ground connector on the side of your chassis.
The following image shows how to attach the grounding lug to the chassis ground connector.
Figure 97: Attaching a Grounding Lug to the Chassis Ground Connector
1
Step 6
Step 7
Step 8
Chassis ground connector
2
Ground symbol
Insert the two screws through the holes in the grounding lug.
Use the Number 2 Phillips screwdriver to carefully tighten the screws until the grounding lug is held firmly to the chassis.
Do not overtighten the screws.
Connect the opposite end of the grounding wire to the appropriate grounding point at your site to ensure an adequate
chassis ground.
What to Do Next
This completes the procedure for attaching a chassis ground connection. Go to the following cabling sections
for information on attaching cables.
Connecting the Shared Port Adapter Cables
The instructions for connecting the cables for the shared port adapter installed in the Cisco ASR 1002 Router
are contained in the respective configuration documents for each port adapter. For example, if you are
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connecting the optical fiber cables for the PA-POS-OC3 port adapter, see PA-POS-OC3 Port Adapter
Installation and Configuration at the following location:
http://www.cisco.com/en/US/partner/docs/interfaces_modules/port_adapters/install_upgrade/pos/pa-pos-oc3_install_config/paposoc3.html
Connecting the Console and Auxiliary Port Cables
This section describes how to attach a cable to the Cisco embedded ASR1000-RP1 console or auxiliary ports
on the Cisco ASR 1002 Router. The Cisco ASR 1002 Router uses RJ-45 ports for both the auxiliary port and
console port.
Caution
To meet Class A emission requirements, shielded cables must be used for the console and auxiliary port
connectors.
Before you can use the console interface on the router using a terminal or PC, you must perform the following
steps:
SUMMARY STEPS
1. Before connecting a terminal to the console port, configure the terminal to match the chassis console port
as follows: 9600 baud, 8 data bits, no parity, 1 stop bits (9600 8N1).
2. Connect to the port using the RJ-45 to DB-9 cable.
3. After you establish normal router operation, you can disconnect the terminal.
DETAILED STEPS
Step 1
Step 2
Before connecting a terminal to the console port, configure the terminal to match the chassis console port as follows:
9600 baud, 8 data bits, no parity, 1 stop bits (9600 8N1).
Connect to the port using the RJ-45 to DB-9 cable.
Note
For information about how to change the default settings to meet the requirements of your terminal or host, see
Cisco IOS Terminal Services Configuration Guide .
The follwing shows the Cisco ASR 1002 Router embedded ASR1000-RP1 console and auxiliary port connectors.
Figure 98: Cisco ASR 1002 Router Embedded ASR1000-RP1 Console and Auxiliary Port Connectors
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Management Ethernet Port Cable Connection
1
Step 3
CON—console port
2
AUX —auxiliary port
After you establish normal router operation, you can disconnect the terminal.
What to Do Next
Note
A connection will not be established when setting up an out-of-band connection or modem connection in
the auxiliary port and the console port.
Management Ethernet Port Cable Connection
Caution
To comply with Class A emissions requirements, a shielded Ethernet cable must be used for the connection.
To use the Management Ethernet interface on the router, perform the following steps:
SUMMARY STEPS
1. Insert an Ethernet RJ-45 cable into the MGMT ETHERNET port (see the following image. ).
2. Insert the other end of the RJ-45 cable to your management device or network.
DETAILED STEPS
Step 1
Insert an Ethernet RJ-45 cable into the MGMT ETHERNET port (see the following image. ).
Figure 99: Cisco ASR 1002 Router Embedded ASR1000-RP1 Management Port Connector
1
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Cisco ASR 1002 Router Overview and Installation
Cisco ASR 1002 Router Power Supplies
Step 2
Insert the other end of the RJ-45 cable to your management device or network.
Cisco ASR 1002 Router Power Supplies
This section describes the Cisco ASR 1002 Router power supplies and how to connect them:
Read the safety warnings before you begin.
Warning
The covers are an integral part of the safety design of the product. Do not operate the unit without the
covers installed. Statement 1077
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Warning
Never install an AC power module and a DC power module in the same chassis. Statement 1050
Warning
Installation of the equipment must comply with local and national electrical codes. Statement 1074
Warning
When installing or replacing the unit, the ground connection must always be made first and disconnected
last. Statement 1046
Warning
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority
or an electrician if you are uncertain that suitable grounding is available. Statement 1024
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Connecting AC Input Power to Cisco ASR 1002 Router
Warning
This unit has two power supply connections. All connections must be removed to de-energize the unit.
Statement 1028
Warning
This product relies on the building’s installation for short-circuit (overcurrent) protection. Ensure that the
protective device is rated not greater than: AC power supplies 20 A and DC power supplies 30 A. Statement
1005
This section provides the procedures for connecting AC-input, –48 VDC input power, and the +24 VDC input
power to your Cisco ASR 1002 Router.
Note
Detailed instructions for removing and replacing the Cisco ASR 1002 Router AC and DC power supplies
are in Chapter 14, “Removing and Replacing FRUs from the Cisco ASR 1000 Series Routers.”
Connecting AC Input Power to Cisco ASR 1002 Router
To connect AC power to the Cisco ASR 1002 Router, follow these steps:
SUMMARY STEPS
1. At the rear of the router, check that the power switch is in the Off (O) position.
2. Insert the AC power cable into the power supply AC inlet.
3. To ensure that the AC power cord does not interfere with other cables or wires, dress the AC power cable
in one of the following ways.
4. Plug the AC power supply cable into the AC power source.
DETAILED STEPS
Step 1
At the rear of the router, check that the power switch is in the Off (O) position.
Note
Turn the power switch to the On (|) position after both sides of the power cord are connected.
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The following shows the various parts of the Cisco ASR 1002 Router AC power supply.
Figure 100: Cisco ASR 1002 Router AC Power Supply Labels
Step 2
Step 3
1
Chassis ESD socket
5
AC power supply fan
2
AC power supply slot
number 0
6
AC power supply captive
installation screw
3
AC power supply On (|) /Off 7
(O) switch
AC power supply slot
number 1
4
AC power supply LEDs
AC power inlet
8
Insert the AC power cable into the power supply AC inlet.
To ensure that the AC power cord does not interfere with other cables or wires, dress the AC power cable in one of the
following ways.
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a) Leave a small service loop in the AC power cord from the inlet and then secure the power cord through the AC power
supply handle as shown in the Connecting AC Input Power to Cisco ASR 1002 router image. Alternatively, proceed
to Step b.
Figure 101: Positioning Cisco ASR 1002 Router AC Power Supply and Cord in Slot 1
1
AC power cord
b) Take the power cord and run it below the handles of the right and left power supplies. Make sure the power cord is
hanging loose so that it will not be disconnected from the AC power inlet as shown in the following image.
Figure 102: Cisco ASR 1002 Router AC Power Supply in Slot 0 and Slot 1 With Power Cord
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Caution
Do not run the AC power cord through the power supply handles as shown in Connecting AC Input Power
to Cisco ASR 1002 router image.
Figure 103: Incorrect Cabling on Cisco ASR 1002 Router AC Power Supply
Using a tie wrap for the AC power cable is optional and not necessary. However, if you do attach the AC
power cable to a power supply tab and then you remove the AC power cable for some reason, check for any
damage to the cable after you cut the tie wrap off. If the power cord is damaged, replace it immediately.
Plug the AC power supply cable into the AC power source.
Note
Step 4
What to Do Next
This completes the procedure for connecting an AC power supply in the Cisco ASR 1002 Router.
Connecting 48 VDC Input Power to Cisco ASR 1002 Router
The –48 VDC power supply input connector is a Euro-style terminal block. A means to provide strain relief
to the input wires is provided on the power supply. The connection order is negative (–), positive (+), and
GND; but this is the order from left to right that the terminals appear on the power supply, not the order in
which the leads should connected during installation. The order the leads should be attached is GND, positive
(+), and negative (-).
The recommended branch circuit breaker for the Cisco ASR 1002 Router –48 VDC power supply is 30 A.
Use a AWG #10 wire gauge on the 30 A circuit.
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The following image shows the –48 VDC power supply for the Cisco ASR 1002 Router.
Figure 104: –48 VDC Power Supply for the Cisco ASR 1002 Router
1
Chassis ESD socket
6
–48 VDC power supply
captive installation screw
2
–48 VDC power supply
slot 0 label
7
–48 VDC power supply
slot 1 label
3
–48 VDC power supply
switch Standby/On
8
Ground lead
4
–48 VDC power supply
LEDs
9
Positive lead
5
Fan
10
Negative lead
Table 61: Cisco ASR 1002 Router –48 VDC Power Supply LEDs , on page 261 describes the LEDs on the
Cisco ASR 1002 Router –48 VDC power supply.
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Table 61: Cisco ASR 1002 Router –48 VDC Power Supply LEDs
LED Label
LED
Color
Description
INPUT OK
A bi-color LED indicates
presence of input voltage
Green
LED illuminates green to signal
that the –48 VDC power supply
input voltage is greater than
43.5VDC at turn-on and
remains green down to 39VDC.
Amber
The LED illuminates amber if
the power supply turns off due
to low input voltage (falls below
39VDC) and indicates that there
is still a hazard present (voltage
on the terminal block). The
LED remains amber and is
active to around 20 V +/-5 V.
The LED is not illuminated if
the input is below 15 V.
FAN OK
OUTPUT FAIL
A bi-color LED indicates power Green
supply fan status
Power supply activity
The LED illuminates s green
when all fans are operational.
Red
The LED illuminates red when
a fan failure is detected.
Red
When the LED is off, it signals
that the –48 VDC output
voltage are within the normal
operating range. Output voltage
between the minimum and
maximum limits will not create
an output fail alarm, and output
voltages below the minimum or
above the maximum will create
an Output Fail alarm.
Led illuminates red to indicate
that the –48 VDC output is out
of the specified range.
When you turn the power
supply on, the red LED
illuminates for two to three
seconds to test LED operation
before going off.
This section describes how to connect the –48 VDC power supply in the Cisco ASR 1002 Router.
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Note
The color coding of the –48 VDC input power supply leads depends on the color coding of the –48 VDC
power source at your site. Typically, green or green/yellow is used for ground. Make certain the lead color
coding you choose for the –48 VDC input power supply matches lead color coding used at the –48 VDC
power source.
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
SUMMARY STEPS
1. At the rear of the router, check that the power supply Standby switch is in the Standby (see Figure 105:
Cisco ASR 1002 Router –48 VDC Power Supply Terminal Block Cable Connections, on page 263 )
position.
2. Ensure that the negative and positive leads are disconnected from the site power source.
3. Using a wire stripper, strip approximately 0.55 inch (14 mm) from the negative, positive, and ground lead.
4. Insert the stripped end of the ground lead all the way into the ground lead receptacle on the –48 VDC
input power supply, and tighten the receptacle screw using a 3.5mm flat-blade screwdriver to a torque of
0.5 to 0.6Nm.
5. Insert the stripped end of the positive lead all the way into the positive lead receptacle and tighten the
receptacle screw using the same 3.5mm flat-blade screwdriver. Repeat this step for the negative lead.
6. After tightening the receptacle screw for the ground, positive, and negative –48 VDC-input leads, use a
cable tie to secure the three leads to the power supply faceplate, as shown in the image. When securing
the ground, positive, and negative –48 VDC-input leads to the power supply faceplate, leave a small service
loop in the ground lead to ensure that the ground lead is the last lead to disconnect from the power supply
if a great deal of strain is placed on all three leads as shown in the image.
7. Connect the ground, positive, and negative leads to the power source.
8. Turn the branch source breaker on.
9. Place the –48 VDC Standby switch in the On (|) position. The power supply LEDs light when power is
supplied to the router.
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DETAILED STEPS
Step 1
At the rear of the router, check that the power supply Standby switch is in the Standby (see Figure 105: Cisco ASR 1002
Router –48 VDC Power Supply Terminal Block Cable Connections, on page 263 ) position.
Figure 105: Cisco ASR 1002 Router –48 VDC Power Supply Terminal Block Cable Connections
Step 2
Step 3
Step 4
Step 5
Step 6
1
Ground lead with service
loop and tie-wrap
3
Negative lead
2
Positive lead
4
–48 VDC power supply
Standby switch
Ensure that the negative and positive leads are disconnected from the site power source.
Using a wire stripper, strip approximately 0.55 inch (14 mm) from the negative, positive, and ground lead.
Insert the stripped end of the ground lead all the way into the ground lead receptacle on the –48 VDC input power supply,
and tighten the receptacle screw using a 3.5mm flat-blade screwdriver to a torque of 0.5 to 0.6Nm.
Insert the stripped end of the positive lead all the way into the positive lead receptacle and tighten the receptacle screw
using the same 3.5mm flat-blade screwdriver. Repeat this step for the negative lead.
Note
Make sure the entire stripped end of each lead is inserted all the way into its receptacle. If any exposed wire at
the stripped end of a lead is visible after inserting the lead into its receptacle, remove the lead from the receptacle,
use the wire stripper to cut the stripped end of the lead, and repeat Step 3 through Step 5.
After tightening the receptacle screw for the ground, positive, and negative –48 VDC-input leads, use a cable tie to secure
the three leads to the power supply faceplate, as shown in the image. When securing the ground, positive, and negative
–48 VDC-input leads to the power supply faceplate, leave a small service loop in the ground lead to ensure that the
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Step 7
Step 8
Step 9
ground lead is the last lead to disconnect from the power supply if a great deal of strain is placed on all three leads as
shown in the image.
Caution
Make certain that the ground lead wire has a service loop before you tie wrap the lead wires to prevent the
ground from being disconnected.
Connect the ground, positive, and negative leads to the power source.
Turn the branch source breaker on.
Place the –48 VDC Standby switch in the On (|) position. The power supply LEDs light when power is supplied to the
router.
What to Do Next
You have completed the procedure for connecting a –48 VDC power supply in the Cisco ASR 1002 Router.
Connecting Cisco 24 VDC Power Supply
The +24 VDC power supply uses a spring-loaded terminal block. The input terminal block requires 8 AWG
multi-strand wiring to support input current. Features are provide for strain relieving the input wires from the
terminal block on the front panel. The recommended branch circuit breaker for the Cisco ASR 1002 Router
+24 VDC power supply is a 40 A UL listed circuit breaker.
Before you begin, read these important notices about the +24 VDC power supply:
• The labeling displays +27 VDC INPUT. This labeling describes the nominal voltage provided at a cell
site.
• Observe the polarity location—Unlike the polarity labels of the –48 VDC power supply (ground, positive,
negative), the polarity labels on the +24 VDC are ground, negative, positive as shown in
t_Connecting_Cisco_24_VDC_Power_Supply_1231444.xml from right to left as they appear on the
actual power supply unit.
• The ground (GND) lead is always installed first and removed last.
• The +24 VDC power supply uses a spring loaded terminal block; therefore have the recommended
screwdriver size available.
• Review the diagrams to see how the wire is stripped and how the screwdriver is inserted at an angle into
the terminal block.
• Have the following equipment available to install and remove the +24 VDC power supply:
◦Phoenix Contact 3.5mm flat-blade screwdriver or equivalent
◦Wire-stripping tool for stripping 8-gauge wire
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The following image shows the +24 VDC power supply for the Cisco ASR 1002 Router.
Figure 106: +24 VDC Power Supply for the Cisco ASR 1002 Router Components
1
+24 VDC terminal block 6
Standby/On switch
2
Positive (+) lead
7
Captive fastener
3
Negative (-) lead
8
Power supply tabs
4
Ground (GND) lead
9
+27 VDC INPUT label
5
Power supply LEDs
—
—
This section describes how to connect the +24 VDC power supply in the Cisco ASR 1002 Router.
Note
The color coding of the +24 VDC input power supply leads depends on the color coding of the +24 VDC
power source at your site. Typically, green or green/yellow is used for ground. Make certain the lead color
coding you choose for the +24 VDC input power supply matches lead color coding used at the +24 VDC
power source. Most commonly used wire color-coding is red for positive (+) lead and black for negative
(–) lead.
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
To connect +24 VDC power supply in the Cisco ASR 1002 Router, follow these steps:
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SUMMARY STEPS
1. At the rear of the router, check that the power Standby switch is in the Standby position.
2. Ensure that the positive and negative leads are disconnected from the site power source and the source
circuit breaker is turned off.
3. Using a wire stripper, strip the recommended amount of wire insulation which is 15mm (0.6 inch) from
the negative, positive, and ground leads.
4. Using a 3.5mm screwdriver, insert the screwdriver at an angle to release the spring while you install the
stripped lead wire as shown in the image.
5. Carefully push the screwdriver at an angle forward until you relieve the spring contact.
6. With the screwdriver still inserted, gently push the lead wire (ground lead first) in until the copper wire,
as shown in the image, is no longer visible (see in the following image).
7. After the lead wire is fully inserted, hold the lead wire in place by pressing inward while you remove the
screwdriver to release the spring to tension down on the installed lead wire, then perform these steps:
8. Repeat Steps 5 through Step 10 for each lead wire.
9. After inserting the ground wire, leave an extra service loop in the ground lead to ensure that the ground
lead is the last lead to disconnect from the power supply if a great deal of strain is placed on all three leads
as shown in the following image.
10. After tightening the receptacle screw for the ground, and leaving the extra service loop in the ground lead,
use a cable tie to secure the three leads to the power supply faceplate tie-wrap tab as shown in the above
imave, item 5.
11. Turn on the branch source breaker.
12. Place the power supply standby switch to the On (|) position. The power supply LEDs light when power
is supplied to the router.
DETAILED STEPS
Step 1
Step 2
Step 3
At the rear of the router, check that the power Standby switch is in the Standby position.
Ensure that the positive and negative leads are disconnected from the site power source and the source circuit breaker
is turned off.
Using a wire stripper, strip the recommended amount of wire insulation which is 15mm (0.6 inch) from the negative,
positive, and ground leads.
Note
The stripping length is common to all types of wire used.
The following image shows the wire strip and lead.
Figure 107: Stripping Wire for the +24 VDC Terminal Block
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1
Lead wire stripping area
—
—
Remove the covering from exactly the specified length of each wire. If you strip too much of the covering,
exposed wire protruding from the terminal block will create an electrical hazard. If you strip too little of the
covering, the wire might not make a good contact with the terminal, or it might not be held securely in place
in the terminal.
Using a 3.5mm screwdriver, insert the screwdriver at an angle to release the spring while you install the stripped lead
wire as shown in the image.
Warning
Step 4
Figure 108: Inserting a Screwdriver Into the +24 VDC Power Supply Terminal Block
Step 5
Step 6
Carefully push the screwdriver at an angle forward until you relieve the spring contact.
With the screwdriver still inserted, gently push the lead wire (ground lead first) in until the copper wire, as shown in the
image, is no longer visible (see in the following image).
Caution
Check that there is no copper portion of the lead wire exposed. You only want the wire insulation visible.
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Caution
Do not install wire into the terminal block that has not had its insulation removed.
Figure 109: Cisco ASR 1002 Router +24 VDC Power Supply Lead Wire Inserted into Terminal Block
1
Lead wire insulation
2
Copper wire
The follwing image shows the lead wire fully inserted.
Figure 110: Cisco ASR 1002 Router +24 VDC Power Supply Lead Wire Fully Inserted
1
Fully-inserted lead wire
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Step 7
After the lead wire is fully inserted, hold the lead wire in place by pressing inward while you remove the screwdriver to
release the spring to tension down on the installed lead wire, then perform these steps:
a) Hold the lead wire in place while you are removing the screwdriver.
b) Once the screwdriver is completely removed, gently pull on the lead wire to make certain that the lead wire is securely
installed.
The following shows a lead wire fully inserted, and the screwdriver being removed while you gently pull on the lead
wire.
Figure 111: Removing a Screwdriver from the +24 VDC Power Supply Terminal Block
1
Step 8
Gently pull on lead wire.
—
—
Repeat Steps 5 through Step 10 for each lead wire.
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The following shows all the lead wires installed.
Figure 112: Cisco +24 VDC Power Supply Terminal Block With Lead Wires Installed
1
Positive lead wire
3
Ground lead wire
2
Negative lead wire
—
—
Make sure the stripped end of each lead wire is twisted tightly together. This makes insertion easier. Then make
certain the entire lead wire is inserted all the way into its receptacle. If any exposed wire at the stripped end of
a lead is visible after inserting the lead into its receptacle, remove the lead from the receptacle, use the wire
stripper to cut the stripped end of the lead, and then reinsert.
Caution
When securing the ground, positive, and negative +24 VDC-input leads to the power supply faceplate, leave
extra service loop in the ground (GND) lead to ensure that the ground lead is the last lead wire to disconnect
from the power supply if a great deal of strain is placed on all three leads.
Note
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Step 9
After inserting the ground wire, leave an extra service loop in the ground lead to ensure that the ground lead is the last
lead to disconnect from the power supply if a great deal of strain is placed on all three leads as shown in the following
image.
Figure 113: Cisco +24 VDC Power Supply Terminal Block Ground Lead Service Loop
Step 10
Step 11
Step 12
1
Ground lead wire with
service loop
4
+24 VDC power supply
Standby switch
2
Negative lead wire
5
Power supply tabs
3
Positive lead wire
—
—
After tightening the receptacle screw for the ground, and leaving the extra service loop in the ground lead, use a cable
tie to secure the three leads to the power supply faceplate tie-wrap tab as shown in the above imave, item 5.
Turn on the branch source breaker.
Place the power supply standby switch to the On (|) position. The power supply LEDs light when power is supplied to
the router.
What to Do Next
This completes the steps for installing the +24 VDC power supply in the Cisco ASR 1002 Router.
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Connecting a Terminal to the Cisco ASR1000-RP1 Console Port
Connecting a Terminal to the Cisco ASR1000-RP1 Console Port
The Cisco ASR 1002 embedded route processor has an asynchronous serial (EIA/TIA-232) RJ-45 console
port labeled CON on its front panel. You can connect this port to most types of video terminals through use
of the console cable kit that is included with your Cisco ASR 1002 Router. The console cable kit contains:
• One RJ-45 to RJ-45 crossover cable
• One RJ-45 to DB-9 (female) adapter
A crossover cable reverses pin connections from one end to the other. In other words, it connects pin 1 (at
one end) to pin 8 (at the other end), pin 2 to pin 7, pin 3 to pin 6, and so on. You can identify a crossover cable
by comparing the two modular ends of the cable. Hold the cable ends in your hand, side-by-side, with the
tabs at the back. Ensure that the wire connected to the outside (left) pin of the left plug (pin 1) is the same
color as the wire connected to the outside (right) pin of the right plug (pin 8).
Use the following procedure to connect a video terminal to the console port on a route processor.
Note
Each Cisco ASR 1000 Series Route Processor 1 must have a console port connection (typically to a
terminal server) if you are running a redundant configuration in the chassis.
SUMMARY STEPS
1. Connect one end of the RJ-45 cables to the serial RJ-45 port (CON) on the Cisco embedded ASR1000-RP1
(see the folliwng image).
2. Run the cable up and through the cable-management bracket and connect the other end of the RJ-45 cable
to the RJ-45 adapter (see Figure 114: Cisco ASR 1002 Router Console Port Connection on Cisco Embedded
ASR1000-RP1, on page 273).
3. Connect the adapter to your video terminal to complete the cable connection.
4. Power on your video terminal.
5. Configure your video terminal to match the following default console port settings:
6. Go to the c_Connecting_Cables_1074149.xml to continue the installation.
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Connecting Cables
DETAILED STEPS
Step 1
Connect one end of the RJ-45 cables to the serial RJ-45 port (CON) on the Cisco embedded ASR1000-RP1 (see the
folliwng image).
Figure 114: Cisco ASR 1002 Router Console Port Connection on Cisco Embedded ASR1000-RP1
1
Step 2
Step 3
Step 4
Step 5
CON port connection
2
AUX port connection
Run the cable up and through the cable-management bracket and connect the other end of the RJ-45 cable to the RJ-45
adapter (see Figure 114: Cisco ASR 1002 Router Console Port Connection on Cisco Embedded ASR1000-RP1, on page
273).
Connect the adapter to your video terminal to complete the cable connection.
Power on your video terminal.
Configure your video terminal to match the following default console port settings:
• 9600 baud
• 8 data bits
• No parity generation or checking
• 1 stop bit
• No flow control
Step 6
Go to the c_Connecting_Cables_1074149.xml to continue the installation.
Connecting Cables
Keep the following guidelines in mind when connecting external cables to the Cisco ASR 1002 Router:
• To reduce the chance of interference, avoid crossing high-power lines with any interface cables
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Connecting Cables
.
• Verify all cabling limitations (particularly distance) before powering on the system.
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CHAPTER
9
Cisco ASR 1002-F Router Overview and
Installation
This chapter describes the Cisco ASR 1002-F (Fixed) Router and provides procedures for installing the Cisco
ASR 1002-F Router on an equipment shelf or tabletop or in an equipment rack, and describes how to connect
interface and power cables.
This chapter contains the following sections:
• Cisco ASR 1002-F Router Description, page 276
• Cisco ASR 1002-F Router Components, page 279
• Installation Methods, page 286
• General Rack Installation Guidelines, page 287
• Guidelines for an Equipment Shelf or Tabletop Installation, page 288
• Equipment Shelf or Tabletop Installation, page 289
• Rack-Mounting the Cisco ASR 1002-F Router, page 291
• Attaching the Chassis Rack-Mount Brackets, page 293
• Installing the Cisco ASR 1002-F Router in a Rack, page 296
• Attaching the Cable-Management Bracket, page 300
• Attaching a Chassis Ground Connection, page 302
• Connecting the Shared Port Adapter Cables, page 305
• Connecting the Console and Auxiliary Port Cables, page 305
• Connecting a Cable to the Management Ethernet Port, page 306
• Connecting Power to the Cisco ASR 1002-F Router, page 306
• Connecting a Terminal to the Cisco Integrated RP Console Port and Auxiliary Port, page 314
• Connecting Cables, page 315
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Cisco ASR 1002-F Router Description
Cisco ASR 1002-F Router Description
The Cisco ASR 1002-F Router is one of the Cisco ASR 1000 Series Aggregation Services Routers. The Cisco
ASR 1002-F Router supports all the general-purpose routing and security features of the Cisco ASR 1002
Router, and uses the same internal control and data-plane architecture as Cisco ASR 1002 Router.
The Cisco ASR 1002-F Router supports:
• The same features and components as the Cisco ASR 1002 Router
• An integrated 4xGE SPA interface
• Fixed 2.5 GB of system bandwidth and 4 GB DRAM
• A built-in 4x1GE SPA providing four small form-factor pluggable (SFP-based) GE connections,
designated as SPA bay 0
.
For information about the SFP transceiver modules that are compatible with Cisco ASR 1002 Built-in Gigabit
Ethernet Ports (4x1GE), refer to the “Modular Optics Compatibility” section in Cisco ASR 1000 Series
Aggregation Services Routers SIP and SPA Hardware Installation Guide .
Note
Only Cisco software release four code supports the Cisco ASR 1002-F Router. Do not use earlier versions
of Cisco software.
This section contains the following topics:
Front View
Figure 115: Cisco ASR 1002-F Router—Front View, on page 276 shows the front of the Cisco ASR 1002-F
Router with the Cisco ASR 1002-ESP-F, Cisco ASR 1000 route processor, and a SPA-4XOC12-POS installed.
Figure 115: Cisco ASR 1002-F Router—Front View
1
Integrated Cisco ASR
1002-ESP-F
3
Cisco ASR 1002-SIP10-F
with a SPA installed
2
Integrated Cisco RP
—
—
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Rear View
Rear View
The following image shows the rear of the Cisco ASR 1002-F Router with AC power supplies installed.
Figure 116: Cisco ASR 1002-F Router With AC Power Supplies—Rear View
Note
1
Chassis ESD socket
5
Fan
2
AC power supply slot 0
label
6
Captive installation screw
3
AC power supply On
(|)/Off (O) switch
7
AC power supply slot 1
label
4
AC power supply LEDs
8
AC power inlet
On the side of the Cisco ASR 1002-F Router there is an eUSB panel door and the grounding lug as shown
in the “Cisco ASR 1002-F Router Chassis Ground Lug Location and eUSB Side Panel Door” figure in the
Attaching a Chassis Ground Connection section. This panel door must not be opened. There is a Do Not
Tamper label on the panel door. Do not remove the label. If there is a problem with the eUSB flash card,
then the chassis should be returned.
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Rear View
The follwing image shows the rear of the Cisco ASR 1002-F Router with DC power supplies installed.
Figure 117: Cisco ASR 1002-F Router With DC Power Supplies—Rear View
1
Chassis ESD socket
6
Captive installation screw
2
DC power supply slot 0
label
7
DC power supply slot 1
label
3
DC power supply
Standby/On (|) switch
8
Ground lead
4
DC power supply LEDs
9
Positive lead
5
Fan
10
Negative lead
Internal fans draw cooling air into the chassis and across internal components to maintain an acceptable
operating temperature. The fans are located at the rear of the chassis. A two-hole ground connector lug is
located on the side of the chassis. Two power supplies, either two AC power supplies or two DC power
supplies, are accessed from the rear of the router.
Caution
Use only AC power supplies or DC power supplies in the Cisco ASR 1002-F Router. Do not mix power
supply types.
Cisco ASR 1002-F Router Slot Numbering
The Cisco ASR 1002-F Router contains:
• One Cisco integrated RP— R0
• One integrated Cisco ASR1000-ESP-F forwarding processor— F0
• One integrated ASR1002-SIP10-F—slot 0
• 4-Gigabit Ethernet built-in interface—slot 0/0
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Cisco ASR 1002-F Router Components
• SPA-5x1GE-V2—slot 0/1
The following figure shows the slot numbering for the Cisco ASR 1002-F Router.
Figure 118: Cisco ASR 1002-F Router Slot Numbering
1
Slot 0
3
Slot 2
2
Slot 1
—
—
Cisco ASR 1002-F Router Components
The Cisco ASR 1002-F Router system is derived from the architecture of the Cisco ASR 1002 Router. The
main components of the Cisco ASR 1002-F Router are:
• Cisco integrated RP
• Cisco integrated ASR 1002-ESP-F
• Cisco ASR 1002-SIP10-F
• AC or DC power supplies
Cisco Integrated RP and Cisco ASR 1002-ESP-F Description
The Cisco ASR 1002-F Router supports the following integrated components:
• Cisco integrated RP—The Cisco ASR 1000 Series integrated Route Processor (RP) for the Cisco ASR
1002-F Router is the central control processor and runs the network operating system. The Cisco integrated
RP supports management interfaces such as the Management Ethernet port and console and auxiliary
serial ports. It has LED status indicators, an RJ-45 plug for a BITS timing reference, and one USB port
that can be used with smart cards for secure key distribution or for image or configuration file updates.
• Cisco ASR 1002-ESP-F services processor (does not support online insertion and removal)—The Cisco
embedded services processor is based on the Cisco QuantumFlow Processor for next-generation
forwarding and queuing. It performs all baseline packet routing operations, including MAC classification,
Layer 2 and Layer 3 forwarding, quality of service (QoS) classification, policing and shaping, security
access control lists (ACLs), VPNs, load balancing, and NetFlow. The Cisco ASR 1002-ESP-F can only
be used in the Cisco ASR 1002-F Router and has forwarding performance of 2.5 Gbps and does not
support online insertion or removal.
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Cisco Integrated RP and Cisco ASR 1002-ESP-F Description
The following image shows the Cisco ASR 1002-F Router faceplate labels for the Cisco integrated RP and
Cisco ASR 1002-ESP-F.
Figure 119: Cisco Integrated RP and Cisco ASR 1002-ESP-F LEDs on Cisco ASR 1002-F Router
1
Cisco RP LEDs: PWR,
2
STAT, MIN, MAJ, CRIT
Cisco ASR 1002-ESP-F
LEDs: PWR, STAT,
ACTV, STBY
The following image shows the Cisco ASR 1002-F Router faceplate labels for the Cisco integrated RP.
Figure 120: Cisco Integrated RP Faceplate Labels
1
Gigabit Ethernet ports 0, 6
1, 2, 3
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Cisco Integrated RP and Cisco ASR 1002-ESP-F Description
2
BITS
7
LINK
3
MGMT
8
CARRIER
4
AUX
9
BOOT
5
Cisco integrated ASR
1002-SIP10-F LEDs:
PWR, STAT
10
Cisco integrated RP
STAT LED
The following image shows the labels for the Cisco ASR 1002-SIP10-F SPA interface processor (SIP). The
ASR 1002-F router has only one half-height removable SPA.
Figure 121: Cisco ASR 1002-SIP10-F SPA Interface Processor
1
Cisco ASR 1002-SIP10-F 4
Port 2
2
SPA STATUS LED
5
Port 1
3
Port 3
6
Port 0
The Cisco ASR 1002-F Router SPA has three types of LEDs: two LEDs for each port on the SPA and one
STATUS LED, as shown in the following image.
Figure 122: Cisco ASR 1002-F Router SPA Faceplate
1
C/A (Carrier/Alarm)
3
SPA STATUS
2
A/L (Active/Loopback)
—
—
The following table describes the Cisco ASR 1002-F Router SPA LEDs.
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Cisco Integrated ASR 1002-SIP10-F and SPA for Cisco ASR 1002-F Router Description
Table 62: Cisco ASR 1002-F Router SPA LEDs
LED Label
Color
State
Meaning
C/A
Off
Off
SONET alarm controller
is shut down.
Green
On
Port is enabled by
software and there is a
valid SONET alarm
signal without any alarms.
Amber
On
Port is enabled by
software and there is at
least one alarm.
Off
Off
Interface is shut down.
Green
On
Port is enabled by
software and loopback is
off.
Amber
On
Port is enabled by
software and loopback is
on.
Off
Off
SPA power is off.
Green
On
SPA is ready and
operational.
Amber
On
SPA power is on and
good and the SPA is
being configured.
A/L
STATUS
Cisco Integrated ASR 1002-SIP10-F and SPA for Cisco ASR 1002-F Router
Description
The Cisco ASR 1002-SIP10-F in the Cisco ASR 1002-F Router is integrated into the chassis and you cannot
insert or remove it. The Cisco integrated ASR 1002-SIP10-F provides the physical and electrical termination
for one half-height SPA.
The Cisco integrated ASR 1002-SIP10-F interface supports all Cisco SPA interface processor functions and
services. However, the Cisco integrated ASR 1002-SIP10-F differs in the following areas:
• Functions as the base board for the Cisco integrated RP
• Is not a field-replaceable unit (FRU) and does not support online insertion and removal (OIR)
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Power Supplies in the Cisco ASR 1002-F Router
Power Supplies in the Cisco ASR 1002-F Router
The Cisco ASR 1002-F Router power supply consists of either an AC or DC input in a closed frame power
supply with two DC voltage outputs: 12 V and 3.3 V. The AC power supply operates between 85 VAC to
264 VAC and the DC power supply operates between –40.5 VDC to –72 VDC.
The power supplies are installed into the rear of the chassis and are hot pluggable. The Cisco ASR 1002-F
Router supports up to 588 W of input power from an infrastructure standpoint, but the initial power supply
development limit is up to 470 W of output power (AC and DC input).
AC Power Supply for the Cisco ASR 1002-F Router
The AC power supply input inlet is an IEC connector with an AC switch and the current rating on the connector
and switch is 10 A. The AC power supply is secured into the chassis with two captive installation screws
mounted on the faceplate.
The following table describes the LEDs on the Cisco ASR 1002-F Router.
Table 63: Cisco ASR 1002-F Router AC Power Supply LEDs
LED Label
LED
Color
Description
INPUT OK
Power supply activity
Green
The AC input voltage is greater
than 85V.
None
If the LED is not illuminated,
then either the input voltage is
less than 70V, or the power
supply is turned off.
If the AC input voltage is
between 70V and 85V, the
INPUT OK LED can be on, off,
or flashing.
FAN OK
Power supply fan activity
Green
All fans are operational.
A bi-color LED indicates fan
status.
Red
A fan failure is detected.
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Power Supplies in the Cisco ASR 1002-F Router
LED Label
LED
Color
Description
OUTPUT FAIL
Power supply activity
Red
If the INPUT OK LED is
illuminated, this LED is red if
the DC output voltages are
below the minimum limit or
above the maximum limit.
If the INPUT OK LED is not
illuminated, this LED might be
off or red.
Off
If the INPUT OK LED is
illuminated, this LED is off if
the DC output voltages are
within the normal operating
range.
If the INPUT OK LED is not
illuminated, this LED might be
off or red.
DC Power Supply for the Cisco ASR 1002-F Router
The DC power supply input connector is a Euro-style type of terminal block. It is compliant with safety
agencies’ guidelines and electrical requirements of the supply. The DC power supply operates within
specification from –40.5 VDC to –72 VDC continuously once the power supply DC input turn-on threshold
of –43.5 V has been reached.
The DC power supply input connector accepts three wires: one positive polarity, one negative polarity, and
one ground. There are provisions on the front panel to use a wire tie for strain relief of the DC input wiring.
The DC power supply is secured into the system chassis with two installation captive screws mounted on the
faceplate.
The following image shows the DC power supply for the Cisco ASR 1002-F Router.
Figure 123: DC Power Supply for the Cisco ASR 1002-F Router
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Power Supplies in the Cisco ASR 1002-F Router
1
Chassis ESD socket
6
Captive installation screw
2
DC power supply slot 0
label
7
DC power supply slot 1
label
3
DC power supply
Standby/On (|) switch
8
Ground lead
4
DC power supply LEDs
9
Positive lead
5
Fan
10
Negative lead
The following table defines the Cisco ASR 1002-F Router DC power supply LEDs on the Cisco ASR 1002-F
Router.
Table 64: Cisco ASR 1002-F Router DC Power Supply LEDs
LED Label
LED
Color
Description
INPUT OK
Power supply activity
Green
The DC power supply input
voltage is greater than 43.5
VDC at turn-on and remains
green down to 39 VDC.
Amber
The power supply turns off due
to low input voltage (falls below
39VDC) and indicates that there
is still a hazard present (voltage
on the terminal block). The
LED remains amber and is
active to around 20 V +/-5 V.
Off
The input is below 15V
FAN OK
OUTPUT FAIL
Power supply fan status activity Green
Power supply activity
All fans are operational.
Red
A fan failure is detected.
Red
The DC output is out of the
specified range. When you turn
the power supply on, the red
LED illuminates for two to
three seconds to test LED
operation before going off.
Off
The DC output voltage are
within the normal operating
range.
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The table shows the DC power supply output voltage alarm range.
Table 65: DC Power Supply Output Voltage Alarm Threshold Ranges
Output
Minimum
Maximum
12V
10.0–11.2V
12.8–13.8V
3.3V
2.6–3.0 V
None
Power Cords Supported by the Cisco ASR 1002-F Router
The following table lists the power cords that are supported by the Cisco ASR 1002-F Router.
Table 66: Power Cords Supported by the Cisco ASR 1002-F Router
Power Cord Item Number
Description
CAB-AC-RA
Power Cord, 110 V, Right Angle
CAB-ACA-RA
Plug, Power Cord, Australian, 10 A, Right Angle
CAB-ACB10A-RA
Power Cord, Brazil, Right Angle, 10 A
CAB-ACB16A-RA
Power Cord, Brazil, Right Angle, 16 A
CAB-ACC-RA
Power Cord China, Right Angle
CAB-ACE-RA
Power Cord Europe, Right Angle
CAB-ACI-RA
Power Cord, Italian, Right Angle
CAB-ACR-RA
Power Cord Argentina, Right Angle
CAB-ACS-RA
Power Cord, Switzerland, Right Angle
CAB-ACU-RA
Power Cord UK, Right Angle
CAB-IND-RA
Power Cord India, Right Angle
CAB-JPN-RA
Power Cord-Japan, Right Angle
Installation Methods
The Cisco ASR 1002-F Router is designed for a standalone, two-rail 19-inch rack-mount (front rail only), or
four-rail 19-inch rack-mount (front and rear rail).
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General Rack Installation Guidelines
Although rack-mounting is the preferred method of installation for the Cisco ASR 1002-F Router, you can
mount the chassis on an equipment shelf or tabletop.
Note
The Cisco ASR 1002-F Router usually ships fully loaded. However, you can remove components, such
as the power supplies, from the chassis to make the chassis lighter for your rack installation.
Warning
This warning symbol means danger. You are in a situation that could cause bodily injury. Before you
work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with
standard practices for preventing accidents. Use the statement number provided at the end of each warning
to locate its translation in the translated safety warnings that accompanied this device. Statement 1071
Warning
Before you install, operate, or service the system, read the Regulatory Compliance and Safety Information
for Cisco ASR 1000 Series Aggregation Services Routers publication. This document provides important
safety information you should know before working with the system. Statement 200
General Rack Installation Guidelines
When planning your rack installation, consider the following guidelines:
• The Cisco ASR 1002-F Router requires a minimum of 3.5 inches or 8.9 cm of vertical rack space.
Measure the proposed rack location before mounting the chassis in the rack.
• Before using a particular rack, check for obstructions (such as a power strip) that could impair rack-mount
installation. If a power strip does impair a rack-mount installation, remove the power strip before installing
the chassis, and then replace it after the chassis is installed.
• Allow sufficient clearance around the rack for maintenance. If the rack is mobile, you can push it back
near a wall or cabinet for normal operation and pull it out for maintenance (installing or moving cards,
connecting cables, or replacing or upgrading components). Otherwise, allow 19 inches/48.3 cm) of
clearance to remove field-replaceable units.
• Maintain a minimum clearance of 3 inches/7.62 cm on the front and back sides of the chassis for the
cooling air inlet and exhaust ports, respectively. Avoid placing the chassis in an overly congested rack
or directly next to another equipment rack; otherwise, the heated exhaust air from other equipment can
enter the inlet air vents and cause an overtemperature condition inside the router.
Caution
To prevent chassis overheating, never install a Cisco ASR 1002-F Router in an enclosed room that is not
properly ventilated or air-conditioned.
• Always install heavier equipment in the lower half of a rack to maintain a low center of gravity to prevent
the rack from falling over
.
• Install and use the cable-management brackets included with the Cisco ASR 1002-F Router to keep
cables organized and out of the way of the cards and processors. Ensure that cables from other equipment
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Guidelines for an Equipment Shelf or Tabletop Installation
already installed in the rack do not impair access to the cards or require you to disconnect cables
unnecessarily to perform equipment maintenance or upgrades
.
• Install rack stabilizers (if available) before you mount the chassis
.
• Provide an adequate chassis ground (earth) connection for your router chassis.
In addition to the preceding guidelines, review the precautions for avoiding excessive temperature conditions
in the “Site Environmental Requirements” section on page 5-9 .
The following table provides the Cisco ASR 1002-F Router dimensions and weight information.
Table 67: Cisco ASR 1002-F Router Dimensions and Weight
Cisco ASR 1002-F
Dimensions
Depth
22.50 in. (57.15 cm)(including card handles,
cable-management brackets, power supply handles
Height
3.47 in. (8.813 cm)—2RU rack-mount per EIA
RS-310 standard
Width
17.25 in. (43.815 cm)—19-inch rack-mount
Weight
40 lb (18.143 k)—fully configured
Guidelines for an Equipment Shelf or Tabletop Installation
The chassis should already be in the area where you will install it. If you have not determined where to install
your chassis, see the “Cisco ASR 1000 Series Routers Component Overview” section on page 2-1 for
information about site considerations.
If you are not rack-mounting your Cisco ASR 1000 series chassis, place it on a sturdy equipment shelf or
tabletop.
When installing the Cisco ASR 1002-F Router on an equipment shelf or tabletop, ensure that the surface is
clean and that you have considered the following:
• The Cisco ASR 1002-F Router requires at least 3 inches (7.62 cm) of clearance at the inlet and exhaust
vents (the front and rear sides of the chassis).
• The Cisco ASR 1002-F Router should be installed off the floor. Dust that accumulates on the floor is
drawn into the interior of the router by the cooling fans. Excessive dust inside the router can cause
overtemperature conditions and component failures
.
• There must be approximately 19 inches (48.3 cm) of clearance at the front and rear of the chassis to
install and replace FRUs, or to access network cables and equipment.
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Equipment Shelf or Tabletop Installation
• The Cisco ASR 1002-F Router needs adequate ventilation. Do not install it in an enclosed cabinet where
ventilation is inadequate.
• Have the cable-management bracket available if you plan to install it on the front of the chassis.
• An adequate chassis ground (earth) connection exists for your router chassis
(see the Attaching a Chassis Ground Connection, on page 302).
• Always follow proper lifting practices as outlined in the next section, when handling the chassis.
Equipment Shelf or Tabletop Installation
To mount your Cisco ASR 1002-F Router on an equipment shelf or tabletop, follow these steps:
SUMMARY STEPS
1. Remove any debris and dust from the tabletop or platform, as well as the surrounding area.
2. Lift the chassis into position on the equipment shelf or tabletop. image shows how to lift the chassis.
3. Attach the front rack-mount brackets. Locate the threaded holes in the front sides of the chassis (first holes
beyond the vent holes) and use the package of black screws that shipped with the chassis.
4. Align the front rack-mount bracket to one side of the chassis.
5. Insert and tighten the screws on one side.
6. Repeat Step 4 through Step 5 on the other side of the chassis. Use all the screws to secure the rack-mount
brackets to the chassis.
7. Gather the two cable-management brackets and screws that shipped with your chassis. The following
image shows cable-management brackets attached on the front of the Cisco ASR 1002-F Router.
8. Screw the cable-management brackets to each side of the rack-mount brackets already attached to the
chassis. Use two screws for each cable-management bracket.
9. Check that all the screws are securely tightened.
DETAILED STEPS
Step 1
Step 2
Remove any debris and dust from the tabletop or platform, as well as the surrounding area.
Lift the chassis into position on the equipment shelf or tabletop. image shows how to lift the chassis.
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Equipment Shelf or Tabletop Installation
Warning
At least two people are required to lift the chassis onto a tabletop or platform. To prevent injury, keep your
back straight and lift with your legs, not your back. Statement 164
Figure 124: Lifting the Chassis
The chassis in the above image does not represent the Cisco ASR 1002-F Router. This is only an example of
how to lift a Cisco chassis.
Attach the front rack-mount brackets. Locate the threaded holes in the front sides of the chassis (first holes beyond the
vent holes) and use the package of black screws that shipped with the chassis.
Align the front rack-mount bracket to one side of the chassis.
Insert and tighten the screws on one side.
Repeat Step 4 through Step 5 on the other side of the chassis. Use all the screws to secure the rack-mount brackets to
the chassis.
Note
The chassis rack-mount brackets must be installed first so that you can attach the cable-management brackets
to the chassis rack-mount brackets after the chassis is installed in the rack.
Gather the two cable-management brackets and screws that shipped with your chassis. The following image shows
cable-management brackets attached on the front of the Cisco ASR 1002-F Router.
Note
Step 3
Step 4
Step 5
Step 6
Step 7
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Rack-Mounting the Cisco ASR 1002-F Router
Note
Make certain that the cable-management bracket “U” feature device has the open end pointing upwards when
you attach it to the chassis
Figure 125: Attaching the Cable-Management Brackets to the Cisco ASR 1002-F Router
Step 8
Step 9
1
Cable-management bracket 3
top screw hole and bottom
screw hole
Chassis front rack-mount
bracket
2
Cable-management bracket —
“U” feature
—
Screw the cable-management brackets to each side of the rack-mount brackets already attached to the chassis. Use two
screws for each cable-management bracket.
Check that all the screws are securely tightened.
What to Do Next
Go to the Attaching a Chassis Ground Connection, on page 302 to continue the installation.
Rack-Mounting the Cisco ASR 1002-F Router
The Cisco ASR 1002-F Router can be installed in an existing rack with equipment or in an empty rack with
no equipment. The chassis can be mounted in two equipment rack types:
• Two-post rack, 19-inch or 23-inch equipment rack. Inner clearance (the width between the inner sides
of the two posts or rails) must be at least 19 inches (48.26 cm). The height of the chassis is 3.47 inches
(8.8 cm). Airflow through the chassis is from front to back
.
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Verifying Rack Dimensions
Note
If you are using a two-post rack, secure the rack to the floor surface to prevent tipping and avoid bodily
injury.
• Four-post, 19-inch equipment rack. Inner clearance (the width between the inner sides of the two posts
or rails) must be at least 19 inches (48.26 cm). The height of the chassis is 3.47 inches/8.8 cm). Airflow
through the chassis is from front to back.
The Cisco ASR 1002-F Router can be installed with both front or rear rack-mount brackets.
Verifying Rack Dimensions
Before you install the chassis, measure the space between the vertical mounting flanges (rails) on your
equipment rack to verify that the rack conforms to the measurements shown in the following image.
SUMMARY STEPS
1. Mark and measure the distance between two holes on the left and right mounting rails. The distance should
measure 18.31 inches ± 0.06 inches (46.5 cm ± 0.15 cm).
2. Measure the space between the inner edges of the left front and right front mounting flanges on the
equipment rack. The space must be at least 17.7 inches (45 cm) to accommodate the chassis, which is
17.25 inches (43.8 cm) wide and fits between the mounting posts on the rack.
DETAILED STEPS
Step 1
Step 2
Mark and measure the distance between two holes on the left and right mounting rails. The distance should measure
18.31 inches ± 0.06 inches (46.5 cm ± 0.15 cm).
Note
Measure for pairs of holes near the bottom, middle, and top of the equipment rack to ensure that the rack posts
are parallel.
Measure the space between the inner edges of the left front and right front mounting flanges on the equipment rack. The
space must be at least 17.7 inches (45 cm) to accommodate the chassis, which is 17.25 inches (43.8 cm) wide and fits
between the mounting posts on the rack.
Figure 126: Verifying Equipment Rack Dimensions
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Attaching the Chassis Rack-Mount Brackets
Attaching the Chassis Rack-Mount Brackets
This section explains how to attach the front and rear rack-mount brackets to the chassis. Before installing
the chassis in the rack, you must install the rack-mount brackets on each side of the chassis.
The parts and tools required for installing the rack-mount brackets and cable-management brackets are listed
in the “Tools and Equipment” section on page 5-23 .
Note
The cable-management brackets are attached to the chassis after you install the chassis rack-mount brackets
on the chassis and mount the chassis in the rack.
Chassis Front Rack-Mount Brackets
Determine where in the rack you want the chassis to be mounted. If you are mounting more than one chassis
in the rack, then start from the bottom up or the center of the rack.
To install the front rack-mount brackets on the Cisco ASR 1002-F Router, perform the following steps:
SUMMARY STEPS
1. Locate the threaded holes on the side of the chassis. Make certain that you hold the front rack-mount
bracket with the ear and holes facing outward and towards the front of the chassis.
2. Position the front rack-mount bracket top hole with the chassis first top hole behind the side vent holes.
3. Insert and tighten the black screws on one side.
4. Repeat Step 1 through Step 3 on the other side of the chassis. Use the black screws to secure the rack-mount
brackets to the chassis.
5. Install the chassis in a rack. To install the Cisco ASR 1002-F Router in a rack, go to the Installing the
Cisco ASR 1002-F Router in a Rack.
DETAILED STEPS
Step 1
Locate the threaded holes on the side of the chassis. Make certain that you hold the front rack-mount bracket with the
ear and holes facing outward and towards the front of the chassis.
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Chassis Rear Rack-Mount Brackets
The following image shows where to attach the front rack-mount brackets to the Cisco ASR 1002-F Router. Depending
on the bracket holes you use, the chassis may protrude in the rack.
Figure 127: Attaching the Front Rack-Mount Brackets to the Cisco ASR 1002-F Router
Step 2
Step 3
Step 4
Step 5
1
Front rack-mount bracket ear 3
and holes
2
Front rack-mount bracket
—
Front rack-mount bracket
screws
—
Position the front rack-mount bracket top hole with the chassis first top hole behind the side vent holes.
Insert and tighten the black screws on one side.
Repeat Step 1 through Step 3 on the other side of the chassis. Use the black screws to secure the rack-mount brackets to
the chassis.
Install the chassis in a rack. To install the Cisco ASR 1002-F Router in a rack, go to the Installing the Cisco ASR 1002-F
Router in a Rack.
What to Do Next
This completes the steps for attaching the front rack-mount brackets to the Cisco ASR 1002-F Router.
Chassis Rear Rack-Mount Brackets
If you are rack-mounting the chassis using the rear rack-mount brackets, then this type of installation provides
for the chassis being recessed in the rack.
To install the rear rack-mount brackets on the Cisco ASR 1002-F Router, perform the following steps:
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Chassis Rear Rack-Mount Brackets
SUMMARY STEPS
1. Locate the threaded ear holes on the rear side of the chassis. Make certain that you hold the rear rack-mount
bracket with the ear and holes facing outward and towards the rear of the chassis.
2. Position the rear rack-mount bracket top hole with the chassis top hole from the back.
3. Insert and tighten the screws on one side.
4. Repeat Step 1 through Step 3 on the other side of the chassis. Use the remaining screws to secure the rear
rack-mount brackets to the chassis.
DETAILED STEPS
Step 1
Locate the threaded ear holes on the rear side of the chassis. Make certain that you hold the rear rack-mount bracket with
the ear and holes facing outward and towards the rear of the chassis.
The following image shows where to attach the rear rack-mount brackets to the Cisco ASR 1002-F Router.
Figure 128: Attaching the Rear Rack-Mount Brackets to the Cisco ASR 1002-F Router
Step 2
Step 3
Step 4
1
Rear rack-mount bracket ear 3
and holes
2
Rear rack-mount bracket
—
Rear rack-mount bracket
screws
—
Position the rear rack-mount bracket top hole with the chassis top hole from the back.
Insert and tighten the screws on one side.
Repeat Step 1 through Step 3 on the other side of the chassis. Use the remaining screws to secure the rear rack-mount
brackets to the chassis.
What to Do Next
This completes the steps for attaching the rear rack-mount brackets to the Cisco ASR 1002-F Router.
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Installing the Cisco ASR 1002-F Router in a Rack
Caution
Before you mount the Cisco ASR 1002-F Router in a rack, make certain you understand which rack-mount
bracket ear holes to use when positioning the chassis in the rack. As a result of using the designated ear
holes on the rack-mount bracket, the cable-management bracket installation will be made easier.
Installing the Cisco ASR 1002-F Router in a Rack
After installing the rack-mount brackets on the chassis, you mount the chassis by securing the rack-mount
brackets to two posts or mounting strips in the rack using the screws provided.
Note
Danger
Because the rack-mount brackets support the weight of the entire chassis, be sure to use all the screws to
fasten the rack-mount brackets to the rack posts.
To prevent bodily injury when mounting or servicing this unit in a rack, you must take special precautions
to ensure that the system remains stable.
The following guidelines are provided to ensure your safety:
• This unit should be mounted at the bottom of the rack if it is the only unit in the rack.
• When mounting this unit in a partially filled rack, load the rack from the bottom to the top with the
heaviest component at the bottom of the rack
.
• If the rack is provided with stabilizing devices, install the stabilizers before mounting or servicing the
unit in the rack. Statement 1006
We recommend that you allow at least 1 or 2 inches (2.54 or 5.08 cm) of vertical clearance between the router
and any equipment directly above and below it.
To install the chassis in the rack, perform the following steps:
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
On the chassis, ensure that all screws on the installed components are securely tightened.
Make sure that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are engaged or that
the rack is otherwise stabilized. For chassis rack-mount installation types, see the “Two-Post Rack Installation” or the
“Four-Post Rack Installation.”
(Optional) Install a shelf in the rack to support Cisco ASR 1002-F Router. If you use a shelf, this will help support the
chassis while you secure it to the rack.
Lift the chassis into position between the rack posts.
Align the mounting bracket ear holes with the rack post holes to attach the chassis to the rack.
Note
If you are using a shelf, raise the chassis to the level of the shelf. Let the bottom of the chassis rest on the
brackets, but continue to support the chassis.
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
Hold the chassis in position against the mounting rails in the equipment rack and follow these steps:
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Two-Post Rack Installation
Step 8
a) Insert the bottom screw into the second bracket ear hole up from the bottom of the rack-mount ear and use a hand-held
screwdriver to tighten the screw to the rack rail.
b) Insert the top screw into the second bracket ear hole from the top of the rack-mount ear diagonally from the bottom
screw and tighten the screw to the rack rail.
c) Insert the four screws to secure the chassis to the rack equipment.
Tip
As a result of using the specified rack-mount bracket ear holes, the cable-management bracket can be easily
attached to the rack-mount bracket when the chassis is in the rack.
Tighten all screws on each side to secure the chassis to the equipment rack.
What to Do Next
You can install your Cisco ASR 1002-F Router on a two-post or four-post rack. See the “Two-Post Rack
Installation” or the “Four-Post Rack Installation.”
Two-Post Rack Installation
The Cisco ASR 1002-F Router can be installed on a two-post rack, either a 19-inch or 23-inch rack.
Note
Caution
Step 1
Inner clearance (the width between the inner sides of the two posts or rails) must be at least 19 inches
(48.26 cm). The height of the chassis is 3.47 inches (8.8 cm). Airflow through the chassis is from front to
back.
If you are using a two-post rack, secure the rack to the floor surface to prevent tipping and avoid bodily
injury and component damage.
Position the chassis so the front is closest to you and lift it carefully into the rack. To prevent injury, avoid any sudden
twists or moves.
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Four-Post Rack Installation
The folowing image shows the Cisco ASR 1002-F Router on a two-post rack.
Figure 129: Installing the Cisco ASR 1002-F Router on a Two-Post Equipment Rack
1
Step 2
Step 3
Step 4
Rack equipment rail
2
Front rack-mount bracket ear
and holes
Slide the chassis into the rack, pushing it back until the brackets meet the mounting strips or posts on both sides of the
rack.
Keeping the brackets flush against the posts or mounting strips, align the holes in the brackets with the holes on the rack
or mounting strip.
For each bracket, insert and tighten two screws to the rack on both sides.
What to Do Next
This completes the procedure for installing the chassis on a two-post rack. Proceed to the Attaching a Chassis
Ground Connection. to continue the installation.
Four-Post Rack Installation
The Cisco ASR 1002-F Router can be flush-mounted in a 19-inch equipment rack using the rack-mounting
kit provided with your system. When handling the chassis, always follow proper lifting practices. See the
“Chassis-Lifting Guidelines” section.
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Four-Post Rack Installation
Note
Caution
Step 1
Step 2
Step 3
Step 4
Step 5
Inner clearance (the width between the inner sides of the two posts or rails) must be at least 19 inches
(48.26 cm). The height of the chassis is 3.47 inches (8.8 cm). Airflow through the chassis is from front to
back.
Make sure the rack is stabilized.
(Optional) Install a shelf in the rack to support the Cisco ASR 1002-F Router. If you are using a shelf, raise the chassis
to the level of the shelf. Let the bottom of the chassis rest on the brackets, but continue to support the chassis. Lift the
chassis into the rack, grasping underneath the power supply bays.
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
Note
Use the second hole up from the bottom of the rack-mount bracket and the second hole down from the top of
the rack-mount bracket. This will make it easier to attach the cable-management brackets to the chassis in the
equipment rack.
Hold the chassis in position against the mounting rails while the second person finger-tightens a screw to the rack rails
on each side of the chassis.
Tighten the screws to the rack rails on each side of the chassis.
Tighten all the screws on each side to secure the chassis to the equipment rack.
The following figure shows the Cisco ASR 1002-F Router on a four-post rack.
Figure 130: Installing the Cisco ASR 1002-F Router on a Four-Post Equipment Rack
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Attaching the Cable-Management Bracket
Step 6
1
Rear rack equipment rail
3
2
Rear rack-mount bracket ear 4
and holes
Front rack-mount bracket ear
and holes
Front rack equipment rail
Use a level to verify that the tops of the two brackets are level, or use a measuring tape to verify that both brackets are
the same distance from the top of the rack rails.
What to Do Next
This completes the procedure for installing the chassis on a four-post rack. Proceed to the “Attaching the
Cable-Management Bracket” section to continue the installation.
Attaching the Cable-Management Bracket
The cable-management brackets mount to each rack-mount bracket on the chassis to provide cable-management
to both sides of the chassis (parallel with card orientation). These brackets are screw mounted to the rack-mount
brackets to allow easy installation and removal of cables.
The cable-management brackets for the Cisco ASR 1002-F Router contain one independent cable-management
“U” features with two screws for each bracket.
Note
Make certain that the cable-management bracket “U” feature is facing upwards when you attach it to the
chassis.
Follow these steps to attach the cable-management brackets to both sides of the Cisco ASR 1002-F Router
in the rack:
SUMMARY STEPS
1. Align the cable-management bracket to the rack-mount bracket on one side of the Cisco ASR 1002-F
Router. The cable-management bracket aligns to the top hole of the chassis rack-mount bracket.
2. Insert one screw through the top screw hole of the cable-management bracket and into the chassis
rack-mount bracket and tighten the screw using a Phillips screwdriver.
3. Insert one screw through the bottom screw hole of the cable-management bracket and into the chassis
rack-mount bracket and tighten the screw using a Phillips screwdriver (see Figure 131: Attaching the
Cable-Management Brackets to the Cisco ASR 1002-F Router, on page 301).
4. Repeat Step 1 through Step 3 for the other side of the Cisco ASR 1002-F Router.
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Attaching the Cable-Management Bracket
DETAILED STEPS
Step 1
Step 2
Align the cable-management bracket to the rack-mount bracket on one side of the Cisco ASR 1002-F Router. The
cable-management bracket aligns to the top hole of the chassis rack-mount bracket.
Insert one screw through the top screw hole of the cable-management bracket and into the chassis rack-mount bracket
and tighten the screw using a Phillips screwdriver.
The following image shows where to attach the cable-management brackets to the Cisco ASR 1002-F Router.
Figure 131: Attaching the Cable-Management Brackets to the Cisco ASR 1002-F Router
Step 3
Step 4
1
Cable-management bracket 3
top screw hole and bottom
screw hole
Chassis front rack-mount
bracket
2
Cable-management bracket —
“U” feature
—
Insert one screw through the bottom screw hole of the cable-management bracket and into the chassis rack-mount bracket
and tighten the screw using a Phillips screwdriver (see Figure 131: Attaching the Cable-Management Brackets to the
Cisco ASR 1002-F Router, on page 301).
Repeat Step 1 through Step 3 for the other side of the Cisco ASR 1002-F Router.
What to Do Next
This completes the procedure for installing the cable-management brackets on the Cisco ASR 1002-F Router.
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Attaching a Chassis Ground Connection
Attaching a Chassis Ground Connection
Connecting the Cisco ASR 1002-F chassis to ground is required for all DC-powered installations and any
AC-powered installation where compliance with Telcordia grounding requirements is necessary.
Caution
The grounding lug must be installed, all cards or filler plates must be fully inserted, screwed in, and
grounded to prevent a potential hazard in a telecom line.
Have the recommended tools and supplies available before you begin this procedure.
Warning
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority
or an electrician if you are uncertain that suitable grounding is available. Statement 1024
Before you connect power or turn on power to your router, you must provide an adequate chassis ground
(earth) connection for the Cisco ASR 1002-F Router. The chassis grounding lug and the respective screws
are provided in the accessory kit that ships with your Cisco ASR 1002-F Router.
Caution
The grounding wire is always the first to be installed or connected and the last to be removed or
disconnected.
The following image shows the location of the ground connector on the side of the Cisco ASR 1002-F Router.
Figure 132: Cisco ASR 1002-F Router Chassis Ground Lug Location and eUSB Side Panel Door
1
Cisco ASR 1002-F
2
Router ground connector
location
eUSB panel door
To attach the grounding lug to the chassis ground connector on your chassis, follow these steps:
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Attaching a Chassis Ground Connection
SUMMARY STEPS
1. Use the wire stripper to strip one end of the AWG #6 wire approximately 0.75 inches (19.05 mm).
2. Insert the AWG #6 wire into the wire receptacle on the grounding lug as shown in the following image.
3. Use the manufacturers’s recommended crimping tool to carefully crimp the wire receptacle around the
wire; this step is required to ensure a proper mechanical connection.
4. Locate the chassis ground connector on the side of your chassis as shown in the following imave.
5. Insert the two screws through the holes in the grounding lug as shown in Figure 134: Attaching a Grounding
Lug to the Chassis Ground Connector, on page 304.
6. Use the Number 2 Phillips screwdriver to carefully tighten the screws until the grounding lug is held firmly
to the chassis. Do not overtighten the screws.
7. Connect the opposite end of the ground wire to the appropriate grounding point at your site to ensure an
adequate chassis ground.
DETAILED STEPS
Step 1
Step 2
Use the wire stripper to strip one end of the AWG #6 wire approximately 0.75 inches (19.05 mm).
Insert the AWG #6 wire into the wire receptacle on the grounding lug as shown in the following image.
Figure 133: Attaching the Ground Wire to the Grounding Lug
1
Ground wire
3
Ground lug screws
2
Grounding lug
4
Chassis ground connector
holes
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Attaching a Chassis Ground Connection
Step 3
Step 4
Step 5
Use the manufacturers’s recommended crimping tool to carefully crimp the wire receptacle around the wire; this step is
required to ensure a proper mechanical connection.
Locate the chassis ground connector on the side of your chassis as shown in the following imave.
Insert the two screws through the holes in the grounding lug as shown in Figure 134: Attaching a Grounding Lug to the
Chassis Ground Connector, on page 304.
Figure 134: Attaching a Grounding Lug to the Chassis Ground Connector
1
Step 6
Step 7
Chassis ground connector
2
Ground symbol
Use the Number 2 Phillips screwdriver to carefully tighten the screws until the grounding lug is held firmly to the chassis.
Do not overtighten the screws.
Connect the opposite end of the ground wire to the appropriate grounding point at your site to ensure an adequate chassis
ground.
What to Do Next
This completes the procedure for attaching a chassis ground connection. Go to the following cabling sections
for information on attaching cables.
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Connecting the Shared Port Adapter Cables
Connecting the Shared Port Adapter Cables
The instructions for connecting the cables for the shared port adapter (SPA) installed in the Cisco ASR 1002-F
Router are contained in the respective configuration documents for SPAs. For detailed SPA information, see
Cisco ASR 1000 Series Aggregation Services Routers SIP and SPA Hardware Installation Guide .
Connecting the Console and Auxiliary Port Cables
This section describes how to attach a cable to the Cisco integrated RP console or auxiliary ports on the Cisco
ASR 1002-F Router. The Cisco ASR 1002-F Router uses RJ-45 ports for both the auxiliary port and console
port to attach a console terminal.
Caution
To meet Class A emission requirements on the Cisco ASR 1002-F Router, shielded cables must be used
for the console and auxiliary port connectors.
Before you can use the console interface on the router using a terminal or PC, you must perform the following
steps:
Step 1
Step 2
Before connecting a terminal to the console port or auxiliary port, configure the terminal to match the chassis console
port as follows: 9600 baud, 8 data bits, no parity, 1 stop bits (9600 8N1).
Connect to the port using an RJ-45 cable to a DB-9 cable.
Note
For information about how to change the default settings to meet the requirements of your terminal or host, see
Cisco IOS Terminal Services Configuration Guide. For route processor pinout specifications, see the “Cisco
ASR1000-RP2 Pinout Specifications” section.
The following figure shows the integrated RP console and auxiliary port connectors.
Figure 135: Cisco ASR 1002-F Router Integrated RP Console and Auxiliary Port Connectors
1
Console port (CON)
2
Auxiliary port (AUX)
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Connecting a Cable to the Management Ethernet Port
Step 3
After you establish normal router operation, you can disconnect the console terminal.
What to Do Next
Note
A connection will not be established when setting up an out-of-band connection or modem connection in
the auxiliary port and the console port.
Connecting a Cable to the Management Ethernet Port
This section describes how to attach a cable to the Cisco Management Ethernet port on the Cisco ASR 1002-F
Router.
Step 1
Insert an Ethernet RJ-45 cable into the MGMT ETHERNET port (see ).
Figure 136: Cisco ASR 1002-F Router Integrated RP Management Ethernet Port Connector
1
Step 2
Step 3
Management Ethernet port
Insert the other end of the RJ-45 cable into your management device or network.
Configure the port connection to a fixed speed through the command-line interface (CLI).
Connecting Power to the Cisco ASR 1002-F Router
Warning
The covers are an integral part of the safety design of the product. Do not operate the unit without the
covers installed in empty slots. Statement 1077
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
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Connecting Power to the Cisco ASR 1002-F Router
Danger
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
This section provides the procedures for connecting AC-input and DC input power to your Cisco ASR 1002-F
Router.
The DC power supply for the Cisco ASR 1006, Cisco ASR 1004, Cisco ASR 1002, and Cisco ASR 1002-F
routers operate at individual specifications. The following table shows the common input ranges and circuit
breaker requirements.
Table 68: Cisco ASR 1000 Series Router DC Power Supply System Input Requirements
Cisco ASR 1000 System Input
Series Router
Rating (Amps)
DC Power
Supply
Circuit Breaker AWG # Wire
Amps
Minimum
Maximum
Minimum
Maximum
Cisco ASR 1006 40
Always 50
Always AWG
#6 wire
Cisco ASR 1004 24
30
40
10
8
Cisco ASR 1002 16
and Cisco ASR
1002-F 1
20
30
12
10
1 The Cisco
ASR 1002-F
Router DC
power supply,
with 16 A input
rating must use
an AWG #12
gauge wire for a
20 A circuit
breaker and an
AWG #10 gauge
wire for a 30 A
circuit breaker.
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Connecting AC Input Power to the Cisco ASR 1002-F Router
Note
All Cisco ASR 1000 Series Router AC power supplies must be connected to a branch circuit that does
not exceed 20 A.
Read the safety warnings before you begin.
Warning
Never install an AC power module and a DC power module in the same chassis. Statement 1050
Warning
Installation of the equipment must comply with local and national electrical codes. Statement 1074
Warning
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority
or an electrician if you are uncertain that suitable grounding is available. Statement 1024
Warning
This unit might have more than one power supply connection. All connections must be removed to
de-energize the unit. Statement 1028
Warning
This product relies on the building’s installation for short-circuit (overcurrent) protection. Ensure that the
protective device is rated not greater than: AC power supplies 20 A and DC power supplies 30 A. Statement
1005
Connecting AC Input Power to the Cisco ASR 1002-F Router
This section provides instructions for installing the AC power supply into the Cisco ASR 1002-F Router.
shows the AC power supply labels. The following image shows the Cisco ASR 1002-F Router AC power
supply.
Figure 137: Cisco ASR 1002-F Router AC Power Supply Labels
1
Chassis ESD socket
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Fan
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Connecting AC Input Power to the Cisco ASR 1002-F Router
2
AC power supply slot 0
label
6
Captive installation screw
3
AC power supply On (|)
/Off (O) switch
7
AC power supply slot 1
label
4
AC power supply LEDs
8
AC power inlet
To connect AC power to the Cisco ASR 1002-F Router, follow these steps:
SUMMARY STEPS
1. At the rear of the router, check that the power switch is in the Off (O) position.
2. Insert the AC power cable into the power supply AC inlet.
3. To ensure that the AC power cord does not interfere with other cables or wires, dress the AC power cable
in one of the following ways:
4. Plug the AC power supply cable into the AC power source.
DETAILED STEPS
Step 1
Step 2
Step 3
At the rear of the router, check that the power switch is in the Off (O) position.
Insert the AC power cable into the power supply AC inlet.
To ensure that the AC power cord does not interfere with other cables or wires, dress the AC power cable in one of the
following ways:
a) Leave a small service loop in the AC power cord from the inlet and secure the power cord through the AC power
supply handle as shown in the following image.
Figure 138: Cisco ASR 1002-F Router AC Power Supply in Slot 1 with Power Cord
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Connecting AC Input Power to the Cisco ASR 1002-F Router
1
AC power cord and service —
loop
—
b) Run the power cord below the handles of power supplies in slot 0 and slot 1. Make sure the power cord is hanging
loose so that it will not be disconnected from the AC power inlet as shown in the foloiwng image.
Figure 139: Cisco ASR 1002-F Router AC Power Supplies in Slot 0 and Slot 1 with Power Cord
Caution
Do not run the AC power cord through the power supply handles as shown in the following
image.
Figure 140: Incorrect Cabling on the Cisco ASR 1002-F Router AC Power Supplies
Note
Note
Using a cable tie for the AC power cord is optional and not necessary. However, if you attach the AC power
cord to a power supply tab and then remove the AC power cord for some reason, check for any damage to
the cable after you cut off the cable tie. If the AC power cord is damaged, replace it immediately.
Four power supplies must be installed in the chassis at all times, with a minimum of two power supplies
(one per zone) connected to the mains in order to power on the system and ensure sufficient cooling. The
system fans are inside the power supply units and must spin for cooling. Because all the system fans can be
powered by one power supply, the second power supply unit does not have to be powered on, but must be
connected.
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Connecting DC Input Power to the Cisco ASR 1002-F Router
If you remove a power supply from a system that has four power supplies that are connected and powered
on, the system can run only for a maximum of five minutes before shutting down. However, because the
fans and power elements are independent within the power supply, the replacement power supply does
not have to be energized within five minutes. The only requirement is that the power supply be installed
in the chassis in order to energize the fans and maintain proper system cooling.
Plug the AC power supply cable into the AC power source.
Caution
Step 4
What to Do Next
This completes the procedure for connecting AC input power to the Cisco ASR 1002-F Router.
Connecting DC Input Power to the Cisco ASR 1002-F Router
The DC power supply input connector is a Euro-style type terminal block. A means to provide strain relief
to the input wires is provided on the power supply. The connection order is negative (–), positive (+), and
ground (GND); but this is the order from left to right that the terminals appear on the power supply, not the
order in which the leads should be connected during installation. The order the leads should be connected is
ground (GND), positive (+), and negative (–).
The recommended branch circuit breaker for the Cisco ASR 1002-F Router DC power supply is 30 A. Use
an AWG #10 wire gauge on the 30 A circuit.
The following image shows the DC power supply for the Cisco ASR 1002-F Router.
Figure 141: DC Power Supply for the Cisco ASR 1002-F Router
1
Chassis ESD socket
6
Captive installation screw
2
DC power supply slot 0
label
7
DC power supply slot 1
label
3
DC power supply switch 8
Standby/On (|)
Ground lead
4
DC power supply LEDs
Positive lead
9
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5
Fan
10
Negative lead
This section describes how to connect the DC power supply in the Cisco ASR 1002-F Router.
Note
The color coding of the DC input power supply leads depends on the color coding of the DC power source
at your site. Typically, green or green/yellow is used for ground. Make certain the lead color coding you
choose for the DC input power supply matches the lead color coding used at the DC power source.
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
To connect the DC power supply, follow these steps:
SUMMARY STEPS
1. At the rear of the router, check that the power supply Standby switch is in the Standby position (see the
following image ).
2. Ensure that the negative and positive leads are disconnected from the site power source.
3. Using a wire stripper, strip approximately 0.55 inch (14 mm) from the negative, positive, and ground
leads.
4. Insert the stripped end of the ground lead all the way into the ground lead receptacle on the DC input
power supply, and tighten the receptacle screw using a 3.5 mm flat-blade screwdriver to a torque of 0.5
to 0.6Nm.
5. Insert the stripped end of the positive lead all the way into the positive lead receptacle and tighten the
receptacle screw using the same 3.5 mm flat-blade screwdriver. Repeat this step for the negative lead.
6. After tightening the receptacle screw for the ground, positive, and negative DC-input leads, use a cable
tie to secure the three leads to the power supply faceplate, as shown in Figure 142: Cisco ASR 1002-F
Router DC Power Supply Terminal Block Cable Connections, on page 313. When securing the ground,
positive, and negative DC-input leads to the power supply faceplate, leave a small service loop in the
ground lead to ensure that the ground lead is the last lead to disconnect from the power supply if a great
deal of strain is placed on all three leads.
7. Connect the ground, positive, and negative leads to the power source.
8. Turn the branch source breaker on at your site and place the DC Standby switch in the On (|) position.
9. Check that the power supply LEDs light when power is supplied to the router.
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DETAILED STEPS
Step 1
At the rear of the router, check that the power supply Standby switch is in the Standby position (see the following image
).
Figure 142: Cisco ASR 1002-F Router DC Power Supply Terminal Block Cable Connections
Step 2
Step 3
Step 4
Step 5
1
Ground lead with service
loop and cable tie
3
Negative lead wire
2
Positive lead wire
4
DC power supply Standby
switch
Ensure that the negative and positive leads are disconnected from the site power source.
Using a wire stripper, strip approximately 0.55 inch (14 mm) from the negative, positive, and ground leads.
Insert the stripped end of the ground lead all the way into the ground lead receptacle on the DC input power supply, and
tighten the receptacle screw using a 3.5 mm flat-blade screwdriver to a torque of 0.5 to 0.6Nm.
Insert the stripped end of the positive lead all the way into the positive lead receptacle and tighten the receptacle screw
using the same 3.5 mm flat-blade screwdriver. Repeat this step for the negative lead.
Note
Make sure the entire stripped end of each lead is inserted all the way into its receptacle. If any exposed wire at
the stripped end of a lead is visible after inserting the lead into its receptacle, remove the lead from the receptacle,
use the wire stripper to cut the stripped end of the lead, and repeat Step 3 through Step 5.
Note
Four power supplies must be installed in the chassis at all times, with a minimum of two power supplies (one
per zone) connected to the mains in order to power on the system and ensure sufficient cooling. The system
fans are inside the power supply units and must spin for cooling. Because all the system fans can be powered
by one power supply, the second power supply unit does not have to be powered on, but must be connected.
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Connecting a Terminal to the Cisco Integrated RP Console Port and Auxiliary Port
If you remove a power supply from a system that has four power supplies that are connected and powered
on, the system can run only for a maximum of five minutes before shutting down. However, because the fans
and power elements are independent within the power supply, the replacement power supply does not have
to be energized within five minutes. The only requirement is that the power supply be installed in the chassis
in order to energize the fans and maintain proper system cooling.
After tightening the receptacle screw for the ground, positive, and negative DC-input leads, use a cable tie to secure the
three leads to the power supply faceplate, as shown in Figure 142: Cisco ASR 1002-F Router DC Power Supply Terminal
Block Cable Connections, on page 313. When securing the ground, positive, and negative DC-input leads to the power
supply faceplate, leave a small service loop in the ground lead to ensure that the ground lead is the last lead to disconnect
from the power supply if a great deal of strain is placed on all three leads.
Connect the ground, positive, and negative leads to the power source.
Turn the branch source breaker on at your site and place the DC Standby switch in the On (|) position.
Check that the power supply LEDs light when power is supplied to the router.
Caution
Step 6
Step 7
Step 8
Step 9
What to Do Next
This completes the procedure for connecting a DC power supply in the Cisco ASR 1002-F Router.
Connecting a Terminal to the Cisco Integrated RP Console Port
and Auxiliary Port
Cisco integrated route processor has an asynchronous serial (EIA/TIA-232) RJ-45 console port labeled CON
on its front panel. You can connect this port to most types of video terminals through use of the console cable
kit that is included with your Cisco ASR 1002-F Router. The console cable kit contains:
• One RJ-45 to RJ-45 crossover cable
• One RJ-45 to DB-9 (female) adapter
A crossover cable reverses pin connections from one end to the other. In other words, it connects pin 1 (at
one end) to pin 8 (at the other end), pin 2 to pin 7, pin 3 to pin 6, and so on. You can identify a crossover cable
by comparing the two modular ends of the cable. Hold the cable ends in your hand, side-by-side, with the
tabs at the back. Ensure that the wire connected to the outside (left) pin of the left plug (pin 1) is the same
color as the wire connected to the outside (right) pin of the right plug (pin 8).
Use the following procedure to connect a video terminal to the console port on the integrated RP.
Note
Step 1
Each Cisco ASR 1000 Series route processor must have a console port connection (typically to a terminal
server) if you are running a redundant configuration in the chassis.
Connect one end of the RJ-45 cables to the serial console RJ-45 port (CON) on the Cisco integrated RP.
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Connecting Cables
The following figure shows the Cisco ASR 1002-F Router integrated RP console and auxiliary port connection.
Figure 143: Cisco ASR 1002-F Router Integrated RP Console and Auxiliary Port Connection
1
Step 2
Step 3
Step 4
Step 5
Console port (CON)
2
Auxiliary port (AUX)
Run the cable up and through the cable-management bracket and connect the other end of the RJ-45 cable to the RJ-45
adapter (see the above figure).
Connect the adapter to your video terminal to complete the cable connection.
Power on your video terminal.
Configure your video terminal to match the following default console port settings: 9600 baud, 8 data bits, no parity
generation or checking, 1 stop bit, and no flow control
What to Do Next
Go to the “Connecting Cables” section to continue the installation.
Connecting Cables
Keep the following guidelines in mind when connecting external cables to the Cisco ASR 1002-F Router:
• To reduce the chance of interference, avoid crossing high-power lines with any interface cables.
• Verify all cabling limitations (particularly distance) before powering on the system
.
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CHAPTER
10
Cisco ASR 1002-X Router Overview and
Installation
This chapter describes the Cisco ASR 1002-X Router and details the procedures for installing the router on
an equipment shelf, tabletop, or an equipment rack.
This chapter contains the following sections:
• Cisco ASR 1002-X Router Description, page 318
• Installation Methods, page 331
• General Rack Installation Guidelines, page 331
• Guidelines for an Equipment Shelf or Tabletop Installation, page 332
• Equipment Shelf or Tabletop Installation Procedure, page 333
• Rack-Mounting the Cisco ASR 1002-X Router, page 335
• Attaching the Chassis Rack Mount Brackets, page 337
• Installing the Cisco ASR 1002-X Router in a Rack, page 340
• Attaching the Cable Management Bracket, page 345
• Attaching a Chassis Ground Connection, page 346
• Connecting the SPA Cables, page 349
• Connecting the Console and Auxiliary Port Cables, page 350
• Cisco ASR 1002-X Router Power Supplies, page 351
• Connecting a Terminal to the Console Port, page 362
• Connecting External Cables to the Cisco ASR 1002-X Router, page 364
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Cisco ASR 1002-X Router Description
Cisco ASR 1002-X Router Description
The Cisco ASR 1002-X Router is a part of the Cisco ASR 1000 Aggregation Services Routers. The Cisco
ASR 1002-X Router is a compact, small form factor router (SSF) that fulfil customer demands such as low
power consumption and decreased usage of rack space.
The Cisco ASR 1002-X Router supports three half-height SPAs and a built-in 6xGE SPA, as also all the
general-purpose routing and security features of the Cisco ASR 1000 Series Aggregation Services Routers.
The Cisco ASR 1002-X Router supports:
• An integrated embedded services processor that provides a forwarding bandwidth of 5 Gbps, 10 Gbps,
20 Gbps, or 36 Gbps, depending on the Cisco software license that is installed on the router.
• Hardware-based encryption with 4 Gbps of cryptography bandwidth.
• An integrated route processor with upgradeable BootROM and 8 GB eUSB bulk storage.
• 4 GB, 8GB, or 16 GB memory. The memory unit is field replaceable. By default, the router is shipped
with the 4 GB memory unit.
Note
If you plan to use the software redundancy feature on the router, you must order either the 8 GB memory
unit or the 16 GB memory unit.
• Two USB ports for USB flash sticks.
• 1 + 1 redundant AC or DC power supplies.
• Stratum 3 network clocking per GR-1244-CORE, with T1/E1 BITS interface, SPAs, or any of the six
built-in Gigabit Ethernet ports can be used as timing sources.
• Console ports and auxiliary ports, Ethernet 10/100/1000 Mbps network management ports.
• Clocking, which includes Stratum 3/G.813 Clocking, BITS, In/Out, and GPS input/output interface as
well as a ToD interface. The router supports network synchronization clock prioritization.
• Three half-height SPA slots, which can accommodate any combination of three half-height SPAs or one
half-height SPA and one full-height SPA. Each SPA slot can support a throughput of up to 10 Gbps.
With the exception of the 2-Port Gigabit Synchronous Ethernet SPA (SPA-2X1GE-SYNCE) and the
Cisco WebEx Node SPA, all the SPAs supported by the other Cisco ASR 1000 Series Aggregation
Services Routers are supported by the Cisco ASR 1002-X Router.
Note
On the Cisco ASR 1002-X Router, the copper small form-factor pluggable (SFP) port's flow control is
on, regardless of the duplex setting. In contrast, on the Cisco ASR 1002 Router, the copper SFP port's
flow control is off when the duplex setting is Half.
• Built-in 6x1GE SPA providing six SPF-based Gigabit Ethernet connections, designated as SPA bay 0.
For optical SFPs, the Gigabit Ethernet ports are SyncE capable. The Gigabit Ethernet ports are not SyncE
capable for copper SFPs.
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Front View of the Cisco ASR 1002-X Router
For information about the SFP transceiver modules that are compatible with the Cisco ASR 1002-X Built-in
Gigabit Ethernet Ports (6x1GE), refer to the “Modular Optics Compatibility” section in the Cisco ASR 1000
Series Aggregation Services Routers SIP and SPA Hardware Installation Guide .
• An optional hard drive.
The forwarding bandwidth provided by the Cisco ASR 1002-X Router's ESP can be upgraded to 36 Gbps,
depending on the Cisco software license that you install. The power supply modules of the router are
field-replaceable units.
This section contains the following topics:
Front View of the Cisco ASR 1002-X Router
The following image shows the front view of the Cisco ASR 1002-X Router.
Figure 144: Cisco ASR 1002-X Router—Front View
Note
1
Built-in 6x1GE SPA in
slot 0
4
SPA slot 2
2
SPA slot 1
5
ESP LEDs
3
SPA slot 3
The SPAs that you insert in slots 1 to 3 are field upgradeable.
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Rear View of the Cisco ASR 1002-X Router
Rear View of the Cisco ASR 1002-X Router
The following image shows the Cisco ASR 1002-X Router AC power supply.
Figure 145: Cisco ASR 1002-X Router AC Power Supply
1
Chassis ESD socket
5
AC power supply fan
2
AC power supply slot
number 0
6
AC power supply captive
installation screw
3
AC power supply On
(|)/Off (O) switch
7
AC power supply slot
number 1
4
AC power supply LEDs
8
AC power inlet
The following imave shows the Cisco ASR 1002-X Router DC power supply.
Figure 146: Cisco ASR 1002-X Router DC Power Supply
1
Chassis ESD socket
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6
DC power supply captive
installation screw
Cisco ASR 1002-X Router Overview and Installation
Rear View of the Cisco ASR 1002-X Router
2
DC power supply slot 0
label
7
DC power supply slot 1
label
3
DC power supply switch 8
Standby/On (|)
Ground lead
4
DC power supply LEDs
9
Positive lead
5
Power supply fan
10
Negative lead
Internal fans draw cooling air into the chassis and across internal components to maintain an acceptable
operating temperature. The fans are located at the rear of the chassis. A two-hole grounding lug is located on
the side of the chassis. Two power supplies, either two AC power supplies or two DC power supplies, can be
accessed from the rear of the router.
Caution
Use only the AC power supplies or the DC power supplies in the Cisco ASR 1002-X Router. Do not mix
power supply types.
Cisco ASR 1002-X Router Slot Numbering
The Cisco ASR 1002-X Router contains an integrated SIP that supports three half-height SPAs or one
half-height SPA and one full-height SPA. The SPA bays are Bay 1, Bay 2, and Bay 3. The router provides a
built-in 6 Gigabit Ethernet interface, and this SPA is physically located on the integrated route processor
board. The built-in 6xGE SPA ports are located in the SPA Bay 0 and addressed as GE 0/0/x.
The following image shows the Cisco ASR 1002-X Router slot numbering.
Figure 147: Cisco ASR 1002-X Router Slot Numbering
1
Built-in 6x1GE SPA in
slot 0
4
SPA slot 2
2
SPA slot 1
5
ESP LEDs
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3
SPA slot 3
The Cisco ASR 1002-X Router has an integrated ESP which is not field upgradeable. Depending on the Cisco
optional software license that is installed, the ESP forwarding bandwidth can be software field upgraded from
the default bandwidth of 5 Gbps to 10 Gbps, 20 Gbps, or 36 Gbps. For more information about the software
license, see the Cisco ASR 1000 Series Aggregation Services Routers Release Notes at: http://www.cisco.com/
en/US/docs/routers/asr1000/release/notes/asr1k_rn_rel_notes.html
The following table describes the LEDs on the integrated ESP.
Table 69: Integrated ESP LEDs
No.
LED Label
LED
Color
Behavior in the
Power-Up State
1
PWR
Power
Solid green
All the power supplies
are within operational
limits.
Off
Off. The router is in
standby mode.
2
ACTV
Active
Green
The ESP is green when
active.
3
STAT
STATUS
Green
Code has successfully
downloaded, and is
operational.
Yellow
Boot ROM has
successfully loaded.
Red
Not booted.
None
Will always be off.
4
STBY
Standby
Power Supplies in the Cisco ASR 1002-X Router
The Cisco ASR 1002-X Router power supply module supports the following Cisco power supplies:
• AC power supply operates between 85 V ac to 264 V ac
• –48 V DC power supply operates between –40.5 V dc and –72 V dc
• +24 V DC power supply operates between 21 V dc and 36 V dc
The power supplies are installed in the rear of the chassis and are hot pluggable. The Cisco ASR 1002-X
Router supports up to 588 W input power from an infrastructure standpoint (cooling capacity, midplane, and
power distribution), but the initial power supply development limit is up to 470 W output (AC and DC input).
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AC Power Supply for the Cisco ASR 1002-X Router
The AC power supply input inlet is an International Electrotechnical Commission (IEC) connector with an
AC switch. The current rating on the connector and switch is 10 A. The AC power supply is secured into the
chassis with two captive screws mounted on the faceplate.
The following table describes the AC power supply LEDs on the Cisco ASR 1002-X Router.
Table 70: Cisco ASR 1002-X Router AC Power Supply LEDs
LED Label
LED
Color
Description
INPUT OK
Power supply activity
Green
The AC input voltage is greater
than 85V.
None
If the LED is not illuminated,
then either the input voltage is
less than 70V, or the power
supply is turned off.
If the AC input voltage is
between 70V and 85V, the
INPUT OK LED can be on, off,
or flashing.
FAN OK
OUTPUT FAIL
Power supply fan activity
Green
All fans are operational.
A bi-color LED indicates fan
status.
Red
A fan failure is detected.
Power supply activity
Red
If the INPUT OK LED is
illuminated, this LED is red if
the DC output voltages are
below the minimum limit or
above the maximum limit.
If the INPUT OK LED is not
illuminated, this LED might be
off or red.
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Power Supplies in the Cisco ASR 1002-X Router
The following image shows the AC power supply for the Cisco ASR 1002-X Router.
Figure 148: AC Power Supply for the Cisco ASR 1002-X Router
1
Chassis ESD socket
5
AC power supply fan
2
AC power supply slot
number 0
6
AC power supply captive
installation screw
3
AC power supply On (|)
/Off (O) switch
7
AC power supply slot
number 1
4
AC power supply LEDs
8
AC power supply inlet
--48 VDC Power Supply for the Cisco ASR 1002-X Router
The –48 VDC power supply input connector is a Euro-style terminal block. It is compliant with safety agencies’
guidelines and electrical requirements of the supply. The DC power supply operates within specification from
–40.5 VDC to –72 VDC continuously after the power supply DC input is turned on a threshold of –43.5 V is
reached.
The –48 VDC power input connector accepts three wires: one positive polarity, one negative polarity, and
one ground (GND) wire. There are provisions on the front panel to wire tie and strain relief the DC input
wiring. The connection order is negative (–), positive (+), and GND. The DC power supply is secured into
the system chassis with two captive screws mounted on the faceplate.
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Power Supplies in the Cisco ASR 1002-X Router
The following image shows the –48 VDC power supply for the Cisco ASR 1002-X Router.
Figure 149: –48 VDC Power Supply for the Cisco ASR 1002-X Router
1
Chassis ESD socket
6
Power supply captive
installation screw
2
Power supply slot 0 label 7
Power supply slot 1 label
3
Power supply switch
Standby/On (|)
8
Ground lead
4
Power supply LEDs
9
Positive lead
5
Fan
10
Negative lead
The following table lists the Cisco ASR 1002-X Router –48 VDC power supply LEDs.
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Table 71: Cisco ASR 1002-X Router –48 VDC Power Supply LEDs
LED Label
LED
Color
Description
INPUT OK
A bi-color LED indicates the
presence of input voltage
Green
The LED turns green to signal
that the DC power supply input
voltage is greater than 43.5VDC
at turn-on and remains green
until the level of 39 VDC is
reached.
Amber
The LED turns amber if the
power supply turns off due to
low input voltage (falls below
39VDC) and indicates that a
hazard (voltage on the terminal
block) is still present. The LED
remains amber and is active
until around 20 V +/-5 V. If the
input is below 15 V, the LED is
not illuminated
FAN OK
A bi-color LED indicates power Green
supply fan status
OUTPUT FAIL
Power supply activity
The LED turns green when all
fans are operational.
Red
The LED turns red when a fan
failure is detected.
Red
When the LED is off, it signals
that the DC output voltage is
within the normal operating
range. Output voltage between
the minimum limit and
maximum limit will not create
an Output Fail alarm, but output
voltages below the minimum
limit or above the maximum
limit will create an Output Fail
alarm.
Led turns red to indicate that the
DC output is out of the
specified range.
When you turn on the power
supply, the LED turns red for
two to three seconds to test the
LED operation before going off.
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The output voltage alarm is raised when the output voltage is below the low end of the minimum limit or
above the high end of the maximum limit. When the output voltage is above the high end of the minimum or
below the low end of the maximum limit, the red state is not activated.
The following table shows the –48 VDC power supply output voltage alarm ranges.
Table 72: –48 VDC Power Supply Output Voltage Alarm Threshold Ranges
Output
Minimum
Maximum
12 V
10.0-11.2 V
12.8-13.8 V
3.3 V
2.6-3.0 V
None
+24 VDC Power Supply for the Cisco ASR 1002-X Router
This section provides information about the +24 VDC power supply at the rear of the Cisco ASR 1002-X
Router. The recommended branch circuit breaker for the Cisco ASR 1002-X Router +24 VDC power supply
is a 40 A UL-listed circuit breaker.
The Cisco ASR 1002-X Router has two same-type power supplies in power supply slot 0 and power supply
slot 1. The power supply slot identifiers are zero (0) on the left side of the chassis, rear side, and one (1) on
the right side of the chassis, rear side. The power supply switch is a Standby switch and is not considered a
disconnect.
The +24 VDC power supply uses a spring-loaded terminal block. The input terminal block requires a maximum
of 8 AWG multistrand wiring to support the input current. The terminal block is compliant with safety agencies’
guidelines and the electrical requirements of the supply. Use the tie wraps to dress the input cable wires; there
are two tie wrap tabs on the +24 VDC power supply. The +24 VDC power supply unit is secured into the
system chassis with two captive screws mounted on the faceplate.
The following image shows the +24 VDC power supply for the Cisco ASR 1002-X Router.
Figure 150: Cisco ASR 1002-X Router +24 VDC Power Supply
1
+24 VDC terminal block 6
Standby/On switch
2
Positive (+) lead
Captive fastener
7
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3
Negative (-) lead
8
Power supply tabs
4
Ground (GND) lead
9
+27 VDC INPUT label
5
Power supply LEDs
—
—
The following table shows the definitions of the Cisco ASR 1002-X Router +24 VDC power supply LEDs.
Table 73: Cisco ASR 1002-X Router +24 VDC Power Supply LEDs
LED Label
LED
Color
Description
OUTPUT FAIL
Power supply activity
Red
When the LED is off, it signals
that the +24 VDC output
voltage is within the normal
operating range. Output voltage
between the minimum limit and
maximum limit will not create
an output fail alarm, but output
voltages below the minimum
limit or above the maximum
limit will create an Output Fail
alarm.
When you turn the power
supply on, LED turns red for
two to three seconds to test the
LED operation before going off.
INPUT OK
FAN OK
A bicolor LED indicates the
presence of input voltage
A bicolor LED indicates the
power supply fan status
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Green
The LED turns green to signal
that voltage is > or = to 20 VDC
at turn-on and the voltage
reduces to 19.0VDC (+/- 0.5 V
tolerance).
Amber
The LED turns to amber when
the input voltage is active and
is reduced to 16.0 VDC and
indicates that a voltage on the
terminal block is still present.
The LED remains amber and is
active until around 10 V. The
LED should be OFF below 15.8
VDC.
Green
The LED turns to green when
all fans are operational.
Red
The LED turns to red when a
fan failure is detected.
Cisco ASR 1002-X Router Overview and Installation
Power Supplies in the Cisco ASR 1002-X Router
+24 VDC Power System Input for the Cisco ASR 1002-X Router
The +24 VDC power supply operates within specification between +21 VDC and +36 VDC continuously
after the power supply DC input is turned on. The power supply measures the input voltage at the power
supply terminals and turns off the supply when the input voltage reaches 19.0 V +/- 0.5 V when this low
voltage threshold is reached, the power supply does not resume operation until the input voltage reaches 20.0
V +/- 0.5 V. When the turn-on threshold of 20 V is reached, then the +24 VDC power supply meets all
specification requirements down to the low voltage threshold of 19 V (+/- tolerance).
+24 VDC Power System Output for the Cisco ASR 1002-X Router
The +24 VDC power supply output tolerance is defined in the following table, under all combinations of +24
VDC input line variation. The total system power consumption should not exceed 470 W or output rating of
each power supply.
Note
Two power supplies are used for the redundant operation. The system’s total power consumption should
not exceed the rating of one power supply to maintain redundancy.
Table 74: Cisco ASR 1002-X Router +24 VDC Power System Output Voltage and Current
Output Voltage
+12 VDC
+3.3 V
Minimum
11.80 VDC
3.20 V
Nominal
12.00 VDC
3.30 V
Maximum
12.20 VDC
3.40 V
Minimum
2.0 A
0.10 A
Maximum
39 A
3.125 A
Output Current
Note
Any combination of output voltage and current cannot exceed the total power rating of 470 W.
The following are the important notes regarding the +24 VDC power supply in the Cisco ASR 1002-X Router:
• Output Voltage Alarm Threshold—The Output Voltage Alarm is raised when the output voltage is below
the low end of the minimum limit or above the high end of the maximum limit (as shown in the following
table). When the output voltage is above the high end of the minimum limit or below the low end of the
maximum limit, the LED does not turn to red.
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Power Supplies in the Cisco ASR 1002-X Router
Table 75: +24 VDC Output Voltage Alarm Threshold Ranges
Output
Minimum
Maximum
12 V
10.0-11.2 V
12.8-13.8 V
3.3 V
2.6 – 3.0 V
None
• Temperature—If a fan fails, the power supply meets the functional requirements specified in above
table. The calculated MTBF does not apply above 55°C with less than two fans. However, all the
component stress remains within the manufacturer’s specified rating.
• Thermal shutdown—The +24 VDC power supply shuts down to protect its components due to excessive
internal temperature. The +24 VDC power supply then automatically restarts after the internal temperature
returns to a safe operating level.
Power Cords Supported by the Cisco ASR 1002-X Router
The following table lists the power cords that are supported by the Cisco ASR 1002-X Router.
Table 76: Power Cords Supported by the Cisco ASR 1002-X Router
Power Cord Item Number
Description
CAB-AC-RA
Power Cord, 110 V, Right Angle
CAB-ACA-RA
Plug, Power Cord, Australia, 10 A, Right Angle
CAB-ACB10A-RA
Power Cord, Brazil, Right Angle, 10 A
CAB-ACB16A-RA
Power Cord, Brazil, Right Angle, 16 A
CAB-ACC-RA
Power Cord, China, Right Angle
CAB-ACE-RA
Power Cord, Europe, Right Angle
CAB-ACI-RA
Power Cord, Italy, Right Angle
CAB-ACR-RA
Power Cord, Argentina, Right Angle
CAB-ACS-RA
Power Cord, Switzerland, Right Angle
CAB-ACU-RA
Power Cord, UK, Right Angle
CAB-IND-RA
Power Cord, India, Right Angle
CAB-JPN-RA
Power Cord, Japan, Right Angle
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Installation Methods
Installation Methods
The Cisco ASR 1002-X Router is designed for a standalone, 2-rail 19-inch rack mount (front rail only), 4-rail
19-inch rack mount (front and rear rail).
Although rack-mounting is the preferred method of installation for the Cisco ASR 1002-X Router, you can
mount the chassis on an equipment shelf or tabletop.
Note
The Cisco ASR 1002-X Router is usually shipped fully loaded. However, you can remove components
such as the power supplies, from the chassis to make the chassis lighter for your rack installation.
Warning
This warning symbol means danger. You are in a situation that could cause bodily injury. Before you
work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with
standard practices for preventing accidents. Use the statement number provided at the end of each warning
to locate its translation in the translated safety warnings that accompanied this device. Statement 1071
Warning
Before you install, operate, or service the system, read the Regulatory Compliance and Safety Information
for Cisco ASR 1000 Series Aggregation Services Routers publication. This document provides important
safety information you should know before working with the system. Statement 200
Note
Proceed with the installation only after you unpack your chassis and read all the site requirements for your
new equipment. Proceed with the installation.
General Rack Installation Guidelines
When planning your rack installation, consider the following guidelines:
• The Cisco ASR 1002-X Router requires a minimum of 3.5 inches (8.9 cm) rack units of vertical rack
space. Measure the proposed rack location before mounting the chassis in the rack.
• Before using a particular rack, check for obstructions (such as a power strip) that could impair rack
mount installation. If a power strip does impair a rack mount installation, remove the power strip before
installing the chassis, and replace the strip after the chassis is installed
.
• Allow sufficient clearance around the rack for maintenance. If the rack is mobile, you can push it back
near a wall or cabinet for normal operation and pull it out for maintenance (installing or moving cards,
connecting cables, or replacing or upgrading components). Otherwise, allow 19 inches (48.3 cm) of
clearance space to remove field-replaceable units.
• Maintain a minimum clearance of 3 inches on the front side and back side of the chassis for the cooling
air inlet and exhaust ports, respectively. Avoid placing the chassis in an overly congested rack or next
to another equipment rack; otherwise, the heated exhaust air from other equipment may enter the inlet
air vents and cause an overtemperature condition inside the router.
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Guidelines for an Equipment Shelf or Tabletop Installation
Caution
To prevent the chassis from overheating, never install a Cisco ASR 1002-X Router in an enclosed room
that is not properly ventilated or air conditioned.
• Always install the heavier equipment in the lower half of a rack to maintain a low center of gravity to
prevent the rack from falling over.
• Install and use the cable management brackets included with the Cisco ASR 1002-X Router to keep the
cables organized and out of the way of the cards and processors. Ensure that cables from other equipment
already installed in the rack do not impair access to the cards or require you to disconnect cables
unnecessarily to perform equipment maintenance or upgrades.
• Install rack stabilizers (if available) before you mount the chassis.
• Provide an adequate chassis ground (earth) connection for your router chassis.
In addition to the preceding guidelines, review the precautions for avoiding excessive temperature conditions
described in the “Site Environmental Requirements” section on page 5-9 .
The following table provides the Cisco ASR 1002-X Router dimensions and weight information.
Table 77: Cisco ASR 1002-X Router Dimensions and Weight
Attribute
Dimensions
Depth
22.50 in. (57.15 cm)(includes card handles, cable
management brackets, power supply handles).
Height
3.47 in. (8.813 cm)—2RU rack mount per EIA
RS-310
Width
17.25 in. (43.815 cm)—19 inch (48.26 cm) rack
mount
Weight
43.35 lbs (19.662 kg)—fully configured
Guidelines for an Equipment Shelf or Tabletop Installation
The chassis should already be in the area where you will install it. If you have not determined where to install
your chassis, see the “Cisco ASR 1000 Series Routers Component Overview” section on page 2-1 for
information about site considerations.
If you are not rack-mounting your Cisco ASR 1000 series chassis, place it on a sturdy equipment shelf or
tabletop.
When installing the Cisco ASR 1002-X Router on an equipment shelf or tabletop, ensure that the surface is
clean and that you have considered the following:
• The Cisco ASR 1002-X Router requires at least 3 inches (7.62 cm) of clearance at the inlet and exhaust
vents (the front, top, and rear sides of the chassis).
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Equipment Shelf or Tabletop Installation Procedure
• The Cisco ASR 1002-X Router should be installed off the floor. Dust that accumulates on the floor is
drawn into the interior of the router by the cooling fans. Excessive dust inside the router can cause
overtemperature conditions and component failures.
• There must be approximately 19 inches (48.3 cm) of clearance at the front and rear of the chassis to
install and replace FRUs, or to access network cables and equipment.
• The Cisco ASR 1002-X Router needs adequate ventilation. Do not install it in an enclosed cabinet where
ventilation is inadequate.
• Ensure that the cable management bracket is available if you plan to install it on the front of the chassis.
• An adequate chassis ground (earth) connection exists for your router chassis. (See the Attaching a Chassis
Ground Connection, on page 346
• When handling the chassis, always follow proper lifting practices as outlined in the “Electrical Safety”
section on page 5-21 .
Equipment Shelf or Tabletop Installation Procedure
To mount your Cisco ASR 1002-X Router on an equipment shelf or tabletop, follow these steps.
SUMMARY STEPS
1. Remove debris and dust, if any, from the tabletop or platform, as well as from the surrounding area.
2. Lift the chassis into position on the equipment shelf or tabletop (see following figure).
3. Attach the front rack mount brackets. Locate the threaded holes in the front sides of the chassis (first holes
beyond the vent holes).
4. Align the front rack mount bracket to one side of the chassis.
5. Insert and tighten the black screws that shipped with the chassis on one side.
6. Repeat Step-2 through Step-3 on the other side of the chassis. Use all the screws to secure the rack mount
brackets to the chassis.
7. Gather the two cable management brackets and screws shipped with your chassis. Attaching the Cable
Management Bracket, on page 345 shows the cable management brackets attached on the front of the
Cisco ASR 1002-X Router.
8. Screw the cable management bracket to each side of the rack mount brackets already attached to the
chassis. Use two screws for each cable management bracket. Use the packet of four screws.
9. Verify if all the screws are securely tightened.
10. Go to the Attaching a Chassis Ground Connection, on page 346 to continue the installation.
DETAILED STEPS
Step 1
Step 2
Remove debris and dust, if any, from the tabletop or platform, as well as from the surrounding area.
Lift the chassis into position on the equipment shelf or tabletop (see following figure).
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Equipment Shelf or Tabletop Installation Procedure
At least two people are required to lift the chassis onto a tabletop or platform. To prevent injury, keep your back straight
and lift with your legs, not your back. Statement 164
Figure 151: Lifting the Chassis
Step 3
Step 4
Step 5
Step 6
Step 7
The chassis in the image does not represent the Cisco ASR 1002-X Router.
Attach the front rack mount brackets. Locate the threaded holes in the front sides of the chassis (first holes beyond the
vent holes).
Align the front rack mount bracket to one side of the chassis.
Insert and tighten the black screws that shipped with the chassis on one side.
Repeat Step-2 through Step-3 on the other side of the chassis. Use all the screws to secure the rack mount brackets to
the chassis.
Note
The chassis rack mount brackets must be installed first so that you can attach the cable management brackets
to the chassis rack mount brackets after the chassis is installed in the rack.
Gather the two cable management brackets and screws shipped with your chassis. Attaching the Cable Management
Bracket, on page 345 shows the cable management brackets attached on the front of the Cisco ASR 1002-X Router.
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Rack-Mounting the Cisco ASR 1002-X Router
Note
Ensure that the cable management U feature device has the open end pointing upwards when you attach it to
the chassis
Figure 152: Attaching the Cable Management Brackets to the Cisco ASR 1002-X Router
Step 8
Step 9
Step 10
1
Cable management bracket
top and bottom screw
3
Chassis front rack mount
bracket
2
Cable management bracket
—
—
Screw the cable management bracket to each side of the rack mount brackets already attached to the chassis. Use two
screws for each cable management bracket. Use the packet of four screws.
Verify if all the screws are securely tightened.
Go to the Attaching a Chassis Ground Connection, on page 346 to continue the installation.
Rack-Mounting the Cisco ASR 1002-X Router
The Cisco ASR 1002-X Router can be installed in an existing rack with equipment or in an empty rack with
no equipment. The chassis can be mounted on either of these rack types:
• Two-post rack, either 19-inch or 23-inch equipment rack. Inner clearance (the width between the inner
sides of the two posts or rails) must be at least 19 inches (48.26 cm). The height of the chassis is 3.47
inches (8.8 cm). Air flow through the chassis is from front to back.
• Four-post, 19-inch equipment rack. Inner clearance (the width between the inner sides of the two posts
or rails) must be at least 19 inches (48.26 cm). The height of the chassis is 3.47 inches (8.8 cm). Air
flow through the chassis is from front to back.
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Verifying Rack Dimensions
Note
When handling the chassis, always follow proper lifting practices. See the “Chassis-Lifting Guidelines”
section on page 5-23 .
The Cisco ASR 1002-X Router can be installed with both front or rear rack mount brackets.
Verifying Rack Dimensions
Before you install the chassis, measure the space between the vertical mounting flanges (rails) on your
equipment rack to verify that the rack conforms to the measurements shown in the following image.
SUMMARY STEPS
1. Mark and measure the distance between the holes on the left and right mounting rails.
2. Measure the space between the inner edges of the left front and right front mounting flanges on the
equipment rack.
DETAILED STEPS
Step 1
Mark and measure the distance between the holes on the left and right mounting rails.
The distance should measure 18.31 inches ± 0.06 inches (46.5 cm ± 0.15 cm).
Measure for pairs of holes near the bottom, middle, and top of the equipment rack to ensure that the rack posts
are parallel.
Measure the space between the inner edges of the left front and right front mounting flanges on the equipment rack.
The space must be at least 17.7 inches (45 cm) to accommodate the chassis that is 17.25 inches (43.8 cm) wide and fits
between the mounting posts on the rack.
Note
Step 2
Figure 153: Verifying the Equipment Rack Dimensions
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Attaching the Chassis Rack Mount Brackets
Attaching the Chassis Rack Mount Brackets
This section explains how to attach the front and rear rack mount brackets to the chassis. Before installing the
chassis in the rack, you must install the rack mount brackets on each side of the chassis.
The parts and tools required for installing the rack mount brackets and cable management brackets are listed
in the “Tools and Equipment” section on page 5-23 .
Note
The cable management brackets are attached to the chassis after you install the chassis rack mount brackets
on the chassis and mount the chassis in the rack.
Chassis Front Rack Mount Brackets
Determine where you want the chassis to be mounted in the rack. If you are mounting more than one chassis
in the rack, start from the bottom up or the center of the rack. Figure 154: Attaching the Front Rack Mount
Brackets to the Cisco ASR 1002-X Router, on page 338 shows the brackets attached to the chassis. Depending
on the bracket holes you use, the chassis may protrude in the rack.
To install the front rack mount brackets on the Cisco ASR 1002-X Router, perform the following steps:
SUMMARY STEPS
1. Locate the threaded holes on the side of the chassis. Ensure that you hold the front rack mount bracket
with the ear and holes facing outward and towards the front of the chassis.
2. Position the front rack mount bracket’s top hole with the chassis, first top hole behind the side vent holes.
3. Insert and tighten the black screws shipped with the router on one side.
4. Repeat Step 1 through Step 3 on the other side of the chassis. Use the black screws to secure the rack
mount brackets to the chassis.
5. Install the chassis in a rack. To install the Cisco ASR 1002-X Router in a rack, see the information provided
in the Installing the Cisco ASR 1002-X Router in a Rack, on page 340.
DETAILED STEPS
Step 1
Locate the threaded holes on the side of the chassis. Ensure that you hold the front rack mount bracket with the ear and
holes facing outward and towards the front of the chassis.
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Chassis Rear Rack Mount Brackets
The following image shows where to attach the front rack mount brackets to the Cisco ASR 1002-X Router.
Figure 154: Attaching the Front Rack Mount Brackets to the Cisco ASR 1002-X Router
Step 2
Step 3
Step 4
Step 5
1
Front rack mount bracket ear 3
and holes
Front rack mount bracket
screws
2
Front rack mount bracket
—
Position the front rack mount bracket’s top hole with the chassis, first top hole behind the side vent holes.
Insert and tighten the black screws shipped with the router on one side.
Repeat Step 1 through Step 3 on the other side of the chassis. Use the black screws to secure the rack mount brackets to
the chassis.
Install the chassis in a rack. To install the Cisco ASR 1002-X Router in a rack, see the information provided in the
Installing the Cisco ASR 1002-X Router in a Rack, on page 340.
What to Do Next
This completes the steps for attaching the front rack mount brackets to the Cisco ASR 1002-X Router.
Chassis Rear Rack Mount Brackets
If you are rack mounting the chassis using the rear rack mount brackets, the chassis gets recessed in the rack.
To install the rear rack mount brackets on the Cisco ASR 1002-X Router, perform the following steps:
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Chassis Rear Rack Mount Brackets
SUMMARY STEPS
1. Locate the threaded holes on the rear side of the chassis. Ensure that you hold the rear rack mount bracket
with the ear and holes facing outward and towards the rear of the chassis.
2. Position the rear rack mount bracket top hole with the chassis top hole from the back.
3. Insert and tighten the screws on one side.
4. Repeat Step 1 through Step 3 on the other side of the chassis. Use the remaining screws to secure the rear
rack mount brackets to the chassis.
DETAILED STEPS
Step 1
Locate the threaded holes on the rear side of the chassis. Ensure that you hold the rear rack mount bracket with the ear
and holes facing outward and towards the rear of the chassis.
The following image shows where to attach the rear rack mount brackets to the Cisco ASR 1002-X Router.
Figure 155: Attaching the Rear Rack Mount Brackets to the Cisco ASR 1002-X Router
Step 2
Step 3
Step 4
1
Rear rack mount bracket ear 3
and holes
2
Rear rack mount bracket
—
Rear rack mount bracket
screws
—
Position the rear rack mount bracket top hole with the chassis top hole from the back.
Insert and tighten the screws on one side.
Repeat Step 1 through Step 3 on the other side of the chassis. Use the remaining screws to secure the rear rack mount
brackets to the chassis.
What to Do Next
This completes the steps for attaching the rear rack mount brackets to the Cisco ASR 1002-X Router.
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Installing the Cisco ASR 1002-X Router in a Rack
Caution
To make the installation easier, before you mount the Cisco ASR 1002-X Router in a rack, use the
information provided in this chapter to determine which rack mount bracket ear holes to use when
positioning the chassis in the rack. Using the designated ear holes on the rack mount bracket simplifies
installation of the cable management bracket.
Installing the Cisco ASR 1002-X Router in a Rack
After installing the rack mount brackets on the chassis, you mount the chassis by securing the rack mount
brackets to the two posts or the mounting strips in the rack using the screws provided. Because the rack mount
brackets support the weight of the entire chassis, use all the screws to fasten the two rack mount brackets to
the rack posts.
Warning
To prevent bodily injury when mounting or servicing this unit in a rack, you must take special precautions
to ensure that the system remains stable. The following guidelines are provided to ensure your safety:-This
unit should be mounted at the bottom of the rack if it is the only unit in the rack.-When mounting this unit
in a partially filled rack, load the rack from the bottom to the top with the heaviest component at the bottom
of the rack.-If the rack is provided with stabilizing devices, install the stabilizers before mounting or
servicing the unit in the rack. Statement 1006
We recommend that you allow at least 1 or 2 inches (2.54 or 5.08 cm) of vertical clearance between the router
and any equipment directly above and below it.
To install the chassis in the rack, perform the following steps:
SUMMARY STEPS
1. On the chassis, ensure that all the screw fasteners on the installed components are securely tightened.
2. Ensue that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are engaged
or that the rack is otherwise stabilized. (See the next sections on the types of racks you can use to install
the chassis.)
3. (Optional) Install a shelf in the rack to support the Cisco ASR 1002-X Router. This helps support the
chassis when you secure it to the rack.
4. Lift the chassis into position between the rack posts with the help of another person.
5. Align the mounting bracket holes with the rack post holes and attach the chassis to the rack.
6. Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
7. Hold the chassis in position against the mounting rails in the equipment rack and perform these steps:
8. Tighten all the screws on each side to secure the chassis to the equipment rack.
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Two-Post Rack Installation
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Step 8
On the chassis, ensure that all the screw fasteners on the installed components are securely tightened.
Ensue that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are engaged or that the
rack is otherwise stabilized. (See the next sections on the types of racks you can use to install the chassis.)
(Optional) Install a shelf in the rack to support the Cisco ASR 1002-X Router. This helps support the chassis when you
secure it to the rack.
Lift the chassis into position between the rack posts with the help of another person.
Align the mounting bracket holes with the rack post holes and attach the chassis to the rack.
Note
If you are using a shelf, raise the chassis to the level of the shelf. Let the bottom of the chassis rest on the
brackets, but continue to support the chassis.
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
Tip
To allow space to attach the cable management brackets to the chassis in the rack easily, ensure that you use the
rack mount bracket ear holes mentioned in the subsequent steps.
Hold the chassis in position against the mounting rails in the equipment rack and perform these steps:
a) Insert the bottom screw into the second hole from the bottom of the rack mount ear and use a hand-held screw driver
to tighten the screw to the rack rail.
Tip
To make installation easier, insert one screw at the bottom of the chassis and the next screw at the top of the
chassis diagonally from the first screw.
b) Insert the top screw into the second hole from the top of the rack mount ear diagonally from the bottom screw, and
tighten the screw to the rack rail.
c) Insert the four screws to secure the chassis to the rack equipment.
Tip
As a result of using the specified rack mount bracket ear holes, the cable management bracket can be easily
attached to the rack mount bracket when the chassis is in the rack.
Tighten all the screws on each side to secure the chassis to the equipment rack.
Two-Post Rack Installation
The Cisco ASR 1002-X Router can be installed on a two-post 19-inch or 23-inch rack.
Note
Inner clearance (the width between the inner sides of the two posts or rails) must be at least 19 inches
(48.26 cm). The height of the chassis is 3.47 inches (8.8 cm). Air flow through the chassis is from front
to back.
Caution
If you are using a two-post rack, secure the rack to the floor surface to prevent tipping and avoid bodily
injury and component damage.
Perform the following procedure to install a two-post rack:
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SUMMARY STEPS
1. Position the chassis such that the front is closest to you and lift it carefully into the rack.
2. Slide the chassis into the rack, pushing it back until the brackets meet the mounting strips or posts on both
sides of the rack.
3. Keeping the brackets flush against the posts or mounting strips, align the holes in the brackets with the
holes on the rack or mounting strips.
4. For each bracket, insert and tighten two screws to the rack on both sides.
DETAILED STEPS
Step 1
Position the chassis such that the front is closest to you and lift it carefully into the rack.
Caution
To prevent injury, avoid any sudden twists or
moves.
The following image shows where to attach the rack mount brackets to the Cisco ASR 1002-X Router.
Figure 156: Attaching the Rack Mount Brackets to the Cisco ASR 1002-X Router
1
Step 2
Step 3
Step 4
Rack equipment rail
Rack mount bracket ear and
holes
Slide the chassis into the rack, pushing it back until the brackets meet the mounting strips or posts on both sides of the
rack.
Keeping the brackets flush against the posts or mounting strips, align the holes in the brackets with the holes on the rack
or mounting strips.
For each bracket, insert and tighten two screws to the rack on both sides.
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Four-Post Rack Installation
This completes the procedure for installing the chassis on a two-post rack. Proceed to the Figure 161: Attaching a
Grounding Lug to the Chassis Ground Connector, on page 349 for information about how to continue with the installation.
Four-Post Rack Installation
The Cisco ASR 1002-X Router can be flush-mounted in a 19-inch equipment rack using the rack-mounting
kit provided with your system. The Cisco ASR 1002-X Router can be mounted into the rack using two
recommended methods:
• Installing the chassis in an existing rack with equipment.
• Installing an empty chassis in a rack with no equipment installed.
When handling the chassis, always follow proper lifting practices. See the “Chassis-Lifting Guidelines” section
on page 5-23 .
Note
Inner clearance (the width between the inner sides of the two posts or rails) must be at least 19 inches
(48.26 cm). The height of the chassis is 3.47 inches (8.8 cm). Airflow through the chassis is from front to
back.
Note
Ensure that the rack is stabilized.
SUMMARY STEPS
1. (Optional) Install a shelf in the rack to support the Cisco ASR 1002-X Router. If you are using a shelf,
raise the chassis to the level of the shelf. Let the bottom of the chassis rest on the brackets, but continue
to support the chassis. Lift the chassis into the rack using the side handles and grasping underneath the
power supply bays, with the help of another person.
2. Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
3. Hold the chassis in position against the mounting rails while the second person finger-tightens a screw to
the rack rails on each side of the chassis.
4. Tighten all the screws on each side to secure the chassis to the equipment rack (see the following image).
5. Use a level to verify that the tops of the two brackets are level, or use a measuring tape to verify that both
the brackets are the same distance from the top of the rack rails.
DETAILED STEPS
Step 1
Step 2
(Optional) Install a shelf in the rack to support the Cisco ASR 1002-X Router. If you are using a shelf, raise the chassis
to the level of the shelf. Let the bottom of the chassis rest on the brackets, but continue to support the chassis. Lift the
chassis into the rack using the side handles and grasping underneath the power supply bays, with the help of another
person.
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
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Four-Post Rack Installation
Use the second hole up from the bottom of the rack mount bracket and the second hole down from the top of
the rack mount bracket. This makes it easier to attach the cable management bracket to the chassis in the
equipment rack.
Hold the chassis in position against the mounting rails while the second person finger-tightens a screw to the rack rails
on each side of the chassis.
Tighten all the screws on each side to secure the chassis to the equipment rack (see the following image).
Note
Step 3
Step 4
Figure 157: Cisco ASR 1002-X Router on a Four-Post Rack—Front and Rear Rack-Mounting
Step 5
1
Rear rack equipment rail
3
2
Rear rack mount bracket ear 4
and holes
Front rack mount bracket ear
and holes
Front rack equipment rail
Use a level to verify that the tops of the two brackets are level, or use a measuring tape to verify that both the brackets
are the same distance from the top of the rack rails.
What to Do Next
This completes the procedure for installing the chassis in the rack. Proceed to the Attaching the Cable
Management Bracket, on page 345 for information about how to continue with the installation.
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Attaching the Cable Management Bracket
Attaching the Cable Management Bracket
The cable management brackets are mounted to each rack mount bracket on the chassis to provide cable
management to both sides of the chassis (parallel with card orientation). These brackets are screw-mounted
to the rack mount brackets to allow easy installation and removal of cables.
The cable management brackets for the Cisco ASR 1002-X Router contain an independent cable management
U type feature with four screws and provides cable dressing for each card module slot.
Note
Ensure that the cable management bracket U type feature is facing upwards when you attach it to the
chassis.
Follow these steps to attach the cable management brackets to both sides of the Cisco ASR 1002-X Router
in the rack:
SUMMARY STEPS
1. Align the cable management bracket to the rack mount bracket on one side of the Cisco ASR 1002-X
Router. The cable management bracket aligns to the top hole of the chassis rack mount bracket.
2. Using a Phillips screwdriver, insert the screw through cable management bracket and into the chassis rack
mount and tighten the screw. Use the package of four screws shipped with the router.
3. Using the bottom rack mount ear hole, insert the screw through cable management bracket and into the
chassis rack mount (see Figure 158: Chassis Rack Mount Bracket Ear Holes for the Cable Management
Brackets, on page 346).
DETAILED STEPS
Step 1
Step 2
Align the cable management bracket to the rack mount bracket on one side of the Cisco ASR 1002-X Router. The cable
management bracket aligns to the top hole of the chassis rack mount bracket.
Using a Phillips screwdriver, insert the screw through cable management bracket and into the chassis rack mount and
tighten the screw. Use the package of four screws shipped with the router.
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Attaching a Chassis Ground Connection
The following imave shows the locations at which to attach the front rack mount brackets to the Cisco ASR 1002-X
Router in a rack.
Figure 158: Chassis Rack Mount Bracket Ear Holes for the Cable Management Brackets
Step 3
1
Secure the cable
3
management top screw and
bottom to this ear hole
Front rack mount bracket
2
Cable-management bracket
—
Using the bottom rack mount ear hole, insert the screw through cable management bracket and into the chassis rack
mount (see Figure 158: Chassis Rack Mount Bracket Ear Holes for the Cable Management Brackets, on page 346).
What to Do Next
This completes the procedure for installing the cable management brackets on the chassis.
Attaching a Chassis Ground Connection
Connecting the Cisco ASR 1002-X chassis to ground is required for all DC-powered installations and
AC-powered installation where compliance with Telcordia grounding requirements is necessary.
Caution
The dual-lug chassis ground stud must be installed and all the cards and filler plates must be fully inserted,
screwed in, and earthed to prevent a potential hazard in a telecom line.
Have the recommended tools and supplies available before you begin this procedure.
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Warning
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority
or an electrician if you are uncertain that suitable grounding is available. Statement 1024
Before you connect power or turn on power to your chassis, you must provide an adequate chassis ground
(earth) connection for the chassis. The chassis ground lug (two) and the respective screws (four) are provided
in the accessory kit that shipped with your Cisco ASR 1002-X Router.
Caution
The grounding wire is always the first to be installed or connected and the last to be removed or
disconnected.
The following tools, equipment, and supplies are necessary to connect the system ground to the chassis:
•P
hillips screwdriver
• Dual-lug chassis ground component (two) and respective screws (four) (shipped with the accessory kit)
• Grounding wire
The following image shows the location of the ground lug on the side of Cisco ASR 1002-X Router.
Figure 159: Cisco ASR 1002-X Router Chassis Ground Lug Location
1
Cisco ASR 1002-X
Router ground stud
location.
—
—
To attach the grounding lug to the chassis ground connector on your chassis, follow these steps:
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Attaching a Chassis Ground Connection
SUMMARY STEPS
1. Use the wire stripper to strip one end of the AWG #6 wire approximately 0.75 inches (1.905 cm).
2. Insert the AWG #6 wire into the wire receptacle in the grounding lug. Use the manufacturer's recommended
crimping tool to carefully crimp the wire receptacle around the wire. This step is required to ensure proper
mechanical connection.
3. Attach the grounding lug to the wire on the left to avoid having the grounding wire overlapping the power
supply.
4. Locate the chassis ground connector on the side of your chassis.
5. The following image shows how to attach the grounding lug to the chassis ground connector.
6. Insert the two screws through the holes in the grounding lug.
7. Use the Number 2 Phillips screwdriver to carefully tighten the screws until the grounding lug is held firmly
to the chassis. Do not overtighten the screws.
8. Connect the opposite end of the grounding wire to the appropriate grounding point at your site to ensure
an adequate chassis ground.
DETAILED STEPS
Step 1
Step 2
Use the wire stripper to strip one end of the AWG #6 wire approximately 0.75 inches (1.905 cm).
Insert the AWG #6 wire into the wire receptacle in the grounding lug. Use the manufacturer's recommended crimping
tool to carefully crimp the wire receptacle around the wire. This step is required to ensure proper mechanical connection.
The following image shows the parts of the grounding lug.
Figure 160: Parts of the Grounding Lug
1
Chassis ground connector
holes
3
Ground lug screws
2
Grounding lug
4
Ground wire
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Connecting the SPA Cables
Step 3
Step 4
Step 5
Attach the grounding lug to the wire on the left to avoid having the grounding wire overlapping the power supply.
Locate the chassis ground connector on the side of your chassis.
The following image shows how to attach the grounding lug to the chassis ground connector.
Figure 161: Attaching a Grounding Lug to the Chassis Ground Connector
1
Step 6
Step 7
Step 8
Chassis ground connector
2
Ground symbol
Insert the two screws through the holes in the grounding lug.
Use the Number 2 Phillips screwdriver to carefully tighten the screws until the grounding lug is held firmly to the chassis.
Do not overtighten the screws.
Connect the opposite end of the grounding wire to the appropriate grounding point at your site to ensure an adequate
chassis ground.
What to Do Next
This completes the procedure for attaching a chassis ground connection. Go to the following cabling sections
for information on attaching cables.
Connecting the SPA Cables
The instructions for connecting the SPA cables installed in the Cisco ASR 1002-X Router are contained in
the respective configuration documents for each port adapter. For example, if you are connecting the optical
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Connecting the Console and Auxiliary Port Cables
fiber cables for the PA-POS-OC3 port adapter, see PA-POS-OC3 Port Adapter Installation and Configuration
at :
http://www.cisco.com/en/US/partner/docs/interfaces_modules/port_adapters/install_upgrade/pos/
pa-pos-oc3_install_config/paposoc3.html
Connecting the Console and Auxiliary Port Cables
This section describes how to attach a cable to the console ports or auxiliary ports on the Cisco ASR 1002-X
Router. This router uses RJ-45 ports for both the auxiliary port and the console port. On the front panel of the
router, the integrated route processor console port and auxiliary port are labeled CON and AUX, respectively.
Caution
To meet Class A emission requirements, shielded cables must be used for the console and auxiliary port
connectors.
Before using the console interface on the router via a terminal or PC, you must perform the following steps:
SUMMARY STEPS
1. Before connecting a terminal to the console port, configure the terminal to match the chassis console port
as follows: 9600 baud, 8 data bits, no parity, 1 stop bits (9600 8N1).
2. Connect to the port using the RJ-45 to DB-9 cable.
3. After you establish normal router operation, disconnect the terminal, if required.
DETAILED STEPS
Step 1
Step 2
Step 3
Before connecting a terminal to the console port, configure the terminal to match the chassis console port as follows:
9600 baud, 8 data bits, no parity, 1 stop bits (9600 8N1).
Connect to the port using the RJ-45 to DB-9 cable.
Note
For information about how to change the default settings to meet the requirements of your terminal or host, see
the Cisco IOS Terminal Services Configuration Guide .
After you establish normal router operation, disconnect the terminal, if required.
Management Ethernet Port Cable Connection
Caution
To comply with Class A emission requirements, a shielded Ethernet cable must be used for the connection.
On the front panel of the router, the Management Ethernet port is labeled MGMT ETHERNET. To use the
Management Ethernet interface on the router, perform the following steps:
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Cisco ASR 1002-X Router Power Supplies
SUMMARY STEPS
1. Insert an Ethernet RJ-45 cable into the MGMT ETHERNET port.
2. Insert the other end of the RJ-45 cable to your management device or network.
DETAILED STEPS
Step 1
Step 2
Insert an Ethernet RJ-45 cable into the MGMT ETHERNET port.
Insert the other end of the RJ-45 cable to your management device or network.
What to Do Next
Note
A connection will not be established when setting up an out-of-band connection or modem connection in
the auxiliary port and the console port.
Cisco ASR 1002-X Router Power Supplies
This section describes the Cisco ASR 1002-X Router power supplies and how to connect them:
Read the safety warnings before you begin.
Warning
The covers are an integral part of the safety design of the product. Do not operate the unit without the
covers installed. Statement 1077
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Warning
Never install an AC power module and a DC power module in the same chassis. Statement 1050
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Connecting AC Input Power to Cisco ASR 1002-X Router
Warning
Installation of the equipment must comply with local and national electrical codes. Statement 1074
Warning
When installing or replacing the unit, the ground connection must always be made first and disconnected
last. Statement 1046
Warning
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority
or an electrician if you are uncertain that suitable grounding is available. Statement 1024
Warning
This unit has two power supply connections. All connections must be removed to de-energize the unit.
Statement 1028
Warning
This product relies on the building’s installation for short-circuit (overcurrent) protection. Ensure that the
protective device is rated not greater than: AC power supplies 20 A and DC power supplies 30 A. Statement
1005
Connecting AC Input Power to Cisco ASR 1002-X Router
This section provides the procedures for connecting AC-input, –48 VDC input power, and the +24 VDC input
power to your Cisco ASR 1002-X Router.
For detailed instructions for removing and replacing the Cisco ASR 1002-X Router AC and DC power supplies,
see Chapter 14, “Removing and Replacing FRUs from the Cisco ASR 1000 Series Routers.”
To connect AC power to the Cisco ASR 1002-X Router, follow these steps:
SUMMARY STEPS
1. At the rear of the router, ensure that the power switch is in the Off (O) position.
2. Insert the AC power cable into the power supply AC inlet.
3. To ensure that the AC power cord does not interfere with other cables or wires, dress the AC power cable
in one of the following ways.
4. Plug the AC power supply cable into the AC power source.
DETAILED STEPS
Step 1
At the rear of the router, ensure that the power switch is in the Off (O) position.
Note
Turn the power switch to the On (|) position after both sides of the power cord are connected.
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Figure 162: Cisco ASR 1002-X Router AC Power Supply Labels, on page 353 shows the various parts of the Cisco ASR
1002-X Router AC power supply.
Figure 162: Cisco ASR 1002-X Router AC Power Supply Labels
Step 2
Step 3
1
Chassis ESD socket
5
AC power supply fan
2
AC power supply slot
number 0
6
AC power supply captive
installation screw
3
AC power supply On (|) /Off 7
(O) switch
AC power supply slot
number 1
4
AC power supply LEDs
AC power inlet
8
Insert the AC power cable into the power supply AC inlet.
To ensure that the AC power cord does not interfere with other cables or wires, dress the AC power cable in one of the
following ways.
• Leave a small service loop in the AC power cord from the inlet and then secure the power cord through the AC
power supply handle, as shown in Figure 163: Positioning the Cisco ASR 1002-X Router AC Power Supply and
Cord in Slot 1, on page 353.
Figure 163: Positioning the Cisco ASR 1002-X Router AC Power Supply and Cord in Slot 1
1
AC power cord
• Take the power cord and run it below the handles of the right and left power supplies. Make sure the power cord
is hanging loose so that it does not get disconnected from the AC power inlet, as shown in Figure 164: Cisco ASR
1002-X Router AC Power Supply in Slot 0 and Slot 1 with Power Cord, on page 353.
Figure 164: Cisco ASR 1002-X Router AC Power Supply in Slot 0 and Slot 1 with Power Cord
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Caution
Do not run the AC power cord through the power supply handles as shown in Figure 165: Incorrect Cabling
on Cisco ASR 1002-X Router AC Power Supply , on page 354.
Figure 165: Incorrect Cabling on Cisco ASR 1002-X Router AC Power Supply
Using a tie wrap for the AC power cable is optional. However, if you do attach the AC power cable to a power
supply tab and then you remove the AC power cable for some reason, check for any damage to the cable after
you cut the tie wrap. If the power cord is damaged, replace it immediately.
Plug the AC power supply cable into the AC power source.
Note
Step 4
What to Do Next
This completes the procedure for connecting an AC power supply in the Cisco ASR 1002-X Router.
Connecting the –48 VDC Input Power to the Cisco ASR 1002-X Router
The –48 VDC power supply input connector is a Euro-style terminal block. A means to provide strain relief
to the input wires is provided on the power supply. The connection order is negative (–), positive (+), and
GND. However, this is the order from left to right in which the terminals appear on the power supply, not the
order in which the leads should be connected during installation. The order in which the leads should be
attached is GND, positive (+), and negative (-).
The recommended branch circuit breaker for the Cisco ASR 1002-X Router –48 VDC power supply is 30 A.
Use an AWG #10 wire gauge on the 30 A circuit.
Figure 166: –48 VDC Power Supply for the Cisco ASR 1002-X Router, on page 354 shows the –48 VDC
power supply for the Cisco ASR 1002-X Router.
Figure 166: –48 VDC Power Supply for the Cisco ASR 1002-X Router
1
Chassis ESD socket
6
–48 VDC power supply
captive installation screw
2
–48 VDC power supply
slot 0 label
7
–48 VDC power supply
slot 1 label
3
–48 VDC power supply
switch Standby/On
8
Ground lead
4
–48 VDC power supply
LEDs
9
Positive lead
5
Fan
10
Negative lead
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Table 78: Cisco ASR 1002-X Router –48 VDC Power Supply LEDs , on page 355 describes the LEDs on the
Cisco ASR 1002-X Router –48 VDC power supply.
Table 78: Cisco ASR 1002-X Router –48 VDC Power Supply LEDs
LED Label
LED
Color
Description
INPUT OK
A bi-color LED indicates the
presence of input voltage
Green
LED turns green to signal that
the –48 VDC power supply
input voltage is greater than
43.5VDC at start and remains
green down to 39VDC.
Amber
The LED turns amber if the
power supply turns off due to
low input voltage (falls below
39VDC) and indicates that there
is still a hazard present (voltage
on the terminal block). The
LED remains amber and is
active till around 20 V +/-5 V.
The LED is not illuminated if
the input is below 15 V.
FAN OK
OUTPUT FAIL
A bi-color LED indicates power Green
supply fan status
Power supply activity
The LED turns s green when all
the fans are operational.
Red
The LED turns red when a fan
failure is detected.
Red
When the LED is off, it signals
that the –48 VDC output
voltage is within the normal
operating range. Output voltage
between the minimum and
maximum limits will not create
an output fail alarm, and output
voltages below the minimum or
above the maximum will create
an output fail alarm.
The Led turns red to indicate
that the –48 VDC output is out
of the specified range.
When you turn the power
supply on, the LED turns red
for 2 to 3 seconds to test the
LED operation before going off.
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Note
Danger
The color coding of the –48 VDC input power supply leads depends on the color coding of the –48 VDC
power source at your site. Typically, green or green/yellow is used for ground. Ensure the lead color
coding you choose for the –48 VDC input power supply matches the LED color coding used at the –48
VDC power source.
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
This section describes how to connect the –48 VDC power supply in the Cisco ASR 1002-X Router:
SUMMARY STEPS
1. At the rear of the router, check that the power supply Standby switch is in the Standby (see Figure 167:
Cisco ASR 1002-X Router –48 VDC Power Supply Terminal Block Cable Connections, on page 357 )
position.
2. Ensure that the negative and positive leads are disconnected from the site power source.
3. Using a wire stripper, strip approximately 0.55 inch (1.39 cm) from the negative, positive, and ground
lead.
4. Insert the stripped end of the ground lead all the way into the ground lead receptacle on the –48 VDC
input power supply, and tighten the receptacle screw using a 3.5 mm flat-blade screwdriver to a torque of
0.5 to 0.6 Nm.
5. Insert the stripped end of the positive lead all the way into the positive lead receptacle and tighten the
receptacle screw using the same 3.5mm flat-blade screwdriver.
6. Repeat this step for the negative lead.
7. After tightening the receptacle screw for the ground, positive, and negative –48 VDC-input leads, use a
cable tie to secure the three leads to the power supply faceplate, as shown in Figure 167: Cisco ASR
1002-X Router –48 VDC Power Supply Terminal Block Cable Connections, on page 357. When securing
the ground, positive, and negative –48 VDC-input leads to the power supply faceplate, leave a small service
loop in the ground lead to ensure that the ground lead is the last lead to disconnect from the power supply
if a great deal of strain is placed on all three leads, as shown in Figure 167: Cisco ASR 1002-X Router
–48 VDC Power Supply Terminal Block Cable Connections, on page 357.
8. Connect the ground, positive, and negative leads to the power source.
9. Turn the branch source breaker on.
10. Place the –48 VDC Standby switch in the On (|) position. The power supply LEDs light when power is
supplied to the router.
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Connecting the –48 VDC Input Power to the Cisco ASR 1002-X Router
DETAILED STEPS
Step 1
At the rear of the router, check that the power supply Standby switch is in the Standby (see Figure 167: Cisco ASR
1002-X Router –48 VDC Power Supply Terminal Block Cable Connections, on page 357 ) position.
Figure 167: Cisco ASR 1002-X Router –48 VDC Power Supply Terminal Block Cable Connections
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Step 8
Step 9
Step 10
1
Ground lead with service
loop and tie wrap
3
Negative lead
2
Positive lead
4
–48 VDC power supply
Standby switch
Ensure that the negative and positive leads are disconnected from the site power source.
Using a wire stripper, strip approximately 0.55 inch (1.39 cm) from the negative, positive, and ground lead.
Insert the stripped end of the ground lead all the way into the ground lead receptacle on the –48 VDC input power supply,
and tighten the receptacle screw using a 3.5 mm flat-blade screwdriver to a torque of 0.5 to 0.6 Nm.
Insert the stripped end of the positive lead all the way into the positive lead receptacle and tighten the receptacle screw
using the same 3.5mm flat-blade screwdriver.
Repeat this step for the negative lead.
Note
Ensure the entire stripped end of each lead is inserted all the way into its receptacle. If any exposed wire at the
stripped end of a lead is visible after inserting the lead into its receptacle, remove the lead from the receptacle,
use the wire stripper to cut the stripped end of the lead, and repeat Step 3 through Step 6.
After tightening the receptacle screw for the ground, positive, and negative –48 VDC-input leads, use a cable tie to secure
the three leads to the power supply faceplate, as shown in Figure 167: Cisco ASR 1002-X Router –48 VDC Power Supply
Terminal Block Cable Connections, on page 357. When securing the ground, positive, and negative –48 VDC-input
leads to the power supply faceplate, leave a small service loop in the ground lead to ensure that the ground lead is the
last lead to disconnect from the power supply if a great deal of strain is placed on all three leads, as shown in Figure 167:
Cisco ASR 1002-X Router –48 VDC Power Supply Terminal Block Cable Connections, on page 357.
Caution
Ensure that the ground lead wire has a service loop before you tie wrap the lead wires to prevent the ground
from being disconnected.
Connect the ground, positive, and negative leads to the power source.
Turn the branch source breaker on.
Place the –48 VDC Standby switch in the On (|) position. The power supply LEDs light when power is supplied to the
router.
What to Do Next
You have completed the procedure for connecting a –48 VDC power supply in the Cisco ASR 1002-X Router.
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Connecting the +24 VDC Power Supply to the Router
Connecting the +24 VDC Power Supply to the Router
The +24 VDC power supply uses a spring-loaded terminal block. The input terminal block requires 8 AWG
multistrand wiring to support input current. Features are provided for strain relieving the input wires from the
terminal block on the front panel. The recommended branch circuit breaker for the Cisco ASR 1002-X Router
+24 VDC power supply is a 40 A UL-listed circuit breaker.
Before you begin, read these important notices about the +24 VDC power supply:
• The labeling displays +27 VDC INPUT. This labeling describes the nominal voltage provided at a cell
site.
• Observe the polarity location. Unlike the polarity labels of the –48 VDC power supply (ground, positive,
and negative), the polarity labels on the +24 VDC are ground, negative, and positive, as shown in Figure
168: +24 VDC Power Supply for the Cisco ASR 1002-X Router Components, on page 358 from right
to left as they appear on the actual power supply unit.
• The ground (GND) lead is always installed first and removed last.
• The +24 VDC power supply uses a spring-loaded terminal block; therefore, have the recommended
screwdriver size available.
• Review the diagrams to see how the wire is stripped and how the screwdriver is inserted at an angle into
the terminal block.
• Have the following equipment available to install and remove the +24 VDC power supply:
◦Phoenix Contact 3.5 mm flat-blade screwdriver or equivalent
◦Wire-stripping tool for stripping 8-gauge wire
Figure 168: +24 VDC Power Supply for the Cisco ASR 1002-X Router Components, on page 358 shows the
+24 VDC power supply for the Cisco ASR 1002-X Router.
Figure 168: +24 VDC Power Supply for the Cisco ASR 1002-X Router Components
1
+24 VDC terminal block 6
Standby/On switch
2
Positive (+) lead
7
Captive fastener
3
Negative (-) lead
8
Power supply tabs
4
Ground (GND) lead
9
+27 VDC INPUT label
5
Power supply LEDs
—
—
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Note
Danger
Color coding of the +24 VDC input power supply leads depends on the color coding of the +24 VDC
power source at your site. Typically, green or green/yellow is used for ground. Ensure the lead color
coding you choose for the +24 VDC input power supply matches the lead color coding used at the +24
VDC power source. The most commonly used wire color-coding is red for the positive (+) lead and black
for the negative (–) lead.
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
To connect the +24 VDC power supply in the Cisco ASR 1002-X Router, follow these steps:
SUMMARY STEPS
1. At the rear of the router, ensure that the power Standby switch is in the Standby position.
2. Ensure that the positive and negative leads are disconnected from the site power source and the source
circuit breaker is turned off.
3. Using a wire stripper, strip the recommended amount of wire insulation, which is 1.5 cm (0.6 inch) from
the negative, positive, and ground leads.
4. Using a 3.5mm screwdriver, insert the screwdriver at an angle to release the spring while you install the
stripped lead wire as shown in Figure 170: Inserting a Screwdriver Into the +24 VDC Power Supply
Terminal Block, on page 360.
5. Carefully push the screwdriver at a forward angle until you relieve the spring contact.
6. With the screwdriver still inserted, gently push the lead wire (ground lead first) in until the copper wire,
as shown in Figure 171: Cisco ASR 1002-X Router +24 VDC Power Supply Lead Wire Inserted into
Terminal Block, on page 360, is no longer visible (see Figure 172: Cisco ASR 1002-X Router +24 VDC
Power Supply Lead Wire Fully Inserted, on page 361).
7. After the lead wire is fully inserted, perform these steps:
8. Repeat Steps 5 through Step 10 for each lead wire.
9. After inserting the ground wire, leave an extra service loop in the ground lead, as shown in Figure 175:
Cisco +24 VDC Power Supply Terminal Block Ground Lead Service Loop, on page 362 to ensure that
the ground lead is the last lead to disconnect from the power supply if a great deal of strain is placed on
all three leads.
10. After tightening the receptacle screw for the ground, and leaving the extra service loop in the ground lead,
use a cable tie to secure the three leads to the power supply faceplate tie-wrap tab, as shown in Figure 175:
Cisco +24 VDC Power Supply Terminal Block Ground Lead Service Loop, on page 362, item 5.
11. Turn on the branch source breaker.
12. Move the power supply Standby switch to the On (|) position. The power supply LEDs light when power
is supplied to the router.
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DETAILED STEPS
Step 1
Step 2
Step 3
At the rear of the router, ensure that the power Standby switch is in the Standby position.
Ensure that the positive and negative leads are disconnected from the site power source and the source circuit breaker
is turned off.
Using a wire stripper, strip the recommended amount of wire insulation, which is 1.5 cm (0.6 inch) from the negative,
positive, and ground leads.
Note
The stripping length is common to all types of wire
used.
Figure 169: Stripping Wire for the +24 VDC Terminal Block, on page 360 shows the wire strip and lead.
Figure 169: Stripping Wire for the +24 VDC Terminal Block
1
Lead wire stripping area
—
—
Remove the covering from exactly the specified length of each wire. If you strip too much of the covering,
exposed wire protruding from the terminal block will create an electrical hazard. If you strip too little of the
covering, the wire might not make a good contact with the terminal, or it might not be held securely in place
in the terminal.
Using a 3.5mm screwdriver, insert the screwdriver at an angle to release the spring while you install the stripped lead
wire as shown in Figure 170: Inserting a Screwdriver Into the +24 VDC Power Supply Terminal Block, on page 360.
Danger
Step 4
Figure 170: Inserting a Screwdriver Into the +24 VDC Power Supply Terminal Block
Step 5
Step 6
Carefully push the screwdriver at a forward angle until you relieve the spring contact.
With the screwdriver still inserted, gently push the lead wire (ground lead first) in until the copper wire, as shown in
Figure 171: Cisco ASR 1002-X Router +24 VDC Power Supply Lead Wire Inserted into Terminal Block, on page 360,
is no longer visible (see Figure 172: Cisco ASR 1002-X Router +24 VDC Power Supply Lead Wire Fully Inserted, on
page 361).
Caution
Ensure that no copper portion of the lead wire is exposed. Only the wire insulation should visible.
Caution
Do not install wire into a terminal block that has not had its insulation removed.
Figure 171: Cisco ASR 1002-X Router +24 VDC Power Supply Lead Wire Inserted into Terminal Block
1
Lead wire insulation
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Copper wire
Cisco ASR 1002-X Router Overview and Installation
Connecting the +24 VDC Power Supply to the Router
Figure 172: Cisco ASR 1002-X Router +24 VDC Power Supply Lead Wire Fully Inserted, on page 361 shows the lead
wire fully inserted.
Figure 172: Cisco ASR 1002-X Router +24 VDC Power Supply Lead Wire Fully Inserted
1
Step 7
—
Fully-inserted lead wire
—
After the lead wire is fully inserted, perform these steps:
a) Hold the lead wire in place while you remove the screwdriver.
b) After the screwdriver is completely removed, gently tug the lead wire to ensure that it is securely installed.
Figure 173: Removing a Screwdriver from the +24 VDC Power Supply Terminal Block, on page 361 shows a lead
wire that is fully inserted, and the screwdriver being removed while you gently tug the lead wire.
Figure 173: Removing a Screwdriver from the +24 VDC Power Supply Terminal Block
1
Step 8
—
Gently tug the lead wire.
—
Repeat Steps 5 through Step 10 for each lead wire.
Figure 174: Cisco +24 VDC Power Supply Terminal Block with Lead Wires Installed, on page 361 shows all the lead
wires installed.
Figure 174: Cisco +24 VDC Power Supply Terminal Block with Lead Wires Installed
1
Positive lead wire
3
Ground lead wire
2
Negative lead wire
—
—
Note
Ensure that the stripped end of each lead wire is twisted tightly together. This makes insertion easier. Also
ensure that the entire lead wire is inserted all the way into its receptacle. If exposed wire is visible at the stripped
end of a lead after inserting the lead into its receptacle, remove the lead from the receptacle, use the wire stripper
to cut the stripped end of the lead, and then reinsert.
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Connecting a Terminal to the Console Port
Step 9
After inserting the ground wire, leave an extra service loop in the ground lead, as shown in Figure 175: Cisco +24 VDC
Power Supply Terminal Block Ground Lead Service Loop, on page 362 to ensure that the ground lead is the last lead to
disconnect from the power supply if a great deal of strain is placed on all three leads.
Figure 175: Cisco +24 VDC Power Supply Terminal Block Ground Lead Service Loop
Step 10
Step 11
Step 12
1
Ground lead wire with
service loop
4
+24 VDC power supply
Standby switch
2
Negative lead wire
5
Power supply tabs
3
Positive lead wire
—
—
After tightening the receptacle screw for the ground, and leaving the extra service loop in the ground lead, use a cable
tie to secure the three leads to the power supply faceplate tie-wrap tab, as shown in Figure 175: Cisco +24 VDC Power
Supply Terminal Block Ground Lead Service Loop, on page 362, item 5.
Turn on the branch source breaker.
Move the power supply Standby switch to the On (|) position. The power supply LEDs light when power is supplied to
the router.
What to Do Next
This completes the steps for installing the +24 VDC power supply in the Cisco ASR 1002-X Router.
Connecting a Terminal to the Console Port
The integrated route processor has an asynchronous serial (EIA/TIA-232) RJ-45 console port labeled CON
on its front panel. You can connect this port to most types of video terminals using the console cable kit that
is included with your Cisco ASR 1002-X Router. The console cable kit contains:
• One RJ-45-to-RJ-45 crossover cable
• One RJ-45-to-DB-9 (female) adapter
A crossover cable reverses pin connections from one end to the other. In other words, it connects pin 1 (at
one end) to pin 8 (at the other end), pin 2 to pin 7, pin 3 to pin 6, and so on. You can identify a crossover cable
by comparing the two modular ends of the cable. Hold the cable ends in your hand, side-by-side, with the
tabs at the back. Ensure that the wire connected to the outside (left) pin of the left plug (pin 1) is the same
color as the wire connected to the outside (right) pin of the right plug (pin 8).
Use the following procedure to connect a video terminal to the console port on a route processor.
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Connecting a Terminal to the Console Port
Note
Each Cisco ASR 1000 Series Route Processor 1 must have a console port connection (typically to a
terminal server) if you are running a redundant configuration in the chassis.
Perform the following procedure to connect a terminal to a console port:
SUMMARY STEPS
1. Connect one end of the RJ-45 cable to the serial RJ-45 port (CON) on the front panel (see the following
image).
2. Run the cable up and through the cable management bracket and connect the other end of the RJ-45 cable
to the RJ-45 adapter (see Figure 176: Cisco ASR 1002-X Router Console Port Connection on the Route
Processor, on page 363).
3. Connect the adapter to your video terminal to complete the cable connection.
4. Power on your video terminal.
5. Configure your video terminal to match the following default console port settings:
6. Continue with the installation by referring to the procedure described in the Connecting External Cables
to the Cisco ASR 1002-X Router, on page 364.
DETAILED STEPS
Step 1
Connect one end of the RJ-45 cable to the serial RJ-45 port (CON) on the front panel (see the following image).
Figure 176: Cisco ASR 1002-X Router Console Port Connection on the Route Processor
1
Step 2
Step 3
Step 4
Step 5
CON port connection
2
AUX port connection
Run the cable up and through the cable management bracket and connect the other end of the RJ-45 cable to the RJ-45
adapter (see Figure 176: Cisco ASR 1002-X Router Console Port Connection on the Route Processor, on page 363).
Connect the adapter to your video terminal to complete the cable connection.
Power on your video terminal.
Configure your video terminal to match the following default console port settings:
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Connecting External Cables to the Cisco ASR 1002-X Router
• 9600 baud
• 8 data bits
• No parity generation or checking
• 1 stop bit
• No flow control
Step 6
Continue with the installation by referring to the procedure described in the Connecting External Cables to the Cisco
ASR 1002-X Router, on page 364.
Connecting External Cables to the Cisco ASR 1002-X Router
Keep the following guidelines in mind when connecting external cables to the Cisco ASR 1002-X Router:
• To reduce the chance of interference, avoid crossing high-power lines with any interface cables.
• Verify all the cabling limitations (particularly, distance) before powering on the system.
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CHAPTER
11
Cisco ASR 1013 Router Overview and Installation
This chapter describes the Cisco ASR 1013 Router and provides the procedures for installing the Cisco ASR
1013 Router in equipment racks and hardware upgrade process.
This chapter contains the following sections:
• Cisco ASR 1013 Router Description, page 365
• Installation Methods, page 371
• General Rack Installation Guidelines, page 372
• Guidelines for Equipment Rack Installation, page 373
• Attaching the Rear Rack-Mount Brackets, page 374
• Rack-Mounting the Cisco ASR 1013 Router, page 376
• Attaching the Cable-Management Bracket, page 386
• Attaching a Chassis Ground Connection, page 388
• Connecting the Shared Port Adapter Cables, page 391
• Connecting the Console and Auxiliary Port Cables, page 391
• Connecting Power to the Cisco ASR 1013 Router, page 393
• Connecting a Terminal to the Cisco ASR 1000 Series RP Console Port, page 402
• Connecting the System Cables, page 403
• Attaching Cable Retention Bracket on AC Power Supply, page 404
Cisco ASR 1013 Router Description
The Cisco ASR 1013 Router supports full-width card modules. It is designed with a single midplane with
connectors on one interface midplane. The Cisco ASR 1013 Router supports:
• Up to 6 ASR1000-SIP40G shared port adapter modules
• Up to 24 shared port adapters (SPAs) and up to six SIPs
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Cisco ASR 1013 Router Description
• Two embedded services processors (Cisco ASR1000-ESP40, Cisco ASR1000-ESP100, or Cisco
ASR1000-ESP200)
• Cisco ASR1000-RP2 route processor
• Quad power supplies (redundant pairs) by default; option of either AC or DC power supplies and two
power supply zones. There are two power supplies for power zone 0 and two power supplies for power
zone 1 (do not mix AC and DC power supplies).
Note
You must have one power supply running at all times from each power supply zone and two power supplies
from each power supply zone to support redundancy. For detailed power supply information about the
Cisco ASR 1013 Router, see the Connecting Power to the Cisco ASR 1013 Router, on page 393.
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Front View
Front View
The following image shows the Cisco ASR 1013 Router with modules and filler plates installed.
Figure 177: Cisco ASR 1013 Router—Front View
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Front View
1
ASR 1000 Series SIP slot 6
0
ASR 1000 Series SIP slot
5
2
ASR 1000 Series SIP slot R0
1
Slot R0 with ASR 1000RP2
3
ASR 1000 Series SIP slot F0
2
Slot F0 with Cisco ASR
1000-ESP40, Cisco ASR
1000-ESP100, or Cisco
ASR 1000-ESP200
4
ASR 1000 Series SIP slot F1
3
Slot F1 with Cisco ASR
1000-ESP40, Cisco ASR
1000-ESP100, or Cisco
ASR 1000-ESP200
5
ASR 1000 Series SIP slot R1
4
Slot R1 with ASR
1000-RP2
Note: Slots 10, 9, 8, 7,
and 6 reside in power
zone 0 and slots 5, 4, 3, 2,
and 1 reside in power
zone 1.
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Rear View
Rear View
The following image shows the rear of the Cisco ASR 1013 Router with the AC power supplies installed.
Figure 178: Cisco ASR 1013 Router—Rear View
1
Cable-management
brackets
6
AC power supply in slot
2 (power supply zone 1)
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Cisco ASR 1013 Router Power Zones
2
Forward rack-mount ears 7
are shipped installed
AC power supply in slot
1 (power supply zone 0)
3
Chassis handle
AC power supply in slot
0 (power supply zone 0)
4
Rear rack-mount brackets 9
5
AC power supply in slot
3 (power supply zone 1)
8
—
Chassis ground stud
—
Cisco ASR 1013 Router Power Zones
Internal fans draw cooling air into the chassis and across internal components to maintain an acceptable
operating temperature. (See the preceding figure.) The fans are built into the power supply allowing fan and
power supply replacement. A two-hole grounding lug is located on the bottom rear of the chassis (see the
preceding figure, callout 6). Four power supplies, either AC power supplies or DC power supplies, are accessed
from the rear of the router. The power supply bays are numbered from bottom to top: 0, 1, 2, and 3 respectively.
The Cisco ASR 1013 Router has two power zones:
• Power zone 1(top half of chassis) includes slots:
◦PS1-A
◦PS1-B
◦Carrier card slots 3, 4, and 5
◦RP1
◦FP1
• Power zone 0 (bottom half of chassis) includes slots:
◦PS0-A
◦PS0-B
◦Carrier card slots 0, 1, and 2
◦RP0
◦FP0
Note
Do not combine AC and DC power supplies in the same chassis.
Note
Cisco ASR 1013 Router supports only Cisco ASR1000-RP2.
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Installation Methods
Warning
This warning symbol means danger. You are in a situation that could cause bodily injury. Before you
work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with
standard practices for preventing accidents. Use the statement number provided at the end of each warning
to locate its translation in the translated safety warnings that accompanied this device. Statement 1071
Warning
Before you install, operate, or service the system, read the Regulatory Compliance and Safety Information
for Cisco ASR 1000 Series Aggregation Services Routers publication. This document provides important
safety information you should know before working with the system. Statement 200
Note
You have already unpacked your chassis and read all the site requirements for your new equipment.
Proceed with the installation.
Cisco ASR 1013 Router Slot Numbering
The Cisco ASR 1013 chassis has two Cisco ASR100-RP2 (R0, R1) slots, two embedded services processor
slots (F0, F1) and six dedicated Cisco ASR1000-SIP slots (from bottom of chassis up, 0, 1, 2, 3, 4, 5
respectively).
The Cisco ASR 1013 Router is designed with each slot numbered as shown in the “Cisco ASR 1013
Router—Rear View” figure in the Rear View section.
Note
Cisco ASR 1013 slots are keyed using rotated guide pins for the plug-in card to be fully inserted in slots
where they are intended to operate. This keyed feature prevents cards from being inserted into the wrong
slots.
The Cisco ASR 1013 Router contains three SPA Interface Processor (SIPs) slots and supports four subslots
for the installation of SPAs. The following shows the Cisco ASR 1013 Router SPA subslot location.
Figure 179: Cisco ASR 1013 Router—ASR1000-SIP Subslots
Installation Methods
One set of forward rack-mount brackets come pre-installed on the Cisco ASR 1013 Router as shown in the
“Cisco ASR 1013 Router—Rear View” figure in the Rear View section, callout number 2. The accessory kit
contains the rear rack-mount brackets as shown in the “Cisco ASR 1013 Router—Rear View” figure in the
Rear View section, callout number 4, which are optional and another set of forward rack-mount brackets.
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General Rack Installation Guidelines
You can mount the chassis in a19-inch wide (standard), 4-post equipment rack or two-post, using the rack-mount
brackets in the accessory kit. The Cisco ASR 1013 Router supports 6 SIPs and provides superslots (more
height and power) for the Cisco ASR1000-RP2s and Cisco ASR1000-ESP cards.
Note
The Cisco ASR 1013 Router usually ships fully loaded. However, you can remove components from the
chassis to make the chassis lighter for your rack installation.
General Rack Installation Guidelines
When planning your rack installation, consider the following guidelines:
•T
he Cisco ASR 1013 Router overall height is 22.75 inches (57.8 cm). You can install three Cisco ASR
1013 routers in a 42RU equipment rack; but must allow at least one to two inches (2.54 cm to 5.08 cm)
of vertical clearance between the router and any equipment above or below it. Measure the proposed
rack location before mounting the chassis in the rack.
• Before using a particular rack, check for obstructions (such as a power strip) that could impair rack-mount
installation. If a power strip does impair a rack-mount installation, remove the power strip before installing
the chassis, and then replace it after the chassis is installed.
• Allow sufficient clearance around the rack for maintenance. If the rack is mobile, you can push it back
near a wall or cabinet for normal operation and pull it out for maintenance (installing or moving cards,
connecting cables, or replacing or upgrading components). Otherwise, allow 19 inches (48.3 cm) of
clearance to remove field-replaceable units.
• Maintain a minimum clearance of 3 inches (7.62 cm) on the front, top, and sides of the chassis for the
cooling air inlet and exhaust ports, respectively. Avoid placing the chassis in an overly congested rack
or directly next to another equipment rack; otherwise, the heated exhaust air from other equipment can
enter the inlet air vents and cause an overtemperature condition inside the router.
Caution
To prevent chassis overheating, never install a Cisco ASR 1013 Router in an enclosed room that is not
properly ventilated or air conditioned.
• Always install heavier equipment in the lower half of a rack to maintain a low center of gravity to prevent
the rack from falling over.
• Install and use the cable-management brackets included with the Cisco ASR 1013 Router to keep cables
organized and out of the way of the cards and processors. Ensure that cables from other equipment
already installed in the rack do not impair access to the cards or require you to disconnect cables
unnecessarily to perform equipment maintenance or upgrades.
• Install rack stabilizers (if available) before you mount the chassis.
• Provide an adequate chassis ground (earth) connection for your chassis.
In addition to the preceding guidelines, review the precautions for avoiding excessive temperature conditions
in the “Electrical Safety” section on page 5-21 .
The following table provides the Cisco ASR 1013 Router dimensions and weight information.
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Guidelines for Equipment Rack Installation
Table 79: Cisco ASR 1013 Router Dimensions and Weight
Cisco ASR 1013
Dimensions
Depth
22 in. (558.8cm) (including cable-management
brackets and power supply handles).
Height
22.8 in. (579.1cm) - 13RU rack-mount per EIA
RS-310 standard
Width
17.2 in. (437.4 cm)
Weight
• 184.0 lbs (83.46 kg) (with redundant AC power
supply, SPA and route processor and SIP blank
covers, two Cisco ASR 1000 Series embedded
services processors (Cisco ASR1000-ESP40),
two Cisco ASR 1000 Series RP2s
(ASR1000-RP2), six Cisco ASR 1000 Series
40 Gbps SIPs (ASR1000-SIP40), and no SPAs).
Using Cisco ASR1000-ESP100 instead of
Cisco ASR1000-ESP40 adds 2.1 lbs to the
total weight of the router.
• Total weight with estimated superslot weight
with:
Note
◦A
C power supplies —202 pounds (91.6256
kg)
◦DC power supplies—208.60 pounds
(94.6193 kg)
Guidelines for Equipment Rack Installation
The chassis should already be in the area where you will install it. If you have not determined where to install
your chassis, see the “Cisco ASR 1000 Series Routers Component Overview” section on page 2-1 for
information about site considerations.
When installing the Cisco ASR 1013 Router, consider the following items:
• The Cisco ASR 1013 Router requires at least 3 inches (7.62 cm) of clearance at the inlet and exhaust
vents (the front and top/rear sides of the chassis).
• The Cisco ASR 1013 Router should be installed off the floor. Dust that accumulates on the floor is drawn
into the interior of the router by the cooling fans. Excessive dust inside the router can cause
overtemperature conditions and component failures.
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Attaching the Rear Rack-Mount Brackets
• Maintain a minimum clearance of 3 inches (7.62 cm) for the front and rear of the chassis for proper
chassis cooling. Avoid placing the chassis in an overly congested rack or directly next to another
equipment rack; otherwise, the heated exhaust air from other equipment can enter the inlet air vents and
cause an overtemperature condition inside the router.
• If rack space allows, it is recommended to leave one rack unit (1.75 inch or 4.45 cm) of vertical clearance
between the chassis and any equipment directly above it or below.
Caution
Depending on your installation and co-located equipment power dissipation, it is recommended to have
some air gap between chassis, if space allows, to reduce residual heating from one chassis to another.
• Have the cable-management bracket (used in four places on the Cisco ASR 1013 chassis: upper half,
lower half, and left and right sides) available if you plan to install it on the front of the chassis.
• An adequate chassis ground (earth) connection exists for your router chassis (see the Attaching a Chassis
Ground Connection, on page 388).
• Always follow proper lifting practices as outlined in the “Chassis-Lifting Guidelines” section on page
5-23 , when handling the chassis.
Attaching the Rear Rack-Mount Brackets
This section explains how to attach the rear rack-mount brackets to the chassis. Before installing the chassis
in the rack, you must install the rack-mount brackets on each side of the chassis. The forward rack-mount
brackets are already installed on the Cisco ASR 1013 chassis when it arrives at your site.
The parts and tools required for installing the rack-mount brackets and cable-management brackets are listed
in the “Tools and Equipment” section on page 5-23 .
Note
The cable-management brackets are installed on the chassis after you install the chassis rack-mount brackets
and mount the chassis in the rack.
If you are rack-mounting the chassis using the rear rack-mount brackets, then this type of installation provides
for the chassis being recessed in the rack.
To install the rear rack-mount brackets on the Cisco ASR 1013 Router, perform the following steps:
SUMMARY STEPS
1. Locate the threaded holes on the rear side of the chassis. Make certain that you hold the rear t rack-mount
bracket with the ear and holes facing outward and towards the rear of the chassis (see the following image,
callout number 4).
2. Position the rear rack-mount bracket top hole with the chassis second top hole from the back.
3. Insert and tighten the screws on one side.
4. After the bracket is secured to the side of the chassis, slide the two remaining components into the side
rack-mount bracket.
5. Repeat Step 1 through Step 3 on the other side of the chassis. Use all the screws to secure the rear
rack-mount brackets to the chassis.
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Attaching the Rear Rack-Mount Brackets
DETAILED STEPS
Step 1
Locate the threaded holes on the rear side of the chassis. Make certain that you hold the rear t rack-mount bracket with
the ear and holes facing outward and towards the rear of the chassis (see the following image, callout number 4).
Figure 180: Location of the Rear Rack-Mount Brackets on the Cisco ASR 1013 Router
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Rack-Mounting the Cisco ASR 1013 Router
Step 2
Step 3
Step 4
Step 5
Position the rear rack-mount bracket top hole with the chassis second top hole from the back.
Insert and tighten the screws on one side.
After the bracket is secured to the side of the chassis, slide the two remaining components into the side rack-mount
bracket.
Repeat Step 1 through Step 3 on the other side of the chassis. Use all the screws to secure the rear rack-mount brackets
to the chassis.
What to Do Next
This completes the steps for attaching the rear rack-mount brackets to the Cisco ASR 1013 Router.
Rack-Mounting the Cisco ASR 1013 Router
The Cisco ASR 1013 Router comes installed with front forward rack-mount brackets. The rear rack-mount
brackets are optional and are shipped in the accessory kit along with a set of front rack-mount brackets. The
chassis rack-mounting flanges must be secured directly to the chassis before you lift it into the rack.
This section includes the following topics:
Verifying Rack Dimensions
Before you install the chassis, measure the space between the vertical mounting flanges (rails) on your
equipment rack to verify that the rack conforms to the measurements shown in the following image.
Figure 181: Verifying Equipment Rack Dimensions
SUMMARY STEPS
1. Mark and measure the distance between two holes on the left and right mounting rails.
2. Measure the space between the inner edges of the left front and right front mounting flanges on the
equipment rack.
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Installing the Cisco ASR 1013 Router in a Rack
DETAILED STEPS
Step 1
Mark and measure the distance between two holes on the left and right mounting rails.
The distance should measure 18.31 inches ± 0.06 inches (46.5 cm ± 0.15 cm).
Measure for pairs of holes near the bottom, middle and top of the equipment rack to ensure that the rack posts
are parallel.
Measure the space between the inner edges of the left front and right front mounting flanges on the equipment rack.
The space must be at least 17.7 inches (45 cm) to accommodate the chassis which is 17.25 inches (43.8 cm) wide and
fits between the mounting posts on the rack.
Note
Step 2
Installing the Cisco ASR 1013 Router in a Rack
To mount the chassis in an equipment rack, you must secure the rack-mount brackets to two posts or mounting
strips in the rack using the screws provided. Because the rack-mount brackets support the weight of the entire
chassis, be sure to use all screws to fasten the two rack-mount brackets to the rack posts. You can install the
Cisco ASR 1013 chassis in an equipment rack using the forward rack-mount brackets or rear rack-mount
brackets.
You can perform one of the following procedures to install the chassis in a rack:
Installing the Chassis Using the Forward Rack-Mount Brackets
Caution
Before you mount the ASR 1013 Router in a rack, make certain you read which rack-mount bracket ear
holes to use when positioning the chassis in the rack. As a result of using the designated ear holes on the
rack-mount bracket, the cable-management bracket installation will be made easier. For cable-management
installation instructions, see theAttaching the Cable-Management Bracket, on page 386 .
Determine where in the rack you want the chassis to be mounted. If you are mounting more than one chassis
in the rack, then start from the bottom up or the center of the rack. The following image shows the brackets
attached to the chassis. Depending on the bracket holes you use, the chassis may protrude in the rack.
Note
The forward rack-mount brackets on the Cisco ASR 1013 Router arrive installed on the chassis and a
spare set is included in the accessory kit. However, if you want to install a forward rack-mount bracket
on the chassis, then see the instructions in this section.
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Installing the Cisco ASR 1013 Router in a Rack
The following image shows the forward rack-mount brackets, callout number 2 and the rear rack-mount
brackets, callout number 4, on the Cisco ASR 1013 Router.
Figure 182: Forward Rack-Mount Brackets on the Cisco ASR 1013 Router
2
Forward rack-mount
bracket ear and holes
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4
Rear rack-mount bracket
Cisco ASR 1013 Router Overview and Installation
Installing the Cisco ASR 1013 Router in a Rack
Warning
To prevent bodily injury when mounting or servicing this unit in a rack, you must take special precautions
to ensure that the system remains stable. The following guidelines are provided to ensure your safety:-This
unit should be mounted at the bottom of the rack if it is the only unit in the rack.-When mounting this unit
in a partially filled rack, load the rack from the bottom to the top with the heaviest component at the bottom
of the rack.-If the rack is provided with stabilizing devices, install the stabilizers before mounting or
servicing the unit in the rack. Statement 1006
We recommend that you allow at least 1 or 2 inches (2.54 or 5.08 cm) of vertical clearance between the router
and any equipment directly above and below it.
Using Forward Rack-Mount Brackets
To install the chassis in the rack using the forward rack-mount brackets, perform the following steps:
SUMMARY STEPS
1. On the chassis, ensure that all screw fasteners on the installed components are securely tightened.
2. Make sure that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are
engaged or that the rack is otherwise stabilized. See the next sections on the types of racks you can use to
install the chassis.
3. (Optional) Install a shelf in the rack to support the Cisco ASR 1013 Router. If you use a shelf, this will
help support the chassis while you secure it to the rack.
4. With two people, lift the chassis into position between the rack posts.
5. Align the mounting bracket holes with the rack post holes and attach the chassis to the rack.
6. Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
7. Hold the chassis in position against the mounting rails and follow these steps:
8. Tighten all screws on each side to secure the chassis to the equipment rack.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
On the chassis, ensure that all screw fasteners on the installed components are securely tightened.
Make sure that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are engaged or that
the rack is otherwise stabilized. See the next sections on the types of racks you can use to install the chassis.
(Optional) Install a shelf in the rack to support the Cisco ASR 1013 Router. If you use a shelf, this will help support the
chassis while you secure it to the rack.
With two people, lift the chassis into position between the rack posts.
Align the mounting bracket holes with the rack post holes and attach the chassis to the rack.
Note
If you are using a shelf then raise the chassis to the level of the shelf. Let the bottom of the chassis rest on the
brackets, but continue to support the chassis.
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
Hold the chassis in position against the mounting rails and follow these steps:
a) Insert the bottom screw into the third hole up from the bottom of the rack-mount ear and use a hand-held screwdriver
to tighten the screw to the rack rail
Tip
In the next step, insert the top screw diagonally from the bottom screw that you just attached.This helps with
keeping the chassis in place.
b) Insert the top screw into the third hole down from the top of the rack-mount ear and tighten the screw to the rack rail.
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Step 8
c) Insert a screw in the middle of the rack-mount bracket on both sides of the chassis.
d) Repeat these steps for the other side of the chassis.
Note
As a result of using the specified rack-mount bracket ear holes, the cable-management bracket can be easily
attached to the rack-mount bracket after the chassis is installed in the rack.
Tighten all screws on each side to secure the chassis to the equipment rack.
What to Do Next
Using Rear Rack-Mount Brackets
Installing the Chassis Using the Forward Rack-Mount Brackets
To install the chassis in the rack using the rear rack-mount brackets, perform the following steps:
SUMMARY STEPS
1. On the chassis, ensure that all screw fasteners on the installed components are securely tightened.
2. Make sure that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are
engaged or that the rack is otherwise stabilized. See the next sections on the types of racks you can use to
install the chassis.
3. (Optional) Install a shelf in the rack to support the Cisco ASR 1013 Router. If you use a shelf, this will
help support the chassis while you secure it to the rack.
4. With two people, lift the chassis into position between the rack posts.
5. Align the mounting bracket holes with the rack post holes and attach the chassis to the rack.
6. Position the chassis until the rear rack-mounting flanges are flush against the mounting rails on the rack.
7. Hold the chassis in position against the mounting rails and insert all screws that were shipped in the
accessory kit.
8. Tighten all screws on each side to secure the chassis to the equipment rack.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Step 8
On the chassis, ensure that all screw fasteners on the installed components are securely tightened.
Make sure that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are engaged or that
the rack is otherwise stabilized. See the next sections on the types of racks you can use to install the chassis.
(Optional) Install a shelf in the rack to support the Cisco ASR 1013 Router. If you use a shelf, this will help support the
chassis while you secure it to the rack.
With two people, lift the chassis into position between the rack posts.
Align the mounting bracket holes with the rack post holes and attach the chassis to the rack.
Note
If you are using a shelf then raise the chassis to the level of the shelf. Let the bottom of the chassis rest on the
brackets, but continue to support the chassis.
Position the chassis until the rear rack-mounting flanges are flush against the mounting rails on the rack.
Hold the chassis in position against the mounting rails and insert all screws that were shipped in the accessory kit.
Tighten all screws on each side to secure the chassis to the equipment rack.
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Two-Post Rack Installation
What to Do Next
You can install your Cisco AR1006 chassis on a two-post rack or a four-post rack. See the Two-Post Rack
Installation, on page 381 and the four-post rack installation, go to the Four-Post Rack Installation, on page
383.
Two-Post Rack Installation
The Cisco ASR 1013 Router can be installed on a two-post 19-inch equipment rack. The following image
shows the Cisco ASR 1013 Router installed on a two-post rack.
Figure 183: Installing the Cisco ASR 1013 Router on a Two-Post Rack
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Two-Post Rack Installation
1
Note
Caution
Cisco ASR 1013 Router 2
front rack-mount bracket
Two-post equipment rack
rail
Inner clearance (the width between the inner sides of the two posts or rails) must be at least 19 inches
(48.26cm). The height of the chassis is 10.45 inches (26.543 cm). Airflow through the chassis is from
front to back.
If you are using a two-post rack secure the rack to the floor surface to prevent tipping and avoid bodily
injury and component damage.
To install the Cisco ASR 1013 chassis on a two-post equipment rack, with the forward rack-mount brackets,
follow these steps:
SUMMARY STEPS
1. Position the chassis so the front is closest to you and lift it carefully into the rack. To prevent injury, avoid
any sudden twists or moves.
2. Slide the chassis into the rack, pushing it back until the brackets meet the mounting strips or posts on both
sides of the rack.
3. Keeping the brackets flush against the posts or mounting strips, align the holes in the brackets with the
holes on the rack or mounting strip.
4. For each bracket, insert and tighten two screws to the rack on both sides.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Position the chassis so the front is closest to you and lift it carefully into the rack. To prevent injury, avoid any sudden
twists or moves.
Slide the chassis into the rack, pushing it back until the brackets meet the mounting strips or posts on both sides of the
rack.
Keeping the brackets flush against the posts or mounting strips, align the holes in the brackets with the holes on the rack
or mounting strip.
For each bracket, insert and tighten two screws to the rack on both sides.
Note
Use the third hole up from the bottom of the rack-mount bracket and the third hole down from the top of the
rack-mount bracket. See “Cable-Management Brackets Installed on the Cisco ASR 1013 Router” figure in the
Attaching the Cable-Management Bracket section for the position and location of the ear holes on the rack-mount
bracket.
What to Do Next
This completes the procedure for installing the chassis on a two-post rack. Proceed to the Attaching a Chassis
Ground Connection, on page 388 to continue the installation.
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Four-Post Rack Installation
Four-Post Rack Installation
The Cisco ASR 1013 Router can be flush-mounted in a 19-inch equipment rack using the rack-mounting kit
provided with your system. The Cisco ASR 1013 Router can be mounted into the rack using two recommended
methods:
• Installing the chassis in an existing rack with equipment.
• Installing an empty chassis in a rack with no equipment installed.
Note
Because the Cisco ASR 1013 chassis is very heavy, it is recommended that the chassis be installed at the
bottom of the rack if you are planning to install more than one Cisco ASR 1013 chassis in the same rack.
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Four-Post Rack Installation
The following image shows the Cisco ASR 1013 Router installed on a four-post rack.
Figure 184: Installing the Cisco ASR 1013 Router on a Four-Post Rack
1
Four-post equipment rack 3
rear rail
Cisco ASR 1013 front
rack-mount brackets
2
Cisco ASR 1013 rear
rack-mount brackets
Four-post equipment rack
front rail
4
When handling the chassis, always follow proper lifting practices. See the “Chassis-Lifting Guidelines” section.
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Four-Post Rack Installation
Note
Inner clearance (the width between the inner sides of the two posts or rails) must be at least 19 inches
(48.26 cm). The height of the chassis is 22.75 inches (57.8 cm). Airflow through the chassis is from front
to back.
Note
Make sure the rack is stabilized.
SUMMARY STEPS
1. (Optional) Install a shelf in the rack to support the Cisco ASR 1013 Router. If you are using a shelf then
raise the chassis to the level of the shelf. Let the bottom of the chassis rest on the brackets, but continue
to support the chassis.Using two people, lift the chassis into the rack using the side handles and grasping
underneath the power supply bays.
2. Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
3. Hold the chassis in position against the mounting rails while the second person finger-tightens a screw to
the rack rails on each side of the chassis.
4. Finger-tighten 4 more screws to the rack rails on each side of the chassis.
5. Tighten all screws on each side to secure the chassis to the equipment rack.
6. Use a level to verify that the tops of the two brackets are level, or use a measuring tape to verify that both
brackets are the same distance from the top of the rack rails.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
(Optional) Install a shelf in the rack to support the Cisco ASR 1013 Router. If you are using a shelf then raise the chassis
to the level of the shelf. Let the bottom of the chassis rest on the brackets, but continue to support the chassis.Using two
people, lift the chassis into the rack using the side handles and grasping underneath the power supply bays.
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
Note
Use the third hole up from the bottom of the rack-mount bracket and the third hole down from the top of the
rack-mount bracket. See “Cable-Management Brackets Installed on the Cisco ASR 1013 Router” figure in the
Attaching the Cable-Management Bracket section for position and location of the ear holes on the rack-mount
bracket.
Hold the chassis in position against the mounting rails while the second person finger-tightens a screw to the rack rails
on each side of the chassis.
Finger-tighten 4 more screws to the rack rails on each side of the chassis.
Tighten all screws on each side to secure the chassis to the equipment rack.
Use a level to verify that the tops of the two brackets are level, or use a measuring tape to verify that both brackets are
the same distance from the top of the rack rails.
What to Do Next
This completes the procedure for installing the chassis in the rack. Proceed to the Attaching the
Cable-Management Bracket, on page 386 to continue the installation.
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Attaching the Cable-Management Bracket
Attaching the Cable-Management Bracket
The cable-management brackets mount to each rack-mount bracket on the chassis to provide cable-management
to both sides of the chassis (parallel with card orientation). These brackets are screw mounted to the rack-mount
brackets to allow easy installation and removal of cables.
The cable-management brackets for the Cisco ASR 1013 are used in four places on the chassis. Each section
contain four independent cable-management “U” type feature hooks with two screws each as shown in Figure
185: Cable-Management Brackets Installed on the Cisco ASR 1013 Router, on page 387. For Cisco ASR 1000
SIPs, these brackets work in tandem with shared port adapter product feature cable-management device to
allow installation and removal of adjacent cards without the need to remove cables.
Note
Make certain that the cable-management bracket “U” type feature is facing upwards when you attach it to
the chassis.
Follow these steps to attach two cable-management brackets to each side of the Cisco ASR 1013 Router in
the rack:
SUMMARY STEPS
1. Align the cable-management bracket to the rack-mount bracket on the top of each side of the Cisco ASR
1013 Router. The cable-management bracket aligns to the top hole of the chassis rack-mount bracket.
2. Using a Phillips screwdriver, insert the screw through cable-management bracket and into the chassis
rack-mount and tighten the screw.
3. Using the bottom rack-mount ear hole on each side of the chassis, insert the screw through
cable-management bracket and into the chassis rack-mount)
DETAILED STEPS
Step 1
Step 2
Step 3
Align the cable-management bracket to the rack-mount bracket on the top of each side of the Cisco ASR 1013 Router.
The cable-management bracket aligns to the top hole of the chassis rack-mount bracket.
Using a Phillips screwdriver, insert the screw through cable-management bracket and into the chassis rack-mount and
tighten the screw.
Note
Use the package of screws that came with your chassis containing eight screws.
Using the bottom rack-mount ear hole on each side of the chassis, insert the screw through cable-management bracket
and into the chassis rack-mount)
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Attaching the Cable-Management Bracket
The following image shows the cable-management brackets attached to the chassis in a rack.
Figure 185: Cable-Management Brackets Installed on the Cisco ASR 1013 Router
1
Cable-management bracket 3
screw location
Chassis front rack-mount
bracket
2
Cable-management bracket —
—
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Attaching a Chassis Ground Connection
What to Do Next
This completes the procedure for installing the cable-management brackets on the chassis.
Attaching a Chassis Ground Connection
Connecting the Cisco ASR 1013 Router chassis to ground is required for all DC powered installations and
any AC powered installation where compliance with Telcordia grounding requirements is necessary.
Caution
The dual-lug chassis stud must be installed, the SIP and SPA must be fully inserted and screwed in and
earthed to prevent a potential hazard in a telecom line.
Have the recommended tools and supplies available before you begin this procedure.
Warning
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority
or an electrician if you are uncertain that suitable grounding is available. Statement 1024
Before you connect power or turn on power to your chassis, you must provide an adequate chassis ground
(earth) connection for the chassis. A chassis ground connector is provided on each Cisco ASR 1013 Router.
There is a ground stud on the rear bottom of the chassis as shown in (See the image on the following section
“Recommended Tools and Supplies.”)
Recommended Tools and Supplies
The following tools, equipment, and supplies necessary to connect the system ground to the chassis:
• Phillips screwdriver
• Dual-lug chassis ground component
• Grounding wire
Attach the Chassis Ground
Use the following procedure to attach the grounding lug to the chassis ground connector on your chassis:
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Recommended Tools and Supplies
SUMMARY STEPS
1. Use the wire stripper to strip one end of the AWG #6 wire approximately 0.75 inches (19.05 mm).
2. Insert the AWG #6 wire into the wire receptacle on the grounding lug.
3. Use the crimping tool to carefully crimp the wire receptacle around the wire; this step is required to ensure
a proper mechanical connection.
4. Attach the grounding lug with the wire so that the grounding wire does not overlap the power supply.
5. Locate the chassis ground connector on the bottom rear of the Cisco ASR 1013 chassis.
6. Insert the two screws through the holes in the grounding lug as shown in Figure 186: Attaching the Cisco
ASR 1013 Router Ground Connection, on page 390.
7. Use the Number 2 Phillips screwdriver to carefully tighten the screws until the grounding lug is held firmly
to the chassis. Do not overtighten the screws.
8. Connect the opposite end of the grounding wire to the appropriate grounding point at your site to ensure
an adequate chassis ground.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Use the wire stripper to strip one end of the AWG #6 wire approximately 0.75 inches (19.05 mm).
Insert the AWG #6 wire into the wire receptacle on the grounding lug.
Use the crimping tool to carefully crimp the wire receptacle around the wire; this step is required to ensure a proper
mechanical connection.
Attach the grounding lug with the wire so that the grounding wire does not overlap the power supply.
Locate the chassis ground connector on the bottom rear of the Cisco ASR 1013 chassis.
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Recommended Tools and Supplies
The following image shows how to attach the ground lug on the Cisco ASR 1013 Router.
Figure 186: Attaching the Cisco ASR 1013 Router Ground Connection
Step 6
Step 7
Step 8
1
Chassis ground studs and
lead wire
3
Ground symbol
2
Grounding screws
—
—
Insert the two screws through the holes in the grounding lug as shown in Figure 186: Attaching the Cisco ASR 1013
Router Ground Connection, on page 390.
Use the Number 2 Phillips screwdriver to carefully tighten the screws until the grounding lug is held firmly to the chassis.
Do not overtighten the screws.
Connect the opposite end of the grounding wire to the appropriate grounding point at your site to ensure an adequate
chassis ground.
What to Do Next
This completes the procedure for attaching a chassis ground connection. Go to the following cabling sections
for information on attaching cables.
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Connecting the Shared Port Adapter Cables
Connecting the Shared Port Adapter Cables
The instructions for connecting the cables for the shared port adapter installed in the Cisco ASR 1013 Router
are contained in the respective configuration documents for each port adapter. For example, if you are
connecting the optical fiber cables for the PA-POS-OC3 port adapter, see PA-POS-OC3 Port Adapter
Installation and Configuration at the following location:
http://www.cisco.com/en/US/partner/docs/interfaces_modules/port_adapters/install_upgrade/pos/
pa-pos-oc3_install_config/paposoc3.html
Shared port adapter documents are also available on the Cisco Documentation DVD.
Connecting the Console and Auxiliary Port Cables
The Cisco ASR 1013 Router has a DCE-mode console port for connecting a console terminal and an auxiliary
port for additional connections to your chassis. The auxiliary port can also be used for diagnostics.
In a fully redundant chassis, each Cisco ASR1000-RP2 is separately connected to each FP and I/O card slot
over separate point-to-point connections of the system interconnect over the midplane. The selection of the
active RP2s is made separately from the selection of the active embedded services processor.
The following image shows the Cisco ASR 1000 Series Route Processor faceplate.
Figure 187: Cisco ASR1000-RP2 Faceplate LEDs
1
Internal hard drive LED
4
2
External USB Flash LED 5
3
Internal USB bootflash
LED
—
USB 0, USB 1 connector
ASR1000-RP2 LEDs
—
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Figure 188: Cisco ASR 1000 Series Route Processor Faceplate Connectors
1
CARRIER LED
4
MGMT Ethernet
connector
2
BITS connector
5
CON connector
3
LINK LED
6
AUX connector
The Cisco ASR 1013 Router uses RJ-45 ports for both the auxiliary port and the console port. Both the console
and the auxiliary ports are asynchronous serial ports; any devices connected to these ports must be capable
of asynchronous transmission.
For console and auxiliary port pinouts for the RJ-45 connector, see the “Cisco ASR 1000-RP1 Pinout
Specifications” section on page B-1 . Both ports are configured as asynchronous serial ports.
SUMMARY STEPS
1. Before connecting a terminal to the console port, configure the terminal to match the chassis console port
as follows: 9600 baud, 8 data bits, no parity, 1 stop bits (9600 8N1).
2. After you establish normal router operation, you can disconnect the terminal.
DETAILED STEPS
Step 1
Step 2
Before connecting a terminal to the console port, configure the terminal to match the chassis console port as follows:
9600 baud, 8 data bits, no parity, 1 stop bits (9600 8N1).
After you establish normal router operation, you can disconnect the terminal.
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Connecting the Ethernet Management Port
What to Do Next
Note
A connection will not be established when setting up an out-of-band connection or modem connection in
the auxiliary port and the console port.
Connecting the Ethernet Management Port
When using the Fast Ethernet Management port (“Cisco ASR 1000 Series Route Processor Faceplate
Connectors” figure in the Connecting the Console and Auxiliary Port Cables section, callout 4) in the default
mode (speed-auto and duplex-auto) the port operates in auto-MDI/MDI-X mode. The port automatically
provides the correct signal connectivity through the Auto-MDI/MDI-X feature. The port automatically senses
a crossover or straight-through cable and adapts to it.
However, when the Fast Ethernet Management port is configured to a fixed speed (10 or 100 Mbps) through
command-line interface (CLI) commands, the port is forced to MDI mode.
When in a fixed-speed configuration and MDI mode:
• Use a crossover cable to connect to an MDI port
• Use a straight-through cable to connect to an MDI-X port
Connecting Power to the Cisco ASR 1013 Router
Warning
The covers are an integral part of the safety design of the product. Do not operate the unit without the
covers installed. Statement 1077
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
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Cisco ASR 1013 Router Power Supply Overview
Cisco ASR 1013 Router Power Supply Overview
This section provides information about the Cisco ASR 1013 power supply input requirements and power
cable options.
The DC power supply for the Cisco ASR 1013, ASR 1006, ASR 1004, and ASR 1002 routers operate at
individual specifications. The following table shows the common input ranges and circuit breaker requirements.
Table 80: Cisco ASR 1000 Series Router DC Power Supply System Input Requirements
Cisco ASR 1000 System Input
Series Router
Rating (Amps)
DC Power
Supply
Circuit Breaker AWG # Wire
Amps
Minimum
Maximum
Minimum
Maximum
Cisco ASR 1006 40
Always 50
Always AWG
#6 wire
Cisco ASR 1004 24
30
40
10
8
Cisco ASR 1002 16
20
30
12
10
Cisco ASR 1013 40
Always 50
Always AWG
#6 wire
For example, the
Cisco ASR 1002
Router DC
power supply,
with 16 Amp
input rating
must use an
AWG #12 gauge
wire for a 20 A
circuit breaker
and an AWG
#10 gauge wire
for a 30 A
circuit breaker.
Power Cords Supported by the Cisco ASR 1013 Router
The following power cords are supported by the Cisco ASR 1013 Router:
• CAB-AC20A-90L-IN—20 A AC right-angle power cord—International
• CAB-4000W-US1—Power Cord, 250 VAC 20 A, Right Angle C19, NEMA 6-20 Plug, US
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• CAB-US520-C19-US—NEMA 5-15 to IEC-C19 14ft US
The Cisco ASR 1013 Router modular chassis supports redundant power entry modules (PEMs). At least one
PEM in each 1+1 redundant power supply zone must be functioning to power the zone and both zones must
be functional. In the event of a single fan failure, the remaining fans are sufficient to cool the entire chassis
although fan speed may have to be increased.
The Cisco ASR 1013 Router system is configured in a dual zone 1+1 power supply configuration. For ASR
1013 router power consumption specifications, see the “Cisco ASR 1013 Router Specifications” section on
page A-14 .
The following items list the maximum input and output of the system power consumption for the two power
zones in the Cisco ASR 1013 Router:
• Maximum input (DC): 4,200W
• Maximum input (AC – High Line): 4,000 W
• Maximum output (DC and AC – High Line): 3,390 W
Note
At least one power supply in each of the two power supply zones must be powered on before the software
boots up. This prevents the route processor from detecting a power supply failure in a zone that is not
being used to power the active route processor. If you plan to connect the four power supplies to two
independent circuits for redundancy, you must ensure that a power supply from each power supply zone
is connected to each circuit. PS0 and PS1 are in power supply zone 0, and PS2 and PS3 are in power
supply zone 1. In this scenario, for example, PS0 and PS2 can be connected to one circuit and PS1 and
PS3 can be connected to the other circuit. Alternatively, PS0 and PS3 can be connected to one circuit and
PS1 and PS2 can be connected to the other circuit.
Note
Detailed instructions for removing and replacing the Cisco ASR 1000 Series AC and DC power supplies
are in the “Removing and Replacing the Cisco ASR 1013 Router Power Supplies” section on page 14-93
.
Connecting AC Input Power to Cisco ASR 1013 Router
Follow these steps to connect an AC-input power supply to the Cisco 1013 chassis:
SUMMARY STEPS
1. At the rear of the chassis, check that the power switch on the power supply is in the Standby position.
2. Plug the power cable into the inlet.
3. Plug the AC power supply cable into the AC power source.
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DETAILED STEPS
Step 1
Step 2
At the rear of the chassis, check that the power switch on the power supply is in the Standby position.
Plug the power cable into the inlet.
Note
For additional AC power cable strain relief, secure the cable to the power supply handle by inserting a nylon
cable tie through the hole in the handle and around the cable.
The following image shows the Cisco ASR 1013 Router AC power supply.
Figure 189: Cisco ASR 1013 Router AC Power Supply
1
AC power supply fan
6
AC power inlet
2
DB-25 alarm connector
7
AC power supply Standby
switch
3
Tie-wrap tab
8
Protective shielding on both
sides of the Standby switch
4
AC power supply captive
screw
9
AC power supply LEDs
5
AC power supply handle
—
—
Shielded cables must be used to connect to the DB-25 alarm connector on both the AC and DC power supplies
in order to comply with FCC/EN55022/CISPR22 Class A emissions requirements. See the “How Cisco
ASR1000-RP Alarm Monitoring Works” section on page 2-22 .
Plug the AC power supply cable into the AC power source.
Note
Step 3
What to Do Next
This completes the procedure for connecting AC-input power.
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Connecting DC Input Power to Cisco ASR 1013 Router
Connecting DC Input Power to Cisco ASR 1013 Router
This section describes how to connect the DC power supply into the Cisco ASR 1013 Router. The following
image shows the Cisco ASR 1013 Router DC power supply and labels.
Figure 190: Cisco ASR 1013 Router DC Power Supply
Note
1
Fan
7
DC power supply captive
screw
2
DB-25 alarm connector* 8
DC power supply handle
3
Tie-wrap tab
Terminal block and
plastic cover single screw
4
DC power supply
10
terminal block and plastic
cover
On/Off (|/O) circuit
breaker switch
5
Ground symbol
11
Terminal block and
plastic cover slot tab
6
DC power supply ground 12
studs
Power supply LEDs
9
Shielded cables must be used to connect to the DB-25 alarm connector on both the AC and DC power
supplies, in order to comply with FCC/EN55022/CISPR22 Class A emissions requirements.
Before you begin to install the DC power supply into the Cisco ASR 1013 Router, read these important notices:
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Connecting DC Input Power to Cisco ASR 1013 Router
• The color coding of the DC input power supply leads depends on the color coding of the DC power
source at your site. Typically, green or green/yellow is used for ground (GND), black is used for –48 V
on negative (–) terminal and red is used for RTN on the positive (+) terminal. Make certain the lead
color coding you choose for the DC input power supply matches lead color coding used at the DC power
source.
• For DC input power cables, select the appropriate wire gauge based on the National Electrical Code
(NEC) and local codes for 40-amp service at nominal DC input voltage (–48/–60 VDC). Three pairs of
cable leads, source DC (–) and source DC return (+), are required for each power distribution unit (PDU).
These cables are available from any commercial cable vendor. All input power cables for the chassis
should have the same wire gauge and cable lengths should match within 10 percent of deviation.
Each DC input power cable is terminated at the PDU by a cable lug. The cable lugs must be dual-hole, and
have a straight tongue. They must be able to fit over 1/4-inch terminal studs at 0.625-inch (15.88-mm) centers.
Note
DC input power cables must be connected to the PDU terminal studs in the proper positive (+) and negative
(–) polarity. In some cases, the DC cable leads are labeled, which is a relatively safe indication of the
polarity. However, you must verify the polarity by measuring the voltage between the DC cable leads.
When making the measurement, the positive (+) lead and the negative (–) lead must always match the (+)
and (–) labels on the power distribution unit.
• A ground cable is required for each DC PDU. We recommend that you use at least 6-AWG multistrand
copper wire. This wire is not available from Cisco Systems; it is available from any commercial cable
vendor.
The ground wire cable lug should be dual-hole (as shown in Figure 191: DC Input Power Cable Lug, on page
398) and able to fit over M6 terminal studs at 0.625 inch (15.88mm) centers. Recommended lug terminal wire
size Panduit part number:
•
◦LCD8-14A-L for 8AWG wire size
◦LCD6-14A-L for 6AWG wire size
Figure 191: DC Input Power Cable Lug
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Connecting DC Input Power to Cisco ASR 1013 Router
To avoid hazardous conditions, all components in the area where DC input power is accessible must be
properly insulated. Therefore, before installing the DC cable lugs, be sure to insulate the lugs according
to the manufacturer’s instructions.
Note
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
Warning
To connect the DC power supply, follow these steps:
SUMMARY STEPS
1. Make certain that the chassis grounding is connected before you begin installing the DC power supply
2. Locate the stud (see Figure 192: Cisco ASR 1013 Router DC Power Supply Grounding Stud and Cable,
on page 400, callout 6) on the DC power supply for the GND connection which must be connected first
and follow these steps:
3. Attach the other end of the cable to the site’s ground connection.
4. Remove the plastic cover from the terminal block.
5. You must wrap the positive and negative lead cables with sleeving. Take each lead wire and cover the
area from the lug to the wire with heavy shrink sleeving (see the following the image).
6. For easier cable-management, insert the negative lead cable first. Replace the ground lug with cable in
the following order:
7. Tighten the Kepnut screw to recommended torque of 18 in-lbs minimum to 22 in-lbs maximum for the
positive stud and wire.
8. Use tie wraps to secure the wires, so that the wires are not pulled from the terminal block by casual contact.
Ti-wrap studs are located below the power supply terminal block (see the “Cisco ASR 1000 Series Route
Processor Console Port Connectors” figure in the Connecting a Terminal to the Cisco ASR 1000 Series
RP Console Port section).
9. Replace the terminal block plastic cover and tighten the screw. The plastic cover is slotted and keyed to
fit correctly over the terminal block.
10. Remove the tape from the circuit-breaker switch handle and move the circuit-breaker handle to the on
position.
11. Switch the circuit breaker switch to the On (|) position.
DETAILED STEPS
Step 1
Step 2
Make certain that the chassis grounding is connected before you begin installing the DC power supply
Locate the stud (see Figure 192: Cisco ASR 1013 Router DC Power Supply Grounding Stud and Cable, on page 400,
callout 6) on the DC power supply for the GND connection which must be connected first and follow these steps:
a) Using the grounding lug, replace the washers and Kepnut screw in the following order.
•
◦Flat washer
◦Grounding cable lug
◦Kepnut screw
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Connecting DC Input Power to Cisco ASR 1013 Router
b) Tighten the Kepnut screws on the power supply studs.
Figure 192: Cisco ASR 1013 Router DC Power Supply Grounding Stud and Cable
1
DC power supply
grounding stud with wire
4
Flat washer
2
Grounding screws
5
Kepnut screw
3
DC Power supply ground
symbol
—
—
Shielded cables must be used to connect to the DB-25 alarm connector on both the AC and DC power
supplies in order to comply with FCC/EN55022/CISPR22 Class A emissions requirements. See the “How
Cisco ASR1000-RP Alarm Monitoring Works” section.
Attach the other end of the cable to the site’s ground connection.
Remove the plastic cover from the terminal block.
Caution
Before you continue to install the terminal block ground wires, stop and perform Step 5. To prevent any
contact with metal lead on the ground wire and the plastic cover.
Note
Step 3
Step 4
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Connecting DC Input Power to Cisco ASR 1013 Router
Step 5
You must wrap the positive and negative lead cables with sleeving. Take each lead wire and cover the area from the lug
to the wire with heavy shrink sleeving (see the following the image).
Figure 193: DC Power Supply Terminal Block Ground Cable Lugs
1
Negative lug and wire with 3
sleeving wrapped around the
wire and end of lug
Location of sleeving
wrapped around the wire and
end of the grounding stud
2
Positive lug and wire with 4
sleeving wrapped around the
wire and end of lug
Ground lug and wire
Step 6
For easier cable-management, insert the negative lead cable first. Replace the ground lug with cable in the following
order:
a) Flat Washer
b) Ground lug with negative wire
c) Kepnut screw
Step 7
Tighten the Kepnut screw to recommended torque of 18 in-lbs minimum to 22 in-lbs maximum for the positive stud and
wire.
Note
Secure the wires coming in from the terminal block so that they cannot be disturbed by casual contact.
Step 8
Use tie wraps to secure the wires, so that the wires are not pulled from the terminal block by casual contact. Ti-wrap
studs are located below the power supply terminal block (see the “Cisco ASR 1000 Series Route Processor Console Port
Connectors” figure in the Connecting a Terminal to the Cisco ASR 1000 Series RP Console Port section).
Replace the terminal block plastic cover and tighten the screw. The plastic cover is slotted and keyed to fit correctly over
the terminal block.
Remove the tape from the circuit-breaker switch handle and move the circuit-breaker handle to the on position.
Switch the circuit breaker switch to the On (|) position.
Step 9
Step 10
Step 11
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Connecting a Terminal to the Cisco ASR 1000 Series RP Console Port
What to Do Next
This completes the procedure for connecting the DC power supply in the Cisco ASR 1013 Router.
Connecting a Terminal to the Cisco ASR 1000 Series RP Console
Port
The Cisco ASR 1013 route processor has an asynchronous serial (EIA/TIA-232) RJ-45 console port labeled
CON on its front panel as shown in Figure 194: Cisco ASR 1000 Series Route Processor Console Port
Connectors, on page 403, callout 5. You can connect this port to most types of video terminals through use
of the console cable kit that is included with your Cisco ASR 1013 Router. The console cable kit contains:
• One RJ-45 to RJ-45 crossover cable
• One RJ-45 to DB-25 (female) adapter
• One RJ-45 to DB-9 (female) adapter
A crossover cable reverses pin connections from one end to the other. In other words, it connects pin 1 (at
one end) to pin 8 (at the other end), pin 2 to pin 7, pin 3 to pin 6, and so on. You can identify a crossover cable
by comparing the two modular ends of the cable. Hold the cable ends in your hand, side-by-side, with the
tabs at the back. Ensure that the wire connected to the outside (left) pin of the left plug (pin 1) is the same
color as the wire connected to the outside (right) pin of the right plug (pin 8).
Use the following procedure to connect a video terminal to the console port on a route processor.
Note
Each Cisco ASR 1000 Series Route Processor must have a console port connection (typically to a terminal
server) if you are running a redundant configuration in the chassis.
Users using the console port to access the router are automatically directed to the IOS command-line interface,
by default.
If a user is trying to access the router through the console port and sends a break signal (a break signal can
be sent by entering Ctrl-C or Ctrl-Shift-6, or by entering the send break command at the Telnet prompt) before
connecting to the IOS command-line interface, the user is directed into diagnostic mode by default if the
non-RPIOS sub-packages can be accessed.
These settings can be changed by configuring a transport map for the console port and applying that transport
map to the console interface.
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Connecting the System Cables
The following image shows the Cisco ASR 1000 Series route processor console port connectors.
Figure 194: Cisco ASR 1000 Series Route Processor Console Port Connectors
SUMMARY STEPS
1. Connect one end of the RJ-45 cables to the serial RJ-45 port (CON) on the Cisco ASR1000-RP2 route
processor.
2. Run the cable up and through the cable-management bracket and connect the other end of the RJ-45 cable
to the RJ-45 adapter,
3. Connect the adapter to your video terminal to complete the cable connection.
4. Power on your video terminal.
5. Configure your video terminal to match the following default console port settings: 9600 baud, 8 data bits,
No parity generation or checking, 1 stop bit, and No flow control.
6. Go to the Connecting the System Cables, on page 403 to continue the installation.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Connect one end of the RJ-45 cables to the serial RJ-45 port (CON) on the Cisco ASR1000-RP2 route processor.
Run the cable up and through the cable-management bracket and connect the other end of the RJ-45 cable to the RJ-45
adapter,
Connect the adapter to your video terminal to complete the cable connection.
Power on your video terminal.
Configure your video terminal to match the following default console port settings: 9600 baud, 8 data bits, No parity
generation or checking, 1 stop bit, and No flow control.
Go to the Connecting the System Cables, on page 403 to continue the installation.
Connecting the System Cables
Keep the following guidelines in mind when connecting external cables to the Cisco ASR 1013 Router:
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Attaching Cable Retention Bracket on AC Power Supply
• To reduce the chance of interference, avoid crossing high-power lines with any interface cables.
• Verify all cabling limitations (particularly distance) before powering on the system.
Attaching Cable Retention Bracket on AC Power Supply
This section explains how to attach the cable retention bracket on AC power supply of the chassis.
The following image shows the cable retention bracket attaching to the AC power supply.
Figure 195: Cable Retention Bracket Attaching to the AC Power Supply
SUMMARY STEPS
1.
2.
3.
4.
5.
Remove the two M3X5mm screws and discard.
Install AC cord retainer by inserting tabs into lance features on panel.
Secure AC cord retainer with two M3X8mm screws included in kit.
Connect AC power cord.
Secure AC cord by tightening retainer screw.
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Attaching Cable Retention Bracket on AC Power Supply
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Remove the two M3X5mm screws and discard.
Install AC cord retainer by inserting tabs into lance features on panel.
Secure AC cord retainer with two M3X8mm screws included in kit.
Connect AC power cord.
Secure AC cord by tightening retainer screw.
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Attaching Cable Retention Bracket on AC Power Supply
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CHAPTER
12
Cisco ASR 1001 Router Overview and Installation
This chapter describes the Cisco ASR 1001 Router and provides procedures for installing the Cisco ASR
1001 Router on an equipment shelf or tabletop or in an equipment rack.
This chapter contains the following sections:
• Cisco ASR 1001 Router Description, page 407
• Installation Methods, page 425
• General Rack Installation Guidelines, page 425
• Guidelines for an Equipment Shelf or Tabletop Installation, page 426
• Mounting the Cisco ASR 1001 Router on an Equipment Shelf or Tabletop Installation, page 427
• Rack-Mounting the Cisco ASR 1001 Router, page 429
• Attaching the Chassis Rack-Mount Brackets, page 430
• Installing the Cisco ASR 1001 Router in a Rack, page 432
• Attaching the Cable-Management Bracket, page 436
• Attaching a Chassis Ground Connection, page 438
• Connecting the Shared Port Adapter Cables, page 440
• Connecting the Console and Auxiliary Port Cables, page 441
• Connecting a Terminal to the Cisco ASR1000-RP1 Console Port, page 442
• Connecting Cables, page 443
• Overview of AC and DC Power Supplies for the Cisco ASR 1001 Router, page 444
• Cisco ASR 1001 Router Power Supply Installation, page 444
Cisco ASR 1001 Router Description
The Cisco ASR 1001 Router is part of the Cisco aggregation services family of routers. The Cisco ASR 1001
Router offers a compact form factor router that satisfies customer demands such as low power consumption
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Cisco ASR 1001 Router Architecture
and decreased usage of rack space. The Cisco ASR 1001 Router has the route processor, embedded services
processor, and SIP integrated within the chassis with one half-height SPA slot.
By default, the Cisco ASR 1001 Router is shipped with 4 GB of DRAM. To implement software redundancy,
a minimum of 8 GB memory must be installed on the router.
The Cisco ASR 1001 Router supports:
• ESP bandwidth 2.5 Gbps (default) to 5 Gbps of forwarding performance (optional software option)
• ESP memory: 1-GB DRAM default; 1-GB DRAM maximum
• Route-processor memory comes with 4-GB DRAM (default); 8-GB DRAM maximum
• 4-Gigabit Ethernet small form-factor pluggable (SFP) ports
For information about the SFP transceiver modules that are compatible with Cisco ASR 1002 Built-in Gigabit
Ethernet Ports (4x1GE), refer to the “Modular Optics Compatibility” section in Cisco ASR 1000 Series
Aggregation Services Routers SIP and SPA Hardware Installation Guide .
• External USB flash memory 1-GB USB flash memory support
Cisco ASR 1001 Router Architecture
The Cisco ASR 1001 Router provides all the Cisco ASR 1000 Series Router features, services, and performance
in a small form-factor chassis. The chassis contains a single integrated mainboard that implements all functions
of the route processor (RP), a SPA embedded processor (SIP), a forwarding processor (ESP) and a built-in
4x1 GE SPA.
The SPA interface is connected to a built-in 4xGE SPA, a single half-height (HH) SPA bay, and one flexible
integrated daughter card (IDC), providing additional SPA interfaces.
Cisco ASR 1001 Router hardware features include:
• Front-to-back air flow, with 7 built-in cooling fans, numbered from left to right, zero (0) to 6.
• Supports 1 + 1 redundant AC or DC power supplies.
• A cover interlock prevents cover removal with power supplies installed.
• Provides one half-height SPA bay (Bay 1 online insertion and removal (OIR) supported) and integrates
a passive board, which consists of a standard SPA interface connector and an interface connector, to the
mainboard.
• Support for one factory-configurable integrated daughter card in SPA Bay 2. The integrated daughter
card, in SPA Bay 2 is part of the base configuration, and is not an option.
• Provides unique front panels for each integrated daughter card configuration.
• 8 GB internal flash
• Console and Auxiliary RJ-45 ports
• 4 GB DRAM (default)
• Forwarding Performance = 2.5G default, 5G with software license
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Cisco ASR 1001 Router Architecture
The Cisco ASR 1001 Router can accommodate different integrated daughter cards. The chassis top cover
includes the integrated daughter card front panel with a common base chassis.There will be different top
covers for each integrated daughter cards and one for orders with no integrated daughter card.
The Cisco ASR 10001 Router can be shipped with different orderable configurations. The following IDC
configurations are available:
Note
See the MIBs for the Cisco ASR 1001 Router appendix for information about the MIBs that can be used
to manage these IDCs.
• IDC-HD80G
IDC-HD80G can support a single 2.5-inch SATA HDD/SSD (see the following image).
Figure 196: Cisco ASR 1001 Router with IDC-HD80G
1
7
HDD Online—LED
indicates that the disk is
ready and can be accessed
LINK LED—Indicates
MGMT Ethernet port
activity
2
8
HDD Activity—LED
indicates that the disk is
currently being accessed
BF—Internal bootflash
LED that indicates
activity of the EUSB
device
3
9
HDD Slot—Slot into
which the HDD is
inserted (the figure shows
an HDD inserted into the
slot)
USB LED
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4
AUX—RS-232 auxiliary 10
port
USB port—USB
high-speed (480 Mbps)
port used for secure key
storage, VPN credentials
storage, or bulk flash
storage of image and
configuration backup
This USB port is an A
port.
5
CON—RS-232 console
port
11
STAT—Status LED
6
12
MGMT—RJ-45
10/100/1000 management
Ethernet port
PWR—Power LED
• IDC-OC3POS
IDC-OC3POS can support two channels of OC3 (see the following image).
Figure 197: Cisco ASR 1001 Router with IDC-OC3POS
1
C/A—Carrier/Alarm LED 8
LINK LED—Indicates
MGMT Ethernet port
activity
2
A/L—Active/Loopback
LED
9
BF—Internal bootflash
LED that indicates
activity of the EUSB
device
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3
POS OC3—Port 0
10
USB LED
11
USB port—USB
high-speed (480 Mbps)
port used for secure key
storage, VPN credentials
storage, or bulk flash
storage of image and
configuration backup
This POS port is a small
form-factor pluggable
(SFP) port.
4
POS OC3—Port 1
This POS port is an SFP
port.
This USB port is an A
port.
5
AUX—RS-232 auxiliary 12
port
STAT—Status LED
6
CON—RS-232 console
port
13
PWR—Power LED
7
MGMT—RJ-45
—
10/100/1000 management
Ethernet port
—
• IDC-4XGE
IDC-4XGE can support up to four small form-factor pluggable (SFP) transceivers, each of which supports a
1-Gigabit Ethernet connection (see the following image).
Figure 198: Cisco ASR 1001 Router with IDC-4XGE
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1
GigabitEthernet—Port 0
8
LINK LED—Indicates
MGMT Ethernet port
activity
9
BF—Internal bootflash
LED that indicates
activity of the EUSB
device
10
USB LED
11
USB port—USB
high-speed (480 Mbps)
port used for secure key
storage, VPN credentials
storage, or bulk flash
storage of image and
configuration backup
This POS port is an SFP
port.
2
GigabitEthernet—Port 1
This POS port is an SFP
port.
3
GigabitEthernet—Port 2
This POS port is an SFP
port.
4
GigabitEthernet—Port 3
This POS port is an SFP
port.
This USB port is an A
port.
5
AUX—RS-232 auxiliary 12
port
STAT—Status LED
6
CON—RS-232 console
port
13
PWR—Power LED
7
MGMT—RJ-45
—
10/100/1000 management
Ethernet port
• IDC-CHT1/E1
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Cisco ASR 1001 Router Architecture
IDC-CHT1/E1 can support eight ports of fully channelized T1 or E1 interfaces (see Figure 199: Cisco ASR
1001 Router with IDC-CHT1/E1, on page 413).
Figure 199: Cisco ASR 1001 Router with IDC-CHT1/E1
1
T1/E1 Ports—Ports 0
through 3
7
BF—Internal bootflash
LED that indicates
activity of the EUSB
device
8
USB LED
These T1/E1 ports are
RJ-45 ports.
2
T1/E1 Ports—Ports 4
through 7
These T1/E1 ports are
RJ-45 ports.
3
AUX—RS-232 auxiliary 9
port
USB port—USB
high-speed (480 Mbps)
port used for secure key
storage, VPN credentials
storage, or bulk flash
storage of image and
configuration backup
This USB port is an A
port.
4
CON—RS-232 console
port
10
STAT—Status LED
5
11
MGMT—RJ-45
10/100/1000 management
Ethernet port
PWR—Power LED
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6
LINK LED—Indicates
MGMT Ethernet port
activity
—
—
• IDC-4XT3
IDC-4XT3 can support up to four unchannelized DS3 (44.736 Mbps) ports (see the following image).
Figure 200: Cisco ASR 1001 Router with IDC-4XT3
1
C/A—Carrier/Alarm LED 8
LINK LED—Indicates
MGMT Ethernet port
activity
2
A/L—Active/Loopback
LED
9
BF—Internal bootflash
LED that indicates
activity of the EUSB
device
3
T3 TX Port—Transmit
port 0
10
USB LED
This T3 port uses a
1.0/2.3 RF connector with
75-ohm impedance.
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4
T3 RX Port—Receive
port 0
11
This T3 port uses a
1.0/2.3 RF connector with
75-ohm impedance.
USB port—USB
high-speed (480 Mbps)
port used for secure key
storage, VPN credentials
storage, or bulk flash
storage of image and
configuration backup
This USB port is an A
port.
5
AUX—RS-232 auxiliary 12
port
STAT—Status LED
6
CON—RS-232 console
port
13
PWR—Power LED
7
MGMT—RJ-45
—
10/100/1000 management
Ethernet port
—
The following figures show the front panel of the Cisco ASR 1001 Router with the various IDCs. The following
image shows the LEDs that are common to all configurations of the Cisco ASR 1001 Router.
Figure 201: Common LEDs for Cisco ASR 1001 Route Processor
1
MAJ LED—major alarm 6
indicator
BF—Internal bootflash
LED indicates activity of
the EUSB device
2
CRIT LED—critical
alarm indicator
7
MIN LED —minor alarm
indicator
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Cisco ASR 1001 Router Faceplate Common Components
3
8
USB port— one USB
high-speed (480Mbps)
port used for secure key
storage, storing of VPN
credentials, or bulk flash
storage for image and
configuration backup
STAT—status LED
4
USB LED
9
PWR—Power LED
5
LINK LED indicates
MGMT Ethernet port
activity
—
—
Note
For detailed descriptions of the SPAs on which some of the IDCs are based, go to: http://www.cisco.com/
en/US/products/ps6267/products_data_sheets_list.html
Note
There are two field-replaceable units in the Cisco ASR 1001 chassis. They are the DIMMs and eUSB. In
order to service the components in the chassis, you must remove the power supplies and the chassis cover.
For instructions, see the “Removing and Replacing the Cisco ASR 1001 Router DIMM Memory Modules”
and the “Remove and Replace the eUSB Device on the Cisco ASR 1001 Router” sections in the Removing
and Replacing FRUs from the Cisco ASR 1000 Series Routers chapter.
Cisco ASR 1001 Router Faceplate Common Components
The Cisco ASR 1001 Router RP faceplate has common components for each type of ASR 1001 Router
configuration. The preceding image and the following image show the Cisco ASR1000-RP faceplate with
LEDs and connectors for all configurations of the Cisco ASR 1001 Router.
Figure 202: Common Connectors for Cisco ASR 1001 Route Processor
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Cisco ASR 1001 Chassis Front View
1
3
MGMT—One RJ-45
10/100/1000 management
Ethernet port
2
CON—One RS-232
console port
—
AUX—One RS-232
auxiliary port
—
Cisco ASR 1001 Chassis Front View
The following image shows the front of the Cisco ASR 1001 Router.
Figure 203: Cisco ASR 1001 Router Front View
1
PWR—Power LED
8
AUX—one RS-232
auxiliary port
2
Integrated daughter card
I/O space
9
CON—one RS-232
console port
3
GE 2/0 and 0/0—The
built-in GE ports use
industry standard
front-panel removable
SFP optics and SFP
copper interfaces.
10
MGMT —one RJ-45
10/100/1000 management
Ethernet port
4
GE 2/1 and 0/1
11
USB port
5
GE 2/2 and 0/2
12
CRIT LED—critical
alarm indicator
MAJ LED—major alarm
indicator
MIN LED —minor alarm
indicator
6
GE 2/3 and 0/3
13
STAT—status LED
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Cisco ASR 1001 Chassis Rear View
7
One half-height SPA Bay —
1
Bottom slot of chassis is
Bay 0
Cisco ASR 1001 Chassis Rear View
The following ima shows the rear of the Cisco ASR 1001 Router with seven fans and two AC or DC power
supplies.
Seven internal fans draw cooling air into the chassis and across internal components to maintain an acceptable
operating temperature. The fans are located at the rear of the chassis. A two-hole grounding lug is located on
the side of the chassis. Each individual fan also has a fan fail status signal. The fan fail signal is asserted if
the fan speed falls below 50% of the rated speed. The fans are numbered from zero (0) to 6, left to right.
Two power supplies, either two AC power supplies or two DC power supplies are accessed from the rear of
the router.
Cisco ASR 1001 Router Slot Numbering
The SPA bay numbering scheme for Cisco ASR 1001 Router is different from the Cisco ASR 1000 SIP card.
The SPA ordering is: Built-in GE ports (SPA 0), SPA Bay 1 (SPA 1), and I/O Board (SPA 2).
The integrated daughter card is not necessarily a SPA; it could be any I/O, such as a harddrive or USB. When
the daughter card is not a SPA, then SPA Bay 2 will be left blank and not present in the system.
The built-in GE ports are logically SPA bay 0 and will be addressed as GE 0/0/x. The half-height SPA slot
is logically SPA bay 1 and ports will be addressed as 0/1/x. Ports on the integrated daughter card are logically
in SPA bay 2 and will be addressed as 0/2/x.
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Cisco ASR 1001 Router Components
The following image shows slot numbering for the Cisco ASR 1001 Router.
Figure 204: Cisco ASR 1001 Router Slot Numbering
1
Slot 2 connected to the
flexible integrated
daughter card
3
Slot 0 connected to the
built-in 4x1GE SPA on
the mainboard
2
Slot 1 connected to the
half-height SPA slot
—
—
Cisco ASR 1001 Router Components
The Cisco ASR 1001 Router system is derived from the architecture of the other Cisco ASR 1000 Series
routers. The Cisco ASR 1001 Router contains a single mainboard that provides all the functions of a Cisco
ASR1000-RP (route proce4ssor), a Cisco ASR1000-SIP (carrier card), and a Cisco ASR1000-ESP (forwarding
processor). This mainboard assembly also contains a built-in 4x1 GE SPA providing four SFP ports. The
Cisco ASR1000-RP section of the mainboard provides all the traditional management interfaces (Ethernet,
Console, Aux) and a storage interface (USB only). The Cisco ASR1000-SIP section provides one half-height
SPA bay and a supports a flexible integrated daughter card. The Cisco ASR1000-ESP section provides a CPP
based forwarding engine including a security coprocessor.
The main components of the Cisco ASR 1001 Router, ASR1000-RP1, ASR1000-ESP5, and ASR1000-SIP10
are fixed in the chassis and are not upgradeable, except for the power supplies and SPAs.
Cisco Embedded ASR1000-RP1 for Cisco ASR 1001 Router Description
The Cisco ASR 1000 Series route processor (embedded for the Cisco ASR 1001 Router) is the central control
processor and runs the network operating system.
The Cisco embedded ASR1000-RP1 supports management interfaces such as the Ethernet network management
port and console and auxiliary serial ports. It has LED status indicators and one USB port that can be used
with smart cards for either secure key distribution or image or configuration file updates.
The Cisco embedded ASR1000-RP1 deviates from the other ASR Series Route Processor 1 for the Cisco
ASR 1006 router and the Cisco ASR 1004 Router in the following ways:
• Bulk file storage is on a large eUSB device (to 8 GB supported) with no SATA hard-drive supported.
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Cisco ASR 1001 Router Components
• Redundant Cisco route processor is not supported.
• Network clock changes. No second BITS clock input supported.
• A built-in 4xGE SPA is included. This shared port adapter provides four SFP-based GE connections.
The Cisco route processor common LEDs and indicators are shown in the “Common LEDs for Cisco ASR
1001 Route Processor” figure in the Cisco ASR 1001 Router Architecture section. The following table describes
the Cisco ASR 1000 Series Route Processor LEDs.
Table 81: Cisco ASR 1001 Series Route Processor LEDs
LED Label
LED
Color—State
Behavior Description
PWR
Power
Solid green
All power requirements are
within specification
Off
Off. The router is in standby
mode.
Solid green
Cisco IOSD and other required
processes have loaded
successfully and are operating.
Yellow
ROMMON is running
(including a permanent failure
of RP software) or the Process
Manager has declared a critical
RP process (including IOSD)
dead. A user can log in to
recover.
Red
Occurs during system failure or
power-up.
STAT
System status
CRIT
Critical
Solid Red
Functions as a critical alarm
indicator. The LED is lso a solid
red during the boot process.
MAJ
Major
Solid Red
Major alarm indicator.
MIN
Minor
Amber
Minor alarm indicator.
BOOT
Internal eUSB bootflash LED
Green
Activity indicator.
LINK
10/100/1000 Interface LED
Solid green
Link with no activity.
Flashing Green
MGMT Ethernet port activity.
Off
No link.
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Cisco Embedded ASR1000-SIP10 and SPAs for the Cisco ASR 1001 Router Description
The Cisco embedded ASR1000-SIP10 is built into the Cisco ASR 1001 Router. The Cisco embedded
ASR1000-SIP10 provides the physical and electrical termination for up to three SPAs, built-in 4xGE SPA,
one half-height SPA bay, and one integrated daughter card (system configurable).
The Cisco embedded ASR1000-SIP10 interface, like the Cisco ASR 1006 Router and Cisco ASR 1004 Router,
supports all Cisco embedded ASR1000-SIP10 functions and services. However, the Cisco embedded
ASR1000-SIP10 differs in the following areas:
• Functions as the base board for Cisco embedded ASR1000-RP1
• Is not a field-replaceable unit (FRU) and does not support online insertion and removal (OIR).
Note
Only the shared port adapter (SPA) on the Cisco embedded ASR1000-SIP10 in SPA Bay 1 of the Cisco
ASR 1001 Router supports OIR.
The Cisco ASR 1001 Router embedded ASR1000-RP1 also provides the circuitry for the built-in 4xGE SPA.
Table 82: Built-In SPA LEDs , on page 421 describes the built-in SPA LEDs.
Table 82: Built-In SPA LEDs
Function
Color
Description
GE SFP STATUS (one per port)
Amber
Indicates that the port is enabled by
software, but there is a problem with the
Ethernet link.
Green
Indicates that the port is enabled by
software and there is a valid Ethernet link.
Cisco ASR 1001 Router Integrated Daughter Card Description
The ASR 1001 Router supports different flexible integrated daughter cards with their own LEDs. Four of
these integrated daughter cards are based on SPAs and use the same external I/O ports as those SPAs. One
of the integrated daughter cards supports a single hard-disk-drive for other applications.
Table 83: Built-In SPA LEDs, on page 421 describes the built-in SPA LEDs.
Table 83: Built-In SPA LEDs
Function
Color
Description
Daughter Card Port Status (one per port)
Amber
Amber indicates the port is enabled by
software, but there is a problem with a port
connection.
Green
Green indicates the port is enabled by
software and operational.
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Cisco ASR 1001 Router Components
Cisco ASR1000-ESP for the Cisco ASR 1001 Router Description
The Cisco ASR 1001 Router supports the Cisco ASR1000-ESP2.5 and Cisco ASR1000-ESP5 (with license)
embedded services processors.
Table 84: Cisco ASR 1001 LEDs, on page 422 describes the Cisco ASR 1001 LEDs.
Table 84: Cisco ASR 1001 LEDs
No.
LED Label
LED
Color
Behavior Description
1
PWR
Power
Solid green
All power supplies are
within operational limits.
Off
Off. The router is in
standby mode.
2
ACTV
Active
Green
The embedded services
processor is green when
active.
3
STAT
STATUS
Green
Code has downloaded
successfully and is
operational.
Yellow
BOOT ROM has loaded
successfully.
Red
Not booted.
None
Will always be off.
4
STBY
Standby
You can upgrade the throughput of the ESP from 2.5 Gbps to 5 Gbps by applying a software-activated
performance upgrade license and then reloading the router. If you want to determine the current throughput
level of the ESP, run the show platform hardware throughput level command. The following example
shows the output of this command before the performance upgrade license is applied:
Router# show platform hardware throughput level
The current throughput level is 2500000 kb/s
The following example shows the output of this command after the performance upgrade license is applied:
Router# show platform hardware throughput level
The current throughput level is 5000000 kb/s
For more information about the software-activated performance upgrade license, see the Cisco ASR 1000
Series Aggregation Services Routers Release Notes at the following location:
http://www.cisco.com/en/US/docs/routers/asr1000/release/notes/asr1k_rn_rel_notes.html
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Power Supplies in the Cisco ASR 1001 Router
Power Supplies in the Cisco ASR 1001 Router
The Cisco ASR 1001 Router power supply module supports the following Cisco power supplies:
• AC power supply operates between 85 to 264 VAC
• –48 VDC power supply input range supported is -40.5 to -72 VDC.
The power supply generates +12 V and +5 V, which is distributed to the mainboard and fans. The +5 V is
used to operate the power control devices. It also provides an operational +5 V, as needed.
The power supply units contain one or two fans that are only used for cooling the power supply. Each power
supply is self contained and controls its own fan speed and fan redundancy.
The power supplies are hot pluggable from the rear of the chassis and can be removed or installed while the
system is operating, without affecting any aspect of system performance. The Cisco ASR 1001 Router supports
up to seven chassis-mounted cooling fans. Each fan provides an alarm output for error indication speed
measurement. The fans are not field replaceable, but the system can meet the cooling requirements in the
event of a single-fan failure.
AC Power Supply for Cisco ASR 1001 Router
The AC power supply input inlet is an IEC connector. The current rating on the connector is 10 A. The AC
power supply is secured into the chassis with two captive screws mounted on the faceplate.
The following image shows the AC power supply for the Cisco ASR 1001 Router.
Figure 205: AC Power Supply for the Cisco ASR 1001 Router
--48 VDC Power Supply for Cisco ASR 1001 Router
The –48 VDC power supply input connector accepts a Euro-style terminal block. It is compliant with safety
agencies’ guidelines and electrical requirements of the supply. The DC power supply operates within
specification from –40.5 to –72 VDC continuously once the power supply DC input reaches the threshold of
–43.5 V.
The –48 VDC power input connector Euro-style terminal block will accept three wires: one positive polarity,
one negative polarity, and one ground wire. The connection order is negative (–), positive (+), and GND. The
DC power supply is secured into the system chassis with two captive screws mounted on the faceplate.
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Power Supplies in the Cisco ASR 1001 Router
The following image shows the –48 VDC power supplies for the Cisco ASR 1001 Router.
Figure 206: –48 VDC Power Supply for the Cisco ASR 1001 Router
The output voltage alarm is declared when the output voltage is below the low end of the minimum or above
the high end of the maximum limits. When the output voltage is above the high end of the minimum or below
the low end of the maximum limits, the red state will not be activated.
The following table shows the –48 VDC power supply output voltage alarm ranges.
Table 85: –48 VDC Power Supply Output Voltage Alarm Threshold Ranges
Output
Minimum
Maximum
12V
10.0-11.2V
12.8-13.8V
3.3V
2.6 - 3.0 V
None
Power Cords Supported by the Cisco ASR 1001 Router
The following table lists the power cords that are supported by the Cisco ASR 1001 Router.
Table 86: Power Cords Supported by the Cisco ASR 1001 Router
Power Cord Item Number
Description
15454-M-ACCBL-R2
AC Power Cable ANSI 220VAC Right Exit
CAB-AC-RA
Power Cord, 110 V, Right Angle
CAB-ACA-RA
Plug, Power Cord, Australian, 10 A, Right Angle
CAB-ACC-RA
Power Cord China, Right Angle
CAB-ACE-RA
Power Cord Europe, Right Angle
CAB-ACI-RA
Power Cord, Italian, Right Angle
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Installation Methods
Power Cord Item Number
Description
CAB-ACR-RA
Power Cord Argentina, Right Angle
CAB-ACS-RA
Power Cord, Switzerland, Right Angle
CAB-ACU-RA
Power Cord UK, Right Angle
CAB-IND-RA
Power Cord India, Right Angle
CAB-JPN-RA
Power Cord-Japan, Right Angle
Installation Methods
Cisco ASR 1001 Router is designed for standalone, two rail 19-inch rack-mount (front rail only), four rail
19-inch rack-mount (front and rear rail).
Although rack-mounting is the preferred method of installation for the Cisco ASR 1001 Router, you can
mount the chassis on an equipment shelf or tabletop.
Warning
This warning symbol means danger. You are in a situation that could cause bodily injury. Before you
work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with
standard practices for preventing accidents. Use the statement number provided at the end of each warning
to locate its translation in the translated safety warnings that accompanied this device. Statement 1071
Warning
Before you install, operate, or service the system, read the Regulatory Compliance and Safety Information
for Cisco ASR 1000 Series Aggregation Services Routers publication. This document provides important
safety information you should know before working with the system. Statement 200
Note
You have already unpacked your chassis and read all the site requirements for your new equipment.
Proceed with the installation.
General Rack Installation Guidelines
When planning your rack installation, consider the following guidelines:
• The Cisco ASR 1001 Router requires a minimum of 3.5 inches or 8.9 cm rack units of vertical rack
space. Measure the proposed rack location before mounting the chassis in the rack.
• Before using a particular rack, check for obstructions (such as a power strip) that could impair rack-mount
installation. If a power strip does impair a rack-mount installation, remove the power strip before installing
the chassis, and then replace it after the chassis is installed.
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Guidelines for an Equipment Shelf or Tabletop Installation
• Allow sufficient clearance around the rack for maintenance. If the rack is mobile, you can push it back
near a wall or cabinet for normal operation and pull it out for maintenance (installing or moving cards,
connecting cables, or replacing or upgrading components). Otherwise, allow 19 inches (48.3 cm) of
clearance to remove field-replaceable units.
• Maintain a minimum clearance of 3 inches on the front and back sides of the chassis for the cooling air
inlet and exhaust ports, respectively. Avoid placing the chassis in an overly congested rack or directly
next to another equipment rack; otherwise, the heated exhaust air from other equipment can enter the
inlet air vents and cause an overtemperature condition inside the router.
Caution
To prevent chassis overheating, never install a Cisco ASR 1001 Router in an enclosed room that is not
properly ventilated or air conditioned.
• Always install heavier equipment in the lower half of a rack to maintain a low center of gravity to prevent
the rack from falling over.
• Install and use the cable-management brackets included with the Cisco ASR 1001 Router to keep cables
organized and out of the way of the cards and processors. Ensure that cables from other equipment
already installed in the rack do not impair access to the cards or require you to disconnect cables
unnecessarily to perform equipment maintenance or upgrades.
• Install rack stabilizers (if available) before you mount the chassis.
• Provide an adequate chassis ground (earth) connection for your router chassis.
In addition to the preceding guidelines, review the precautions for avoiding excessive temperature conditions
in the “Site Environmental Requirements” section in the Preparing Your Site for Installation chapter.
The following table provides the Cisco ASR 1001 Router dimensions and weight information.
Table 87: Cisco ASR 1001 Router Dimensions and Weight
Cisco ASR 1001
Dimensions
Depth
22.50 in. (57.15 cm)
Height
1.71 in. (43.43 mm) - 1RU rack-mount
Width
17.25 in. (43.815 cm) - 19 inch rack-mount
Weight
40 lb (18.143 k) - fully configured
Guidelines for an Equipment Shelf or Tabletop Installation
The chassis should already be in the area where you will install it. If you have not determined where to install
your chassis, see the Cisco ASR 1000 Series Routers Component Overview chapter for information about site
considerations.
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Mounting the Cisco ASR 1001 Router on an Equipment Shelf or Tabletop Installation
If you are not rack-mounting your Cisco ASR 1000 series chassis, place it on a sturdy equipment shelf or
tabletop.
When installing the Cisco ASR 1001 Router on an equipment shelf or tabletop, ensure that the surface is clean
and that you have considered the following:
• The Cisco ASR 1001 Router requires at least 3 inches (7.62 cm) of clearance at the inlet and exhaust
vents (the front and top/rear sides of the chassis).
• The Cisco ASR 1001 Router should be installed off the floor. Dust that accumulates on the floor is drawn
into the interior of the router by the cooling fans. Excessive dust inside the router can cause
overtemperature conditions and component failures.
• There must be approximately 19 inches (48.3 cm) of clearance at the front and rear of the chassis to
install and replace FRUs, or to access network cables and equipment.
• The Cisco ASR 1001 Router needs adequate ventilation. Do not install it in an enclosed cabinet where
ventilation is inadequate.
• Keep the cable-management bracket ready if you plan to install it on the front of the chassis.
• An adequate chassis ground (earth) connection exists for your router chassis (see the Attaching a Chassis
Ground Connection).
• Always follow proper lifting practices as outlined in the “Electrical Safety” section in the Preparing
Your Site for Installation chapter, when handling the chassis.
Mounting the Cisco ASR 1001 Router on an Equipment Shelf or
Tabletop Installation
To mount your Cisco ASR 1001 Router on an equipment shelf or tabletop, follow these steps.
SUMMARY STEPS
1. Remove any debris and dust from the tabletop or platform, as well as the surrounding area.
2. Lift the chassis into position on the equipment shelf or tabletop.
3. Attach the front rack-mount brackets. Locate the threaded holes in the front sides of the chassis (first holes
beyond the vent holes) and use the package of black screws that shipped with the chassis.
4. Align the front rack-mount bracket to one side of the chassis.
5. Insert and tighten the screws on one side.
6. Repeat Step 2 through Step 3 on the other side of the chassis. Use all screws to secure the rack-mount
brackets to the chassis.
7. Gather the two cable-management brackets and screws shipped with your chassis. The following image
shows cable-management brackets attached on the front of the Cisco ASR 1001 Router.
8. Screw the cable-management bracket to each side of the rack-mount brackets that are attached to the
chassis. Use two screws for each cable-management bracket. Use a screw from the package of four screws.
9. Check that all screws are securely tightened.
10. Go to the Attaching a Chassis Ground Connection for instructions about continuing the installation.
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Mounting the Cisco ASR 1001 Router on an Equipment Shelf or Tabletop Installation
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Remove any debris and dust from the tabletop or platform, as well as the surrounding area.
Lift the chassis into position on the equipment shelf or tabletop.
Warning
At least two people are required to lift the chassis onto a tabletop or platform. To prevent injury, keep your
back straight and lift with your legs, not your back. Statement 164
Attach the front rack-mount brackets. Locate the threaded holes in the front sides of the chassis (first holes beyond the
vent holes) and use the package of black screws that shipped with the chassis.
Align the front rack-mount bracket to one side of the chassis.
Insert and tighten the screws on one side.
Repeat Step 2 through Step 3 on the other side of the chassis. Use all screws to secure the rack-mount brackets to the
chassis.
Note
The chassis rack-mount brackets must be installed first so that you can attach the cable-management brackets
to the chassis rack-mount brackets after the chassis is installed in the rack.
Gather the two cable-management brackets and screws shipped with your chassis. The following image shows
cable-management brackets attached on the front of the Cisco ASR 1001 Router.
Note
Make certain that the cable-management ‘U’ feature device has the open end pointing upwards when you attach
it to the chassis.
Figure 207: Attaching the Cable-Management Brackets to the Cisco ASR 1001 Router
Step 8
Step 9
Step 10
1
Cable-management bracket 3
top and bottom screws
Chassis front rack-mount
bracket
2
Cable-management bracket —
—
Screw the cable-management bracket to each side of the rack-mount brackets that are attached to the chassis. Use two
screws for each cable-management bracket. Use a screw from the package of four screws.
Check that all screws are securely tightened.
Go to the Attaching a Chassis Ground Connection for instructions about continuing the installation.
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Rack-Mounting the Cisco ASR 1001 Router
Rack-Mounting the Cisco ASR 1001 Router
The Cisco ASR 1001 Router can be installed in an existing rack with equipment or in an empty rack with no
equipment: The chassis can be mounted in either rack types:
• Two-post rack, either 19 inch or 23 inch. Inner clearance (the width between the inner sides of the two
posts or rails) must be at least 19 inches (48.26 cm). The height of the chassis is 3.47 inches (8.8 cm).
Airflow through the chassis is from front to back.
Note
If you are using a two-post rack secure the rack to the floor surface to prevent tipping and avoid bodily.
• Four post, 19-inch equipment rack. Inner clearance (the width between the inner sides of the two posts
or rails) must be at least 19 inches (48.26 cm). The height of the chassis is 1.71 inches (43.43 mm).
Airflow through the chassis is from front to back.
Note
When handling the chassis, always follow proper lifting practices. See the “Chassis-Lifting Guidelines”
section in the Preparing Your Site for Installation chapter.
The Cisco ASR 1001 Router can be installed with both front or rear rack-mount brackets.
Verifying Rack Dimensions
Before you install the chassis, measure the space between the vertical mounting flanges (rails) on your
equipment rack to verify that the rack conforms to the measurements shown in the following image.
Figure 208: Verifying Equipment Rack Dimensions
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Attaching the Chassis Rack-Mount Brackets
SUMMARY STEPS
1. Mark and measure the distance between two holes on the left and right mounting rails.
2. Measure the space between the inner edges of the left front and right front mounting flanges on the
equipment rack.
DETAILED STEPS
Step 1
Mark and measure the distance between two holes on the left and right mounting rails.
The distance should measure 18.31 inches ± 0.06 inches (46.5 cm ± 0.15 cm).
Measure for pairs of holes near the bottom, middle and top of the equipment rack to ensure that the rack posts
are parallel.
Measure the space between the inner edges of the left front and right front mounting flanges on the equipment rack.
The space must be at least 17.7 inches (45 cm) to accommodate the chassis which is 17.25 inches (43.8 cm) wide and
fits between the mounting posts on the rack.
Note
Step 2
Attaching the Chassis Rack-Mount Brackets
This section explains how to attach the front rack-mount brackets to the chassis. Before installing the chassis
in the rack, you must install the rack-mount brackets on each side of the chassis.
The parts and tools required for installing the rack-mount brackets and cable-management brackets are listed
in the “Tools and Equipment” section in the Preparing Your Site for Installation chapter..
Note
The Cisco ASR 1001 Router also has a set of threaded features in the rear of the chassis to accommodate
a set of rear mounting brackets, should the requirement arise.
Note
The cable-management brackets are attached to the chassis after you install the chassis rack-mount brackets
on the chassis and mount the chassis in the rack.
Chassis Front Rack-Mount Brackets
Determine where in the rack you want the chassis to be mounted. If you are mounting more than one chassis
in the rack, then start from the bottom up or the center of the rack. Figure 209: Attaching the Front Rack-Mount
Brackets to the Cisco ASR 1001 Router, on page 431shows the brackets attached to the chassis. Depending
on the bracket holes you use, the chassis may protrude in the rack.
To install the front rack-mount brackets on the Cisco ASR 1001 Router, perform the following steps:
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Chassis Front Rack-Mount Brackets
SUMMARY STEPS
1. Locate the threaded holes on the side of the chassis. Make certain that you hold the front rack-mount
bracket with the ear and holes facing outward and towards the front of the chassis.
2. Position the front rack-mount bracket top hole with the chassis first top hole behind the side vent holes.
3. Insert and tighten the black screws on one side.
4. Repeat Step 1 through Step 3 on the other side of the chassis. Use black screws to secure the rack-mount
brackets to the chassis.
DETAILED STEPS
Step 1
Locate the threaded holes on the side of the chassis. Make certain that you hold the front rack-mount bracket with the
ear and holes facing outward and towards the front of the chassis.
The following image shows where to attach the front rack-mount brackets to the Cisco ASR 1001 Router.
Figure 209: Attaching the Front Rack-Mount Brackets to the Cisco ASR 1001 Router
Step 2
Step 3
Step 4
1
Front rack-mount bracket ear 3
and holes
2
Front rack-mount bracket
—
Front rack-mount bracket
screws
—
Position the front rack-mount bracket top hole with the chassis first top hole behind the side vent holes.
Insert and tighten the black screws on one side.
Repeat Step 1 through Step 3 on the other side of the chassis. Use black screws to secure the rack-mount brackets to the
chassis.
What to Do Next
This completes the steps for attaching the front rack-mount brackets to the Cisco ASR 1001 Router.
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Installing the Cisco ASR 1001 Router in a Rack
Installing the Cisco ASR 1001 Router in a Rack
After installing the rack-mount brackets on the chassis, you mount the chassis by securing the rack-mount
brackets to two posts or mounting strips in the rack using the screws provided. Because the rack-mount brackets
support the weight of the entire chassis, be sure to use all screws to fasten the two rack-mount brackets to the
rack posts.
Note
To prevent bodily injury when mounting or servicing this unit in a rack, you must take special precautions
to ensure that the system remains stable. The following guidelines are provided to ensure your safety:
• This unit should be mounted at the bottom of the rack if it is the only unit in the rack.When mounting
this unit in a partially filled rack, load the rack from the bottom to the top with the heaviest component
at the bottom of the rack.
• If the rack is provided with stabilizing devices, install the stabilizers before mounting or servicing the
unit in the rack. Statement 1006
We recommend that you allow at least 1 or 2 inches (2.54 or 5.08 cm) of vertical clearance between the router
and any equipment directly above and below it.
To install the chassis in the rack, perform the following steps:
SUMMARY STEPS
1. On the chassis, ensure that all screw fasteners on the installed components are securely tightened.
2. Make sure that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are
engaged or that the rack is otherwise stabilized. See the next sections on the types of racks you can use to
install the chassis.
3. (Optional) Install a shelf in the rack to support the Cisco ASR 1001 Router. If you use a shelf, this will
help support the chassis while you secure it to the rack.
4. With two people, lift the chassis into position between the rack posts.
5. Align the mounting bracket holes with the rack post holes and attach the chassis to the rack.
6. Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
7. Hold the chassis in position against the mounting rails in the equipment rack and follow these steps:
8. Tighten all screws on each side to secure the chassis to the equipment rack.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
On the chassis, ensure that all screw fasteners on the installed components are securely tightened.
Make sure that your path to the rack is unobstructed. If the rack is on wheels, ensure that the brakes are engaged or that
the rack is otherwise stabilized. See the next sections on the types of racks you can use to install the chassis.
(Optional) Install a shelf in the rack to support the Cisco ASR 1001 Router. If you use a shelf, this will help support the
chassis while you secure it to the rack.
With two people, lift the chassis into position between the rack posts.
Align the mounting bracket holes with the rack post holes and attach the chassis to the rack.
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Two-Post Rack Installation
If you are using a shelf then raise the chassis to the level of the shelf. Let the bottom of the chassis rest on the
brackets, but continue to support the chassis.
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
Tip
To allow space to attach the cable-management brackets to the chassis in the rack easily, use the rack-mount
bracket ear holes mentioned in Steps 7 and 8.
Hold the chassis in position against the mounting rails in the equipment rack and follow these steps:
a) Insert the bottom screw into the second hole up from the bottom of the rack-mount ear and use a hand-held screwdriver
to tighten the screw to the rack rail.
Tip
To make installation easier, insert one screw at the bottom of the chassis and the next screw at the top of the
chassis diagonally from the first screw.
b) Insert the top screw into the second hole from the top of the rack-mount ear diagonally from the bottom screw and
tighten the screw to the rack rail.
c) Insert the four screws to secure the chassis to the rack equipment.
Tip
By using the specified rack-mount bracket ear holes, the cable-management bracket can be easily attached to
the rack-mount bracket when the chassis is in the rack.
Note
Step 6
Step 7
Step 8
Tighten all screws on each side to secure the chassis to the equipment rack.
Two-Post Rack Installation
The Cisco ASR 1001 Router can be installed on a two-post rack, either 19 inch or 23 inch.
Note
Caution
Inner clearance (the width between the inner sides of the two posts or rails) must be at least 19 inches
(48.26 cm). The height of the chassis is 1.71 inches (43.43 mm). Airflow through the chassis is from front
to back.
If you are using a two-post rack secure the rack to the floor surface to prevent tipping and avoid bodily
injury and component damage.
SUMMARY STEPS
1. Position the chassis so the front is closest to you and lift it carefully into the rack. To prevent injury, avoid
any sudden twists or moves.
2. Slide the chassis into the rack, pushing it back until the brackets meet the mounting strips or posts on both
sides of the rack.
3. Keeping the brackets flush against the posts or mounting strips, align the holes in the brackets with the
holes on the rack or mounting strip.
4. For each bracket, insert and tighten two screws to the rack on both sides.
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Four-Post Rack Installation
DETAILED STEPS
Step 1
Position the chassis so the front is closest to you and lift it carefully into the rack. To prevent injury, avoid any sudden
twists or moves.
The following image shows the Cisco ASR 1001 Router on a two-post equipment rack.
Figure 210: Cisco ASR 1001 Router Installed on a Two-Post Equipment Rack
Step 2
Step 3
Step 4
Slide the chassis into the rack, pushing it back until the brackets meet the mounting strips or posts on both sides of the
rack.
Keeping the brackets flush against the posts or mounting strips, align the holes in the brackets with the holes on the rack
or mounting strip.
For each bracket, insert and tighten two screws to the rack on both sides.
This completes the procedure for installing the chassis on a two-post rack. Proceed to the Attaching a Chassis Ground
Connection, on page 438 to continue the installation.
Four-Post Rack Installation
The Cisco ASR 1001 Router can be flush-mounted in a 19-inch equipment rack using the rack-mounting kit
provided with your system. The Cisco ASR 1001 Router can be mounted into the rack using two recommended
methods:
• Installing the chassis in an existing rack with equipment.
• Installing an empty chassis in a rack with no equipment installed.
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Four-Post Rack Installation
When handling the chassis, always follow proper lifting practices. See the “Chassis-Lifting Guidelines” section
in the Preparing Your Site for Installation chapter.
Note
Inner clearance (the width between the inner sides of the two posts or rails) must be at least 19 inches
(48.26 cm). The height of the chassis 1.71 inches (43.43 mm). Airflow through the chassis is from front
to back.
Make sure the rack is stabilized.
SUMMARY STEPS
1. (Optional) Install a shelf in the rack to support the Cisco ASR 1001 Router. If you are using a shelf then
raise the chassis to the level of the shelf. Let the bottom of the chassis rest on the brackets, but continue
to support the chassis. Using two people, lift the chassis into the rack using the side handles and grasping
underneath the power supply bays.
2. Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
3. Hold the chassis in position against the mounting rails while the second person finger-tightens a screw to
the rack rails on each side of the chassis.
4. Finger-tighten screws to the rack rails on each side of the chassis.
5. Tighten all screws on each side to secure the chassis to the equipment rack.
6. Use a level to verify that the tops of the two brackets are level, or use a measuring tape to verify that both
brackets are the same distance from the top of the rack rails.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
(Optional) Install a shelf in the rack to support the Cisco ASR 1001 Router. If you are using a shelf then raise the chassis
to the level of the shelf. Let the bottom of the chassis rest on the brackets, but continue to support the chassis. Using two
people, lift the chassis into the rack using the side handles and grasping underneath the power supply bays.
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
Note
Use the second hole up from the bottom of the rack-mount bracket and the second hole down from the top of
the rack-mount bracket. This will make it easier to attach the cable-management bracket to the chassis in the
equipment rack.
Hold the chassis in position against the mounting rails while the second person finger-tightens a screw to the rack rails
on each side of the chassis.
Finger-tighten screws to the rack rails on each side of the chassis.
Tighten all screws on each side to secure the chassis to the equipment rack.
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Attaching the Cable-Management Bracket
The following image shows front and rear rack-mounting of the Cisco ASR 1001 Router on a four-post rack.
Figure 211: Cisco ASR 1001 Router in a Four Post Rack—Front and Rear Rack-Mounting
Step 6
Use a level to verify that the tops of the two brackets are level, or use a measuring tape to verify that both brackets are
the same distance from the top of the rack rails.
What to Do Next
This completes the procedure for installing the chassis in the rack. Proceed to the Attaching the
Cable-Management Bracket, on page 436 to continue the installation.
Attaching the Cable-Management Bracket
The cable-management brackets mount to each rack-mount bracket on the chassis to provide cable-management
to both sides of the chassis (parallel with card orientation). These brackets are screw mounted to the rack-mount
brackets to allow easy installation and removal of cables.
The cable-management brackets for the Cisco ASR 1001 Router contain one independent cable-management
“U” type features with four screws and provides cable dressing of each card module slot.
Note
Make certain that the cable-management bracket “U” type feature is facing upwards when you attach it to
the chassis.
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Attaching the Cable-Management Bracket
Follow these steps to attach the cable-management brackets to both sides of the Cisco ASR 1001 Router in
the rack:
SUMMARY STEPS
1. Align the cable-management bracket to the rack-mount bracket on one side of the Cisco ASR 1001 Router.
The cable-management bracket aligns to the top hole of the chassis rack-mount bracket.
2. Using a Phillips screwdriver, insert the screw through cable-management bracket and into the chassis
rack-mount and tighten the screw.
3. Using the bottom rack-mount ear hole, insert the screw through cable-management bracket and into the
chassis rack-mount (see Figure 212: Chassis Rack-Mount Bracket Ear Holes for the Cable-Management
Bracket, on page 437).
DETAILED STEPS
Step 1
Step 2
Align the cable-management bracket to the rack-mount bracket on one side of the Cisco ASR 1001 Router. The
cable-management bracket aligns to the top hole of the chassis rack-mount bracket.
Using a Phillips screwdriver, insert the screw through cable-management bracket and into the chassis rack-mount and
tighten the screw.
Note
Use the package of screws that came with your chassis containing four screws.
The following image shows where to attach the front rack-mount brackets to the Cisco ASR 1001 Router in a rack.
Figure 212: Chassis Rack-Mount Bracket Ear Holes for the Cable-Management Bracket
1
Step 3
Secure the cable-management screw to the middle ear hole
of the front rack-mount bracket on both sides of the Cisco
ASR 1001 Router.
Using the bottom rack-mount ear hole, insert the screw through cable-management bracket and into the chassis rack-mount
(see Figure 212: Chassis Rack-Mount Bracket Ear Holes for the Cable-Management Bracket, on page 437).
What to Do Next
This completes the procedure for installing the cable-management brackets on the chassis.
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Attaching a Chassis Ground Connection
Attaching a Chassis Ground Connection
Connecting the Cisco ASR 1000 Series Router to ground is required for all DC powered installations and any
AC powered installation where compliance with Telcordia grounding requirements is necessary.
Caution
The dual-lug chassis stud must be installed, the SIP and SPA must be fully inserted and screwed in and
earthed to prevent a potential hazard in a telecom line.
Have the recommended tools and supplies available before you begin this procedure.
Recommended Tools and Supplies
The following tools, equipment, and supplies necessary to connect the system ground to the chassis:
• Phillips screwdriver
• 3.5 mm flat blade screwdriver (Phoenix # 1205053 or equivalent 3.5 mm flat blade)
• Dual-lug chassis ground component
• Grounding wire
The following image shows how to attach the ground lugs on the Cisco ASR 1000 Series chassis. The location
of the ground lug on Cisco ASR 1000 Series Routers may not be the same on all routers; but the ground lug
attachment instructions are similar.
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Recommended Tools and Supplies
Warning
1
Chassis ground studs and 3
lead wire
Ground connector on the
chassis
2
Grounding screws
Ground symbol
4
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority
or an electrician if you are uncertain that suitable grounding is available. Statement 1024
Before you connect power or turn on power to your chassis, you must provide an adequate chassis ground
(earth) connection for the chassis. A chassis ground connector is provided on each Cisco ASR 1001 Router.
There is a stud on the side of the chassis and on the DC power supply (primary grounding stud).
Caution
The grounding wire is always the first to be installed or connected and the last to be removed or
disconnected.
Use the following procedure to attach the grounding lug to the chassis ground connector on your chassis:
SUMMARY STEPS
1. Use the wire stripper to strip one end of the AWG #6 wire approximately 0.75 inches (19.05 mm).
2. Insert the AWG #6 wire into the wire receptacle on the grounding lug.
3. Use the crimping tool to carefully crimp the wire receptacle around the wire; this step is required to ensure
a proper mechanical connection as shown in the next figure.
4. Attach the grounding lug with the wire so that the grounding wire does not overlap the power supply.
5. Locate the chassis ground connector on the side of your chassis.
6. Insert the two screws through the holes in the grounding lug.
7. Use the Number 2 Phillips screwdriver to carefully tighten the screws until the grounding lug is held firmly
to the chassis. Do not overtighten the screws.
8. Connect the opposite end of the grounding wire to the appropriate grounding point at your site to ensure
an adequate chassis ground.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Use the wire stripper to strip one end of the AWG #6 wire approximately 0.75 inches (19.05 mm).
Insert the AWG #6 wire into the wire receptacle on the grounding lug.
Use the crimping tool to carefully crimp the wire receptacle around the wire; this step is required to ensure a proper
mechanical connection as shown in the next figure.
Attach the grounding lug with the wire so that the grounding wire does not overlap the power supply.
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Connecting the Shared Port Adapter Cables
The following image shows how to attach a grounding lug to the chassis ground connector.
Figure 213: Attaching a Grounding Lug to the Chassis Ground Connector
Step 5
Step 6
Step 7
Step 8
1
Chassis ground lead wire
3
Ground screws
2
Grounding stud
4
Chassis ground connector
holes
Locate the chassis ground connector on the side of your chassis.
Insert the two screws through the holes in the grounding lug.
Use the Number 2 Phillips screwdriver to carefully tighten the screws until the grounding lug is held firmly to the chassis.
Do not overtighten the screws.
Connect the opposite end of the grounding wire to the appropriate grounding point at your site to ensure an adequate
chassis ground.
What to Do Next
This completes the procedure for attaching a chassis ground connection.
Connecting the Shared Port Adapter Cables
The instructions for connecting the cables for the shared port adapter installed in the Cisco ASR 1001 Router
are contained in the respective configuration documents for each port adapter. For example, if you are
connecting the optical fiber cables for the PA-POS-OC3 port adapter, see PA-POS-OC3 Port Adapter
Installation and Configuration at the following location:
http://www.cisco.com/en/US/partner/docs/interfaces_modules/port_adapters/install_upgrade/pos/
pa-pos-oc3_install_config/paposoc3.html
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Connecting the Console and Auxiliary Port Cables
Connecting the Console and Auxiliary Port Cables
This section describes how to attach a cable to the Cisco embedded ASR1000-RP1 console or auxiliary ports
on the Cisco ASR 1001 Router. The Cisco ASR 1001 Router uses RJ-45 ports for both the auxiliary port and
console port to attach a console terminal.
Note
Caution
Out of Band (OOB) or modem connection in the AUX ILIARY and/ CONSOLE ports, regardless of the
configuration, the connection is not established and calls cannot be setup. This is not supported on all the
Cisco ASR 1000 Series Aggregation Services Routers and all its Cisco IOS XE versions.
To meet Class A emission requirements, shielded cables must be used for the console and auxiliary port
connectors.
Before you can use the console interface on the router using a terminal or PC, you must perform the following
steps:
SUMMARY STEPS
1. Before connecting a terminal to the console port, configure the terminal to match the chassis console port
as follows: 9600 baud, 8 data bits, no parity, 1 stop bits (9600 8N1).
2. Connect to the port using the RJ-45 to DB-9 cable.
3. After you establish normal router operation, you can disconnect the terminal.
DETAILED STEPS
Step 1
Step 2
Step 3
Before connecting a terminal to the console port, configure the terminal to match the chassis console port as follows:
9600 baud, 8 data bits, no parity, 1 stop bits (9600 8N1).
Connect to the port using the RJ-45 to DB-9 cable.
Note
For information about how to change the default settings to meet the requirements of your terminal or host, see
Cisco IOS Terminal Services Configuration Guide .
After you establish normal router operation, you can disconnect the terminal.
What to Do Next
Note
A connection will not be established when setting up an out-of-band connection or modem connection in
the auxiliary port and the console port.
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Management Ethernet Port Cable Connection
Management Ethernet Port Cable Connection
Caution
To comply with Class A emissions requirements, a shielded Ethernet cable must be used for the connection.
To use the Management Ethernet interface on the router, perform the following steps:
SUMMARY STEPS
1. Insert an Ethernet RJ-45 cable into the MGMT ETHERNET port (see “Common Connectors for Cisco
ASR 1001 Route Processor” figure in the Cisco ASR 1001 Router Faceplate Common Components section).
2. Insert the other end of the RJ-45 cable to your management device or network.
DETAILED STEPS
Step 1
Step 2
Insert an Ethernet RJ-45 cable into the MGMT ETHERNET port (see “Common Connectors for Cisco ASR 1001 Route
Processor” figure in the Cisco ASR 1001 Router Faceplate Common Components section).
Insert the other end of the RJ-45 cable to your management device or network.
Connecting a Terminal to the Cisco ASR1000-RP1 Console Port
The Cisco ASR 1001 embedded route processor has an asynchronous serial (EIA/TIA-232) RJ-45 console
port labeled CON on its front panel. You can connect this port to most types of video terminals through use
of the console cable kit that is included with your Cisco ASR 1001 Router. The console cable kit contains:
• One RJ-45 to RJ-45 crossover cable
• One RJ-45 to DB-25 (female) adapter
• One RJ-45 to DB-9 (female) adapter
A crossover cable reverses pin connections from one end to the other. In other words, it connects pin 1 (at
one end) to pin 8 (at the other end), pin 2 to pin 7, pin 3 to pin 6, and so on. You can identify a crossover cable
by comparing the two modular ends of the cable. Hold the cable ends in your hand, side-by-side, with the
tabs at the back. Ensure that the wire connected to the outside (left) pin of the left plug (pin 1) is the same
color as the wire connected to the outside (right) pin of the right plug (pin 8).
Use the following procedure to connect a video terminal to the console port on a route processor.
Note
Each Cisco ASR 1000 Series Route Processor must have a console port connection (typically to a terminal
server) if you are running a redundant configuration in the chassis.
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Connecting Cables
SUMMARY STEPS
1. Connect one end of the RJ-45 cables to the serial RJ-45 port (CON) on the Cisco embedded ASR1000-RP1
(see “Common Connectors for Cisco ASR 1001 Route Processor” in the Cisco ASR 1001 Router Faceplate
Common Components section).
2. Run the cable up and through the cable-management bracket and connect the other end of the RJ-45 cable
to the RJ-45 adapter (see “Cisco ASR 1001 Router AC Power Supply and DC Power Supply” figure in
the Cisco ASR 1001 Router Power Supply Installation section).
3. Connect the adapter to your video terminal to complete the cable connection.
4. Power on your video terminal.
5. Configure your video terminal to match the following default console port settings:
6. Go to the Connecting Cables, on page 443 to continue the installation.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Connect one end of the RJ-45 cables to the serial RJ-45 port (CON) on the Cisco embedded ASR1000-RP1 (see “Common
Connectors for Cisco ASR 1001 Route Processor” in the Cisco ASR 1001 Router Faceplate Common Components
section).
Run the cable up and through the cable-management bracket and connect the other end of the RJ-45 cable to the RJ-45
adapter (see “Cisco ASR 1001 Router AC Power Supply and DC Power Supply” figure in the Cisco ASR 1001 Router
Power Supply Installation section).
Connect the adapter to your video terminal to complete the cable connection.
Power on your video terminal.
Configure your video terminal to match the following default console port settings:
• 9600 baud
• 8 data bits
• No parity generation or checking
• 1 stop bit
• No flow control
Step 6
Go to the Connecting Cables, on page 443 to continue the installation.
Connecting Cables
Keep the following guidelines in mind when connecting external cables to the Cisco ASR 1001 Router:
• To reduce the chance of interference, avoid crossing high-power lines with any interface cables.
• Verify all cabling limitations (particularly distance) before powering on the system.
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Overview of AC and DC Power Supplies for the Cisco ASR 1001 Router
Overview of AC and DC Power Supplies for the Cisco ASR 1001
Router
The Cisco ASR 1001 Router power supplies each provide 400 W of output power and are used in a 1 + 1
redundant configuration. There is no input switch on the faceplate of the power supplies. The power supply
will be switched from Standby to ON by way of a system chassis STANDBY/ON switch. The power supply
slot numbers are on the rear of the chassis to the left side of each power supply. When facing the rear of the
chassis, power supply slot 0 (PS0) is to the left and power supply slot 1(PS1) is to the right (next to the power
supply Standby switch).
The Cisco ASR 1001 Router supports the following power supplies:
• Cisco ASR 1001 Router AC power supply—Provides 400 watt output power with two DC voltage
outputs: +12 V and +5 V. The AC power supply operates between 85 and 264 VAC. The AC power
supply current shares on the 12 V output and is used in a dual hot pluggable configuration. The AC
power supply consumes a maximum of 471 W of input power.
• Cisco ASR 1001 Router DC power supply—Provides 400 watt output power with two DC voltage
outputs: +12 V and +5.0 V. The power supply operates between –40.5 and –72 VDC. The DC power
supply current shares on the 12 V output and is used in a dual hot pluggable configuration. The DC
power supply consumes a maximum of 500 W of input power.
Cisco ASR 1001 Router Power Supply Installation
The Cisco ASR 1001 Router AC and DC power supplies are shipped installed in the chassis. You must connect
the power supplies when they arrive.
Note
The Cisco ASR 1001 Router can support two AC or two DC power supplies. Do not mix AC and DC
power supply units in the same chassis.
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Cisco ASR 1001 Router Power Supply Installation
The following image shows both the AC and DC power supplies for the Cisco ASR 1001 Router.
Figure 214: Cisco ASR 1001 Router AC Power Supply and DC Power Supply
1
AC and DC power supply 5
fasteners
DC power supply positive
(+) connection
2
AC power supply inlet
6
DC power supply ground
symbol
3
Power supply LED
7
DC power supply
terminal block connection
4
DC power supply
negative (-) connection
8
AC and DC power supply
handles
The following table describes the power supply LED. The function of the LED is the same for both the AC
and DC power supplies.
Table 88: Cisco ASR 1001 Router AC and DC Power Supply LED
LED Color and State
Description
Solid green
Power output is on and within the normal operating
range.
Blinking green, at the rate of one blink per second
Input power that is within the normal operating range
is being supplied, but the Standby switch is in the
Standby position (and not in the On position).
Solid amber
A power supply critical event has occurred, and the
power supply has shut down. The critical event can
be temperature, voltage, current, or fan operating
outside the normal operating range.
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LED Color and State
Description
Blinking amber, at the rate of one blink per second
A power supply warning event has occurred, but the
power supply can continue to operate. The warning
event can be temperature, voltage, current, or fan
operating outside the normal operating range.
Off
Power supply is shut down.
This section contains the following topics:
Warning
The covers are an integral part of the safety design of the product. Do not operate the unit without the
covers installed. Statement 1077
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Installing AC Input Power to Cisco ASR 1001 Router
The Cisco ASR 1001 Router has two AC power supplies in the rear of the chassis. The input receptacle is an
IEC60320 C14 type of filtered AC inlet. The current rating on the connector is 10 A.
Warning
Do not install the power supplies with the chassis cover off.
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Installing AC Input Power to Cisco ASR 1001 Router
The following image shows the Cisco ASR 1001 Router AC power supplies.
Figure 215: Cisco ASR 1001 Router AC Power Supplies
Follow these steps to connect an AC input power supply to the Cisco ASR 1001 Router.
SUMMARY STEPS
1. There are two power supplies installed. At the rear of the chassis, check that the power switch on the
chassis is in the standby position.
2. Turn off the circuit breaker to the power supply.
3. For easier installation, plug the power cable into the inlet on power supply slot 1 first.
4. Then insert the power supply cable into the power supply in slot 0 on the right.
5. Make certain that the AC power cords are positioned as shown in the following image.
6. Plug the AC power supply cables into the AC power source.
7. Turn on the AC breaker.
8. Turn the Standby switch to On (|) on the chassis.
9. The power supply LED illuminates green.
DETAILED STEPS
Step 1
There are two power supplies installed. At the rear of the chassis, check that the power switch on the chassis is in the
standby position.
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Installing AC Input Power to Cisco ASR 1001 Router
The following image shows the Cisco ASR 1001 Router AC power supply standby switch.
Figure 216: Cisco ASR 1001 Router AC Power Supply Standby Switch
1
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Cisco ASR 1001 Router Standby switch, which does not
disconnect power from the power source.
Cisco ASR 1001 Router Overview and Installation
Removing AC Power Supply from the Cisco ASR 1001 Router
Step 2
Step 3
Step 4
Step 5
Turn off the circuit breaker to the power supply.
For easier installation, plug the power cable into the inlet on power supply slot 1 first.
Then insert the power supply cable into the power supply in slot 0 on the right.
Make certain that the AC power cords are positioned as shown in the following image.
Figure 217: Correct Position of the Cisco ASR 1001 Router AC Power Supply Cables
Step 6
Step 7
Step 8
Step 9
1
AC power supply in PS0
3
AC power supply in PS1
2
Position of power supply
cable from PS0
—
—
Plug the AC power supply cables into the AC power source.
Turn on the AC breaker.
Turn the Standby switch to On (|) on the chassis.
The power supply LED illuminates green.
What to Do Next
This completes the procedure for connecting AC input power.
Removing AC Power Supply from the Cisco ASR 1001 Router
This section describes how to remove an AC power supply from the Cisco ASR 1001 Router. The Cisco ASR
1001 Router has two power supply slots, power supply slot 1 (PS1) next to the Standby switch and power
supply slot 0 (PS0) to the left, as shown in the following image.
Follow these steps to remove an AC power supply from the Cisco ASR 1001 router:
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Removing AC Power Supply from the Cisco ASR 1001 Router
SUMMARY STEPS
1. Unplug the power cable from the power source.
2. To remove the power cord from PS1, position the power supply cable in order to access the power supply
fasteners. Hold back the power supply cable in PS0, as shown in the following image, ensuring that you
do not unplug the power cable.
3. Continue to hold back the power supply cable in PS0, to gain access to the fastener. Unscrew both fasteners
on the power supply in slot 1.
4. After the power supply fasteners are loosened, grasp the handle with one hand, support the weight of the
power supply with the other hand, and pull the power supply out of the slot. The following image shows
how to remove the Cisco ASR 1001 Router AC power supply cables.
5. Repeat these steps to remove the AC power supply from Slot PS0.
DETAILED STEPS
Step 1
Step 2
Unplug the power cable from the power source.
To remove the power cord from PS1, position the power supply cable in order to access the power supply fasteners. Hold
back the power supply cable in PS0, as shown in the following image, ensuring that you do not unplug the power cable.
Figure 218: Positioning the AC Power Supply Cable in Slot PS0
Step 3
Continue to hold back the power supply cable in PS0, to gain access to the fastener. Unscrew both fasteners on the power
supply in slot 1.
Tip
The Cisco ASR 1001 power supplies are long and narrow. It is recommended that when you pull the power supply
out of the chassis, you support the power supply from the bottom with the other hand.
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Installing DC Input Power on the Cisco ASR 1001 Router
Step 4
After the power supply fasteners are loosened, grasp the handle with one hand, support the weight of the power supply
with the other hand, and pull the power supply out of the slot. The following image shows how to remove the Cisco ASR
1001 Router AC power supply cables.
Figure 219: Removing the Cisco ASR 1001 Router AC Power Supply Cables
Step 5
Repeat these steps to remove the AC power supply from Slot PS0.
What to Do Next
This completes the procedure of removing the AC power supply from the Cisco ASR 1001 Router.
Installing DC Input Power on the Cisco ASR 1001 Router
The Cisco ASR 1001 Router DC input connector is compatible with a pluggable Euro-style plug. The input
connector and plug must be UL recognized under UL 486 for field wiring. The connection polarity shall be
from left to right: negative (–), positive (+), and ground. See “Cisco ASR 1001 Router AC Power Supply and
DC Power Supply” figure in the Cisco ASR 1001 Router Power Supply Installation section.
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Installing DC Input Power on the Cisco ASR 1001 Router
The power supply has a handle, to assist in insertion and extraction. The module must be supported with one
hand because of its length. The following image shows the rear view of the Cisco ASR 1001 Router DC power
supply.
Figure 220: Cisco ASR 1001 Router DC Power Supply Rear View
1
DC power supply in slot
0
2
DC power supply in slot
1
This section describes how to install the DC power supply ground leads and input power leads to the Cisco
ASR 1001 Router DC input power supply. Before you begin, read these important notices:
• The color coding of the DC input power supply leads depends on the color coding of the DC power
source at your site. Typically, green or green/yellow is used for ground (GND), black is used for –48 V
on the negative (–) terminal, and red is used for RTN on the positive (+) terminal. Ensure that the lead
color coding you choose for the DC input power supply matches the lead color coding used at the DC
power source.
• Ensure that the chassis ground is connected on the chassis before you begin installing the DC power
supply. Follow the steps provided in the Attaching a Chassis Ground Connection, on page 438.
Warning
When you install a power supply unit, the ground connection should always be made first and disconnected
last. Statement 1046
To connect the DC power supply on the Cisco ASDR 1001 Router, follow these steps:
SUMMARY STEPS
1. Ensure that the chassis ground is connected on the chassis before you begin installing the DC power supply,
as described in the Attaching a Chassis Ground Connection, on page 438.
2. At the rear of the chassis, next to the power supply bay PS1, ensure that the power supply switch is in
Standby position.
3. Turn off the circuit breaker to the power supply.
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DETAILED STEPS
Step 1
Step 2
Step 3
Ensure that the chassis ground is connected on the chassis before you begin installing the DC power supply, as described
in the Attaching a Chassis Ground Connection, on page 438.
At the rear of the chassis, next to the power supply bay PS1, ensure that the power supply switch is in Standby position.
Turn off the circuit breaker to the power supply.
Wiring the DC Input Power Source
The Cisco ASR 1001 Router DC power supply has a connector plug that is installed into the power supply
terminal block header. The following figure shows a view of a DC power supply with a DC connector plug
inserted (no wires installed) into the power supply block header in power supply PS0 (on the left), and the
other power supply with no connector plug inserted into power supply PS1 (on the right).
Figure 221: Cisco ASR 1001 Router DC Power Supply Terminal Block With a Connector Plug in Slot 0 and Without a
Connector Plug in Slot 1
Note
Two types of DC connector plugs are supported for use with the DC power supply for the Cisco ASR
1001 Router. In one type of connector plug, the screw holes are raised above the connector plug body. In
the second type, the screw holes are not raised above the connector plug body. The figure in step 6 shows
the connector plug in which the screw holes are not raised. The only difference in the method for using
these two types of connector plugs is related to the wire-strip length, which is mentioned later in this
section.
Danger
When installing or replacing the unit, the ground connection must always be made first and disconnected
last. Statement 1046
Danger
This product relies on the building’s installation for short-circuit (overcurrent) protection. Ensure that the
protective device is rated not greater than: 120 VAC, 20A U.S. (240 VAC, 10A international). Statement
1005
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Danger
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Danger
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Use the information provided in this section to wire the DC input power source:
SUMMARY STEPS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
At the front of the router, ensure that the power switch is in the Standby position.
Move the circuit-breaker switch handle to the Off position, and apply tape to hold it in the Off position.
Gather the DC power supply terminal block plug.
Insert the lead wires before inserting the plug into the terminal block header on the DC power supply.
Use a 10 gauge wire-stripping tool to strip each of the three wires coming from the DC input power source.
If you are using the connector plug with the raised screw holes, strip the wires to 0.39 inch (10 mm) +
0.02 inch (0.5 mm). If you are using the connector plug with the screw holes that are not raised, strip the
wires to 0.27 inch (7 mm) + 0.02 inch (0.5 mm). Do not strip more than the recommended length of wire
because doing so could leave the wire exposed from the terminal block plug. The following figure shows
a stripped DC input power source wire.
Identify the positive, negative, and ground feed positions for the terminal block connection. The
recommended wiring sequence is:
Insert the exposed wire of one of the ground wire into the terminal block plug. Ensure that you cannot see
any wire lead. Only wires with insulation should extend from the terminal block.
Use a ratcheting torque screwdriver to torque the terminal block plug captive screw (above the installed
wire lead) to from 0.5 Nm (4.425 lbf in. to 0.6 Nm (5.310 lbf in.), as shown in the following figure.
Repeat Step 6 through Step 8 for the remaining two DC input power source wires, the positive lead wire
and the negative lead wire.
Use a tie wrap to secure the wires to the rack, so that the wires are not pulled from the terminal block plug
by casual contact. Make sure the tie wrap allows for some slack in the ground wire. The following figure
shows the DC terminal block plug inserted and the tie wrap secured.
Ensure that the terminal block plug is fully seated in the terminal block header on the DC power supply
panel. You will hear a snap or click when installed properly.
Remove the tape (if any) from the circuit breaker switch handle, and move the circuit breaker switch
handle to the On position.
At the rear of the router, place the power supply Standby switch in the On position to turn on the router.
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DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
At the front of the router, ensure that the power switch is in the Standby position.
Move the circuit-breaker switch handle to the Off position, and apply tape to hold it in the Off position.
Gather the DC power supply terminal block plug.
Insert the lead wires before inserting the plug into the terminal block header on the DC power supply.
Use a 10 gauge wire-stripping tool to strip each of the three wires coming from the DC input power source. If you are
using the connector plug with the raised screw holes, strip the wires to 0.39 inch (10 mm) + 0.02 inch (0.5 mm). If you
are using the connector plug with the screw holes that are not raised, strip the wires to 0.27 inch (7 mm) + 0.02 inch (0.5
mm). Do not strip more than the recommended length of wire because doing so could leave the wire exposed from the
terminal block plug. The following figure shows a stripped DC input power source wire.
Figure 222: Stripping the DC Input Power Source Wire
1
0.39 inch (10 mm) is the recommended wire-strip length
for the connector plug that has raised screw holes. 0.27
inch (7 mm) is the recommended wire-strip length for the
connector plug that does not have raised screw holes.
An exposed wire lead from a DC input power source can conduct harmful levels of electricity. Be sure that
no exposed portion of the DC input power source wire extends from the terminal block plug. Statement 122
Identify the positive, negative, and ground feed positions for the terminal block connection. The recommended wiring
sequence is:
Danger
Step 6
• Ground lead wire (right)
• Positive (+) lead wire (middle)
• Negative (–) lead wire (left)
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The following figure shows the DC power supply with lead wires.
Figure 223: DC Power Supply with Lead Wires
Step 7
1
Negative (–) lead wire
3
Ground lead wire
2
Positive (+) lead wire
—
—
Insert the exposed wire of one of the ground wire into the terminal block plug. Ensure that you cannot see any wire lead.
Only wires with insulation should extend from the terminal block.
Caution
Do not overtorque the terminal block plug captive screws. The recommended maximum torque is from 0.5
Nm (4.425 lbf in.) to 0.6 Nm (5.310 lbf in.).
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Step 8
Use a ratcheting torque screwdriver to torque the terminal block plug captive screw (above the installed wire lead) to
from 0.5 Nm (4.425 lbf in. to 0.6 Nm (5.310 lbf in.), as shown in the following figure.
Figure 224: Torquing the DC Power Supply Terminal Block Plug Screws
1
Step 9
Torque is from 0.5 Nm (4.425 lbf in.) to 0.6 Nm (5.310 lbf
in.)
Repeat Step 6 through Step 8 for the remaining two DC input power source wires, the positive lead wire and the negative
lead wire.
The following figure shows how to insert the DC power supply terminal block plug in the block header.
Figure 225: Inserting the DC Power Supply Terminal Block Plug in the Block Header
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1
DC power supply negative
(-) lead wire
3
DC power supply ground
lead wire
2
DC power supply positive
(+) lead wire
—
—
Caution
Step 10
Secure the wires coming in from the terminal block plug so that they cannot be disturbed by casual contact.
Use a tie wrap to secure the wires to the rack, so that the wires are not pulled from the terminal block plug by casual
contact. Make sure the tie wrap allows for some slack in the ground wire. The following figure shows the DC terminal
block plug inserted and the tie wrap secured.
Figure 226: Complete DC Terminal Block Plug Insertion and Secure Tie Wrap
1
Step 11
Step 12
Step 13
Lead wires secured with a
tie wrap
2
DC power supply terminal
block plug being inserted
into terminal block header.
Ensure that the terminal block plug is fully seated in the terminal block header on the DC power supply panel. You will
hear a snap or click when installed properly.
Remove the tape (if any) from the circuit breaker switch handle, and move the circuit breaker switch handle to the On
position.
At the rear of the router, place the power supply Standby switch in the On position to turn on the router.
The power supply LEDs light up when power is supplied to the router.
What to Do Next
This completes the procedure for connecting the DC power supply in the Cisco ASR 1001 Router.
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Removing DC Input Power from the Cisco ASR 1001 Router
This section describes how to remove a DC power supply from the Cisco ASR 1001 Router. Follow these
steps:
SUMMARY STEPS
1.
2.
3.
4.
Turn off the circuit breaker.
Pull the terminal block plug connector out of the terminal block head in the power supply.
Unscrew the two power supply fasteners on the unit.
Grasping the power supply handle with one hand, pull the power supply out of the chassis while supporting
it with the other hand.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Turn off the circuit breaker.
Pull the terminal block plug connector out of the terminal block head in the power supply.
Unscrew the two power supply fasteners on the unit.
Grasping the power supply handle with one hand, pull the power supply out of the chassis while supporting it with the
other hand.
What to Do Next
This completes the procedure for removing the DC power supply from the Cisco ASR 1001 Router.
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CHAPTER
13
Cisco ASR 1000 Series Routers Power Up and
Initial Configuration
This chapter guides you through a basic router configuration, which is sufficient for you to access your
network. Complex configuration procedures are beyond the scope of this publication and can be found in
the modular configuration and modular command reference publications in the Cisco IOS software
configuration documentation set that corresponds to the software release installed on your Cisco hardware.
To configure the Cisco ASR 1000 Series Router from a console, you need to connect a terminal to the router
console port.
This chapter contains the following sections:
• Checking Conditions Prior to System Startup, page 461
• Verifying Power Supply Operation, page 462
• Powering Up the Cisco ASR 1000 Series Routers, page 463
• Configuring the Cisco ASR 1000 Series Routers at Startup, page 467
• Powering Off the Cisco ASR 1000 Series Router Safely, page 470
Checking Conditions Prior to System Startup
Ensure that the following conditions are addressed before starting up the router:
• The shared port adapter is inserted in its slot.
• The network interface cable is connected.
• The optional Fast Ethernet Management port cable is installed.
• The chassis is securely mounted and grounded.
• The power and interface cables are connected
.
• Your PC with terminal emulation program (hyperTerminal or equivalent) is connected to the console
port and powered up.
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Verifying Power Supply Operation
• Your PC terminal emulation program is configured for 9600 baud, 8 data bits, 1 stop bit, no parity, and
flow control is set to none.
• You have selected passwords for access control.
• Captive installation screws are tight on all removable components.
• The console terminal is turned on.
• You have determined the IP addresses for the Ethernet and serial interfaces.
• Empty card slots or card bays are filled with card blanks. This ensures proper air flow through the chassis
and electromagnetic compatibility (EMC).
You are now ready to start your router.
Verifying Power Supply Operation
Follow this procedure to verify power supply is operating correctly.
SUMMARY STEPS
1. Check that the power supply LEDs are:
2. To ensure that the power supply state is OK, type the show platform command. This output sample is
from the Cisco ASR 1013 router. The other Cisco ASR 1000 routers display similar type of output.
DETAILED STEPS
Step 1
Check that the power supply LEDs are:
• INPUT OK is green
• FAN OK is green
• OUTPUT FAILED is not illuminated
Step 2
To ensure that the power supply state is OK, type the show platform command. This output sample is from the Cisco
ASR 1013 router. The other Cisco ASR 1000 routers display similar type of output.
The following output displays:
Example:
Router# show platform
Chassis type: ASR1013
Slot
Type
--------- ------------------0
ASR1000-SIP40
0/0
SPA-5X1GE-V2
0/1
SPA-5X1GE-V2
0/2
SPA-5X1GE-V2
0/3
SPA-5X1GE-V2
1
ASR1000-SIP40
1/0
SPA-5X1GE-V2
1/1
SPA-5X1GE-V2
1/2
SPA-5X1GE-V2
State
--------------------ok
ok
ok
ok
ok
ok
ok
ok
ok
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Insert time (ago)
----------------22:56:46
22:55:42
22:55:36
22:55:32
22:55:28
22:56:46
22:55:43
22:55:40
22:55:35
Cisco ASR 1000 Series Routers Power Up and Initial Configuration
Powering Up the Cisco ASR 1000 Series Routers
1/3
SPA-5X1GE-V2
2
ASR1000-SIP10
2/0
SPA-5X1GE-V2
2/1
SPA-5X1GE-V2
2/2
SPA-5X1GE-V2
2/3
SPA-5X1GE-V2
3
ASR1000-SIP40
3/0
SPA-3XOC3-ATM-V2
3/1
SPA-4X1FE-TX-V2
3/2
SPA-1XCHSTM1/OC3
3/3
SPA-8XCHT1/E1
4
ASR1000-SIP40
4/0
SPA-1X10GE-L-V2
4/1
SPA-2XCT3/DS0
4/2
SPA-2X1GE-V2
4/3
SPA-1XOC12-POS
5
ASR1000-SIP10
5/0
SPA-4XT-SERIAL
5/1
SPA-4XOC3-POS
5/2
SPA-5X1GE-V2
5/3
SPA-2XT3/E3
R0
ASR1000-RP2
R1
ASR1000-RP2
F0
ASR1000-ESP40
F1
ASR1000-ESP40
P0
ASR1013-PWR-AC
P1
ASR1013-PWR-AC
P2
ASR1013-PWR-AC
P3
ASR1013-PWR-AC
Slot
CPLD Version
--------- ------------------0
00200800
1
00200800
2
09111601
3
00200800
4
00200800
5
09111601
R0
10021901
R1
10021901
F0
1001270D
F1
1001270D
MCP_CAP_13RU#
ok
22:55:30
ok
22:56:46
ok
22:55:41
ok
22:55:33
ok
22:55:27
ok
22:55:22
ok
22:56:46
ok
22:55:43
ok
22:55:41
ok
22:55:35
ok
22:55:32
ok
22:56:46
ok
22:55:43
ok
22:55:41
ok
22:55:34
ok
22:55:32
ok
22:56:46
ok
22:55:39
ok
22:55:34
ok
22:55:26
ok
22:55:22
ok, active
22:56:46
ok, standby
22:56:46
ok, active
22:56:46
ok, standby
22:56:46
ps, fail
22:55:56
ok
22:55:56
ok
22:55:56
ps, fail
22:55:56
Firmware Version
--------------------------------------15.0(1r)S
15.0(1r)S
15.0(1r)S
15.0(1r)S
15.0(1r)S
15.0(1r)S
15.0(1r)S
15.0(1r)S
15.0(1r)S
15.0(1r)S
If the LEDs indicate a power problem or the power supply state is ps, fail, then contact a customer service representatives
for assistance or additional instructions.
Powering Up the Cisco ASR 1000 Series Routers
Make certain that all card slots and compartments are closed off. Install blank faceplates on any empty slots.
Always have power supply slots filled. If you leave a power supply slot uncovered, then you risk exposure
to hazardous voltages on the power pins on the midplane.
After installing your Cisco ASR 1000 Series Routers and connecting cables, start the router.
Warning
Blank faceplates and cover panels serve three important functions: they prevent exposure to hazardous
voltages and currents inside the chassis; they contain electromagnetic interference (EMI) that might disrupt
other equipment; and they direct the flow of cooling air through the chassis. Do not operate the system
unless all cards, faceplates, front covers, and rear covers are in place. Statement 1029
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Powering Up the Cisco ASR 1000 Series Routers
Note
There is no cover on the Cisco ASR 1002 Router and the Cisco ASR 1002-X Router DC power supply
terminal block; therefore, Statement 1029 does not apply to the Cisco ASR 1002 router.
You are now ready to power on the system for the first time. Follow these steps.
SUMMARY STEPS
1. Before you power on, make sure that:
2. Move the power switch to the ON position. Listen for the fans; you should immediately hear them operating.
3. Depending on your installation, some LEDs on the rear of the chassis and on installed modules also come
on.
4. Observe the initialization process. When the system boot is complete (the process takes a few seconds),
the Cisco ASR 1000 RP1 begins to initialize.
5. During the boot process, observe the system LEDs. The LEDs on the shared port adapter go on and off
in irregular sequence. They may go on, go out, and go on again for a short time. On the router, the green
STATUS LED comes on and stays on.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Before you power on, make sure that:
a) The AC cord is plugged into the AC power inlet.
b) All cables are connected.
c) Your computer is powered up and connected.
Note
To view the boot sequence, you must have a console connection to the Cisco ASR 1000 Series Routers
before it powers up.
Move the power switch to the ON position. Listen for the fans; you should immediately hear them operating.
Depending on your installation, some LEDs on the rear of the chassis and on installed modules also come on.
Caution
Do not press any keys on the keyboard until the messages stop and the SYS PWR LED is solid green. Any
keys pressed during this time are interpreted as the first command typed when the messages stop, which might
cause the router to power off and start over. It takes a few minutes for the messages to stop.
Note
This is only an example of what can display. The system boots differently depending upon the configuration
that ships with your system.
Observe the initialization process. When the system boot is complete (the process takes a few seconds), the Cisco ASR
1000 RP1 begins to initialize.
Example:
Loading the Default System Boot Image
rommon 1 >
rommon 1 > boot
Located rp_super.ppc.nader.5g.evfc.bin
Image size 211681484 inode num 12, bks cnt 51681 blk size 8*512
#######################################################################################
#############################################
Boot image size = 211681484 (0xc9e00cc) bytes
Using midplane macaddr
Package header rev 0 structure detected
Calculating SHA-1 hash...done
validate_package: SHA-1 hash:
calculated 479a7d62:6c128ba8:3616b8da:93cb3224:5c1aeb34
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expected
Image validated
479a7d62:6c128ba8:3616b8da:93cb3224:5c1aeb34
PPC/IOS XE loader version: 0.0.3
loaded at:
00800000 0D1E2004
zimage at:
00807673 009B8C69
initrd at:
009B9000 01006219
isord at:
01007000 0D1DF800
avail ram:
00400000 00800000
Kernel load:
Uncompressing image... dst: 00000000 lim: 00400000 start: 00807673 size: 001B15F6...done.
Now booting the IOS XE kernel
Restricted Rights Legend
Use, duplication, or disclosure by the Government is
subject to restrictions as set forth in subparagraph
(c) of the Commercial Computer Software - Restricted
Rights clause at FAR sec. 52.227-19 and subparagraph
(c) (1) (ii) of the Rights in Technical Data and Computer
Software clause at DFARS sec. 252.227-7013.
cisco Systems, Inc.
170 West Tasman Drive
San Jose, California 95134-1706
Router# show version
Cisco IOS Software, IOS-XE Software (PPC_LINUX_IOSD-ADVENTERPRISEK9-M), Version 12.2(33)XNA, RELEASE
SOFTWARE
Technical Support: http://www.cisco.com/techsupport
Copyright (c) 1986-2008 by Cisco Systems, Inc.
Compiled Thu 01-May-08 00:29 by mcpre
Cisco IOS-XE software, Copyright (c) 1986-2008 by Cisco Systems, Inc.
All rights reserved. Certain components of Cisco IOS-XE software are
licensed under the GNU General Public License ("GPL") Version 2.0. The
software code licensed under GPL Version 2.0 is free software that comes
with ABSOLUTELY NO WARRANTY. You can redistribute and/or modify such
GPL code under the terms of GPL Version 2.0. For more details, see the
documentation or "License Notice" file accompanying the IOS-XE software,
or the applicable URL provided on the flyer accompanying the IOS-XE
software.
A summary of U.S. laws governing Cisco cryptographic products may be found at:
http://www.cisco.com/wwl/export/crypto/tool/stqrg.html
If you require further assistance please contact us by sending email to
[email protected].
cisco ASR1002 (RP1) processor with 541737K/6147K bytes of memory.
4 Gigabit Ethernet interfaces
32768K bytes of non-volatile configuration memory.
1869396K bytes of physical memory.
7798783K bytes of eUSB flash at bootflash:.
--- System Configuration Dialog --Would you like to enter the initial configuration dialog? [yes/no]: no
Press RETURN to get started!
*Feb 19 17:34:27.361: % Error opening nvram:/ifIndex-table No such file or directory
*Feb 19 17:34:28.235: %ASR1000_MGMTVRF-6-CREATE_SUCCESS_INFO: Management vrf Mgmt-intf created with
ID 4085, ipv4 table-id 0xFF5, ipv6 table-id 0x1E000001
*Feb 19 17:34:29.720: %PARSER-4-BADCFG: Unexpected end of configuration file.
*Feb 19 17:34:29.809: %NETCLK-5-NETCLK_MODE_CHANGE: Network clock source not available. The network
clock has changed to freerun
*Feb 19 17:34:10.138: %CPPHA-7-SYSREADY: F0: cpp_ha: CPP client process FMAN-FP (5 of 5) ready.
*Feb 19 17:34:29.824: %LINK-3-UPDOWN: Interface GigabitEthernet0, changed state to up
*Feb 19 17:34:10.269: %IOSXE-6-PLATFORM: F0: cpp_cp: cpp_mlp_svr_client_bind: cpp_mlp_svr_ifm_init()
successful
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Verifying the Front Panel LEDs
*Feb 19 17:34:10.362: %CPPHA-7-START: F0: cpp_ha: CPP 0 preparing image /usr/cpp/bin/cpp-mcplo-ucode
*Feb 19 17:34:10.473: %CPPHA-7-START: F0: cpp_ha: CPP 0 startup init image
/usr/cpp/bin/cpp-mcplo-ucode
*Feb 19 17:34:14.688: %CPPHA-7-START: F0: cpp_ha: CPP 0 running init image
/usr/cpp/bin/cpp-mcplo-ucode
*Feb 19 17:34:14.919: %CPPHA-7-READY: F0: cpp_ha: CPP 0 loading and initialization complete
*Feb 19 17:34:14.919: %CPPHA-6-SYSINIT: F0: cpp_ha: CPP HA system configuration start.
*Feb 19 17:34:15.179: %IOSXE-6-PLATFORM: F0: cpp_cp: Process CPP_PFILTER_EA_EVENT__API_CALL__REGISTER
*Feb 19 17:34:15.286: %CPPHA-6-SYSINIT: F0: cpp_ha: CPP HA system enabled.
*Feb 19 17:34:15.287: %CPPHA-6-SYSINIT: F0: cpp_ha: CPP HA system initializaton complete.
*Feb 19 17:34:30.823: %LINEPROTO-5-UPDOWN: Line protocol on Interface GigabitEthernet0, changed state
to down
*Feb 19 17:35:12.865: %LINK-5-CHANGED: Interface GigabitEthernet0/0/0, changed state to
administratively down
*Feb 19 17:35:12.865: %LINK-5-CHANGED: Interface GigabitEthernet0/0/1, changed state to
administratively down
*Feb 19 17:35:12.865: %LINK-5-CHANGED: Interface GigabitEthernet0/0/2, changed state to
administratively down
*Feb 19 17:35:12.865: %LINK-5-CHANGED: Interface GigabitEthernet0/0/3, changed state to
administratively down
*Feb 19 17:35:13.865: %LINEPROTO-5-UPDOWN: Line protocol on Interface GigabitEthernet0/0/0, changed
state to down
*Feb 19 17:35:13.865: %LINEPROTO-5-UPDOWN: Line protocol on Interface GigabitEthernet0/0/1, changed
state to down
*Feb 19 17:35:13.866: %LINEPROTO-5-UPDOWN: Line protocol on Interface GigabitEthernet0/0/2, changed
state to down
*Feb 19 17:35:13.866: %LINEPROTO-5-UPDOWN: Line protocol on Interface GigabitEthernet0/0/3, changed
state to down
*Feb 19 17:35:19.167: %ASR1000_OIR-6-REMSPA: SPA removed from subslot 0/0, interfaces disabled
*Feb 19 17:35:19.171: %ASR1000_OIR-6-INSCARD: Card (fp) inserted in slot F0
*Feb 19 17:35:19.171: %ASR1000_OIR-6-ONLINECARD: Card (fp) online in slot F0
*Feb 19 17:35:19.187: %ASR1000_OIR-6-INSCARD: Card (cc) inserted in slot 0
*Feb 19 17:35:19.187: %ASR1000_OIR-6-ONLINECARD: Card (cc) online in slot 0
*Feb 19 17:35:19.189: %ASR1000_OIR-6-INSSPA: SPA inserted in subslot 0/0
*Feb 19 17:35:19.452: %SYS-5-RESTART: System restarted -Cisco IOS Software, IOS-XE Software (PPC_LINUX_IOSD-ADVENTERPRISEK9-M), Version 12.2(33)XNA, RELEASE
SOFTWARE
Technical Support: http://www.cisco.com/techsupport
Copyright (c) 1986-2008 by Cisco Systems, Inc.
Compiled Thu 20-Dec-07 18:10 by mcpre
*Feb 19 17:35:19.455: %SYS-6-BOOTTIME: Time taken to reboot after reload = 78809 seconds
*Feb 19 17:35:19.551: %CRYPTO-6-ISAKMP_ON_OFF: ISAKMP is OFF
*Feb 19 17:35:19.551: %CRYPTO-6-ISAKMP_ON_OFF: ISAKMP is OFF
*Feb 19 17:35:21.669: %DYNCMD-7-CMDSET_LOADED: The Dynamic Command set has been loaded from the Shell
Manager
*Feb 19 17:35:22.221: %CRYPTO-6-ISAKMP_ON_OFF: ISAKMP is OFF
Router>
Step 5
During the boot process, observe the system LEDs. The LEDs on the shared port adapter go on and off in irregular
sequence. They may go on, go out, and go on again for a short time. On the router, the green STATUS LED comes on
and stays on.
Verifying the Front Panel LEDs
The front-panel indicator LEDs provide power, activity, and status information useful during bootup. For
more detailed information about the LEDs, see Chapter2, “Cisco ASR 1000 Series Routers Component
Overview”.
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Verifying the Hardware Configuration
Verifying the Hardware Configuration
To display and verify the hardware features, enter the following commands:
• show version—Displays the system hardware version; the installed software version; the names and
sources of configuration files; the boot images; and the amount of installed DRAM, NVRAM, and flash
memory.
• show diag chassis—Displays the IDPROM information for the assemblies in the chassis.
• show diag slot/subslot—Displays the IDPROM information for the subassemblies in the chassis.
Checking Hardware and Software Compatibility
To check the minimum software requirements of the Cisco IOS software with the hardware installed on your
Cisco ASR 1000 Series Routers, Cisco maintains the Software Advisor tool on Cisco.com. This tool does not
verify whether Cisco ASR 1000 Series SIPs or SPAs within a system are compatible; but the tool provides
the minimum Cisco IOS requirements for individual hardware modules and components.
Note
To access this tool, you must have a Cisco.com login account.
To access the Software Advisor, click Login at Cisco.com, type Software Advisor in the search box, and
click Go. Click the link for the Software Advisor Tool.
Choose a product family or enter a specific product number to search for the minimum supported software
needed for your hardware.
Configuring the Cisco ASR 1000 Series Routers at Startup
This section explains how to create a basic running configuration for your Cisco ASR 1000 Series Routers.
Note
You need to acquire the correct network addresses from your system administrator or consult your network
plan to determine correct addresses before you can complete the router configuration.
Before continuing the configuration process, check the current state of the router by entering the show version
command. The show version command displays the release of Cisco IOS software that is available on the
router.
For information on modifying the configuration after you create it, see the Cisco IOS configuration and
command reference guides.
To configure a Cisco ASR 1000 Series Routers from the console, you must connect a terminal or terminal
server to the console port. To configure the Cisco ASR 1000 Series Routers over your management Ethernet,
you must have the router’s IP address available.
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Using the Console Interface
Using the Console Interface
To access the command line interface using the console, follow these steps:
SUMMARY STEPS
1.
2.
3.
4.
Your system is booting and if you answer No, at the prompt:
Then Press Return to enter user EXEC mode. The following prompt appears:
From user EXEC mode, enter the enable command as shown in the following example:
At the password prompt, enter your system password. If an enable password has not been set on your
system, this step may be skipped. The following example shows entry of the password called enablepass
:
5. When your enable password is accepted, the privileged EXEC mode prompt appears: Router#
6. You now have access to the CLI in privileged EXEC mode and you can enter the necessary commands
to complete your desired tasks. To exit the console session, enter the quit command as shown in the
following example:
DETAILED STEPS
Step 1
Your system is booting and if you answer No, at the prompt:
Example:
--- System Configuration Dialog --Would you like to enter the initial configuration dialog? [yes/no]: no
Step 2
Then Press Return to enter user EXEC mode. The following prompt appears:
Router>
Step 3
From user EXEC mode, enter the enable command as shown in the following example:
Router> enable
Step 4
At the password prompt, enter your system password. If an enable password has not been set on your system, this step
may be skipped. The following example shows entry of the password called enablepass :
Password: enablepass
Step 5
Step 6
When your enable password is accepted, the privileged EXEC mode prompt appears: Router#
You now have access to the CLI in privileged EXEC mode and you can enter the necessary commands to complete your
desired tasks. To exit the console session, enter the quit command as shown in the following example:
Router# quit
Configuring Global Parameters
When you first start the setup program, you must configure the global parameters. These parameters are used
for controlling system-wide settings. Perform the following steps to enter the global parameters:
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Configuring Global Parameters
SUMMARY STEPS
1. Connect a console terminal to the console port, and then boot the router.
2. The first sections of the configuration script appear only at an initial system startup. On subsequent uses
of the setup facility, the script begins with a System Configuration Dialog as shown below: When asked
if you would like to enter the initial configuration dialog, enter yes.
DETAILED STEPS
Step 1
Connect a console terminal to the console port, and then boot the router.
Note
This is only an example of the output display; prompts may
vary.
When you see this information, you have successfully booted your router:
Example:
Restricted Rights Legend
Use, duplication, or disclosure by the Government is
subject to restrictions as set forth in subparagraph
(c) of the Commercial Computer Software - Restricted
Rights clause at FAR sec. 52.227-19 and subparagraph
(c) (1) (ii) of the Rights in Technical Data and Computer
Software clause at DFARS sec. 252.227-7013.
cisco Systems, Inc.
170 West Tasman Drive
San Jose, California 95134-1706
.
.
.
--- System Configuration Dialog --Would you like to enter the initial configuration dialog? [yes/no]: yes
Press RETURN to get started!
Step 2
The first sections of the configuration script appear only at an initial system startup. On subsequent uses of the setup
facility, the script begins with a System Configuration Dialog as shown below: When asked if you would like to enter
the initial configuration dialog, enter yes.
Example:
Would you like to enter the initial configuration dialog? [yes/no] yes
At any point you may enter a question mark '?' for help.
Use ctrl-c to abort configuration dialog at any prompt.
Default settings are in square brackets '[]'.
Basic management setup configures only enough connectivity for management of the system, extended
setup will ask you to configure each interface on the system.
Note
Basic management setup configures enough connectivity for managing the system; extended setup will ask you
to configure each interface on the system. For detailed information about setting global parameters, refer to the
Cisco ASR 1000_Series Aggregation Services Routers Software Configuration Guide.
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Checking the Running Configuration Settings
Checking the Running Configuration Settings
To check the value of the settings you have entered, enter the show running-config command at the Router#
prompt:
Router# show running-config
To review changes you make to the configuration, use the EXEC mode show startup-config command to
see the changes and copy run-start stored in NVRAM.
Saving the Running Configuration to NVRAM
To store the configuration or changes to your startup configuration in NVRAM, run the copy running-config
startup-config command:
Router# copy running-config startup-config
Using this command saves the configuration settings that you created in the router using configuration mode
and the setup facility. If you fail to do this, your configuration will be lost the next time you reload the router.
If you are using the Cisco ASR 1013 Router, see the caution notice in the Powering Off the Cisco ASR 1000
Series Router Safely, on page 470.
Powering Off the Cisco ASR 1000 Series Router Safely
This section explains how to shut down the Cisco ASR 1000 Series Router. It is recommended that before
turning off all power to the chassis, you issue the reload command. This insures that the operating system
cleans up all the file systems. After the reload operation is complete, then the Cisco ASR 1000 Series Router
can be powered off safely.
Caution
If you are going to power cycle a Cisco ASR 1013 Router, we recommend that you first perform a graceful
reload on the router. Power cycling the router without first performing a graceful reload might cause a
loss of data stored in the NVRAM. In other words, the configuration file might be lost. Note that this is
not observed when a power failure occurs because each active power supply in the two power supply
zones is power cycled at the same time during a power failure. If there is a chance that the router might
be power cycled without a graceful reload, we recommend that you use the boot config
file-system:configuration-file nvbypass command to specify a file system other than the NVRAM for
storing the configuration file. The following are examples:Router(config)# boot config
harddisk:config_file.cfg nvbypassRouter(config)# boot config bootflash:configuration_data.cfg
nvbypass
To remove power from the Cisco ASR 1000 Series Router safely, follow this procedure and see the examples:
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Powering Off the Cisco ASR 1000 Series Router Safely
SUMMARY STEPS
1. Slip on the ESD-preventive wrist strap that was included in the accessory kit.
2. Enter the reload command.
3. Confirm the reload command.
4. After confirming the reload command, wait until the system bootstrap message displays before powering
off the system.
5. Remove any power cables from the Cisco ASR 1000 Series Router.
DETAILED STEPS
Step 1
Step 2
Slip on the ESD-preventive wrist strap that was included in the accessory kit.
Enter the reload command.
Step 3
Confirm the reload command.
Example:
Router# reload
Proceed with reload? [confirm]
Aug 17 00:06:47.051 R0/0: %PMAN-5-EXITACTION: Process manager is exiting: prs exit with reload chassis
code
Step 4
After confirming the reload command, wait until the system bootstrap message displays before powering off the system.
Example:
System Bootstrap, Version 12.2(33r)XN2, RELEASE SOFTWARE (fc1)
Technical Support: tap://www.cisco.com/techsupport
Copyright (c) 2008 by cisco Systems, Inc.
Current image running: Boot ROM0
Last reset cause: LocalSoft
ASR1000-RP1 platform with 4194303 Kbytes of main memory
mcp-6ru-1-rp0-rommon 1>
Step 5
Remove any power cables from the Cisco ASR 1000 Series Router.
a) For power supplies with a circuit breaker switch, position the switch to the Off (O) position.
b) For power supplies with a Standby switch, place the Standby switch in the Standby position.
Note
After powering off the router, wait a minimum of 30 seconds before powering it on again.
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Powering Off the Cisco ASR 1000 Series Router Safely
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CHAPTER
14
Removing and Replacing FRUs from the Cisco
ASR 1000 Series Routers
This chapter describes procedures for removing and replacing field-replaceable units (FRUs) from Cisco
ASR 1000 Series Routers:
• Removing and Replacing Cisco ASR 1000 Series Route Processors, page 474
• Removing and Replacing Cisco ASR 1000 Series Route Processor Internal Hard Drive, page 476
• Removing and Replacing the Hard Drive on the Cisco ASR 1002-X Router, page 487
• Removing and Replacing the Hard Drive on the Cisco ASR 1001 Router, page 491
• Removing and Replacing the Cisco ASR 1000 Series DIMM Memory Modules, page 494
• Removing and Replacing Cisco ASR 1000 Router eUSB Devices, page 519
• Removing and Replacing Cisco ASR 1000 Series Router 1 GB USB Flash Token Memory Stick, page
527
• Minimum Requirements of eUSB Devices Supported on Cisco ASR 1000 Series Routers, page 529
• Removing and Replacing Cisco ASR 1000 Series Embedded Service Processors, page 531
• Removing and Replacing Cisco ASR 1000 Series Router SPAs and SPA Interface Processors, page
533
• Removing and Replacing the Cisco ASR 1006 Router Power Supplies, page 538
• Removing and Replacing the Cisco ASR 1004 Router Power Supplies, page 555
• Removing and Replacing the Cisco ASR 1002 Router Power Supplies, page 565
• Removing and Replacing the Cisco ASR 1013 Router Power Supplies, page 587
• Removing and Replacing the Cisco ASR 1001 Router Power Supplies, page 598
• Repacking the Router, page 612
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Removing and Replacing FRUs from the Cisco ASR 1000 Series Routers
Removing and Replacing Cisco ASR 1000 Series Route Processors
Removing and Replacing Cisco ASR 1000 Series Route
Processors
Keep in mind the following points before you remove and replace a Cisco ASR 1000 Series route processor:
• The Cisco ASR 1002 Router and the Cisco ASR 1002-F Router support only the integrated Cisco
ASR1002-RP1.
• If you have two Cisco ASR 1000 Series route processors in the Cisco ASR 1006 or Cisco ASR 1013
router and you want to remove one, do not power down the router. Remove the route processor and
insert a new one because high availability provides for the other route processor to take on the processing
tasks for the router.
• The Cisco ASR 1001 Router and the Cisco ASR 1002-X Router support an integrated route processor,
embedded services processor, and SIP.
The following sections describe the procedures for removing and replacing the Cisco ASR 1000 Series RP1
and Cisco ASR1000-RP2 in your Cisco ASR 1000 chassis. This section contains these topics:
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Warning
During this procedure, wear grounding wrist straps to avoid ESD damage to any card. Do not directly
touch the backplane with your hand or any metal tool, or you could shock yourself. Statement 94
Removing the Cisco ASR 1000 Series Route Processor from the Cisco ASR
1006, Cisco ASR 1004, and Cisco ASR 1013 Routers
To remove the Cisco ASR 1000 Series route processor (RP1 or RP2) from the Cisco ASR 1006 Router, Cisco
ASR 1004 Router and Cisco ASR 1013 Router, follow this procedure:
SUMMARY STEPS
1. Slip on an ESD-preventive wrist strap and attach it to a chassis surface.
2. If connected, remove any I/O cables from the Cisco ASR 1000 Series route processor.
3. Using a number 2 Phillips or a 3/16-inch flat-blade screwdriver, loosen the two captive screws on the
faceplate of the Cisco ASR 1000 Series route processor.
4. Using the handles on both sides of the module, with two hands gently slide the module out of the chassis
slot.
5. Place the Cisco ASR 1000 Series route processor module on an antistatic surface with its printed circuit
board components facing upward or in a static shielding bag.
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Replacing the Cisco ASR 1000 Series Route Processor in the Cisco ASR 1006, Cisco ASR 1004, and Cisco ASR 1013
Routers
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Slip on an ESD-preventive wrist strap and attach it to a chassis surface.
If connected, remove any I/O cables from the Cisco ASR 1000 Series route processor.
Using a number 2 Phillips or a 3/16-inch flat-blade screwdriver, loosen the two captive screws on the faceplate of the
Cisco ASR 1000 Series route processor.
Using the handles on both sides of the module, with two hands gently slide the module out of the chassis slot.
Warning
Handle the Cisco ASR 1000 Series route processor by the carrier edges only; never touch the printed circuit
board components or connector pins.
Place the Cisco ASR 1000 Series route processor module on an antistatic surface with its printed circuit board components
facing upward or in a static shielding bag.
Note
If you are returning the Cisco ASR 1000 route processor to the factory, immediately place it in a static shielding
bag.
What to Do Next
This completes the procedure for removing an installed Cisco ASR 1000 Series route processor from the
Cisco ASR 1006, Cisco ASR 1004, and Cisco ASR 1013 Router.
Replacing the Cisco ASR 1000 Series Route Processor in the Cisco ASR 1006,
Cisco ASR 1004, and Cisco ASR 1013 Routers
To replace the Cisco ASR 1000 Series route processor (RP1 or RP2) in the Cisco ASR 1006, Cisco ASR
1004, and Cisco ASR 1013 Routers, follow this procedure:
SUMMARY STEPS
1. Attach an ESD-preventive wrist strap between you and an unfinished chassis surface.
2. Remove the new Cisco ASR 1000 series route processor from its static shielding bag.
3. Using both hands, grasp the Cisco ASR 1000 Series route processor by its metal carrier edges and orient
the it so that its printed circuit board components are upward.
4. Align the left and right edges of the Cisco ASR 1000 Series route processor printed circuit board between
the route processor slot guides.
5. Gently slide the Cisco ASR 1000 Series route processor all the way into its chassis slot until you feel the
connectors seat with the router midplane.
6. Seat the route processor in the router midplane by tightening its captive installation screws with a number
2 Phillips or a 3/16-inch flat-blade screwdriver.
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Removing and Replacing Cisco ASR 1000 Series Route Processor Internal Hard Drive
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Attach an ESD-preventive wrist strap between you and an unfinished chassis surface.
Remove the new Cisco ASR 1000 series route processor from its static shielding bag.
Using both hands, grasp the Cisco ASR 1000 Series route processor by its metal carrier edges and orient the it so that
its printed circuit board components are upward.
Caution
Handle the Cisco ASR 1000 Series route processor by the carrier edges and handle only; never touch the
printed circuit board components or connector pins.
Align the left and right edges of the Cisco ASR 1000 Series route processor printed circuit board between the route
processor slot guides.
Gently slide the Cisco ASR 1000 Series route processor all the way into its chassis slot until you feel the connectors seat
with the router midplane.
Seat the route processor in the router midplane by tightening its captive installation screws with a number 2 Phillips or
a 3/16-inch flat-blade screwdriver.
What to Do Next
This completes the procedure for replacing the Cisco ASR 1000 Series route processor in a Cisco ASR 1006
and Cisco ASR 1004 Router.
Removing and Replacing Cisco ASR 1000 Series Route Processor
Internal Hard Drive
Cisco ASR 1000 Series Routers support the Cisco ASR1000-RP1 and the Cisco ASR1000-RP2 route processors.
This section contains the following topics:
Cisco ASR1000-RP1 Spare Hard Drive Accessory Kit
The Cisco ASR 1000 Series RP1 spare hard drive ships with an accessory kit.Verify that the following items
have been shipped in the accessory kit before you remove and replace a damaged Cisco ASR 1000 Series
RP1 module internal hard drive:
• Hard drive assembly
• Two cables
• Tie wrap
• One EMI wrist strap
Follow these procedures to remove and then replace the Cisco ASR1000- RP1 internal hard drive in the Cisco
ASR 1006 and Cisco ASR 1004 Router.
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Removing and Replacing the Cisco ASR1000-RP1 Module Internal Hard Drive
Warning
During this procedure, wear grounding wrist straps to avoid ESD damage to the card. Do not directly
touch the backplane with your hand or any metal tool, or you could shock yourself. Statement 94
Before you begin, read the following important notices:
• The Cisco ASR1000-RP1 requires an OIR (shutdown).
• The reason you would be removing an internal hard drive is that it is failing or failed; so any data recovery
may be lost.
• If the drive is functioning, you can back it up to a drive plugged into a USB port using the archive tar
command.
• To restore the backup copy from an external USB flash memory stick plugged into a USB port to the
internal hard drive, type in:
archive tar /xtract usb0:asr1000.tar harddisk
• Verify that the internal hard drive installation was successful
Removing and Replacing the Cisco ASR1000-RP1 Module Internal Hard Drive
The Cisco ASR 1000 Series route processor (RP1) contains an internal hard drive disk that provides nonvolatile
storage in the form of an internal flash disk. The Cisco ASR 1000 Series RP1 module can be configured with
either a 40 GB or a 32 GB disk. Both components are field-replaceable on the Cisco ASR 1006 Router and
the Cisco ASR 1004 Router (there is no hard disk in the Cisco ASR 1002 Router). On the front panel of the
Cisco ASR 1000 Series RP, the DISK HD LED indicates activity on the hard drive.
This section explains how to remove a hard drive assembly from the Cisco ASR1000-RP1 module and replace
it with a new internal hard drive.
Removing the Cisco ASR1000-RP1 Internal Hard Drive
To remove the Cisco ASR1000-RP1 from the Cisco ASR 1000 Series Router, follow this procedure:
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Removing and Replacing the Cisco ASR1000-RP1 Module Internal Hard Drive
SUMMARY STEPS
1. Slip on the ESD-preventive wrist strap that was included in the accessory kit. Loosen the screw fasteners
on the Cisco ASR 1000 Series RP1 module.
2. Using the handles on both sides of the module, with two hands gently slide the Cisco ASR1000-RP1 out
of the chassis.
3. Place the module on a flat surface free of dust and dirt.
4. Remove the internal hard drive cover:
5. Remove the internal drive cover:
6. Inspect the existing cables and replace them only if they are damaged. If you do not need to replace them,
leave the connection to the Cisco ASR 1000 Series Route Processor 1 in place and only remove the
connection to the internal hard drive.
7. Carefully disconnect the cables at the rear of the hard drive. These cables are tie-wrapped in to prevent
them from disconnecting from the Cisco ASR 1000 Series RP1 itself. If the cables are not damaged, leave
the cables connected to the Cisco ASR 1000 Series RP1 with the tie wrap in place. Remove the old hard
drive.
8. If the cables are damaged:
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Slip on the ESD-preventive wrist strap that was included in the accessory kit. Loosen the screw fasteners on the Cisco
ASR 1000 Series RP1 module.
Using the handles on both sides of the module, with two hands gently slide the Cisco ASR1000-RP1 out of the chassis.
Place the module on a flat surface free of dust and dirt.
Remove the internal hard drive cover:
1 Unscrew the fasteners.
2 Slide the cover off.
3 Lift the cover up from the board.
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Removing and Replacing the Cisco ASR1000-RP1 Module Internal Hard Drive
The following figure shows the Cisco ASR1000RP1 module internal hard drive unit.
Figure 227: Cisco ASR1000RP1 Module Internal Hard Drive Unit
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Removing and Replacing FRUs from the Cisco ASR 1000 Series Routers
Removing and Replacing the Cisco ASR1000-RP1 Module Internal Hard Drive
The following figure shows the Cisco ASR1000-RP1 module with the hard drive cover removed.
Figure 228: Cisco ASR1000-RP1 Module Hard Drive Cover and Screw Fastener
Step 5
Remove the internal drive cover:
a) Using a # 2 Phillips screwdriver or a flat head screwdriver, loosen the screw fasteners on the cover.
b) Slide the cover off as shown in xref Figure 14-2.
c) Lift the cover up from the board.
Step 6
Inspect the existing cables and replace them only if they are damaged. If you do not need to replace them, leave the
connection to the Cisco ASR 1000 Series Route Processor 1 in place and only remove the connection to the internal hard
drive.
Carefully disconnect the cables at the rear of the hard drive. These cables are tie-wrapped in to prevent them from
disconnecting from the Cisco ASR 1000 Series RP1 itself. If the cables are not damaged, leave the cables connected to
the Cisco ASR 1000 Series RP1 with the tie wrap in place. Remove the old hard drive.
Step 7
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Removing and Replacing the Cisco ASR1000-RP1 Module Internal Hard Drive
The following figure shows the cables still connected because they do not have to be replaced.
Figure 229: Cisco ASR1000-RP1 Module With Internal Hard Drive Removed
Step 8
If the cables are damaged:
a) Remove the tie wrap around the cables.
b) Disconnect the cables from both the Cisco ASR 1000 Series Route Processor 1 connector and the internal hard drive
connector as shown in the following figure.
Figure 230: Cisco ASR1000-RP1 Module Internal Hard Drive and Module Base
This completes the procedure for disconnecting the Cisco ASR 1000 Series RP internal hard drive.
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Removing and Replacing the Cisco ASR1000-RP1 Module Internal Hard Drive
Replacing the Cisco ASR1000-RP1 Internal Hard Drive
To replace the Cisco ASR1000-RP1 internal hard drive and insert the Cisco ASR 1000 Series Route Processor
1 into the Cisco ASR 1000 Series Router, follow these steps:
SUMMARY STEPS
1. On the Cisco ASR1000-RP1, carefully align the new hard drive unit with its screw fastener to the base
screw on the bottom of the module.
2. Reconnect the two cables to the rear of the hard drive. These are keyed for easy connection.
3. Align hard drive module to carrier base tabs, align the module fastener to base screw mate by hand, and
then tighten with screw driver.
4. Replace the cover by aligning the tabs in the slot and tightening the screw fasteners.
5. With two hands, grab the handles on the Cisco ASR1000-RP1 module and slide it back into its slot in the
Cisco ASR 1000 Series Router and tighten the captive screw.
DETAILED STEPS
Step 1
Step 2
On the Cisco ASR1000-RP1, carefully align the new hard drive unit with its screw fastener to the base screw on the
bottom of the module.
Reconnect the two cables to the rear of the hard drive. These are keyed for easy connection.
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Removing and Replacing the Cisco ASR1000-RP1 Module Internal Hard Drive
The following figure shows the Cisco ASR1000-RP1 module internal hard drive and module base.
Figure 231: Cisco ASR1000-RP1 Module Internal Hard Drive and Module Base
1
Step 3
Step 4
Step 5
Hard drive module fastener 2
Carrier mating fastener
Align hard drive module to carrier base tabs, align the module fastener to base screw mate by hand, and then tighten
with screw driver.
Replace the cover by aligning the tabs in the slot and tightening the screw fasteners.
With two hands, grab the handles on the Cisco ASR1000-RP1 module and slide it back into its slot in the Cisco ASR
1000 Series Router and tighten the captive screw.
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Removing and Replacing the Cisco ASR1000-RP2 Module Internal Hard Drive
Removing and Replacing the Cisco ASR1000-RP2 Module Internal Hard Drive
This section explains how to remove a hard drive assembly from the Cisco ASR 1000 Series RP2 module and
replace it with a new internal hard drive.
Warning
During this procedure, wear grounding wrist straps to avoid ESD damage to the card. Do not directly
touch the backplane with your hand or any metal tool, or you could shock yourself. Statement 94
Before you begin, read the following important notices:
• The form-factor internal hard drive is accessible from the front panel of the Cisco ASR1000-RP2 and
supports the online insertion and removal feature (OIR) using the following CLI commands for the
standby and active RP2:
◦request platform hardware filesystem harddisk: offline (Unmounts the hard disk on the active
RP2.)
◦request platform hardware filesystem harddisk: online (Mounts the hard disk on the active
RP2.) If the disk is not provisioned properly, this command will provision the disk.
◦request platform hardware filesystem stby-harddisk: offline (Unmounts the hard disk on the
standby RP2.)
◦request platform hardware filesystem stby-harddisk: online (Mounts the hard disk on the
standby RP2. If the disk is not provisioned properly, this command will provision the disk.)
• The reason you would be removing an internal hard drive is that it is failing or failed; so any data recovery
may be lost.
• If the drive is functioning, you can back it up to a drive plugged into a USB port using the archive tar
command.
Removing the Cisco ASR1000-RP2 Internal Hard Drive
To remove the Cisco ASR1000-RP2 internal hard drive from the Cisco ASR 1006 Router and Cisco ASR
1004 Router, follow this procedure:
SUMMARY STEPS
1. Run the request platform hardware filesystem harddisk: offline command.
2. Slip on an ESD-preventive wrist strap.
3. From the front panel of the Cisco ASR1000-RP2, unscrew the fastener screw (see the following figure).
4. Pull the internal hard drive out as shown in the following figure.
5. Place the component in an antistatic bag if you are returning it.
6. Wait until the following console message is displayed:
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DETAILED STEPS
Step 1
Run the request platform hardware filesystem harddisk: offline command.
Step 2
Step 3
Slip on an ESD-preventive wrist strap.
From the front panel of the Cisco ASR1000-RP2, unscrew the fastener screw (see the following figure).
Figure 232: Cisco ASR1000-RP2 Front Panel
1
Internal hard drive fastener
screw
2
Internal hard drive
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Step 4
Pull the internal hard drive out as shown in the following figure.
Figure 233: Cisco ASR1000-RP2 Internal Hard Drive
1
Step 5
Step 6
Internal hard drive fastener
screw location
2
Internal hard drive
Place the component in an antistatic bag if you are returning it.
Wait until the following console message is displayed:
Example:
%IOSXE-0-PLATFORM: R0/0: udev: harddisk: has been removed
What to Do Next
You have successfully removed the Cisco ASR1000-RP2 hard drive.
Replacing the Cisco ASR1000-RP2 Internal Hard Drive
To replace the Cisco ASR1000-RP2 internal hard drive and insert the Cisco ASR1000-RP 2 into the Cisco
ASR 1000 Series Router, follow these steps:
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SUMMARY STEPS
1. Carefully slide the internal hard drive unit into the Cisco ASR1000-RP2 faceplate slot. The component is
keyed for easy insertion.
2. Tighten the fastener screw on the front panel.
3. Wait until the following console message is displayed:
4. Verify the disk is working by running: dir harddisk
DETAILED STEPS
Step 1
Step 2
Step 3
Carefully slide the internal hard drive unit into the Cisco ASR1000-RP2 faceplate slot. The component is keyed for easy
insertion.
Tighten the fastener screw on the front panel.
Wait until the following console message is displayed:
Example:
%IOSXE-0-PLATFORM: R0/0: udev: harddisk: file system ready” appears.
If, after several minutes, the above message is not displayed, run:
request platform hardware filesystem harddisk: online
The only reason the system would not be able to automatically mount the new hard disk following a physical
insertion is if the disk is not partitioned correctly.
Verify the disk is working by running: dir harddisk
Note
Step 4
What to Do Next
You have completed the steps required to replace the Cisco ASR1000-RP2 internal hard drive.
Removing and Replacing the Hard Drive on the Cisco ASR 1002-X
Router
The Cisco ASR 1002-X Router supports an optional removable hard drive. This section explains how to
remove and replace this hard drive.
Warning
During this procedure, wear grounding wrist straps to avoid ESD damage to the card. Do not directly
touch the backplane with your hand or any metal tool, or you could shock yourself. Statement 94
Before you begin, read the following important notices:
• The hard drive is accessible from the front panel of the router and supports the online insertion and
removal feature (OIR) using the following CLI commands:
◦request platform hardware filesystem harddisk: offline (unmounts the hard disk)
◦request platform hardware filesystem harddisk: online (mounts the hard disk.)
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• The reason you may be removing an internal hard drive is that it is failing or failed; so any data recovery
may be lost.
• If the drive is functioning, you can back it up to a drive plugged into a USB port using the archive tar
command.
Removing the Hard Drive from the Cisco ASR 1002-X Router
To remove the hard drive from the Cisco ASR 1002-X Router, follow this procedure:
SUMMARY STEPS
1. Run the request platform hardware filesystem harddisk: offline command.
2. Slip on an ESD-preventive wrist strap.
3. From the front panel of the router, unscrew the fastener screws by using a # 2 Phillips screwdriver or a
flat head screwdriver (see xref Figure 14-6).
4. Pull the hard drive out as shown in xref Figure 14-7.
5. Place the hard drive in an antistatic bag if you are returning it.
6. Wait until the following console message is displayed:
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DETAILED STEPS
Step 1
Run the request platform hardware filesystem harddisk: offline command.
Step 2
Step 3
Slip on an ESD-preventive wrist strap.
From the front panel of the router, unscrew the fastener screws by using a # 2 Phillips screwdriver or a flat head screwdriver
(see xref Figure 14-6).
Figure 234: Cisco ASR1002-X Router Front Panel
1
Internal hard drive fastener
screw
2
Internal hard drive
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Step 4
Pull the hard drive out as shown in xref Figure 14-7.
Figure 235: Cisco ASR1002-X Router Hard Drive
1
Step 5
Step 6
Hard drive fastener screw
location
2
Hard drive
Place the hard drive in an antistatic bag if you are returning it.
Wait until the following console message is displayed:
Example:
%IOSXE-0-PLATFORM: R0/0: udev: harddisk: has been removed
What to Do Next
You have successfully removed the hard drive from the Cisco ASR 1002-X Router.
Replacing the Hard Drive on the Cisco ASR 1002-X Router
To insert or replace the hard drive on the Cisco ASR 1002-X Router, follow this procedure:
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Removing and Replacing the Hard Drive on the Cisco ASR 1001 Router
SUMMARY STEPS
1.
2.
3.
4.
Carefully slide the hard drive unit into the slot on the front panel. The component is keyed for easy insertion.
Tighten the fastener screw on the front panel by using a # 2 Phillips screwdriver or a flat head screwdriver.
Wait until the following console message is displayed:
Verify that the hard drive is working by running the following command:
DETAILED STEPS
Step 1
Step 2
Step 3
Carefully slide the hard drive unit into the slot on the front panel. The component is keyed for easy insertion.
Tighten the fastener screw on the front panel by using a # 2 Phillips screwdriver or a flat head screwdriver.
Wait until the following console message is displayed:
Example:
%IOSXE-0-PLATFORM: R0/0: udev: harddisk: file system ready” appears.
If this message is not displayed after a few minutes, run the following command:
request platform hardware filesystem harddisk: online
Note
Step 4
If the new hard drive system does not get mounted automatically, the disk may not be partitioned correctly.
Verify that the hard drive is working by running the following command:
dir harddisk
What to Do Next
You have successfully replaced the hard drive on the Cisco ASR 1002-X Router.
Removing and Replacing the Hard Drive on the Cisco ASR 1001
Router
The Cisco ASR 1001 Router supports an optional removable hard drive. This section explains how to remove
and replace this hard drive.
Warning
During this procedure, wear grounding wrist straps to avoid ESD damage to the card. Do not directly
touch the backplane with your hand or any metal tool, or you could shock yourself. Statement 94
Before you begin, read the following important notices:
• The hard drive is accessible from the front panel of the router and supports the online insertion and
removal feature (OIR) using the following CLI commands:
◦request platform hardware filesystem harddisk: offline (unmounts the hard disk)
◦request platform hardware filesystem harddisk: online (mounts the hard disk.)
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• The reason you may be removing an internal hard drive is that it is failing or failed; so any data recovery
may be lost.
• If the drive is functioning, you can back it up to a drive plugged into a USB port using the archive tar
command.
Removing the Hard Drive from the Cisco ASR 1001 Router
To remove the hard drive from the Cisco ASR 1001 Router, follow this procedure:
SUMMARY STEPS
1. Run the request platform hardware filesystem harddisk: offline command.
2. Slip on an ESD-preventive wrist strap.
3. From the front panel of the router, unscrew the fastener screws by using a # 2 Phillips screwdriver or a
flat head screwdriver (see xref Figure 14-6).
4. Pull the hard drive out as shown in xref Figure 14-7.
5. Place the hard drive in an antistatic bag if you are returning it.
6. Wait until the following console message is displayed:
DETAILED STEPS
Step 1
Run the request platform hardware filesystem harddisk: offline command.
Step 2
Step 3
Slip on an ESD-preventive wrist strap.
From the front panel of the router, unscrew the fastener screws by using a # 2 Phillips screwdriver or a flat head screwdriver
(see xref Figure 14-6).
Figure 236: Cisco ASR1001 Router Front Panel
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1
Step 4
Internal hard drive fastener
screw
2
Internal hard drive
2
Hard drive
Pull the hard drive out as shown in xref Figure 14-7.
Figure 237: Cisco ASR1001 Router Hard Drive
1
Step 5
Step 6
Hard drive fastener screw
location
Place the hard drive in an antistatic bag if you are returning it.
Wait until the following console message is displayed:
Example:
%IOSXE-0-PLATFORM: R0/0: udev: harddisk: has been removed
What to Do Next
You have successfully removed the hard drive from the Cisco ASR 1001 Router.
Replacing the Hard Drive on the Cisco ASR 1001 Router
To insert or replace the hard drive on the Cisco ASR 1001 Router, follow this procedure:
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SUMMARY STEPS
1.
2.
3.
4.
Carefully slide the hard drive unit into the slot on the front panel. The component is keyed for easy insertion.
Tighten the fastener screw on the front panel by using a # 2 Phillips screwdriver or a flat head screwdriver.
Wait until the following console message is displayed:
Verify that the hard drive is working by running the following command:
DETAILED STEPS
Step 1
Step 2
Step 3
Carefully slide the hard drive unit into the slot on the front panel. The component is keyed for easy insertion.
Tighten the fastener screw on the front panel by using a # 2 Phillips screwdriver or a flat head screwdriver.
Wait until the following console message is displayed:
Example:
%IOSXE-0-PLATFORM: R0/0: udev: harddisk: file system ready” appears.
If this message is not displayed after a few minutes, run the following command:
request platform hardware filesystem harddisk: online
Note
Step 4
If the new hard drive system does not get mounted automatically, the disk may not be partitioned correctly.
Verify that the hard drive is working by running the following command:
dir harddisk
What to Do Next
You have successfully replaced the hard drive on the Cisco ASR 1001 Router.
Removing and Replacing the Cisco ASR 1000 Series DIMM
Memory Modules
Cisco ASR 1000 Series Routers support the Cisco ASR1000-RP1 and the Cisco ASR1000-RP2 route processor
DIMM memory modules for system DRAM. This section describes how to replace the DIMMs on the Cisco
ASR1000-RP1, the Cisco ASR1000-RP2 route processors, the Cisco ASR 1001, and the Cisco ASR 1002-X
routers.
The following table shows the Cisco ASR1000-RP1 and Cisco ASR1000-RP2 memory design.
Table 89: Cisco ASR 1000 Series Route Processor Memory Support
Cisco ASR1000-RP1
Cisco ASR1000-RP2
Supports up to 4 GB memory
Supports up to 16 GB memory
• 1 GB (2 GB) miniDIMMs
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• 4 GB dual rank VLP DIMMs
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Cisco ASR1000-RP1
• DDR-533
—
Cisco ASR1000-RP2
• Up to 4 DIMMs with up to two DIMMs per
channel
• Allowable memory options of 4 GB, 8 GB, or
16 GB
—
• DDR-667
You might need to upgrade the DIMM for the following reasons:
• You have upgraded to a new Cisco IOS feature set or release that requires more memory.
• You are using very large routing tables or many protocols.
This section contains the following topics:
Removing and Replacing the DIMM Memory Modules on the Cisco ASR 1006
Router and the Cisco ASR 1013 Router
The Cisco ASR 1006 Router and the Cisco ASR 1013 Router have redundant RPs. The following is an
overview of the steps to remove and replace the DIMM memory modules on these routers:
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SUMMARY STEPS
1. Remove the standby RP by performing the procedure described in the xref “Removing the Cisco ASR
1000 Series Route Processor from the Cisco ASR 1006, Cisco ASR 1004, and Cisco ASR 1013 Routers”
section.
2. Remove the DIMM memory module from the standby RP by performing one of the following procedures:
• Removing and Replacing the Cisco ASR1000-RP1 DIMM Memory Modules
Removing the Cisco ASR1000-RP2 DIMMs
3. Insert the new DIMM memory module on the standby RP by performing one of the following procedures:
• Removing and Replacing the Cisco ASR1000-RP1 DIMM Memory Modules
Removing the Cisco ASR1000-RP2 DIMMs
4. Insert the standby RP by performing the procedure described in the xref “Removing the Cisco ASR 1000
Series Route Processor from the Cisco ASR 1006, Cisco ASR 1004, and Cisco ASR 1013 Routers” section.
5. Verify the memory upgrade on the standby RP by running the following commands:
6. Use the redundancy force-switchover command to switch the upgraded standby RP to the active state.
The RP that was in the active state moves to the standby state.
7. Repeat Step 1 through Step 5 on the standby RP.
DETAILED STEPS
Step 1
Step 2
Remove the standby RP by performing the procedure described in the xref “Removing the Cisco ASR 1000 Series Route
Processor from the Cisco ASR 1006, Cisco ASR 1004, and Cisco ASR 1013 Routers” section.
Remove the DIMM memory module from the standby RP by performing one of the following procedures:
• Removing and Replacing the Cisco ASR1000-RP1 DIMM Memory Modules
Removing the Cisco ASR1000-RP2 DIMMs
Step 3
Insert the new DIMM memory module on the standby RP by performing one of the following procedures:
• Removing and Replacing the Cisco ASR1000-RP1 DIMM Memory Modules
Removing the Cisco ASR1000-RP2 DIMMs
Step 4
Step 5
Insert the standby RP by performing the procedure described in the xref “Removing the Cisco ASR 1000 Series Route
Processor from the Cisco ASR 1006, Cisco ASR 1004, and Cisco ASR 1013 Routers” section.
Verify the memory upgrade on the standby RP by running the following commands:
Example:
Router# configure terminal
Router(config-red)# redundancy
Router(config-r-mc)# main-cpu
Router(config-r-mc)# standby console enable
Router(config-r-mc)# end
Router-stby# show version
Cisco IOS Software, IOS-XE Software (PPC_LINUX_IOSD-ADVENTERPRISEK9-M), Experimental Version
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15.2(20111220:221816) [v152_2_s_xe36_throttle-tozhang-xe36_ios 114]
.
.
.
cisco ASR1006 (RP1) processor with 1689519K/6147K bytes of memory.
Processor board ID FOX1224G4VX
20 Gigabit Ethernet interfaces
32768K bytes of non-volatile configuration memory.
4194304K bytes of physical memory.
955063K bytes of eUSB flash at bootflash:.
39004543K bytes of SATA hard disk at harddisk:.
.
.
.
Step 6
Step 7
Use the redundancy force-switchover command to switch the upgraded standby RP to the active state. The RP that
was in the active state moves to the standby state.
Repeat Step 1 through Step 5 on the standby RP.
Removing and Replacing the Cisco ASR1000-RP1 DIMM Memory Modules
The Cisco ASR1000-RP1 module memory interface supports two DDR-II SDRAM MiniDIMMs with ECC
protection.
Note
Unlike the Cisco ASR 1006, ASR 1004, and ASR 1013 routers, the DIMM memory interface is not
field-replaceable on the Cisco ASR 1002 router.
This section provides instructions for removing and replacing the Cisco ASR1000-RP1 Mini DIMM memory
modules.
Note
Warning
The Cisco ASR 1000 Series RP memory spares are sold as pairs. For example, the 2 GB memory spare
(M-ASR1K-RP1-2GB=) is sold as a pair of 1 GB modules and the 4 GB memory spare
(M-ASR1K-RP1-4GB=) is sold as a pair of 2 GB modules. Memory repairs or upgrades must utilize the
complete memory pairs as shipped from Cisco. For example, if 1 of the 2 memory modules were to fail
on the Cisco ASR 1000route processor, then both memory modules must be removed and replaced with
a spare memory pair (as shipped from Cisco) and the failing memory should be returned as a pair to
Cisco.To prevent the system from operating incorrectly, do not mix modules from different vendors. The
modules might not be compatible with each other.
During these procedures, wear grounding wrist straps to avoid ESD damage to the card. Do not directly
touch the backplane with your hand or any metal tool, or you could shock yourself. Statement 94
The following table shows the slots that are supported for inserting memory DIMMs in Cisco ASR1000-RP1
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Table 90: Cisco ASR1000-RP1 Supported Slots for Inserting Memory DIMMs
Memory PID Option
Slot 0
Slot 1
M-ASR1K-RP1-4GB=
2 GB module
2 GB module
M-ASR1K-RP1-2GB=
1 GB module
1GB module
Perform the following steps before you begin:
• Use an ESD-preventive wrist strap
• Back up data before replacing a eUSB device.
• The card is keyed and slotted for easier connection.
• Never wiggle the DIMM.
• Handle the connector according to the instructions (see xref Figure 14-15).
To replace or upgrade the Cisco ASR1000-RP1 DIMM memory spare, follow these steps:
SUMMARY STEPS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Attach an ESD-preventive wrist strap between you and an unpainted router surface.
Locate the DIMM on the system board.
Press both spring latches outward to release the DIMM.
Pull the latches away from the DIMM on both edges. This lifts the DIMM slightly. Gently lift the DIMM
free from the DIMM connector, taking care not to touch the pins that insert into the socket.
Place the DIMM in an antistatic bag to protect the DIMM from ESD damage.
To install the DIMM memory card, locate the notches and align the DIMM with the socket before inserting
it.
Make certain that both latches on the DIMM connector are open.
Gently insert the new DIMM, taking care not to damage the pins on the edge of the DIMM.Using two
hands, place the index fingers on the edge of the DIMM and place the thumbs on the socket, being careful
not to touch the socket pins. Press on the back of the DIMM towards the socket by squeezing the index
fingers and the thumbs together, being careful to only apply force onto the DIMM parallel with the plane
of the DIMM.
To allow the DIMM to slide into the socket smoothly with minimum force, one can alternate applying
force back and forth between the left hand and the right hand, allowing one side to engage prior to the
other. Carefully and firmly press the DIMM into the connector until the spring latches lock the DIMM in
place. See Figure 14-12.
Slide the DIMM one side at a time. Use light insertion force and insert smoothly; but make certain the
DIMM is inserted straight .
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DETAILED STEPS
Step 1
Step 2
Step 3
Attach an ESD-preventive wrist strap between you and an unpainted router surface.
Locate the DIMM on the system board.
Note
The DIMMs shown in xref Figure 14-12 and Figure 14-13 are representative and might not look exactly like
the DIMMs used on the RP; but the procedure is the same.
Press both spring latches outward to release the DIMM.
The following figure shows the Cisco ASR 1000 Series RP DIMM module spring latches.
Figure 238: Cisco ASR 1000 Series RP DIMM Module Spring Latches
insert callout table
1 - Pull spring clips outward.
2 - Pull DIMM out.
Step 4
Step 5
Pull the latches away from the DIMM on both edges. This lifts the DIMM slightly. Gently lift the DIMM free from the
DIMM connector, taking care not to touch the pins that insert into the socket.
Place the DIMM in an antistatic bag to protect the DIMM from ESD damage.
Caution
Forcing the DIMM into the socket can damage the DIMM. Use the notches on the DIMM to align the DIMM
in the DIMM socket before inserting it (see the following figure).
Figure 239: Cisco ASR 1000 Series RP DIMM Module Notch Location
Step 6
To install the DIMM memory card, locate the notches and align the DIMM with the socket before inserting it.
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The following figure shows the Cisco ASR 1000 Series RP DIMM module alignment.
Figure 240: Cisco ASR 1000 Series RP DIMM Module Alignment
Hold the DIMM with two hands at its edge and insert the
card.
Make certain that both latches on the DIMM connector are open.
Gently insert the new DIMM, taking care not to damage the pins on the edge of the DIMM.Using two hands, place the
index fingers on the edge of the DIMM and place the thumbs on the socket, being careful not to touch the socket pins.
Press on the back of the DIMM towards the socket by squeezing the index fingers and the thumbs together, being careful
to only apply force onto the DIMM parallel with the plane of the DIMM.
To allow the DIMM to slide into the socket smoothly with minimum force, one can alternate applying force back and
forth between the left hand and the right hand, allowing one side to engage prior to the other. Carefully and firmly press
the DIMM into the connector until the spring latches lock the DIMM in place. See Figure 14-12.
Caution
Strong insertion force introduces excessive mechanical stress on the DIMM. To prevent any stress on the
soldering joints, there should be no up, down, or wiggling motion to be done on the DIMM during the insertion.
Forcing the DIMM into the socket can damage the DIMM. Check that the notches on the DIMM are properly
aligned with the ones on the connector before fully inserting the DIMM.
Note
Step 7
Step 8
Step 9
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The following figure shows how the Cisco ASR 1000 Series RP DIMM module must not be handled.
Figure 241: Handling Cisco ASR 1000 Series RP DIMM Module
Step 10
Slide the DIMM one side at a time. Use light insertion force and insert smoothly; but make certain the DIMM is inserted
straight .
Note
Make sure you perform steps 3 thru 11 for both DIMMs on the RP 1 before you replace the Cisco ASR1000-RP1
in the system. Replace the Cisco ASR1000-RP1. All DIMMS must be replaced; not just one.
What to Do Next
This completes the procedure for replacing a DIMM memory module on the Cisco ASR1000-RP1.
Removing and Replacing the Cisco ASR1000-RP2 DIMM Memory Modules
Perform the following steps before you begin:
• Use an ESD-preventive wrist strap.
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• Back up data that you want to save before replacing a eUSB device.
• Note that the component is keyed and slotted for easier connection.
• To ensure the DIMMs are functioning properly, all four DIMMs must be replaced at the same time and
must be of the same manufacturer and part number (since vendors may have multiple versions of the
DIMM).
The following table shows the slots that are supported for inserting memory DIMMs in Cisco ASR1000-RP2
Table 91: Cisco ASR1000-RP2 Supported Slots for Inserting Memory DIMMs
Memory PID Option Slot 0
Slot 1
Slot 2
Slot 3
M-ASR1K-RP2-8GB= 2 GB module
2 GB module
2 GB module
2 GB module
M-ASR1K-RP2-16GB= 4 GB Module
4 GB Module
4 GB Module
4 GB Module
This section describes how to remove and then replace the Cisco ASR1000-RP2 module DIMMs (see the
following figure).
Figure 242: Cisco ASR1000-RP2 Module Internal Component Location
1
Internal hard drive
location
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3
Cisco ASR1000-RP2
internal eUSB device
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2
Cisco ASR1000-RP2
DIMM location
—
—
Removing the Cisco ASR1000-RP2 DIMMs
Follow these steps to remove the Cisco ASR1000-RP2 DIMMs:
SUMMARY STEPS
1. With a wrist strap on, loosen the two captive screws on the faceplate of the Cisco ASR 1000 Series RP.
2. Using the handles on both sides of the module, with two hands gently slide the module out of the chassis
slot.
3. Place the route processor on an antistatic mat or pad and ensure that you are wearing an antistatic device,
such as a wrist strap.
4. Position the route processor so that the faceplate is toward you and the edge connector is away from you.
5. Locate the DIMMs on the ASR1000-RP2. See xref Figure 14-16, callout 2.
6. For the DIMM you want to remove, pull down the lever on the DIMM socket to release the DIMM from
the socket. See the following figure.
7. When one end of the DIMM is released from the socket, grasp each end of the DIMM with your thumb
and forefinger and pull the DIMM completely out of the socket. Handle the edges of the DIMM only;
avoid touching the memory module or pins and the metal traces (the metal fingers along the connector
edge of the DIMM) along the socket edge.
8. Place the DIMM in an antistatic bag to protect it from ESD damage.
9. Repeat Step 5 through Step 8 for the remaining DIMMs if required for your upgrade.
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DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
With a wrist strap on, loosen the two captive screws on the faceplate of the Cisco ASR 1000 Series RP.
Using the handles on both sides of the module, with two hands gently slide the module out of the chassis slot.
Place the route processor on an antistatic mat or pad and ensure that you are wearing an antistatic device, such as a wrist
strap.
Position the route processor so that the faceplate is toward you and the edge connector is away from you.
Locate the DIMMs on the ASR1000-RP2. See xref Figure 14-16, callout 2.
For the DIMM you want to remove, pull down the lever on the DIMM socket to release the DIMM from the socket. See
the following figure.
Figure 243: DIMM Socket Release Lever to Remove the DIMM
Step 7
Step 8
Step 9
When one end of the DIMM is released from the socket, grasp each end of the DIMM with your thumb and forefinger
and pull the DIMM completely out of the socket. Handle the edges of the DIMM only; avoid touching the memory
module or pins and the metal traces (the metal fingers along the connector edge of the DIMM) along the socket edge.
Place the DIMM in an antistatic bag to protect it from ESD damage.
Repeat Step 5 through Step 8 for the remaining DIMMs if required for your upgrade.
What to Do Next
This completes the steps for removing the Cisco ASR1000-RP2 DIMMs from the module.
Replacing the Cisco ASR1000-RP2 DIMMs
This section lists the steps to replace the Cisco ASR1000-RP2 DIMMs.
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SUMMARY STEPS
1. Place the route processor on an antistatic mat or pad and ensure that you are wearing an antistatic device,
such as a wrist strap.
2. Position the route processor so that the faceplate is toward you and the edge connector is away from you.
3. Remove the new DIMM from the antistatic bag.
4. Hold the DIMM component-side up, with the connector edge (the metal fingers) closest to you. Hold the
ends of the DIMM between your thumb and forefinger. See the following figure.
5. Tilt the DIMM to approximately the same angle as the socket and insert the connector edge into the socket.
Note the two notches (keys) on the connector edge of the DIMM. These keys are intended to ensure correct
orientation of the DIMM in the socket.
6. Note the orientation of the socket key on the DIMM and the DIMM socket and gently push the DIMM
into the socket until the lever is flush against the side of the DIMM socket, and the DIMM edge connector
is fully inserted. If necessary, rock the DIMM gently back and forth to seat it properly. The following
figure shows how to install the DIMM in the socket.
7. When the DIMM is installed, check that the release lever is flush against the side of the DIMM socket. If
it is not, the DIMM might not be seated properly. If the DIMM appears misaligned, carefully remove it
according to the removal procedure and then reseat it in the socket. Push the DIMM firmly back into the
socket until the release lever is flush against the side of the DIMM socket.
8. Repeat Step 3 through Step 7 for the remaining DIMMs.
9. Replace the Cisco ASR1000-RP2.
DETAILED STEPS
Step 1
Step 2
Place the route processor on an antistatic mat or pad and ensure that you are wearing an antistatic device, such as a wrist
strap.
Position the route processor so that the faceplate is toward you and the edge connector is away from you.
Caution
DIMMs are sensitive components that can be shorted by mishandling; they are susceptible to ESD damage.
Handle DIMMs by the edges only and avoid touching the pins.
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Step 3
Step 4
Remove the new DIMM from the antistatic bag.
Hold the DIMM component-side up, with the connector edge (the metal fingers) closest to you. Hold the ends of the
DIMM between your thumb and forefinger. See the following figure.
Figure 244: Handling the Cisco ASR1000-RP2 DIMM
Step 5
Step 6
Tilt the DIMM to approximately the same angle as the socket and insert the connector edge into the socket. Note the
two notches (keys) on the connector edge of the DIMM. These keys are intended to ensure correct orientation of the
DIMM in the socket.
Caution
When inserting DIMMs, use firm but not excessive pressure. If you damage a socket, you will have to return
the route processor to the factory for repair.
Note the orientation of the socket key on the DIMM and the DIMM socket and gently push the DIMM into the socket
until the lever is flush against the side of the DIMM socket, and the DIMM edge connector is fully inserted. If necessary,
rock the DIMM gently back and forth to seat it properly. The following figure shows how to install the DIMM in the
socket.
Figure 245: Installing the DIMM in the Socket
Step 7
Step 8
Step 9
When the DIMM is installed, check that the release lever is flush against the side of the DIMM socket. If it is not, the
DIMM might not be seated properly. If the DIMM appears misaligned, carefully remove it according to the removal
procedure and then reseat it in the socket. Push the DIMM firmly back into the socket until the release lever is flush
against the side of the DIMM socket.
Repeat Step 3 through Step 7 for the remaining DIMMs.
Replace the Cisco ASR1000-RP2.
What to Do Next
This completes the procedure for replacing Cisco ASR1000-RP2 DIMMs.
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After you have correctly installed the Cisco ASR1000-RP2 DIMMs and reinstalled the route processor, the
system should reboot properly.
If the system fails to boot properly or if the console terminal displays a checksum or memory error after you
have installed new DIMMs, check the following:
• Ensure that all DIMMs are installed correctly. If necessary, shut down the system and remove the route
processor. Check the DIMMs by looking straight down on them to inspect them at eye level. The DIMMs
should all be aligned at the same angle and the same height when properly installed. If a DIMM appears
to stick out or rest in the socket at a different angle from the others, remove the DIMM and reinsert it.
Then replace the route processor and reboot the system for another installation check.
• Make certain that all DIMMs are of the same manufacturer and part number.
Note
If after several attempts the system fails to restart properly, contact a service representative for assistance.
Before you call, make note of any error messages, unusual LED states, or any other indications that might
help solve the problem.
Removing and Replacing the Cisco ASR 1001 Router DIMM Memory Modules
Perform the following steps before you begin:
• Use an ESD-preventive wrist strap.
• Back up data that you want to save.
• Remove the power supplies before you remove the chassis top cover.
Caution
The top cover cannot be removed until the power supplies are removed from the chassis. The chassis has
a safety mechanism built in to prevent the removal of the top cover until the power supplies are removed.
• The DIMM component is keyed and slotted for easier connection.
• The Cisco ASR 1001 Router has four DIMM slots.
Warning
Do not install power supplies with the Cisco ASR 1001 chassis cover off.
The following table shows the slots that are supported for inserting memory DIMMs in the Cisco ASR1001
Router.
Table 92: Cisco ASR1001 Router Supported Slots for Inserting Memory DIMMs
Memory PID Option Slot 0 (U101D)
Slot 1 (U103D)
Slot 2 (U100D)
Slot 3 (U102D)
M-ASR1K-1001-4GB 2 GB module
2 GB module
—
—
M-ASR1K-1001-8GB 2 GB Module
2 GB Module
2 GB Module
2 GB Module
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Memory PID Option Slot 0 (U101D)
Slot 1 (U103D)
Slot 2 (U100D)
Slot 3 (U102D)
M-ASR1K-1001-16GB 4 GB Module
4 GB Module
4 GB Module
4 GB Module
Note
Ensure that the vendor and manufacturing part number (MPN) for all DIMMs are the same.
Note
When upgrading memory from 4 GB to 8 GM, remove all existing memory DIMMS in the Cisco ASR
1001 Router, and then populate the DIMM Slots with the new 8 GB memory upgrade kit.
This section describes how to remove the chassis cover and then remove and replace the Cisco ASR 1001
Router DIMM. The following figure shows the location of the DIMM and eUSB in the Cisco ASR 1001
Router.
Figure 246: Cisco ASR 1001 Router Internal Component Location
1
Cisco ASR 1001 Router
DIMM location (four
slots)
2
Removing the Cisco ASR 1001 Router DIMMs
Follow these steps to remove the Cisco ASR 1001 Router DIMM:
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Removing and Replacing the Cisco ASR 1001 Router DIMM Memory Modules
SUMMARY STEPS
1.
2.
3.
4.
5.
With a wrist strap on, remove the power supplies from the chassis.
After the power supplies are removed, remove the chassis top cover by performing the following steps:
Position the chassis so that you are facing the front of the chassis to remove the DIMM.
Locate the DIMM on the ASR 1001 Router. See Figure 14-20, callout 1.
Pull down the lever on the DIMM socket to release the corresponding DIMM from the socket. See the
following figure.
6. When one end of the DIMM is released from the socket, grasp each end of the DIMM with your thumb
and forefinger and pull the DIMM completely out of the socket. Handle only the edges of the DIMM;
avoid touching the memory module, pins, and the metal traces (the metal fingers along the connector edge
of the DIMM) along the socket edge.
7. Place the DIMM in an antistatic bag to protect it from ESD damage.
8. Repeat Step 8 through Step 10 for the remaining DIMMs if required for your upgrade.
DETAILED STEPS
Step 1
With a wrist strap on, remove the power supplies from the chassis.
Note
The chassis cover cannot be removed until the power supplies are removed from the chassis.
For instructions about how to remove the AC and DC power supplies from the Cisco ASR 1001 Router, see:
xref Removing AC Power Supply from the Cisco ASR 1001 Router
xref Removing DC Input Power from the Cisco ASR 1001 Router
Step 2
After the power supplies are removed, remove the chassis top cover by performing the following steps:
a) Loosen all top surface screws on the chassis cover, as shown in the following figure, callout 3.
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b) Loosen the three screws on the faceplate at the front of the chassis, as shown in the following figure, callout 6.
Figure 247: Removing the Cisco ASR 1001 Router Cover
1
Interlock pin safety feature 4
Interlock hook feature on
the chassis cover and base
2
Chassis cover
5
Chassis base
3
Top surface perimeter
screws
6
Three screws at the front of
the chassis faceplate
c) Using both hands, gently slide the cover forward and off of the chassis.
Note
The cover will not come off the chassis if the power supplies are present in the chassis.
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d) Place the cover aside while wearing an antistatic device, such as a wrist strap.
Step 3
Step 4
Step 5
Position the chassis so that you are facing the front of the chassis to remove the DIMM.
Locate the DIMM on the ASR 1001 Router. See Figure 14-20, callout 1.
Pull down the lever on the DIMM socket to release the corresponding DIMM from the socket. See the following figure.
Figure 248: DIMM Socket Release Lever to Remove the DIMM from the Cisco ASR 1001 Router
Step 6
Step 7
Step 8
When one end of the DIMM is released from the socket, grasp each end of the DIMM with your thumb and forefinger
and pull the DIMM completely out of the socket. Handle only the edges of the DIMM; avoid touching the memory
module, pins, and the metal traces (the metal fingers along the connector edge of the DIMM) along the socket edge.
Place the DIMM in an antistatic bag to protect it from ESD damage.
Repeat Step 8 through Step 10 for the remaining DIMMs if required for your upgrade.
What to Do Next
This completes the steps for removing the Cisco ASR 1001 Router DIMMs from the chassis.
Replacing the Cisco ASR 1001 Router DIMM
This section lists the steps to replace a DIMM into the Cisco ASR 1001 Router.
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SUMMARY STEPS
1. Place the DIMM on an antistatic mat or pad while wearing an antistatic device, such as a wrist strap.
2. Remove the new DIMM from the antistatic bag.
3. Hold the DIMM component side up, with the connector edge (the metal fingers) closest to you. Hold the
ends of the DIMM between your thumb and forefinger. See the following figure.
4. Tilt the DIMM to approximately the same angle as the socket and insert the connector edge into the socket.
Note the two notches (keys) on the connector edge of the DIMM. These keys are intended to ensure correct
orientation of the DIMM in the socket.
5. Note the orientation of the socket key on the DIMM and the DIMM socket, and gently push the DIMM
into the socket until the lever is flush against the side of the DIMM socket, and the DIMM edge connector
is fully inserted. If necessary, rock the DIMM gently back and forth to seat it properly. The following
figure shows how to install the DIMM in the socket for the Cisco ASR 1001 Router.
6. After the DIMM is installed, check whether the release lever is flush against the side of the DIMM socket.
If it is not, the DIMM might not be seated properly. If the DIMM appears misaligned, carefully remove
it according to the removal procedure and then reseat it in the socket. Push the DIMM firmly back into
the socket until the release lever is flush against the side of the DIMM socket.
7. Repeat Step 4 through Step 6 for the remaining DIMMs.
8. Replace the Cisco ASR 1001 Router top cover:
9. Install the power supplies into the chassis. See: xref Installing AC Input Power to Cisco ASR 1001 Router,
xref Installing DC Input Power on the Cisco ASR 1001 Router
DETAILED STEPS
Step 1
Step 2
Step 3
Place the DIMM on an antistatic mat or pad while wearing an antistatic device, such as a wrist strap.
Caution
DIMMs are sensitive components that can be shorted by mishandling; they are susceptible to ESD damage.
Handle the DIMM by the edges only, and avoid touching the pins.
Remove the new DIMM from the antistatic bag.
Hold the DIMM component side up, with the connector edge (the metal fingers) closest to you. Hold the ends of the
DIMM between your thumb and forefinger. See the following figure.
Figure 249: Handling the Cisco ASR 1001 Router DIMM
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Step 4
Step 5
Tilt the DIMM to approximately the same angle as the socket and insert the connector edge into the socket. Note the
two notches (keys) on the connector edge of the DIMM. These keys are intended to ensure correct orientation of the
DIMM in the socket.
Caution
When inserting DIMMs, use firm but not excessive pressure. If you damage a socket, you will have to return
the route processor to the factory for repair.
Note the orientation of the socket key on the DIMM and the DIMM socket, and gently push the DIMM into the socket
until the lever is flush against the side of the DIMM socket, and the DIMM edge connector is fully inserted. If necessary,
rock the DIMM gently back and forth to seat it properly. The following figure shows how to install the DIMM in the
socket for the Cisco ASR 1001 Router.
Figure 250: Installing the DIMM in the Socket for the Cisco ASR 1001 Router
Step 6
Step 7
Step 8
Step 9
After the DIMM is installed, check whether the release lever is flush against the side of the DIMM socket. If it is not,
the DIMM might not be seated properly. If the DIMM appears misaligned, carefully remove it according to the removal
procedure and then reseat it in the socket. Push the DIMM firmly back into the socket until the release lever is flush
against the side of the DIMM socket.
Repeat Step 4 through Step 6 for the remaining DIMMs.
Replace the Cisco ASR 1001 Router top cover:
a) Slide the cover onto the chassis ensuring that the interlock hook feature fits on the chassis cover and base, as shown
in xref Figure 14-21, callout 4.
b) Tighten the top surface screws and then the three screws on the front faceplate.
Install the power supplies into the chassis. See: xref Installing AC Input Power to Cisco ASR 1001 Router, xref Installing
DC Input Power on the Cisco ASR 1001 Router
What to Do Next
This completes the procedure for replacing the Cisco ASR 1001 Router DIMMs.
After you have correctly installed the Cisco ASR 1001 Router DIMMs, the system should reboot properly.
If the system fails to reboot properly or if the console terminal displays a checksum or memory error after
you have installed new DIMMs, check the following:
• Ensure that all the DIMMs are installed correctly. If necessary, shut down the system and remove the
chassis cover. Check the DIMMs by looking straight down on them to inspect them at eye level. The
DIMMs should all be aligned at the same angle and the same height when properly installed. If a DIMM
appears to stick out or rest in the socket at a different angle from the others, remove the DIMM and
reinsert it. Replace the top chassis cover, and reboot the system for another installation check.
• Ensure that all the DIMMs are from the same manufacturer and part number.
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Note
After several attempts, if the system fails to restart properly, contact a service representative for assistance.
Before you call, make note of any error messages, unusual LED states, or other indications that might
help solve the problem.
Removing and Replacing the Cisco ASR 1002-X Router DIMM Memory Modules
Perform the following steps before you begin:
• Use an ESD-preventive wrist strap.
• Back up data that you want to save before replacing a eUSB device.
• Note that the component is keyed and slotted for easier connection.
• To ensure that the DIMMs function correctly, all the DIMMs must be replaced at the same time. In
addition, you must ensure that all the DIMMs are from the same manufacturer and have the same part
number, because manufacturers may have multiple versions of a DIMM.
The following table shows the slots that are supported for inserting memory DIMMs in the Cisco ASR1002-X
Router.
Table 93: Cisco ASR1002-X Router Supported Slots for Inserting Memory DIMMs
Note
Memory PID Option Slot 0 (U2D0)
Slot 1 (U2D1)
Slot 2 (U1D0)
Slot 3 (U1D1)
M-ASR1002X-4GB 2 GB module
—
2 GB module
—
M-ASR1002X-8GB 2 GB Module
2 GB Module
2 GB Module
2 GB Module
M-ASR1002X-16GB 4 GB Module
4 GB Module
4 GB Module
4 GB Module
To ensure vendor and MPN compatibility during memory upgrades, remove the installed DIMMs and
replace them with the DIMMs provided in the upgrade kit.
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Removing and Replacing the Cisco ASR 1002-X Router DIMM Memory Modules
This section describes how to remove and then replace the Cisco ASR 1002-X Router DIMMs (see xref Figure
14-16).
Figure 251: Cisco ASR1002-X Router Module Internal Component Location
1
Internal hard drive
location
3
Cisco ASR1002-X Router
DIMM location
Removing the Cisco ASR1002-X Router DIMMs
Follow these steps to remove the Cisco ASR1002-X Router DIMMs:
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SUMMARY STEPS
1. With a wrist strap on, loosen the two captive screws on the faceplate of the Cisco ASR 1002-X Router
module.
2. Using the handles on both sides of the module, with two hands gently slide the module out of the chassis
slot.
3. Place the module on an antistatic mat or pad and ensure that you are wearing an antistatic device, such as
a wrist strap.
4. Position the module so that the faceplate is toward you and the edge connector is away from you.
5. Locate the DIMMs on the module. See xref Figure 14-16, callout 2.
6. For the DIMM you want to remove, pull down the lever on the DIMM socket to release the DIMM from
the socket. See the following figure.
7. When one end of the DIMM is released from the socket, grasp each end of the DIMM with your thumb
and forefinger and pull the DIMM completely out of the socket. Handle the edges of the DIMM only;
avoid touching the memory module or pins and the metal traces (the metal fingers along the connector
edge of the DIMM) along the socket edge.
8. Place the DIMM in an antistatic bag to protect it from ESD damage.
9. Repeat Step 5 through Step 8 for the remaining DIMMs if required for your upgrade.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
With a wrist strap on, loosen the two captive screws on the faceplate of the Cisco ASR 1002-X Router module.
Using the handles on both sides of the module, with two hands gently slide the module out of the chassis slot.
Place the module on an antistatic mat or pad and ensure that you are wearing an antistatic device, such as a wrist strap.
Position the module so that the faceplate is toward you and the edge connector is away from you.
Locate the DIMMs on the module. See xref Figure 14-16, callout 2.
For the DIMM you want to remove, pull down the lever on the DIMM socket to release the DIMM from the socket. See
the following figure.
Figure 252: DIMM Socket Release Lever to Remove the DIMM
Step 7
Step 8
Step 9
When one end of the DIMM is released from the socket, grasp each end of the DIMM with your thumb and forefinger
and pull the DIMM completely out of the socket. Handle the edges of the DIMM only; avoid touching the memory
module or pins and the metal traces (the metal fingers along the connector edge of the DIMM) along the socket edge.
Place the DIMM in an antistatic bag to protect it from ESD damage.
Repeat Step 5 through Step 8 for the remaining DIMMs if required for your upgrade.
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What to Do Next
This completes the steps for removing the Cisco ASR1002-X DIMMs from the module.
Replacing the Cisco ASR1002-X Router DIMMs
This section lists the steps to replace the Cisco ASR1002-X Router DIMMs.
SUMMARY STEPS
1. Place the module on an antistatic mat or pad and ensure that you are wearing an antistatic device, such as
a wrist strap.
2. Position the module so that the faceplate is toward you and the edge connector is away from you.
3. Remove the new DIMM from the antistatic bag.
4. Hold the DIMM component-side up, with the connector edge (the metal fingers) closest to you. Hold the
ends of the DIMM between your thumb and forefinger. See the following figure.
5. Align the DIMM with the socket, and insert the connector edge into the socket. Note the two notches
(keys) on the connector edge of the DIMM. These keys are intended to ensure correct orientation of the
DIMM in the socket.
6. Note the orientation of the socket key on the DIMM and the DIMM socket, and gently push the DIMM
into the socket until the lever is flush against the side of the DIMM socket, and the DIMM edge connector
is fully inserted. If necessary, rock the DIMM gently back and forth to seat it properly. The following
figure shows how to install the DIMM in the socket.
7. When the DIMM is installed, check that the release lever is flush against the side of the DIMM socket. If
it is not, the DIMM might not be seated properly. If the DIMM appears misaligned, carefully remove it
according to the removal procedure and then reseat it in the socket. Push the DIMM firmly back into the
socket until the release lever is flush against the side of the DIMM socket.
8. Repeat Step 3 through Step 7 for the remaining DIMMs.
9. Replace the module.
DETAILED STEPS
Step 1
Step 2
Place the module on an antistatic mat or pad and ensure that you are wearing an antistatic device, such as a wrist strap.
Position the module so that the faceplate is toward you and the edge connector is away from you.
Caution
DIMMs are sensitive components that can be shorted by mishandling; they are susceptible to ESD damage.
Handle DIMMs by the edges only and avoid touching the pins.
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Step 3
Step 4
Remove the new DIMM from the antistatic bag.
Hold the DIMM component-side up, with the connector edge (the metal fingers) closest to you. Hold the ends of the
DIMM between your thumb and forefinger. See the following figure.
Figure 253: Handling the Cisco ASR1000-RP2 DIMM
Step 5
Step 6
Align the DIMM with the socket, and insert the connector edge into the socket. Note the two notches (keys) on the
connector edge of the DIMM. These keys are intended to ensure correct orientation of the DIMM in the socket.
Caution
When inserting DIMMs, use firm but not excessive pressure. If you damage a socket, you will have to return
the module for repair.
Note the orientation of the socket key on the DIMM and the DIMM socket, and gently push the DIMM into the socket
until the lever is flush against the side of the DIMM socket, and the DIMM edge connector is fully inserted. If necessary,
rock the DIMM gently back and forth to seat it properly. The following figure shows how to install the DIMM in the
socket.
Figure 254: Installing the DIMM in the Socket
Step 7
Step 8
Step 9
When the DIMM is installed, check that the release lever is flush against the side of the DIMM socket. If it is not, the
DIMM might not be seated properly. If the DIMM appears misaligned, carefully remove it according to the removal
procedure and then reseat it in the socket. Push the DIMM firmly back into the socket until the release lever is flush
against the side of the DIMM socket.
Repeat Step 3 through Step 7 for the remaining DIMMs.
Replace the module.
What to Do Next
This completes the procedure for replacing Cisco ASR1002-X Router DIMMs.
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Removing and Replacing Cisco ASR 1000 Router eUSB Devices
After you have correctly installed the DIMMs and reinstalled the route processor, the system should reboot
correctly.
If the system fails to boot properly or if the console terminal displays a checksum or memory error after you
have installed new DIMMs, ensure that all DIMMs are installed correctly. If necessary, shut down the system
and remove the route processor. Check the DIMMs by looking straight down on them to inspect them at eye
level. The DIMMs should all be aligned at the same angle and the same height when properly installed. If a
DIMM appears to stick out or rest in the socket at a different angle from the others, remove the DIMM and
reinsert it. Then replace the route processor and reboot the system for another installation check.
Note
If after several attempts the system fails to restart properly, contact a service representative for assistance.
Before you call, make note of any error messages, unusual LED states, or any other indications that might
help solve the problem.
Removing and Replacing Cisco ASR 1000 Router eUSB Devices
The Cisco ASR1000-RP1 and ASR1000-RP2 come with an embedded USB (eUSB) flash device that functions
as the route processor Non-Volatile Random Access Memory (NVRAM) and boot disk of the route processor.
The Cisco ASR1000-RP1 supports a 1 GB eUSB flash field-replaceable unit (FRU), and the Cisco
ASR1000-RP2 supports a 2 GB eUSB on the Cisco ASR 1006 Router and the Cisco ASR 1004 Router.
The Cisco ASR 1001 Router has only one eUSB on the chassis. It is located at the eUSB connector P26, as
shown in xref figure. To replace this component, you must remove a screw on the mounting hole.
Note
The 8 GB eUSB on the integrated route processor is not an FRU on the Cisco ASR 1002 Router. The
Cisco ASR1000-RP2 is not supported on the Cisco ASR 1002 Router and the Cisco ASR 1001 Router.
This section contains the following topics:
Remove and Replace the eUSB Device on the Cisco ASR 1006 and Cisco ASR
1004 Routers
To remove the Cisco ASR1000-RP eUSB from the Cisco ASR 1004 and Cisco ASR 1006 router, follow these
steps:
SUMMARY STEPS
1. Before you physically replace the eUSB device, make a backup of startup-config and boot image to a
storage device. For example, to backup to an external USB flash drive, enter:
2. To remove the Cisco ASR1000-RP and then the eUSB device from the chassis, follow these steps:
DETAILED STEPS
Step 1
Before you physically replace the eUSB device, make a backup of startup-config and boot image to a storage device.
For example, to backup to an external USB flash drive, enter:
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Remove and Replace the eUSB Device on the Cisco ASR 1006 and Cisco ASR 1004 Routers
Example:
router# copy nvram:startup-config usb0
router# copy bootflash:asr1000rp1-adventerprisek9.02.01.00.122-33.XNA.bin usb0:
Step 2
To remove the Cisco ASR1000-RP and then the eUSB device from the chassis, follow these steps:
a) Attach an ESD-preventive wrist strap between you and an unpainted router surface.
b) If connected, remove any I/O cables from the Cisco ASR1000-RP.
c) Using a number two Phillips or a 3/16-inch flat-blade screwdriver, loosen the two captive screws on the faceplate of
the Cisco ASR1000- RP.
d) Using the handles on both sides of the module, with two hands, gently slide the module out of the chassis slot.
Caution
Handle the Cisco ASR1000-RP by the carrier edges only; never touch the printed circuit board components
or connector pins.
e) Place the Cisco ASR1000-RP module on an antistatic surface with its printed circuit board components facing upward.
f) Locate the eUSB device on the ASR1000 Series RP board. The following figure shows the location of the eUSB
component on the Cisco ASR1000-RP1 and xref figure shows the location of the eUSB component on the Cisco
ASR1000-RP2 route processor.
Figure 255: Cisco ASR1000-RP1 eUSB Location
1
Cisco ASR 1000 Series
—
RP1 eUSB device location
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Remove and Replace the eUSB Device on the Cisco ASR 1006 and Cisco ASR 1004 Routers
g) Remove the small Phillips screw holding the eUSB board in-place (see the following figure).
Figure 256: Cisco ASR1000-RP eUSB Device
1
Cisco ASR 1000 Series RP eUSB device Phillips screw
h) Gently pull the eUSB device up from its connector and remove it.
i) Place the eUSB device in an antistatic bag for return.
What to Do Next
You have removed the Cisco ASR1000-RP and eUSB component.
Remove and Replace the eUSB Device on the Cisco ASR 1006 and Cisco ASR
1004 Routers
To replace the eUSB component, follow these steps:
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Remove and Replace the eUSB Device on the Cisco ASR 1006 and Cisco ASR 1004 Routers
SUMMARY STEPS
1. Align the replacement eUSB device over the connector and standoff. The device fits over the threaded
post that sticks up off the board and accepts a screw to hold the eUSB firmly to the Cisco ASR 1000 Series
RP board.
2. Gently insert the new eUSB device by pressing it into the connector keeping aligned with the standoff and
secure the eUSB device with the small Phillips screw as displayed in the following figure.
3. Replace the Cisco ADR1000-RP into chassis and remove any external USB sticks.
4. Restore the backup copy of the startup-config and boot image to the eUSB device.
5. Verify that the Cisco ASR1000-RP1 is operating properly. Check that the internal hard drive LED (labeled
as DISK HD) is flashing green. To check if the LED flashes green, from the ROMMON or IOS prompt,
perform a:
6. To restore data after the internal hard drive replacement, type:
DETAILED STEPS
Step 1
Step 2
Align the replacement eUSB device over the connector and standoff. The device fits over the threaded post that sticks
up off the board and accepts a screw to hold the eUSB firmly to the Cisco ASR 1000 Series RP board.
Gently insert the new eUSB device by pressing it into the connector keeping aligned with the standoff and secure the
eUSB device with the small Phillips screw as displayed in the following figure.
Figure 257: Cisco ASR1000 Series RP eUSB Device Removal and Replacement
1
Phillips screw
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Standoff
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Remove and Replace the eUSB Device on the Cisco ASR 1001 Router
2
Step 3
Step 4
—
eUSB connector
—
Replace the Cisco ADR1000-RP into chassis and remove any external USB sticks.
Note
Once the new eUSB is installed and BinOS has successfully booted, this verifies that the new eUSB is functioning
properly.
Restore the backup copy of the startup-config and boot image to the eUSB device.
Example:
Router# copy nvram:startup-config stby-nvram:startup-config
Router# copy bootflash:asr1000rp1-adventerprisek9.02.01.00.122-33.XNA.bin stby-bootflash:
Step 5
Verify that the Cisco ASR1000-RP1 is operating properly. Check that the internal hard drive LED (labeled as DISK
HD) is flashing green. To check if the LED flashes green, from the ROMMON or IOS prompt, perform a:
Example:
dir harddisk
Step 6
To restore data after the internal hard drive replacement, type:
Example:
archive tar/xtrac tftp:usb0:asr1000.tar harddisk:
What to Do Next
You have completed the replacement procedure for the eUSB device on a Cisco ASR1000-RP module.
Remove and Replace the eUSB Device on the Cisco ASR 1001 Router
To remove the Cisco ASR 1001 Router eUSB device, follow these steps:
SUMMARY STEPS
1. Before you physically replace the eUSB device, create a backup of the startup-config and the boot image.
For example, to backup to an external USB flash drive, enter:
2. Remove the power supplies from the chassis before you remove the chassis cover. For instructions about
how to remove the AC and DC power supplies from the Cisco ASR 1001 Router, see: xref sections.
3. After the power supplies are removed, remove the chassis top cover and follow theses steps:
4. Position the chassis so that you are facing the front.
5. Locate the eUSB device on the ASR 1001 chassis. See xref figure, callout number 2.
6. Remove the small Phillips screw holding the eUSB board in place. See the following figure.
7. Gently pull the eUSB device up from its connector, and remove it.
8. Place the eUSB device in an antistatic bag for return.
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DETAILED STEPS
Step 1
Before you physically replace the eUSB device, create a backup of the startup-config and the boot image. For example,
to backup to an external USB flash drive, enter:
Example:
router# copy nvram:startup-config usb0
router# copy bootflash:asr1000rp1-adventerprisek9.02.01.00.122-33.XNA.bin usb0:
Step 2
Step 3
Remove the power supplies from the chassis before you remove the chassis cover. For instructions about how to remove
the AC and DC power supplies from the Cisco ASR 1001 Router, see: xref sections.
After the power supplies are removed, remove the chassis top cover and follow theses steps:
a) Loosen all top surface screws on the chassis cover, as shown in xref figure, callout number 3.
b) Loosen the three screws on the faceplate at the front of the chassis, as shown in xref figure, callout 6.
c) Using both hands, gently slide the cover forward and off of the chassis.
Note
The cover will not come off the chassis if the power supplies are installed.
d) Place the cover aside and ensure that you are wearing an antistatic device, such as a wrist strap.
Step 4
Step 5
Step 6
Position the chassis so that you are facing the front.
Locate the eUSB device on the ASR 1001 chassis. See xref figure, callout number 2.
Remove the small Phillips screw holding the eUSB board in place. See the following figure.
Figure 258: Cisco ASR 1001 Router eUSB Device
1
Step 7
Step 8
Gently pull the eUSB device up from its connector, and remove it.
Place the eUSB device in an antistatic bag for return.
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Cisco ASR 1001 router eUSB device Phillips screw
Removing and Replacing FRUs from the Cisco ASR 1000 Series Routers
Remove and Replace the eUSB Device on the Cisco ASR 1001 Router
What to Do Next
You have removed the eUSB device from the Cisco ASR 1001 Router.
Remove and Replace the eUSB Device on the Cisco ASR 1001 Router
To replace the eUSB component into the Cisco ASR 1001 Router, follow these steps:
SUMMARY STEPS
1. With the chassis cover removed, align the replacement eUSB device over the connector and standoff. The
device fits over the threaded post that sticks up off the board and accepts a screw to hold the eUSB firmly
to the Cisco ASR 1001 chassis base.
2. Gently insert the new eUSB device by pressing it into the connector while keeping the eUSB device aligned
with the standoff. Secure the eUSB device with the small Phillips screw, as displayed in the following
figure.
3. Replace the chassis cover and power supplies. To replace the Cisco ASR 1001 Router top cover:
4. Install the power supplies into the chassis. See: xref sections.
5. Restore the backup copy of the startup-config and the boot image to the eUSB device:
6. Verify that the Cisco ASR 1001 Router is operating properly. Check whether the internal hard drive LED
(labeled as DISK HD) is flashing green. To check if the LED is flashing green, from the ROMMON or
IOS prompt, run the following command:
7. To restore data after the internal hard drive replacement, run the following command:
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Remove and Replace the eUSB Device on the Cisco ASR 1001 Router
DETAILED STEPS
Step 1
Step 2
With the chassis cover removed, align the replacement eUSB device over the connector and standoff. The device fits
over the threaded post that sticks up off the board and accepts a screw to hold the eUSB firmly to the Cisco ASR 1001
chassis base.
Gently insert the new eUSB device by pressing it into the connector while keeping the eUSB device aligned with the
standoff. Secure the eUSB device with the small Phillips screw, as displayed in the following figure.
Figure 259: Cisco ASR 1001 Router eUSB Device Removal and Replacement
1
Phillips screw
3
Standoff
2
eUSB connector
—
—
Step 3
Replace the chassis cover and power supplies. To replace the Cisco ASR 1001 Router top cover:
a) Slide the cover onto the chassis while ensuring that the interlock hook feature is fitted on the chassis cover and base,
as shown in xref fig, callout 4.
b) Tighten the top surface screws and then the three screws on the front faceplate.
Step 4
Install the power supplies into the chassis. See: xref sections.
Note
After the new eUSB is installed and BinOS has been successfully booted, it is verified that the new eUSB is
functioning properly.
Restore the backup copy of the startup-config and the boot image to the eUSB device:
Step 5
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Removing and Replacing Cisco ASR 1000 Series Router 1 GB USB Flash Token Memory Stick
Example:
Router# copy nvram:startup-config stby-nvram:startup-config
Router# copy bootflash:asr1000rp1-adventerprisek9.02.01.00.122-33.XNA.bin stby-bootflash:
Step 6
Verify that the Cisco ASR 1001 Router is operating properly. Check whether the internal hard drive LED (labeled as
DISK HD) is flashing green. To check if the LED is flashing green, from the ROMMON or IOS prompt, run the following
command:
Example:
dir harddisk
Step 7
To restore data after the internal hard drive replacement, run the following command:
Example:
archive tar/xtrac tftp:usb0:asr1000.tar harddisk:
What to Do Next
You have completed the replacement procedure for the eUSB device in the Cisco ASR 1001 Router.
Removing and Replacing Cisco ASR 1000 Series Router 1 GB
USB Flash Token Memory Stick
The Cisco ASR1000-RPs contain ports for a 1 GB flash token memory stick to store configurations or Cisco
IOS XE consolidated packages.
The following figure shows the USB port 0 or 1 connector on the Cisco ASR 1000 Series route processor for
the 1 GB flash token memory stick.
Figure 260: Cisco ASR 1000 Series Route Processor 1 Token Memory Stick Port
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Removing and Replacing Cisco ASR 1000 Series Router 1 GB USB Flash Token Memory Stick
Caution
1
Internal hard drive LED
4
2
External USB Flash LED 5
3
Internal USB bootflash
LED
—
USB0 and USB1
connectors
Cisco ASR 1000 Series
RP LEDs
—
Do not remove a USB Flash memory module when issuing some file access command or a read/write
operation to the Flash memory module when it is processing. The router might reload or the USB Flash
memory module can be damaged. You can check to see if the USB activity LED on the Cisco ASR1000-RP
front panel is flashing, prior to the removal of the USB device
To remove and then replace a USB 1 GB flash token memory stick from a Cisco ASR1000-RP, follow these
steps:
SUMMARY STEPS
1. Pull the memory stick from the USB port.
2. To replace a Cisco USB Flash memory stick, simply insert the module into the USB port 0 or 1 port as
shown in the following figure. The Flash memory module can be inserted only in one way, and can be
inserted or removed regardless of whether the router is powered up or not.
DETAILED STEPS
Step 1
Step 2
Pull the memory stick from the USB port.
Note
The Cisco ASR 1002 Router has only one USB
port.
To replace a Cisco USB Flash memory stick, simply insert the module into the USB port 0 or 1 port as shown in the
following figure. The Flash memory module can be inserted only in one way, and can be inserted or removed regardless
of whether the router is powered up or not.
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Minimum Requirements of eUSB Devices Supported on Cisco ASR 1000 Series Routers
Note
The following figure is only a sample of how the memory stick is inserted into the port and does not display
the Cisco ASR 1000 Series RP faceplate.
Figure 261: Cisco ASR 1000 Series Route Processor 1 Flash Token Memory Stick
Note
You can insert or remove the memory stick whether the router is powered on or
not.
What to Do Next
This completes the USB Flash memory installation procedure.
Minimum Requirements of eUSB Devices Supported on Cisco
ASR 1000 Series Routers
This section provides details regarding addition of an output message, indicating whether the eUSB device
currently used on the Route Processor (RP) is correct or the eUSB device is of less capacity and is incompatible
with the RP. This additional message has been introduced for the ASR 1000 Chassis Types (2,4,6,13RU) in
Cisco IOS XE Release 2.3.0S. Additionally, this change specifically for Cisco ASR 1001 Router Chassis has
been introduced in the Cisco IOS XE Release 2.4.0S.
Previous Behavior
Some of the Cisco ASR 1000 Series Routers were shipped with low-capacity eUSB devices on the
Route-processor boards. It is not an easy way to detect the presence of an invalid eUSB device with low
capacity on the RP. As the RP boards has already been shipped, it is important to provide information about
the presence of an incorrect eUSB device or a eUSB device with less capacity. Earlier, an additional
informational message was not displayed even if the eUSB device was of less capacity for the RP used on
the system.
Corrective Action Required
If the eUSB device is of less capacity and is not compatible as indicated in the Cisco IOS message then you
need to contact Cisco System Inc. and get the eUSB replaced. Prolonged use of routers with less capacity
eUSB devices would result in unpredictable behavior.
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Minimum Requirements of eUSB Devices Supported on Cisco ASR 1000 Series Routers
New Behavior
From Cisco IOS XE Release 2.3.0 onwards, an additional message is displayed on the auxiliary port and on
the Cisco IOS console port, providing information whether the eUSB device currently used is correct. For
Cisco ASR 1001 Router, this change for eUSB compatibility has been implemented from Cisco IOS XE
Release 2.4.0S onwards. The recommended eUSB devices with the minimum memory capacity for the RP
types compatible are:
Table 94: Matrix for eUSB Memory Capacity Support and Route Processor on ASR 1000 Routers
Router Type
eUSB Capacity (Gigabytes)
1RU-RP
8
2RU-RP
8
4RU-RP1
1
6RU-RP1
1
13RI-RP1
1 (subject to change)
4RU-RP2
2
6RU-RP2
2
13RU-RP2
2
When the system is started, Cisco IOS Software detects the capacity of the eUSB device currently used on
the system. If the eUSB device matches the minimum value of the eUSB capacity as specified above then no
messages are displayed at the Cisco IOS console.
However, an informational message is displayed at the auxiliary port. For example, on a 6RU system, at the
auxiliary port, the following message appears if the eUSB is valid:
....
Checking eUSB capacity information for 6RU:ASR1000-RP1 ... 1003520 KBytes [ OK ]
..
However, when an invalid eUSB device is found, the following messages are displayed at the Cisco IOS
Console:
...
%IOSXEBOOT-4-EUSB_PROVISIONING: (rp/0): Unsupported low capacity eUSB detected in 2RU
board
...
The following message is displayed at the auxiliary port:
...
Checking eUSB capacity information for 2RU:ASR1000-RP-2RU ...
The capacity of the installed eUSB device is insufficient.
It is 1003520 KBytes. The recommended capacity is 8 GByte(s).
%IOSXEBOOT-4-EUSB_PROVISIONING: (rp/0): Unsupported low capacity eUSB detected in 2RU board
...
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Removing and Replacing Cisco ASR 1000 Series Embedded Service Processors
Note
Even though this message is displayed, the system is permitted to proceed through it’s bring up and should
start functioning properly initially. The router should perform normally until the free resource available
in the eUSB device drops to an unacceptably low level. That low threshold is non-deterministic and hence
the invalid eUSB device should be replaced at the earliest opportunity. System behavior is unpredictable
when the eUSB resources are running low.
Removing and Replacing Cisco ASR 1000 Series Embedded
Service Processors
The following sections describe the procedures for replacing the Cisco ASR 1000 Series embedded service
processors in your system. The module also contains card handles to assist in insertion and removal of the
module and retention of the module into the chassis. The Cisco ASR 1000 Series embedded services processors
have no front panel I/O connectors.
Note
See xref Table 1-2 for information about the embedded services processors that are supported on the
various Cisco ASR 1000 Aggregation Services Routers. On some routers, the embedded services processor
is an integral part of the router. On these routers, you cannot remove the embedded services processor.
For example, Cisco ASR1002-ESP-F is integrated on the chassis of Cisco ASR 1002-F Router.
This section contains the following topics:
Note
Before you begin the procedure, verify that your system meets the minimum requirements as described
in xref Chapter 2, “Cisco ASR 1000 Series Routers Component Overview.”
Important Notes about Cisco ASR1000-ESP Upgrades
You can upgrade from an earlier release of an embedded services processor to a later release. For example,
a router can be upgraded from Cisco ASR1000-ESP10 to Cisco ASR1000-ESP20 or from Cisco
ASR1000-ESP20 to Cisco ASR1000-ESP40.
The following sample procedure describes an upgrade from Cisco ASR1000-ESP20 to Cisco ASR1000-ESP40
on Cisco ASR 1006 Router:
Step 1
Step 2
Step 3
Ensure that Cisco ASR 1006 Router has Cisco ASR1000-ESP20 in the F0 slot in the Active state.
Insert Cisco ASR1000-ESP40 in the F1 slot. The Cisco ASR1000-ESP40 comes up as the standby.
Reload Cisco ASR1000-ESP20. The ASR1000-ESP40 becomes active, the Cisco ASR1000-ESP20 is disabled, and an
error message is displayed.
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Removing a Cisco ASR1000-ESP
Note
If there are two different versions of the Cisco ASR1000-ESP in a router when you reload, the F0 slot always
comes up as Active and the F1 slot comes up as Standby or Disabled, depending on whether the F1 slot has a
later version of the Cisco ASR1000-ESP or an earlier one. A downgrade from a later version ESP to an earlier
version is not supported and that is the reason the Cisco ASR1000-ESP20 is disabled in this step. To downgrade
back to a Cisco ASR1000-ESP20, you must remove the Cisco ASR1000-ESP40 and reload the router. Similarly,
to downgrade back to a Cisco ASR1000-ESP10 from a Cisco ASR1000-ESP20, you must remove the Cisco
ASR1000-ESP20 and reload the router.
Removing a Cisco ASR1000-ESP
To remove the Cisco ASR1000-ESP5, Cisco ASR1000-ESP10, Cisco ASR1000-ESP20, or Cisco
ASR1000-ESP40 from the Cisco ASR 1000 Series Routers, follow this procedure:
SUMMARY STEPS
1. Slip on the ESD-preventive wrist strap that was included in the accessory kit. Loosen the captive screws
on the Cisco ASR 1000 Series Embedded Services Processor.
2. Using the handles on both sides of the module, with two hands gently slide the Cisco ASR 1000 Series
Embedded Services Processor (ESP5, ESP10, ESP20, ESP40) out of the chassis slot.
3. Place the Cisco ASR1000-ESP module on an antistatic surface with its printed circuit board components
facing upward or in a static shielding bag.
DETAILED STEPS
Step 1
Step 2
Step 3
Slip on the ESD-preventive wrist strap that was included in the accessory kit. Loosen the captive screws on the Cisco
ASR 1000 Series Embedded Services Processor.
Using the handles on both sides of the module, with two hands gently slide the Cisco ASR 1000 Series Embedded
Services Processor (ESP5, ESP10, ESP20, ESP40) out of the chassis slot.
Note
Handle the Cisco ASR1000-ESP5, Cisco ASR1000-ESP10, Cisco ASR1000-ESP20, or Cisco ASR1000-ESP40
by the carrier edges only; never touch the printed circuit board components or connector pins.
Place the Cisco ASR1000-ESP module on an antistatic surface with its printed circuit board components facing upward
or in a static shielding bag.
What to Do Next
You have completed the removal procedure for the Cisco ASR 1000 Series Embedded Services Processor.
from a Cisco ASR1000-ESP.
Replacing the Cisco ASR1000-ESP
To replace the Cisco ASR 1000 Series Embedded Services Processor in the Cisco ASR 1000 Series Router,
follow this procedure:
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Removing and Replacing Cisco ASR 1000 Series Router SPAs and SPA Interface Processors
SUMMARY STEPS
1. Attach an ESD-preventive wrist strap between you and an unfinished chassis surface.
2. Remove the new Cisco ASR1000-ESP from its static shielding bag.
3. Using both hands, grasp the Cisco ASR1000-ESP by its metal carrier edges and orient the it so that its
printed circuit board components are upward.
4. Align the left and right edges of the Cisco ASR1000-ESP printed circuit board between the Cisco
ASR1000-ESP slot guides.
5. Gently slide the Cisco ASR1000-ESP all the way into its chassis slot until you feel the connectors seat
with the router midplane.
6. Seat the Cisco ASR1000-ESP in the router midplane by tightening its captive installation screws with a
number 2 Phillips or a 3/16-inch flat-blade screwdriver.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Attach an ESD-preventive wrist strap between you and an unfinished chassis surface.
Remove the new Cisco ASR1000-ESP from its static shielding bag.
Using both hands, grasp the Cisco ASR1000-ESP by its metal carrier edges and orient the it so that its printed circuit
board components are upward.
Caution
Handle the Cisco ASR1000-ESP by the carrier edges and handle only; never touch the printed circuit board
components or connector pins.
Align the left and right edges of the Cisco ASR1000-ESP printed circuit board between the Cisco ASR1000-ESP slot
guides.
Gently slide the Cisco ASR1000-ESP all the way into its chassis slot until you feel the connectors seat with the router
midplane.
Seat the Cisco ASR1000-ESP in the router midplane by tightening its captive installation screws with a number 2 Phillips
or a 3/16-inch flat-blade screwdriver.
What to Do Next
This completes the procedure for replacing the Cisco ASR1000-ESP in the Cisco ASR 1000 Series Router.
Removing and Replacing Cisco ASR 1000 Series Router SPAs
and SPA Interface Processors
This section contains the following topics:
Note
For detailed information about SIP and SPA software commands such as activating and deactivating SIPs,
prepare for online insertion and removal of SPAs, and activate and deactivate configuration examples,
see Cisco ASR 1000 Series Aggregation Services Routers SIP and SPA Hardware Installation Guide .
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Electrostatic Discharge Prevention
Note
Caution
The embedded shared port adapter interface processor (SIP) on the Cisco ASR 1002 Router and Cisco
ASR 1002-F Router do not support online insertion and removal. However, the SPAs on the Cisco embedded
services processors do support online insertion and removal.
When removing or replacing SPAs, make certain that all the screw fasteners on each card and each SIP
are screwed in tightly to prevent accidental removal of another card. Each SIP has two screw fasteners
per slot and each SPA has two screw fasteners.
We suggest you have the following tools and parts readily available for installation of the SIPs and SPAs:
• Number 2 Phillips or a 3/16-inch flat-blade screwdriver
• Shared port adapter interface processor (SIP)
• Shared port adapters (SPAs)
• Cables
• Your own ESD-prevention equipment or the disposable grounding wrist strap included with all upgrade
kits, field-replaceable units (FRUs), and spares
• Antistatic mat or surface, or static shielding bag
If you need additional equipment, contact a service representative for ordering information.
Electrostatic Discharge Prevention
Electrostatic discharge (ESD) damages equipment and impairs electrical circuitry. ESD occurs when printed
circuit boards are improperly handled and results in complete or intermittent failures.
Each SPA circuit board is mounted to a metal carrier and is sensitive to electrostatic discharge (ESD) damage.
The SIP and SPAs consist of a printed circuit board that is fixed in a metal carrier. Electromagnetic interference
(EMI) shielding, connectors, and a handle are integral components of the carrier.
When a subslot is not in use, a SPA blank filler plate must fill the empty subslot to allow the router to conform
to electromagnetic interference (EMI) emissions requirements and to allow proper airflow across the installed
modules. If you plan to install a SPA in a subslot that is not in use, you must first remove the SPA blank filler
plate.
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Electrostatic Discharge Prevention
Caution
Always handle the SIP by the carrier edges and its handle; never touch the SIP components or connector
pins.
Figure 262: Handling the Cisco ASR 1000 Series SPA Interface Processor
Add a callout table.
1 - Printed circuit board
2 - Metal carrier
Although the metal carrier helps to protect the SIP and SPA from ESD, wear a preventive antistatic strap
whenever handling the SIP and SPA. Ensure that the strap makes good skin contact and connect the strap’s
clip to an unpainted chassis surface to safely channel unwanted ESD voltages to ground.
If no wrist strap is available, ground yourself by touching the metal part of the chassis.
Following are guidelines for preventing ESD damage:
• Always use an ESD wrist strap or ankle strap when installing or replacing the Cisco ASR 1000 Series
SPA Interface (SIP) and shared port adapter. Ensure that the ESD strap makes contact with your skin.
• Handle the Cisco ASR 1000 Series SPA Interface (SIP) or shared port adapter by its metal carrier edges
and handles; avoid touching the printed circuit board or any connector pins.
• When removing an Cisco ASR 1000 Series SPA Interface (SIP) or shared port adapter, place it on an
antistatic surface with the printed circuit board components facing upward, or in a static shielding bag.
If you are returning a shared port adapter or Cisco ASR 1000 Series SPA Interface (SIP) to the factory,
immediately place it in a static shielding bag.
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Removing the Cisco ASR 1000 SPA Interface Processor
Removing the Cisco ASR 1000 SPA Interface Processor
To remove a SPA Interface Processor (SIP) in the Cisco ASR 1006 Router and Cisco ASR 1004 Router,
follow these steps.
SUMMARY STEPS
1. Slip on the ESD-preventive wrist strap that was included in the accessory kit. Loosen the captive screws
on the Cisco ASR 1000 Series SPA Interface Processor.
2. Using the handles on both sides of the module, with two hands gently slide the Cisco ASR 1000 Series
SPA Interface Processor out of the chassis slot.
3. Place the Cisco ASR1000-SIP10 on an antistatic surface with its printed circuit board components facing
upward or in a static shielding bag.
DETAILED STEPS
Step 1
Step 2
Step 3
Slip on the ESD-preventive wrist strap that was included in the accessory kit. Loosen the captive screws on the Cisco
ASR 1000 Series SPA Interface Processor.
Using the handles on both sides of the module, with two hands gently slide the Cisco ASR 1000 Series SPA Interface
Processor out of the chassis slot.
Note
Handle the Cisco ASR1000-SIP10 by the card edges only; never touch the printed circuit board components or
connector pins.
Place the Cisco ASR1000-SIP10 on an antistatic surface with its printed circuit board components facing upward or in
a static shielding bag.
For detailed information about installing and removing SIPs and SPAs, see Cisco ASR 1000 Series Aggregation Services
Routers SIP and SPA Hardware Installation Guide .
What to Do Next
You have completed the removal procedure for the Cisco ASR1000-SIP10.
Replacing the Cisco ASR 1000 SPA Interface Processor
To replace a SPA Interface Processor (SIP), follow these steps.
SUMMARY STEPS
1. Before inserting a SIP, make sure that the chassis is grounded.
2. To insert the SIP, carefully align the edges of the SIP between the upper and lower edges of the router
slot.
3. Carefully slide the SIP into the router slot until the SIP makes contact with the backplane.
4. Tighten the locking thumbscrews on both sides of the SIP.
5. Connect all cables to each SPA.
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Removing a Shared Port Adapter from a SIP
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Before inserting a SIP, make sure that the chassis is grounded.
To insert the SIP, carefully align the edges of the SIP between the upper and lower edges of the router slot.
Carefully slide the SIP into the router slot until the SIP makes contact with the backplane.
Tighten the locking thumbscrews on both sides of the SIP.
Connect all cables to each SPA.
Removing a Shared Port Adapter from a SIP
To remove a shared port adapter (SPA), follow these steps.
SUMMARY STEPS
1. Attach an ESD wrist strap between you and an unpainted chassis surface.
2. Shut down the interface so that there is no traffic running through the shared port adapter when it is
removed.
3. Disconnect all cables from the shared port adapter.
4. Unscrew the captive installation screws on either side of the SPA.
5. Grasp the handles and pull the SPA from the SIP.
DETAILED STEPS
Step 1
Step 2
Attach an ESD wrist strap between you and an unpainted chassis surface.
Shut down the interface so that there is no traffic running through the shared port adapter when it is removed.
Caution
Removing a shared port adapter while traffic is flowing through the ports can cause system disruption.
Refer to the following example to shut down the interface FastEthernet0/1/0 on the 8-Port Fast Ethernet Shared Port
Adapter (SPA-8X1FE-TX-V2).
a) At the router# prompt, type:configure terminal and press Enter. The global configuration mode prompt Router
(config)# appears.
b) At the router (config)# prompt, type:interface FastEthernet0/1/0 and press Enter. The interface configuration mode
prompt Router(config-if)# appears.
c) At the router (config-if)# prompt, type:shutdown and press Enter. This disables the interface FastEthernet0/1/0.
d) At the router(config-if)# prompt, type:end and press Enter. The privileged EXEC mode prompt Router# appears.
Step 3
Step 4
Step 5
Disconnect all cables from the shared port adapter.
Unscrew the captive installation screws on either side of the SPA.
Grasp the handles and pull the SPA from the SIP.
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Replacing a Shared Port Adapter in a SIP
What to Do Next
You have completed the removal procedure for the Cisco ASR 1000 Series SPA.
Replacing a Shared Port Adapter in a SIP
To replace a shared port adapter in a SIP module, follow these steps:
SUMMARY STEPS
1. To insert the SPA in the SIP, locate the guide rails inside the SIP that hold the SPA in place. They are at
the top left and top right of the SPA slot and are recessed about an inch.
2. Carefully slide the SPA all the way in the SIP until the SPA is firmly seated in the SPA interface connector.
When fully seated, the SPA might be slightly behind the SIP faceplate.
3. After the SPA is properly seated, fasten the SPA in place with the captive installation screws on either
side of the SPA.
DETAILED STEPS
Step 1
Step 2
To insert the SPA in the SIP, locate the guide rails inside the SIP that hold the SPA in place. They are at the top left and
top right of the SPA slot and are recessed about an inch.
Carefully slide the SPA all the way in the SIP until the SPA is firmly seated in the SPA interface connector. When fully
seated, the SPA might be slightly behind the SIP faceplate.
After the SPA is properly seated, fasten the SPA in place with the captive installation screws on either side of the SPA.
Step 3
Removing and Replacing the Cisco ASR 1006 Router Power
Supplies
The Cisco ASR 1006 Router contains power supplies that are field replaceable units. This section contains
the following topics:
Removing and Replacing a AC Power Supply in Cisco ASR 1006 Router
This section provides information about removing and replacing an AC power supply in the Cisco ASR 1006
Router.
Removing the AC Power Supply from Cisco ASR 1006 Router
Because of the power supply redundancy, there is no need to power off the Cisco ASR 1006 Router before
removing one of the AC power supplies.
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Removing and Replacing a AC Power Supply in Cisco ASR 1006 Router
The Cisco ASR 1006 Router has two of the same type power supplies in power supply slot 0 and power supply
slot 1.
To remove the Cisco ASR 1006 Router AC power supply that is not operating normally (and then replace the
AC power supply within five minutes), follow this procedure:
SUMMARY STEPS
1.
2.
3.
4.
5.
6.
7.
Slip on the ESD-preventive wrist strap that was included in the accessory kit.
Before you turn off a power supply, make certain the chassis is grounded.
Turn the power supply Standby switch to the Standby position.
Unplug the power cable from the AC inlet on the back of the power supply and the power source.
Unscrew the power supply captive screws.
Grasping the power supply handles, pull the power supply from the chassis.
Replace the AC power supply within five minutes.
DETAILED STEPS
Step 1
Step 2
Step 3
Slip on the ESD-preventive wrist strap that was included in the accessory kit.
Before you turn off a power supply, make certain the chassis is grounded.
Turn the power supply Standby switch to the Standby position.
The following figure shows the power inlet and standby switch for the ASR1006-PWR-DC power supply. On the
ASR1013/06-PWR-DC power supply, the AC power inlet and standby switch are at relatively the same positions.
Figure 263: AC Power Inlet and Standby Switch
1
Step 4
Step 5
Power inlet
2
Power supply AC standby
switch
Unplug the power cable from the AC inlet on the back of the power supply and the power source.
Unscrew the power supply captive screws.
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Four power supplies must be installed in the chassis at all times, with a minimum of two power supplies (one
per zone) connected to the mains in order to power on the system and ensure sufficient cooling. The system
fans are inside the power supply units and must spin for cooling. Because all the system fans can be powered
by one power supply, the second power supply unit does not have to be powered on, but must be connected.
Caution
If you remove a power supply from a system that has four power supplies that are connected and powered
on, the system can run only for a maximum of five minutes before shutting down. However, because the fans
and power elements are independent within the power supply, the replacement power supply does not have
to be energized within five minutes. The only requirement is that the power supply be installed in the chassis
in order to energize the fans and maintain proper system cooling.
Grasping the power supply handles, pull the power supply from the chassis.
Replace the AC power supply within five minutes.
Note
Step 6
Step 7
What to Do Next
This completes the procedure for removing the AC power supply from the Cisco ASR 1006 chassis.
Replacing the AC Power Supply in Cisco ASR 1006 Router
This section provides information about installing an AC power supply in the Cisco ASR 1006 Router.
Warning
Never install an AC power module and a DC power module in the same chassis. Statement 1050
The following figure shows the ASR1006-PWR-AC power supply of the Cisco ASR 1006 Router.
Figure 264: Cisco ASR 1006 Router AC Power Supply (ASR1006-PWR-AC)
1
AC power supply fan
2
DB-25 alarm connector* 6
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5
AC power supply handle
AC power inlet
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Removing and Replacing a AC Power Supply in Cisco ASR 1006 Router
3
Cable tie-wrap tabs
7
AC power supply
Standby switch. A
Standby switch is not
considered a disconnect.
4
AC power supply captive 8
screws
AC power supply LEDs
*For information about
the DB-25 alarm
connector, how it works,
and Cisco ASR 1000
series route processor
LEDs, see xref “How
Cisco ASR1000-RP
Alarm Monitoring
Works” section on page
2-20.
Note: Shielded cables
must be used to connect
to the DB-25 alarm
connector on both the AC
and DC power supplies,
in order to comply with
FCC/EN55022/CISPR22
Class A emissions
requirements.
The following figure shows the ASR1013/06-PWR-AC power supply of the Cisco ASR 1006 Router.
1
AC power supply fan
6
AC power inlet
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2
DB-25 alarm connector
7
AC power supply
Standby switch
3
Tie-wrap tab
8
Protective shielding on
both sides of the Standby
switch
4
AC power supply captive 9
screw
AC power supply LEDs
5
AC power supply handle —
—
SUMMARY STEPS
1.
2.
3.
4.
5.
Insert an AC power supply in power supply slot 0 or power supply slot 1 until it is fully seated.
Tighten the captive screws.
Insert the AC power cable.
Plug the power supply cable into the power source.
Turn the power supply Standby switch to the On (|) position.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Insert an AC power supply in power supply slot 0 or power supply slot 1 until it is fully seated.
Tighten the captive screws.
Insert the AC power cable.
Plug the power supply cable into the power source.
Turn the power supply Standby switch to the On (|) position.
What to Do Next
This completes the procedure for installing the AC power supply in the Cisco ASR 1006 Router.
Removing and Replacing a DC Power Supply in Cisco ASR 1006 Router
This section provides information about removing and installing a DC power supply in the Cisco ASR 1006
Router.
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
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Removing and Replacing a DC Power Supply in Cisco ASR 1006 Router
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Warning
Installation of the equipment must comply with local and national electrical codes. Statement 1074
The following figure shows the ASR1006-PWR-DC power supply and components.
Figure 265: Cisco ASR 1006 Router DC Power Supply (ASR1006-PWR-DC)
1
Fan
6
DC power supply ground
studs
2
DB-25 alarm connector* 7
DC power supply captive
screw
3
Tie-wrap tab
DC power supply handle
4
DC power supply
9
terminal block and plastic
cover
On/Off (|/O) circuit
breaker switch
5
Ground symbol
Power supply LEDs
8
10
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Removing and Replacing a DC Power Supply in Cisco ASR 1006 Router
*For information about
the DB-25 alarm
connector, how it works,
and Cisco ASR 1000
route processor LEDs, see
the xref “How Cisco
ASR1000-RP Alarm
Monitoring Works”
section on page 2-20.
Note: Shielded cables
must be used to connect
to the DB-25 alarm
connector on both the AC
and DC power supplies,
in order to comply with
FCC/EN55022/CISPR22
Class A emissions
requirements.
The following figure shows the ASR1013/06-PWR-DC power supply and components.
Figure 266: Cisco ASR 1006 Router DC Power Supply (ASR1013/06-PWR-DC)
1
Fan
7
DC power supply captive
screw
2
DB-25 alarm connector* 8
DC power supply handle
3
Tie-wrap tab
Terminal block and
plastic cover single screw
4
DC power supply
10
terminal block and plastic
cover
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9
On/Off (|/O) circuit
breaker switch
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Removing and Replacing a DC Power Supply in Cisco ASR 1006 Router
5
Ground symbol
11
Terminal block and
plastic cover slot tab
6
DC power supply ground 12
studs
Power supply LEDs
*For information about
the DB-25 alarm
connector, how it works,
and Cisco ASR 1000
route processor LEDs, see
the xref “How Cisco
ASR1000-RP Alarm
Monitoring Works”
section on page 2-20.
Note: Shielded cables
must be used to connect
to the DB-25 alarm
connector on both the AC
and DC power supplies,
in order to comply with
FCC/EN55022/CISPR22
Class A emissions
requirements.
Removing the DC Power Supply from Cisco ASR 1006 Router
Before you can remove a DC power supply from the Cisco ASR 1006 Router, you must remove power from
the power supply. Follow these steps to remove power and the DC power supply from the chassis.
Caution
Make certain that the chassis ground is connected before you begin removing and installing the power
supply. For the chassis ground stud location.
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SUMMARY STEPS
1. Before servicing the power supply, switch the circuit breaker Off in your equipment area. As an additional
precaution, tape the circuit breaker switch in the Off position.
2. Slip on the ESD-preventive wrist strap that was included in the accessory kit.
3. Switch the power supply circuit breaker switch to Off (O).
4. Locate the terminal block on the rear of the chassis on the power supply.
5. Remove the slotted plastic cover from the terminal block (see xref figure).
6. Locate the power supply ground stud (see xref fig). Remove the ground (GND) cable from the DC power
supply.
7. Loosen and remove the Kepnut screw, washer, and ground lug in that order.
8. Loosen the four captive screws on the DC power supply.
9. Grasping the power supply handles, pull the power supply from the chassis.
10. Replace the DC power supply within five minutes.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Before servicing the power supply, switch the circuit breaker Off in your equipment area. As an additional precaution,
tape the circuit breaker switch in the Off position.
Slip on the ESD-preventive wrist strap that was included in the accessory kit.
Switch the power supply circuit breaker switch to Off (O).
Locate the terminal block on the rear of the chassis on the power supply.
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Removing and Replacing a DC Power Supply in Cisco ASR 1006 Router
The following figure shows the DC power supply terminal block for the ASR1006-PWR-DC power supply of the Cisco
ASR 1006 Router.
Figure 267: Cisco ASR 1006 Router DC Power Supply (ASR1006-PWR-DC) Terminal Block and Plastic Cover
1
Negative terminal
3
Plastic cover slotted area
2
Positive terminal
4
Terminal block plastic cover
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Removing and Replacing a DC Power Supply in Cisco ASR 1006 Router
The following figure shows the DC power supply terminal block for the ASR1013/06-PWR-DC power supply of the
Cisco ASR 1006 Router.
Figure 268: Cisco ASR 1006 Router DC Power Supply (ASR1013/06-PWR-DC) Terminal Block and Plastic Cover
Step 5
1
Negative lead
3
Protective sleeving around
the stud and cable
2
Positive lead
4
Ground stud and cable
Remove the slotted plastic cover from the terminal block (see xref figure).
a) Loosen and remove the single screw on the plastic cover. The plastic cover has slots that help to slide it out diagonally
from the terminal block.
b) Using a nut driver (7/16 size), unsrew the positive kepnut, positive cable, and the flat washer, in that order. The
terminal block houses two double-hole barrel lugs.
c) Follow Step 4b and remove the negative cable.
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Removing and Replacing a DC Power Supply in Cisco ASR 1006 Router
The following figure shows the DC power supply terminal block with cables connected for the ASR1006-PWR-DC
power supply of the Cisco ASR 1006 Router.
Figure 269: Cisco ASR 1006 Router DC Power Supply Terminal Block Cable Connections
1
Negative lead
3
Protective sleeving around
the stud and cable
2
Positive lead
4
Ground stud and cable
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Removing and Replacing a DC Power Supply in Cisco ASR 1006 Router
The following figure shows the DC power supply terminal block with cables connected for the ASR1013/06-PWR-DC
power supply of the Cisco ASR 1006 Router.
Figure 270: Cisco ASR 1006 Router DC Power Supply (ASR1013/06-PWR-DC) Terminal Block Cable Connections
Step 6
Step 7
Step 8
Step 9
Step 10
1
Negative lead
3
Protective sleeving around
the stud and cable
2
Positive lead
4
Ground stud and cable
Locate the power supply ground stud (see xref fig). Remove the ground (GND) cable from the DC power supply.
Loosen and remove the Kepnut screw, washer, and ground lug in that order.
Warning
When installing the unit, the ground connection must always be made first and disconnected
last.
Loosen the four captive screws on the DC power supply.
Note
Four power supplies must be installed in the chassis at all times, with a minimum of two power supplies (one
per zone) connected to the mains in order to power on the system and ensure sufficient cooling. The system
fans are inside the power supply units and must spin for cooling. Because all the system fans can be powered
by one power supply, the second power supply unit does not have to be powered on, but must be connected.
Caution
If you remove a power supply from a system that has four power supplies that are connected and powered
on, the system can run only for a maximum of five minutes before shutting down. However, because the fans
and power elements are independent within the power supply, the replacement power supply does not have
to be energized within five minutes. The only requirement is that the power supply be installed in the chassis
in order to energize the fans and maintain proper system cooling.
Grasping the power supply handles, pull the power supply from the chassis.
Replace the DC power supply within five minutes.
What to Do Next
This completes the procedure of removing a DC power supply from the Cisco ASR 1006 Router.
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Replacing the DC Power Supply in Cisco ASR 1006 Router
Note
The color coding of the DC input power supply leads depends on the color coding of the DC power source
at your site. Typically, green or green/yellow is used for ground (GND), black is used for –48 V on negative
(–) terminal and red is used for RTN on the positive (+) terminal. Make certain the lead color coding you
choose for the DC input power supply matches lead color coding used at the DC power source.
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
To install the DC power supply, follow these steps:
SUMMARY STEPS
1. Grasp the DC power supply by the two handles and carefully slide it into the chassis. Make sure you align
the rear connector to the backplane until it is fully seated.
2. Tighten the captive screws on the power supply.
3. Make certain that the chassis ground is connected before you begin installing the DC power supply.
4. Locate the ground stud on the DC power supply for the GND connection which must be installed first and
follow these steps:
5. Attach the other end of the ground cable to the site ground associated to the DC power supply system that
you are working on.
6. Remove the plastic cover from the terminal block if it is still on.
7. You must wrap the positive and negative power cables with sleeving. Take each wire and cover the area
from the lug to the wire with heavy shrink sleeving.
8. For easier cable-management, insert the positive cable first. Replace the ground lug with cable in the
following order:
9. Tighten the Kepnut screw (use the screwdriver to tighten the ground screw in the terminal block to a torque
of 20+/–2 in-lbs / 2 per.) and repeat the same steps for the negative wires.
10. Use tie wraps to secure the wires, so that the wires are not pulled from the terminal block by casual contact.
Ti-wrap studs are located below the power supply terminal block.
11. Replace the terminal block plastic cover, which is slotted and keyed to fit correctly over the terminal block;
then tighten the black screw (use the screwdriver to tighten the screw to a torque of 5 in-lbs / 1 per). See
the following figure.
12. Remove the tape from the circuit-breaker On/Off switch.
13. Switch the circuit breaker On/Off switch to the On (|) position.
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DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Grasp the DC power supply by the two handles and carefully slide it into the chassis. Make sure you align the rear
connector to the backplane until it is fully seated.
Tighten the captive screws on the power supply.
Make certain that the chassis ground is connected before you begin installing the DC power supply.
Locate the ground stud on the DC power supply for the GND connection which must be installed first and follow these
steps:
a) Using the grounding lug, replace the washers and Kepnut screw in the following order.
•
◦Flat washer
◦Grounding cable lug
◦Kepnut screw
b) Tighten the Kepnut screws (use the screwdriver to tighten the ground screw to a torque of 20+/–2 in-lbs / 2 per.) on
the power supply ground studs.
Step 5
Step 6
Step 7
Attach the other end of the ground cable to the site ground associated to the DC power supply system that you are working
on.
Remove the plastic cover from the terminal block if it is still on.
Caution
Before you continue to install the terminal block ground wires, stop and perform Step 7. This is to prevent
any contact between the metal power lugs and plastic cover.
You must wrap the positive and negative power cables with sleeving. Take each wire and cover the area from the lug to
the wire with heavy shrink sleeving.
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Removing and Replacing a DC Power Supply in Cisco ASR 1006 Router
The following figure shows the terminal block ground lugs for the ASR1006-PWR-DC power supply of the Cisco ASR
1006 Router.
Figure 271: Cisco ASR 1006 Router DC Power Supply (ASR1006-PWR-DC) Terminal Block Ground Lugs
1
Negative lug and wire with 3
sleeving wrapped around the
wire and end of lug
Protective sleeving area
2
Positive lug and wire with 4
sleeving wrapped around the
wire and end of lug
Ground stud and cable
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Removing and Replacing a DC Power Supply in Cisco ASR 1006 Router
The following figure shows the terminal block ground lugs for the ASR1013/06-PWR-DC power supply of the Cisco
ASR 1006 Router.
Figure 272: Cisco ASR 1006 Router DC Power Supply (ASR1013/06-PWR-DC) Ground Lug Installation
1
DC power supply grounding 4
stud with wire
Flat washer
2
Grounding screws
5
Kepnut screw
3
DC power supply ground
symbol
—
—
Step 8
For easier cable-management, insert the positive cable first. Replace the ground lug with cable in the following order:
a) Flat Washer
b) Ground lug with positive wire
c) Kepnut screw
Step 9
Tighten the Kepnut screw (use the screwdriver to tighten the ground screw in the terminal block to a torque of 20+/–2
in-lbs / 2 per.) and repeat the same steps for the negative wires.
Note
Secure the wires coming in from the terminal block so that they cannot be disturbed by casual contact.
Step 10
Use tie wraps to secure the wires, so that the wires are not pulled from the terminal block by casual contact. Ti-wrap
studs are located below the power supply terminal block.
Note
The ground wire must contain a loop when securing it to the tie-wrap tab to prevent it from being pulled
out.
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Removing and Replacing the Cisco ASR 1004 Router Power Supplies
Step 11
Replace the terminal block plastic cover, which is slotted and keyed to fit correctly over the terminal block; then tighten
the black screw (use the screwdriver to tighten the screw to a torque of 5 in-lbs / 1 per). See the following figure.
Figure 273: Cisco ASR 1006 Router DC Power Supply Terminal Block Plastic Cover and Switch
1
Step 12
Step 13
DC power supply On/Off
switch
2
Terminal block plastic cover
black screw
Remove the tape from the circuit-breaker On/Off switch.
Switch the circuit breaker On/Off switch to the On (|) position.
What to Do Next
Note
The requirement for maximum torque applied to the power or ground Kepnuts must be 8 in-lb when the
power or ground lug is not present.
This completes the procedure for installing the DC power supply into the Cisco ASR 1006 Router.
Removing and Replacing the Cisco ASR 1004 Router Power
Supplies
The Cisco ASR 1004 Router contains power supplies that are field replaceable units. This section contains
the following topics:
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Removing and Replacing an AC Power Supply in Cisco ASR 1004 Router
Removing and Replacing an AC Power Supply in Cisco ASR 1004 Router
This section provides information about removing and replacing an AC power supply in the Cisco ASR 1004
Router.
Removing the AC Power Supply from Cisco ASR 1004 Router
Because of the power supply redundancy, there is no need to power off the Cisco ASR 1004 Router before
removing one of the AC power supplies.
The Cisco ASR 1004 Router has two of the same type power supplies in power supply Slot 0 and power
supply Slot 1. See the following figure.
Figure 274: Cisco ASR 1004 Router AC Power Supply Slot 0 and Slot 1
1
AC power supply
Standby switch
4
AC power supply fan
2
AC power supply LEDs
5
AC power inlet
3
DB-25 alarm connector* 6
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AC power supply handle
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Removing and Replacing an AC Power Supply in Cisco ASR 1004 Router
*For information about
the DB-25 alarm
connector, how it works,
and Cisco ASR 1000
route processor LEDs, see
the xref “How Cisco
ASR1000-RP Alarm
Monitoring Works”
section on page 2-20.
Note: Shielded cables
must be used to connect
to the DB-25 alarm
connector on both the AC
and DC power supplies,
in order to comply with
FCC/EN55022/CISPR22
Class A emissions
requirements.
Following these steps to remove an AC power supply from the Cisco ASR 1004 Router.
SUMMARY STEPS
1.
2.
3.
4.
5.
6.
7.
Slip on the ESD-preventive wrist strap that was included in the accessory kit.
Before you turn off a power supply, make certain the chassis is grounded.
Turn the power supply Standby switch to the Standby position.
Unplug the power cable from the AC inlet on the back of the power supply and the power source.
Unscrew the four power supply captive screws and grasp the handles on both sides of the power supply.
Grasping the power supply handles, pull the power supply from the chassis.
Replace the AC power supply within five minutes.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Slip on the ESD-preventive wrist strap that was included in the accessory kit.
Before you turn off a power supply, make certain the chassis is grounded.
Turn the power supply Standby switch to the Standby position.
Unplug the power cable from the AC inlet on the back of the power supply and the power source.
Unscrew the four power supply captive screws and grasp the handles on both sides of the power supply.
Note
Four power supplies must be installed in the chassis at all times, with a minimum of two power supplies (one
per zone) connected to the mains in order to power on the system and ensure sufficient cooling. The system
fans are inside the power supply units and must spin for cooling. Because all the system fans can be powered
by one power supply, the second power supply unit does not have to be powered on, but must be connected.
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Removing and Replacing an AC Power Supply in Cisco ASR 1004 Router
If you remove a power supply from a system that has four power supplies that are connected and powered
on, the system can run only for a maximum of five minutes before shutting down. However, because the fans
and power elements are independent within the power supply, the replacement power supply does not have
to be energized within five minutes. The only requirement is that the power supply be installed in the chassis
in order to energize the fans and maintain proper system cooling.
Grasping the power supply handles, pull the power supply from the chassis.
Replace the AC power supply within five minutes.
Caution
Step 6
Step 7
What to Do Next
This completes the procedure for removing the AC power supply from the Cisco ASR 1004 chassis.
Replacing the AC Power Supply in Cisco ASR 1004 Router
This section provides information about installing an AC power supply in the Cisco ASR 1004 Router.
Warning
Never install an AC power module and a DC power module in the same chassis. Statement 1050
SUMMARY STEPS
1.
2.
3.
4.
5.
Insert an AC power supply in power supply slot 0 or power supply slot 1 until it is fully seated.
Tighten the captive screws.
Insert the AC power cable.
Plug the power supply cable into the power source.
Turn the power supply Standby switch to On (|) position.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Insert an AC power supply in power supply slot 0 or power supply slot 1 until it is fully seated.
Tighten the captive screws.
Insert the AC power cable.
Plug the power supply cable into the power source.
Turn the power supply Standby switch to On (|) position.
What to Do Next
This completes the procedure for installing the AC power supply in the Cisco ASR 1004 Router.
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Removing and Replacing a DC Power Supply in Cisco ASR 1004 Router
This section provides information about removing and installing a DC power supply in the Cisco ASR 1004
Router.
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Warning
Installation of the equipment must comply with local and national electrical codes. Statement 1074
The following figure shows the DC power supply and components for the Cisco ASR 1004 Router.
Figure 275: Cisco ASR 1004 Router DC Power Supply
1
DC power supply
5
terminal block and plastic
cover
DC power supply ground
symbol
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2
DC power supply LEDs
6
DC power supply On (|)/
Off (O)
3
DB-25 alarm connector* 7
DC power supply handle
4
DC power supply fan
—
—
*For information about
the DB-25 alarm
connector, how it works,
and Cisco ASR 1000
route processor LEDs, see
the xref “How Cisco
ASR1000-RP Alarm
Monitoring Works”
section on page 2-20.
Note: Shielded cables
must be used to connect
to the DB-25 alarm
connector on both the AC
and DC power supplies,
in order to comply with
FCC/EN55022/CISPR22
Class A emissions
requirements.
Removing the DC Power Supply from the Cisco ASR 1004 Router
Before you can remove a DC power supply from the Cisco ASR 1004 Router, you must remove power from
the power supply. Follow these steps to remove power and the DC power supply from the chassis.
SUMMARY STEPS
1. Make certain that the chassis ground is connected before you begin removing the DC power supply.
2. Switch the power supply circuit breaker switch to Off (O).
3. Locate the terminal block on the rear of the chassis on the power supply. The following figure shows the
DC power supply terminal block.
4. Remove the slotted plastic cover from the terminal block.
5. Locate the power supply ground stud (see xref fig). Remove the ground (GND) cable from the DC power
supply.
6. Loosen and remove the Kepnut screw, washer, and ground lug in that order.
7. Loosen the captive screws on the DC power supply.
8. Grasping the power supply handles, pull the power supply from the chassis.
9. Replace the DC power supply within five minutes.
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DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Make certain that the chassis ground is connected before you begin removing the DC power supply.
Switch the power supply circuit breaker switch to Off (O).
Locate the terminal block on the rear of the chassis on the power supply. The following figure shows the DC power
supply terminal block.
Remove the slotted plastic cover from the terminal block.
1
Negative terminal
3
Ground stud
2
Positive terminal
4
Terminal block plastic cover
screws
a) Loosen and remove the two #10 screws from the plastic cover. The plastic cover has slots that help to slide it out
towards the right.
b) Using a nut driver (7/16 size), unscrew the positive kepnut, positive cable, and the flat washer, in that order. The
terminal block houses two double-hole barrel lugs.
c) Follow Step 4b and remove the negative cable.
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The following figure shows the DC power supply terminal block with lead wires connected.
Figure 276: Cisco ASR 1004 Router DC Power Supply Terminal Block Lead Wire Connection
Step 5
Step 6
Step 7
1
Ground stud and wire
4
Flat washer
2
Ground lug nut
5
Kepnut screw
3
Ground symbol
—
—
Locate the power supply ground stud (see xref fig). Remove the ground (GND) cable from the DC power supply.
Loosen and remove the Kepnut screw, washer, and ground lug in that order.
Warning
When installing the unit, the ground connection must always be made first and disconnected
last.
Loosen the captive screws on the DC power supply.
Note
Four power supplies must be installed in the chassis at all times, with a minimum of two power supplies (one
per zone) connected to the mains in order to power on the system and ensure sufficient cooling. The system
fans are inside the power supply units and must spin for cooling. Because all the system fans can be powered
by one power supply, the second power supply unit does not have to be powered on, but must be connected.
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Removing and Replacing a DC Power Supply in Cisco ASR 1004 Router
If you remove a power supply from a system that has four power supplies that are connected and powered
on, the system can run only for a maximum of five minutes before shutting down. However, because the fans
and power elements are independent within the power supply, the replacement power supply does not have
to be energized within five minutes. The only requirement is that the power supply be installed in the chassis
in order to energize the fans and maintain proper system cooling.
Grasping the power supply handles, pull the power supply from the chassis.
Replace the DC power supply within five minutes.
Caution
Step 8
Step 9
What to Do Next
This completes the procedure of removing a DC power supply from the Cisco ASR 1004 Router.
Replacing the DC Power Supply in Cisco ASR 1004 Router
Note
The color coding of the DC input power supply leads depends on the color coding of the DC power source
at your site. Typically, green or green/yellow is used for ground (GND), black is used for negative (–)
terminal and red is used for the positive (+) terminal. Make certain the lead color coding you choose for
the DC input power supply matches lead color coding used at the DC power source.
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
To install the DC power supply, follow these steps:
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SUMMARY STEPS
1. Make certain that the chassis ground is connected before you begin installing the DC power supply.
2. Grasp the DC power supply by the two handles and carefully slide it into the chassis. Make sure you align
the rear connector to the backplane until it is fully seated.
3. Tighten the captive screws on the power supply.
4. Locate the power supply terminal block and remove the plastic cover from the terminal block:
5. You must wrap the positive and negative cables with sleeving. Take each ground wire and cover the area
from the lug to the wire with heavy shrink sleeving (see xref fig).
6. Attach the GND wire first and follow this order:
7. Tighten the KEP-style hex nut screws (use the screwdriver to tighten the ground screw in the terminal
block to a torque of 18-22 in-lbs) on the power supply studs
8. Insert the positive ground cable. Replace the ground lug with cable in the following order:
9. Tighten the KEP-style hex nut screws (use the screwdriver to tighten the positive ground screw in the
terminal block to a torque of 18-22 in-lbs) on the power supply ground studs and repeat the same steps
for the negative ground stud and wire (see xref fig).
10. Use tie wraps to secure the wires, so that the wires are not pulled from the terminal block by casual contact.
Tie-wrap studs are located below the power supply terminal block.
11. Replace the terminal block plastic cover and tighten the screws. The plastic cover slides in easily over the
terminal block.
12. If you taped the circuit breaker, then remove the tape from the circuit-breaker switch handle and move
the circuit-breaker handle to the on position.
13. Switch the power supply circuit breaker switch to the On (|) position.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Make certain that the chassis ground is connected before you begin installing the DC power supply.
Grasp the DC power supply by the two handles and carefully slide it into the chassis. Make sure you align the rear
connector to the backplane until it is fully seated.
Tighten the captive screws on the power supply.
Locate the power supply terminal block and remove the plastic cover from the terminal block:
a) Unscrew and remove the two #10 screws.
b) Slide the cover off the terminal block towards the right.
Caution
Before you continue to install the terminal block ground wires, stop and perform Step 5 to prevent any
contact with metal lead on the ground wire and the plastic cover.
You must wrap the positive and negative cables with sleeving. Take each ground wire and cover the area from the lug
to the wire with heavy shrink sleeving (see xref fig).
Attach the GND wire first and follow this order:
a) Flat Washer
b) Ground lug with grounding wire
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c) KEPnut screw
Step 7
Step 8
Tighten the KEP-style hex nut screws (use the screwdriver to tighten the ground screw in the terminal block to a torque
of 18-22 in-lbs) on the power supply studs
Insert the positive ground cable. Replace the ground lug with cable in the following order:
a) Flat Washer
b) Ground lug with positive wire
c) Kepnut screw
Step 9
Tighten the KEP-style hex nut screws (use the screwdriver to tighten the positive ground screw in the terminal block to
a torque of 18-22 in-lbs) on the power supply ground studs and repeat the same steps for the negative ground stud and
wire (see xref fig).
Note
Secure the wires coming in from the terminal block so that they cannot be disturbed by casual contact.
Step 10
Use tie wraps to secure the wires, so that the wires are not pulled from the terminal block by casual contact. Tie-wrap
studs are located below the power supply terminal block.
Note
The ground wire must contain a loop when securing it to the tie-wrap tab to prevent it from being pulled
out.
Replace the terminal block plastic cover and tighten the screws. The plastic cover slides in easily over the terminal block.
If you taped the circuit breaker, then remove the tape from the circuit-breaker switch handle and move the circuit-breaker
handle to the on position.
Switch the power supply circuit breaker switch to the On (|) position.
Step 11
Step 12
Step 13
What to Do Next
This completes the procedure for connecting the DC power supply in the Cisco ASR 1004 Router.
Removing and Replacing the Cisco ASR 1002 Router Power
Supplies
The Cisco ASR 1002 Router contains the following power supplies:
• AC power supply
• –48 VDC power supply
• +24 VDC power supply
This section contains the procedures to remove and replace these power supplies in the Cisco ASR 1002
Router, Cisco ASR 1002-F Router, and Cisco ASR 1002-X Router.
Note
Unless otherwise noted, the Cisco ASR 1002-F Router AC and –48 VDC power supply and removal and
installation remain the same as the Cisco ASR 1002 Router.
This section contains the following topics:
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Removing and Replacing an AC Power Supply in Cisco ASR 1002 Router
This section provides information about removing and replacing an AC power supply in the Cisco ASR 1002
Router.
Note
You must have both power supplies installed in the Cisco router.
The Cisco ASR 1002 Router has two of the same type power supplies in power supply slot 0 and power supply
slot 1. The following figure shows the Cisco ASR 1002 Router AC power supply.
Figure 277: Cisco ASR 1002 Router AC Power Supply
1
AC power supply ESD
socket
5
Fan
2
AC power supply slot 0
label
6
Captive installation screw
3
AC power supply On (|)
/Off (O) switch
7
AC power supply slot 1
label
4
AC power supply LEDs
8
AC power inlet
Removing the AC Power Supply from Cisco ASR 1002 Router
To remove the AC power supply from the Cisco ASR 1002 Router, follow these steps:
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SUMMARY STEPS
1.
2.
3.
4.
5.
Slip on the ESD-preventive wrist strap that was included in the accessory kit.
Turn the switch to the Off (O) position, remove wiring, and unplug the AC cord.
Unscrew all of the power supply captive screws.
Grasping the power supply handles, pull the power supply from the chassis.
Replace the AC power supply within five minutes.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Slip on the ESD-preventive wrist strap that was included in the accessory kit.
Turn the switch to the Off (O) position, remove wiring, and unplug the AC cord.
Unscrew all of the power supply captive screws.
Note
Two power supplies must be installed in the chassis at all times, with a minimum of one power supply connected
to the mains in order to power on the system and ensure sufficient cooling. The system fans are inside the power
supply units and must spin for cooling. Because all the system fans can be powered by one power supply, the
second power supply unit does not have to be powered on, but must be connected.
Caution
If you remove a power supply from a system that are connected and powered on, the system can run only for
a maximum of five minutes before shutting down. However, because the fans and power elements are
independent within the power supply, the replacement power supply does not have to be energized within
five minutes. The only requirement is that the power supply be installed in the chassis in order to energize
the fans and maintain proper system cooling.
Grasping the power supply handles, pull the power supply from the chassis.
Replace the AC power supply within five minutes.
What to Do Next
This completes the procedure for removing the AC power supply from the Cisco ASR 1002 chassis.
Replacing the AC Power Supply in Cisco ASR 1002 Router
This section provides information about installing an AC power supply in the Cisco ASR 1002 Router.
Warning
Never install an AC power module and a DC power module in the same chassis. Statement 1050
SUMMARY STEPS
1. Insert an AC power supply in power supply slot 0 or power supply slot 1 until it is fully seated.
2. Tighten the captive screws.
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DETAILED STEPS
Step 1
Step 2
Insert an AC power supply in power supply slot 0 or power supply slot 1 until it is fully seated.
Tighten the captive screws.
Replacing the AC Power Supply in Cisco ASR 1002 Router
To connect AC power to the Cisco ASR 1002 Router, follow these steps:
SUMMARY STEPS
1. At the rear of the router, check that the power switch is in the Off (O) position.
2. Insert the AC power cable into the AC power inlet and then turn On (|).
3. To ensure that the AC power cord does not interfere with other cables or wires, dress the AC power cable
in one of the following ways.
4. Plug the AC power supply cable into the AC power source.
DETAILED STEPS
Step 1
At the rear of the router, check that the power switch is in the Off (O) position.
Note
Turn the power switch to the On (|) position after both power sides of the power cord are connected.
Step 2
Step 3
Insert the AC power cable into the AC power inlet and then turn On (|).
To ensure that the AC power cord does not interfere with other cables or wires, dress the AC power cable in one of the
following ways.
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a) Leave a small service loop in the AC power cord from the inlet and then secure the power cord through the AC power
supply handle as shown in the following figure. Alternatively, go to step 3b.
Figure 278: Cisco ASR 1002 Router AC Power Supply and Cord in Slot 1
1
AC power cord
b) Take the power cord and run it below the handles of the power supply in slot 1and the power supply in slot 0 (left).
Make sure the power cord is hanging loosely so that it cannot be disconnected from the AC power inlet (see the
following figure).
Figure 279: Cisco ASR 1002 Router AC Power Cord Through AC Power Supply 0 and 1
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Caution
Do not run the AC power cord through the either power supply handles as shown in the following figure.
Figure 280: Cisco ASR 1002 Router Improper AC Power Cord Cabling
Using a tie wrap for the AC power cable is optional and not necessary. However, if you do attach the AC
power cable to a power supply tab and then you remove the AC power cable for some reason, check for any
damage to the cable after you cut the tie wrap off. If the power cord is damaged, replace it immediately.
Plug the AC power supply cable into the AC power source.
Note
Two power supplies must be installed in the chassis at all times, with a minimum of one power supply connected
to the mains in order to power on the system and ensure sufficient cooling. The system fans are inside the power
supply units and must spin for cooling. Because all the system fans can be powered by one power supply, the
second power supply unit does not have to be powered on, but must be connected.
Caution
If you remove a power supply from a system that are connected and powered on, the system can run only for
a maximum of five minutes before shutting down. However, because the fans and power elements are
independent within the power supply, the replacement power supply does not have to be energized within
five minutes. The only requirement is that the power supply be installed in the chassis in order to energize
the fans and maintain proper system cooling.
Note
Step 4
What to Do Next
This completes the procedure for installing the AC power supply in the Cisco ASR 1002 Router.
Removing and Replacing a –48 VDC Power Supply in Cisco ASR 1002 Router
This section provides information about removing and installing a –48 VDC power supply in the Cisco ASR
1002 Router.
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
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Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Warning
Installation of the equipment must comply with local and national electrical codes. Statement 1074
The following figure shows the –48 VDC power supply and components for the Cisco ASR 1002 Router.
Figure 281: Cisco ASR 1002 Router –48 VDC Power Supply
1
Power supply ESD socket 6
Power supply captive
installation screw
2
Power supply slot 0 label 7
Power supply slot 1 label
3
Power supply switch
Standby/On (|)
8
Ground (GND)
4
Power supply LEDs
9
Positive lead
5
Fan
10
Negative lead
Removing the –48 VDC Power Supply from Cisco ASR 1002 Router
Before you can remove a –48 VDC power supply from the Cisco ASR 1002 Router, you must remove input
power going to the power supply.
Caution
Make certain that the chassis ground is connected before you begin removing and installing the power
supply.
To remove the –48 VDC power supply from the Cisco ASR 1002 Router, follow this procedure:
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SUMMARY STEPS
1. Slip on the ESD-preventive wrist strap that was included in the accessory kit.
2. Place the power supply Standby switch in the Standby (see the following figure) position.
3. Turn off the branch circuit breaker before touching terminal screws. Then start loosening the terminal
block screws to remove wires.
4. Remove the leads from the terminal block in the following order.
5. Unscrew all of the power supply captive screws.
6. Grasping the power supply handles, pull the power supply from the chassis.
7. Replace the –48 VDC power supply within five minutes.
DETAILED STEPS
Step 1
Step 2
Slip on the ESD-preventive wrist strap that was included in the accessory kit.
Place the power supply Standby switch in the Standby (see the following figure) position.
Figure 282: Cisco ASR 1002 Router –48 VDC Power Supply Terminal Block
1
Negative terminal
3
Ground terminal
2
Positive terminal
—
—
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Step 3
Step 4
Turn off the branch circuit breaker before touching terminal screws. Then start loosening the terminal block screws to
remove wires.
Remove the leads from the terminal block in the following order.
a) Negative lead
b) Positive lead
c) Ground lead
Step 5
Step 6
Step 7
Unscrew all of the power supply captive screws.
Note
Two power supplies must be installed in the chassis at all times, with a minimum of one power supply connected
to the mains in order to power on the system and ensure sufficient cooling. The system fans are inside the power
supply units and must spin for cooling. Because all the system fans can be powered by one power supply, the
second power supply unit does not have to be powered on, but must be connected.
Caution
If you remove a power supply from a system that are connected and powered on, the system can run only for
a maximum of five minutes before shutting down. However, because the fans and power elements are
independent within the power supply, the replacement power supply does not have to be energized within
five minutes. The only requirement is that the power supply be installed in the chassis in order to energize
the fans and maintain proper system cooling.
Grasping the power supply handles, pull the power supply from the chassis.
Replace the –48 VDC power supply within five minutes.
What to Do Next
This completes the procedure of removing a –48 VDC power supply from the Cisco ASR 1002 Router.
Replacing the –48 VDC Power Supply in Cisco ASR 1002 Router
The –48 VDC power supply input connector is a Euro-style terminal block. Features are provide for strain
relieving the input wires from the terminal block on the front panel. The ground wire must contain a loop
when secured to prevent any strain on the wires. The connection order is negative (–), positive (+), and GND.
The recommended branch circuit breaker for the Cisco ASR 1002 Router –48 VDC power supply is 30 A.
Use an AWG #10 gauge wire on the 30 A circuit.
This section describes how to connect the –48 VDC power supply in the Cisco ASR 1002 Router.
Note
The color coding of the –48 VDC input power supply leads depends on the color coding of the –48 VDC
power source at your site. Typically, green or green/yellow is used for ground. Make certain the lead color
coding you choose for the –48 VDC input power supply matches lead color coding used at the –48 VDC
power source.
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
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SUMMARY STEPS
1. At the rear of the router, check that the power Standby switch is in the Standby position.
2. Ensure that the positive and negative leads are disconnected from the site power source and the source
circuit breaker is turned off.
3. Using a wire stripper, strip approximately 0.55 inch (14 mm) from the negative, positive, and ground
leads.
4. Insert the stripped end of the ground lead all the way into the ground lead receptacle on the –48 VDC
input power supply, and tighten the receptacle screw using a 3.5 mm flat-blade screwdriver (see the
following figure).
5. Insert the stripped end of the positive lead all the way into the positive lead receptacle and tighten the
receptacle screw using the same 3.5mm flat-blade screwdriver. Repeat this step for the negative lead.
6. After tightening the receptacle screw for the ground, and leaving the extra service loop in the ground lead,
use a cable tie to secure the three leads to the power supply faceplate tie-wrap tab.
7. Turn on the branch source breaker.
8. Place the power supply standby switch to the On (|) position. The power supply LEDs light when power
is supplied to the router.
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DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
At the rear of the router, check that the power Standby switch is in the Standby position.
Ensure that the positive and negative leads are disconnected from the site power source and the source circuit breaker
is turned off.
Using a wire stripper, strip approximately 0.55 inch (14 mm) from the negative, positive, and ground leads.
Insert the stripped end of the ground lead all the way into the ground lead receptacle on the –48 VDC input power supply,
and tighten the receptacle screw using a 3.5 mm flat-blade screwdriver (see the following figure).
Figure 283: Cisco ASR 1002 Router –48 VDC Power Supply Terminal Block Lead Wire Connection
Step 5
Step 6
1
Ground lead wire with
service loop
3
Power negative lead wire
2
Power positive lead wire
4
Power supply Standby
switch
Insert the stripped end of the positive lead all the way into the positive lead receptacle and tighten the receptacle screw
using the same 3.5mm flat-blade screwdriver. Repeat this step for the negative lead.
Note
Make sure the entire stripped end of each lead is inserted all the way into its receptacle. If any exposed wire at
the stripped end of a lead is visible after inserting the lead into its receptacle, remove the lead from the receptacle,
use the wire stripper to cut the stripped end of the lead, and repeat Step 3 through Step 5.
After tightening the receptacle screw for the ground, and leaving the extra service loop in the ground lead, use a cable
tie to secure the three leads to the power supply faceplate tie-wrap tab.
Caution
When securing the ground, positive, and negative –48 VDC-input leads to the power supply faceplate, leave
extra service loop in the ground lead to ensure that the ground lead is the last lead to disconnect from the
power supply if a great deal of strain is placed on all three leads as shown in xref fig.
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Removing and Replacing a +24 VDC Power Supply in Cisco ASR 1002 Router
Step 7
Step 8
Turn on the branch source breaker.
Place the power supply standby switch to the On (|) position. The power supply LEDs light when power is supplied to
the router.
Removing and Replacing a +24 VDC Power Supply in Cisco ASR 1002 Router
This section provides information about removing and replacing a +24 VDC power supply in the Cisco ASR
1002 Router.
Before you begin, read the following notices:
• The labeling displays +27 VDC INPUT. This labeling describes the nominal voltage provided at a cell
site.
• Observe the polarity location—Unlike the polarity labels of the –48 VDC power supply (ground, positive,
negative), the polarity labels on the +24 VDC are ground, negative, positive as shown in xref fig from
right to left as they appear on the actual power supply unit.
• The ground (GND) lead is always installed first and removed last.
• The +24 VDC power supply uses a spring loaded terminal block; therefore have the recommended
screwdriver size available.
• Review the diagrams to see how the wire is stripped and how the screwdriver is inserted at an angle into
the terminal block.
• Have the following equipment available to install and remove the +24 VDC power supply:
◦Phoenix Contact 3.5mm flat-blade screwdriver or equivalent
◦Wire-stripping tool for stripping 8-gauge wire
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Warning
Installation of the equipment must comply with local and national electrical codes. Statement 1074
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Removing and Replacing a +24 VDC Power Supply in Cisco ASR 1002 Router
The following figure shows the +24 VDC power supply and components for the Cisco ASR 1002 Router.
Figure 284: Cisco ASR 1002 Router +24 VDC Power Supply
1
+24 VDC terminal block 6
Standby/On switch
2
Positive (+) lead
7
Captive fastener
3
Negative (-) lead
8
Power supply tabs
4
Ground (GND) lead
9
+27 VDC INPUT label
5
Power supply LEDs
—
—
Removing the +24 VDC Power Supply from Cisco ASR 1002 Router
Before you can remove a +24 VDC power supply from the Cisco ASR 1002 Router, you must remove input
power going to the power supply.
Caution
Make certain that the chassis ground lead wire is connected before you begin removing and installing the
power supply.
To remove the +24 VDC power supply from the Cisco ASR 1002 Router, follow these steps:
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SUMMARY STEPS
1. Slip on the ESD-preventive wrist strap that was included in the accessory kit.
2. Place the power supply Standby switch in the Standby (see xref fig, item 6) position.
3. Using the recommended screwdriver, insert the screwdriver at an angle, pushing forward to release the
internal spring contact on the lead wire and then gently pull out the wire.
4. Remove screwdriver and continue removing the remaining lead wires from the terminal block, repeating
Step 4 through Step 5 for each lead wire.
5. Unscrew the two power supply captive screws.
6. Grasping the power supply handles, pull the power supply from the chassis.
7. Replace the +24 VDC power supply within five minutes.
DETAILED STEPS
Step 1
Step 2
Step 3
Slip on the ESD-preventive wrist strap that was included in the accessory kit.
Place the power supply Standby switch in the Standby (see xref fig, item 6) position.
Using the recommended screwdriver, insert the screwdriver at an angle, pushing forward to release the internal spring
contact on the lead wire and then gently pull out the wire.
The screwdriver remains pushed into the spring release opening until the wire is completely removed.
Step 4
Remove screwdriver and continue removing the remaining lead wires from the terminal block, repeating Step 4 through
Step 5 for each lead wire.
Tip
If the 8-gauge input wiring is very rigid or a solid wire, then a screwdriver might not be necessary. As a result of
using few-strand heavy gauge wiring, you can insert the wire into the terminal block to release the spring tension.
After inserting the lead wire, gently pull on the wire to make certain that the wire is secured. Make certain that
no wire is exposed and that only wire insulation is seen.
Unscrew the two power supply captive screws.
Note
Two power supplies must be installed in the chassis at all times, with a minimum of one power supply connected
to the mains in order to power on the system and ensure sufficient cooling. The system fans are inside the power
supply units and must spin for cooling. Because all the system fans can be powered by one power supply, the
second power supply unit does not have to be powered on, but must be connected.
Caution
If you remove a power supply from a system that are connected and powered on, the system can run only for
a maximum of five minutes before shutting down. However, because the fans and power elements are
independent within the power supply, the replacement power supply does not have to be energized within
five minutes. The only requirement is that the power supply be installed in the chassis in order to energize
the fans and maintain proper system cooling.
Grasping the power supply handles, pull the power supply from the chassis.
Replace the +24 VDC power supply within five minutes.
Step 5
Step 6
Step 7
What to Do Next
This completes the procedure of removing a +24 VDC power supply from the Cisco ASR 1002 Router.
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Replacing the +24 VDC Power Supply in Cisco ASR 1002 Router
The +24 VDC power supply uses a spring-loaded terminal block. The input terminal block requires 8 AWG
multi-strand wiring to support input current. Features are provide for strain relieving the input wires from the
terminal block on the front panel. The recommended branch circuit breaker for the Cisco ASR 1002 Router
+24 VDC power supply is 40 A UL listed circuit breaker.
Before you begin, read these important notices about the +24 VDC power supply:
• The labeling displays +27 VDC INPUT. This labeling describes the nominal voltage provided at a cell
site.
• Observe the polarity—Unlike the polarity labels of the –48 VDC power supply (ground, positive,
negative), the polarity labels on the +24 VDC are ground, negative, positive as shown in xref fig from
right to left as they appear on the actual power supply unit.
• The ground (GND) lead is always installed first and removed last.
• The +24 VDC power supply uses a spring loaded terminal block; therefore have the recommended
screwdriver size available.
• Review the diagrams to see how the wire is stripped and how the screwdriver is inserted at an angle into
the terminal block.
• Have the following equipment available to install and remove the +24 VDC power supply:
◦3.5mm flat-blade screwdriver
◦8-gauge wire
The following figure shows the +24 VDC power supply for the Cisco ASR 1002 Router.
Figure 285: +24 VDC Power Supply for the Cisco ASR 1002 Router
1
+24 VDC terminal block 6
Standby/On switch
2
Positive (+) lead
7
Captive fastener
3
Negative (-) lead
8
Power supply tabs
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4
Ground (GND) lead
9
+27 VDC INPUT label
5
Power supply LEDs
—
—
This section describes how to connect the +24 VDC power supply in the Cisco ASR 1002 Router.
Note
The color coding of the +24 VDC input power supply leads depends on the color coding of the +24 VDC
power source at your site. Typically, green or green/yellow is used for ground. Make certain the lead color
coding you choose for the +24 VDC input power supply matches lead color coding used at the +24 VDC
power source. Most commonly used wire color-coding is red for positive (+) lead and black for negative
(–) lead.
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
To connect +24 VDC power supply in the Cisco ASR 1002 Router, follow these steps:
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SUMMARY STEPS
1. At the rear of the router, check that the power Standby switch is in the Standby position.
2. Ensure that the positive and negative leads are disconnected from the site power source and the source
circuit breaker is turned off.
3. Using a wire stripper, strip the recommended amount of wire insulation which is 15mm (0.6 inch) from
the negative, positive, and ground leads.
4. The following figure shows the wire strip and insulation location.
5. Using a 3.5mm screwdriver, insert the screwdriver at an angle to release the spring while you install the
stripped lead wire (see the following figure).
6. Carefully push the screwdriver at an angle forward until you relieve the spring contact.
7. With the screwdriver still inserted, gently push the lead wire (ground lead first) in until there is no copper
wire showing as shown in the following figure.
8. Make certain no copper wire is visible as shown in the following figure which shows the lead wire fully
inserted.
9. After the lead wire is fully inserted, hold the lead wire in place by pressing inward while you remove the
screwdriver to release the spring to tension down on the installed lead wire, then perform these steps:
10. Repeat Steps 5 through Step 10 for each lead wire. The following figure shows the leads wires installed
in the terminal block.
11. After inserting the ground wire leave an extra service loop in the ground lead to ensure that the ground
lead is the last lead to disconnect from the power supply if a great deal of strain is placed on all three leads
as shown in the following figure, callout 1.
12. After tightening the receptacle screw for the ground, and leaving the extra service loop in the ground lead,
use a cable tie to secure the three leads to the power supply faceplate tie-wrap tab as shown in xref fig,
callout 5.
13. Turn on the branch source breaker.
14. Place the power supply standby switch to the On (|) position. The power supply LEDs light when power
is supplied to the router.
DETAILED STEPS
Step 1
Step 2
Step 3
At the rear of the router, check that the power Standby switch is in the Standby position.
Ensure that the positive and negative leads are disconnected from the site power source and the source circuit breaker
is turned off.
Using a wire stripper, strip the recommended amount of wire insulation which is 15mm (0.6 inch) from the negative,
positive, and ground leads.
Note
The stripping length is common to all types of wire used.
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Step 4
The following figure shows the wire strip and insulation location.
Figure 286: Wire Strip and Lead for the +24 VDC Terminal Block
1
Step 5
Lead wire stripped area
—
—
Using a 3.5mm screwdriver, insert the screwdriver at an angle to release the spring while you install the stripped lead
wire (see the following figure).
Figure 287: Inserting a Screwdriver into the +24 VDC Power Supply Terminal Block
Step 6
Step 7
Carefully push the screwdriver at an angle forward until you relieve the spring contact.
With the screwdriver still inserted, gently push the lead wire (ground lead first) in until there is no copper wire showing
as shown in the following figure.
Caution
Check that there is no copper portion of the lead wire exposed. Only wire insulation must be visible.
Caution
Do not install wire into the terminal block that has not had its insulation removed.
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The following figure shows the +24 VDC power supply lead wire inserted into the terminal block.
Figure 288: Cisco ASR 1002 Router +24 VDC Power Supply Lead Wire Inserted into the Terminal Block
1
Step 8
Lead wire insulation
2
Copper wire
Make certain no copper wire is visible as shown in the following figure which shows the lead wire fully inserted.
Figure 289: Cisco ASR 1002 Router +24 VDC Power Supply Lead Wire Fully Inserted
1
Fully-inserted lead wire
—
—
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Step 9
After the lead wire is fully inserted, hold the lead wire in place by pressing inward while you remove the screwdriver to
release the spring to tension down on the installed lead wire, then perform these steps:
a) Hold the lead wire in place while you are removing the screwdriver.
b) Once the screwdriver is completely removed, gently pull on the lead wire to make certain that the lead wire is securely
installed.
The following figure shows a lead wire fully inserted and the screwdriver removed while you gently pull on the lead
to make certain it is secured in the terminal block.
Figure 290: Removing a Screwdriver from the +24 VDC Power Supply Terminal Block
1
Gently pull on lead wire.
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Step 10
Repeat Steps 5 through Step 10 for each lead wire. The following figure shows the leads wires installed in the terminal
block.
Figure 291: Cisco +24 VDC Power Supply Terminal Block with Lead Wires Installed
1
Positive lead wire
3
Ground lead wire
2
Negative lead wire
—
—
Make sure the stripped end of each lead wire is twisted tightly together. This makes insertion easier. Then make
certain the entire lead wire is inserted all the way into its receptacle. If any exposed wire at the stripped end of
a lead is visible after inserting the lead into its receptacle, remove the lead from the receptacle, use the wire
stripper to cut the stripped end of the lead, and then reinsert.
Caution
When securing the ground, positive, and negative +24 VDC-input leads to the power supply faceplate, leave
extra service loop in the ground (GND) lead to ensure that the ground lead is the last lead wire to disconnect
from the power supply if a great deal of strain is placed on all three leads.
Note
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Step 11
After inserting the ground wire leave an extra service loop in the ground lead to ensure that the ground lead is the last
lead to disconnect from the power supply if a great deal of strain is placed on all three leads as shown in the following
figure, callout 1.
Figure 292: Cisco ASR 1002 Router +24 VDC Power Supply Terminal Block Service Loop
Step 12
Step 13
Step 14
1
Ground lead wire with
service loop
4
+24 VDC power supply
Standby switch
2
Negative lead wire
5
Power supply tabs
3
Positive lead wire
—
—
After tightening the receptacle screw for the ground, and leaving the extra service loop in the ground lead, use a cable
tie to secure the three leads to the power supply faceplate tie-wrap tab as shown in xref fig, callout 5.
Turn on the branch source breaker.
Place the power supply standby switch to the On (|) position. The power supply LEDs light when power is supplied to
the router.
What to Do Next
This completes the steps for installing the +24 VDC power supply in the Cisco ASR 1002 Router.
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Removing and Replacing the Cisco ASR 1013 Router Power Supplies
Removing and Replacing the Cisco ASR 1013 Router Power
Supplies
The Cisco ASR 1013 Router contains power supplies that are field replaceable units. This section contains
the following topics:
Removing and Replacing an AC Power Supply in Cisco ASR 1013 Router
This section provides information about removing and replacing an AC power supply in the Cisco ASR 1013
Router.
Removing the AC Power Supply from Cisco ASR 1013 Router
Because of the power supply redundancy, there is no need to power off the Cisco ASR 1013 Router before
removing one of the AC power supplies.
The Cisco ASR 1013 Router has two of the same type power supplies in power supply slot 0 and power supply
slot 1.
To remove the Cisco ASR 1013 Router AC power supply that is not operating normally (and then replace the
AC power supply within five minutes), follow this procedure:
SUMMARY STEPS
1.
2.
3.
4.
5.
6.
7.
Slip on the ESD-preventive wrist strap that was included in the accessory kit.
Before you turn off a power supply, make certain the chassis is grounded.
Turn the power supply standby switch to the Standby position. See the following figure.
Unplug the power cable from the AC inlet on the back of the power supply and the power source.
Unscrew the power supply captive screws.
Grasping the power supply handles, pull the power supply from the chassis.
Replace the AC power supply within five minutes.
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Removing and Replacing an AC Power Supply in Cisco ASR 1013 Router
DETAILED STEPS
Step 1
Step 2
Step 3
Slip on the ESD-preventive wrist strap that was included in the accessory kit.
Before you turn off a power supply, make certain the chassis is grounded.
Turn the power supply standby switch to the Standby position. See the following figure.
Figure 293: Cisco ASR 1013 Router AC Power Inlet and Standby Switch
1
AC power supply fan
6
AC power inlet
2
DB-25 alarm connector*
7
AC power supply standby
switch. A standby switch is
not considered a disconnect.
3
Cable tie wrap tabs
8
Protective sides around the
standby switch
4
AC power supply captive
screws
9
AC power supply LEDs
5
AC power supply handle
—
—
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*For information about the
DB-25 alarm connector, how
it works, and Cisco ASR
1000 series route processor
LEDs, see the xref section.
Note: Shielded cables must
be used to connect to the
DB-25 alarm connector on
both the AC and DC power
supplies, in order to comply
with
FCC/EN55022/CISPR22
Class A emissions
requirements.
Step 4
Step 5
Step 6
Step 7
Unplug the power cable from the AC inlet on the back of the power supply and the power source.
Unscrew the power supply captive screws.
Note
The Cisco ASR 1013 router has two power zones, each containing two power supplies for a redundant system.
Power supplies must be installed in the chassis at all times to ensure sufficient cooling. The system fans are
inside the power supply units and must spin for cooling. Because all the system fans can be powered by one
power supply, the second power supply unit does not have to be powered on, but it must be installed.
Caution
If you remove a power supply, the system can run for a maximum of five minutes before the system shuts
down. The fans and power elements are independent within the power supply. Therefore, it is not required
that the replacement power supply be energized within five minutes. The only requirement is that the power
supply be installed in the chassis, which energizes the fans and maintains proper system cooling.
Grasping the power supply handles, pull the power supply from the chassis.
Replace the AC power supply within five minutes.
What to Do Next
This completes the procedure for removing the AC power supply from the Cisco ASR 1013 chassis.
Replacing the AC Power Supply in Cisco ASR 1013 Router
This section provides information about installing an AC power supply in the Cisco ASR 1013 Router.
Danger
Never install an AC power module and a DC power module in the same chassis. Statement 1050
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SUMMARY STEPS
1.
2.
3.
4.
5.
Insert an AC power supply in power supply slot 0 or power supply slot 1 until it is fully seated.
Tighten the captive screws.
Insert the AC power cable.
Plug the power supply cable into the power source.
Turn the power supply Standby switch to the On (|) position.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Step 5
Insert an AC power supply in power supply slot 0 or power supply slot 1 until it is fully seated.
Tighten the captive screws.
Insert the AC power cable.
Plug the power supply cable into the power source.
Turn the power supply Standby switch to the On (|) position.
What to Do Next
This completes the procedure for installing the AC power supply in the Cisco ASR 1013 Router.
Removing and Replacing a DC Power Supply in Cisco ASR 1013 Router
This section provides information about removing and installing a DC power supply in the Cisco ASR 1013
Router.
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Warning
Installation of the equipment must comply with local and national electrical codes. Statement 1074
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Removing and Replacing a DC Power Supply in Cisco ASR 1013 Router
The following figure shows the DC power supply and components for the Cisco ASR 1013 Router.
Figure 294: Cisco ASR 1013 Router DC Power Supply
1
Fan
7
DC power supply captive
screw
2
DB-25 alarm connector* 8
DC power supply handle
3
Tie-wrap tab
Terminal block and
plastic cover single screw
4
DC power supply
10
terminal block and plastic
cover
On/Off (|/O) circuit
breaker switch
5
Ground symbol
11
Terminal block and
plastic cover slot tab
6
DC power supply ground 12
studs
Power supply LEDs
9
*For information about
the DB-25 alarm
connector, how it works,
and Cisco ASR 1000
route processor LEDs, see
the xref section.
Note: Shielded cables
must be used to connect
to the DB-25 alarm
connector on both the AC
and DC power supplies,
in order to comply with
FCC/EN55022/CISPR22
Class A emissions
requirements.
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Removing and Replacing a DC Power Supply in Cisco ASR 1013 Router
Removing the DC Power Supply from Cisco ASR 1013 Router
Before you can remove a DC power supply from the Cisco ASR 1013 Router, you must remove power from
the power supply. Follow these steps to remove power and the DC power supply from the chassis.
Caution
Make certain that the chassis ground is connected before you begin removing and installing the power
supply.
SUMMARY STEPS
1. Before servicing the power supply, switch the circuit breaker Off in your equipment area. As an additional
precaution, tape the circuit breaker switch in the Off position.
2. Slip on the ESD-preventive wrist strap that was included in the accessory kit.
3. Switch the power supply circuit breaker switch to Off (O).
4. Locate the terminal block on the rear of the chassis on the power supply.
5. Remove the slotted plastic cover from the terminal block (see xref fig).
6. Loosen the four captive screws on the DC power supply.
7. Grasping the power supply handles, pull the power supply from the chassis.
8. Replace the DC power supply within five minutes.
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Before servicing the power supply, switch the circuit breaker Off in your equipment area. As an additional precaution,
tape the circuit breaker switch in the Off position.
Slip on the ESD-preventive wrist strap that was included in the accessory kit.
Switch the power supply circuit breaker switch to Off (O).
Locate the terminal block on the rear of the chassis on the power supply.
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Removing and Replacing a DC Power Supply in Cisco ASR 1013 Router
The following figure shows the DC power supply terminal block and plastic cover.
Figure 295: Cisco ASR 1013 Router DC Power Supply Terminal Block and Plastic Cover
Step 5
1
Negative terminal
4
Plastic cover slotted area
2
Positive terminal
5
Terminal block plastic cover
single screw
3
Terminal block plastic cover —
—
Remove the slotted plastic cover from the terminal block (see xref fig).
a) Loosen and remove the single screw on the plastic cover. The plastic cover has slots that help to slide it out diagonally
from the terminal block.
b) Using a nut driver (7/16 size), unsrew the positive kepnut, positive cable, and the flat washer, in that order. The
terminal block houses two double-hole barrel lugs.
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Removing and Replacing a DC Power Supply in Cisco ASR 1013 Router
c) Follow Step 4b and remove the negative cable. The following figure shows the DC power supply terminal block.
Figure 296: Cisco ASR 1013 Router DC Power Supply Terminal Block Cable Connections
1
Negative lead
3
Protective sleeving around
the stud and cable
2
Positive lead
4
Ground stud and cable
Warning
Step 6
Step 7
Step 8
When removing the unit, the ground connection must always be made first and disconnected
last.
Loosen the four captive screws on the DC power supply.
Note
Four power supplies must be installed in the chassis at all times, with a minimum of two power supplies (one
per zone) connected to the mains in order to power on the system and ensure sufficient cooling. The system
fans are inside the power supply units and must spin for cooling. Because all the system fans can be powered
by one power supply, the second power supply unit does not have to be powered on, but must be connected.
Caution
If you remove a power supply from a system that has four power supplies that are connected and powered
on, the system can run only for a maximum of five minutes before shutting down. However, because the fans
and power elements are independent within the power supply, the replacement power supply does not have
to be energized within five minutes. The only requirement is that the power supply be installed in the chassis
in order to energize the fans and maintain proper system cooling.
Grasping the power supply handles, pull the power supply from the chassis.
Replace the DC power supply within five minutes.
What to Do Next
This completes the procedure of removing a DC power supply from the Cisco ASR 1013 Router.
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Removing and Replacing a DC Power Supply in Cisco ASR 1013 Router
Replacing the DC Power Supply in Cisco ASR 1013 Router
Note
The color coding of the DC input power supply leads depends on the color coding of the DC power source
at your site. Typically, green or green/yellow is used for ground (GND), black is used for –48 V on negative
(–) terminal and red is used for RTN on the positive (+) terminal. Make certain the lead color coding you
choose for the DC input power supply matches lead color coding used at the DC power source.
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
To install the DC power supply, follow these steps:
SUMMARY STEPS
1. Grasp the DC power supply by the two handles and carefully slide it into the chassis. Make sure you align
the rear connector to the backplane until it is fully seated.
2. Tighten the captive screws on the power supply.
3. Make certain that the chassis ground is connected before you begin installing the DC power supply.
4. Locate the ground stud on the DC power supply for the GND connection which must be installed first and
follow these steps:
5. Attach the other end of the ground cable to the site ground associated to the DC power supply system that
you are working on.
6. Remove the plastic cover from the terminal block if it is still on.
7. You must wrap the positive and negative power cables with sleeving. Take each wire and cover the area
from the lug to the wire with heavy shrink sleeving as pointed out in callout 3 (see xref fig).
8. For easier cable-management, insert the positive cable first. Replace the ground lug with cable in the
following order as shown in:
9. Tighten the Kepnut screw (use the screwdriver to tighten the ground screw in the terminal block to a torque
of 20+/–2 in-lbs / 2 per.) and repeat the same steps for the negative wires.
10. Use tie wraps to secure the wires, so that the wires are not pulled from the terminal block by casual contact.
Ti-wrap studs are located below the power supply terminal block.
11. Replace the terminal block plastic cover, which is slotted and keyed to fit correctly over the terminal block;
then tighten the black screw (use the screwdriver to tighten the screw to a torque of 5 in-lbs / 1 per.).
12. Remove the tape from the circuit-breaker On/Off switch (if there was any).
13. Switch the circuit breaker On/Off switch to the On (|) position.
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Removing and Replacing a DC Power Supply in Cisco ASR 1013 Router
DETAILED STEPS
Step 1
Step 2
Step 3
Step 4
Grasp the DC power supply by the two handles and carefully slide it into the chassis. Make sure you align the rear
connector to the backplane until it is fully seated.
Tighten the captive screws on the power supply.
Make certain that the chassis ground is connected before you begin installing the DC power supply.
Locate the ground stud on the DC power supply for the GND connection which must be installed first and follow these
steps:
a) Using the grounding lug, replace the washers and Kepnut screw in the following order.
•
◦Flat washer
◦Grounding cable lug
◦Kepnut screw
b) Tighten the Kepnut screws (use the screwdriver to tighten the ground screw to a torque of 20+/–2 in-lbs / 2 per.) on
the power supply ground studs.
Step 5
Step 6
Step 7
Step 8
Attach the other end of the ground cable to the site ground associated to the DC power supply system that you are working
on.
Remove the plastic cover from the terminal block if it is still on.
Caution
Before you continue to install the terminal block ground wires, stop and perform Step 7. This is to prevent
any contact between the metal power lugs and plastic cover.
You must wrap the positive and negative power cables with sleeving. Take each wire and cover the area from the lug to
the wire with heavy shrink sleeving as pointed out in callout 3 (see xref fig).
For easier cable-management, insert the positive cable first. Replace the ground lug with cable in the following order as
shown in:
a) Flat Washer
b) Ground lug with positive wire
c) Kepnut screw
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Removing and Replacing a DC Power Supply in Cisco ASR 1013 Router
The following figure shows the DC power supply terminal block with the order of installing the screws and washers
on the ground lug.
Figure 297: Cisco ASR 1013 Router DC Power Supply Ground Lug Installation
1
DC power supply
grounding stud with wire
4
Flat washer
2
Grounding screws
5
Kepnut screw
3
DC power supply ground
symbol
—
—
Step 9
Tighten the Kepnut screw (use the screwdriver to tighten the ground screw in the terminal block to a torque of 20+/–2
in-lbs / 2 per.) and repeat the same steps for the negative wires.
Note
Secure the wires coming in from the terminal block so that they cannot be disturbed by casual contact.
Step 10
Use tie wraps to secure the wires, so that the wires are not pulled from the terminal block by casual contact. Ti-wrap
studs are located below the power supply terminal block.
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Removing and Replacing the Cisco ASR 1001 Router Power Supplies
The following figure shows the DC power supply terminal block with cables connected.
Figure 298: Cisco ASR 1013 Router DC Power Supply Terminal Block Cable Connections
Step 11
Step 12
Step 13
1
Negative lead
3
Protective sleeving around
the stud and cable
2
Positive lead
4
Ground stud and cable
Replace the terminal block plastic cover, which is slotted and keyed to fit correctly over the terminal block; then tighten
the black screw (use the screwdriver to tighten the screw to a torque of 5 in-lbs / 1 per.).
Remove the tape from the circuit-breaker On/Off switch (if there was any).
Switch the circuit breaker On/Off switch to the On (|) position.
What to Do Next
Note
The requirement for maximum torque applied to the power or ground Kepnuts must be 8 in-lb when the
power or ground lug is not present.
This completes the procedure for installing the DC power supply into the Cisco ASR 1013 Router.
Removing and Replacing the Cisco ASR 1001 Router Power
Supplies
The Cisco ASR 1001 Router AC and DC power supplies are shipped installed in the chassis. You must connect
the power supplies when they arrive.
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Removing and Replacing the Cisco ASR 1001 Router Power Supplies
Note
The Cisco ASR 1001 Router can support either two AC or two DC power supplies. Do not mix the AC
and DC power supply units in the same chassis.
The following figure shows both the AC and DC power supplies for the Cisco ASR 1001 Router.
Figure 299: Cisco ASR 1001 Router AC Power Supply and DC Power Supply
1
AC and DC power supply 5
fasteners
DC power supply ground
symbol
2
AC power supply inlet
6
DC power supply
terminal block connection
3
DC power supply
negative (-) connection
7
AC and DC power supply
handles
4
DC power supply positive —
(+) connection
—
This section contains the following topics:
Warning
The covers are an integral part of the safety design of the product. Do not operate the unit without the
covers installed. Statement 1077
Warning
When you install the unit, the ground connection must always be made first and disconnected last. Statement
1046
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Installing the AC Power Supply into Cisco ASR 1001 Router
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Installing the AC Power Supply into Cisco ASR 1001 Router
The Cisco ASR 1001 Router has two AC power supplies at the rear of the chassis. The input receptacle is an
IEC60320 C14 type of filtered AC Inlet. The current rating on the connector is 10 A. The following figure
shows the ASR 1001 Router AC power supply.
Figure 300: Cisco ASR 1001 Router AC Power Supply
To connect an AC-input power supply to the Cisco ASR 1001 Router, follow these steps:
SUMMARY STEPS
1. There are two power supplies installed. At the rear of the chassis, check whether the power switch on the
chassis is in the Standby position.
2. Turn off the circuit breaker to the power supply.
3. For easier installation, plug the power cable into the inlet on power supply slot 1 first.
4. Insert the power supply cable into the power supply in slot 0 on the left.
5. Ensure that the AC power cords are positioned, as shown in the following figure.
6. Plug the AC power supply cables into the AC power source.
7. Turn on the AC breaker.
8. Turn the Standby switch to On (|) on the chassis.
9. The power supply LEDs illuminate green.
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