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Cisco 10000 Series Router SIP and SPA
Hardware Installation Guide
Software Release 12.2(34)SB
August 2008
Americas Headquarters
Cisco Systems, Inc.
170 West Tasman Drive
San Jose, CA 95134-1706
USA http://www.cisco.com
800 553-NETS (6387)
Text Part Number: OL-13838-02
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OR LIMITED WARRANTY, CONTACT YOUR CISCO REPRESENTATIVE FOR A COPY.
The following information is for FCC compliance of Class A devices: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio-frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference, in which case users will be required to correct the interference at their own expense.
The following information is for FCC compliance of Class B devices: The equipment described in this manual generates and may radiate radio-frequency energy. If it is not installed in accordance with Cisco’s installation instructions, it may cause interference with radio and television reception. This equipment has been tested and found to comply with the limits for a Class B digital device in accordance with the specifications in part 15 of the FCC rules. These specifications are designed to provide reasonable protection against such interference in a residential installation. However, there is no guarantee that interference will not occur in a particular installation.
Modifying the equipment without Cisco’s written authorization may result in the equipment no longer complying with FCC requirements for Class A or Class B digital devices. In that event, your right to use the equipment may be limited by FCC regulations, and you may be required to correct any interference to radio or television communications at your own expense.
You can determine whether your equipment is causing interference by turning it off. If the interference stops, it was probably caused by the Cisco equipment or one of its peripheral devices. If the equipment causes interference to radio or television reception, try to correct the interference by using one or more of the following measures:
• Turn the television or radio antenna until the interference stops.
• Move the equipment to one side or the other of the television or radio.
• Move the equipment farther away from the television or radio.
• Plug the equipment into an outlet that is on a different circuit from the television or radio. (That is, make certain the equipment and the television or radio are on circuits controlled by different circuit breakers or fuses.)
Modifications to this product not authorized by Cisco Systems, Inc. could void the FCC approval and negate your authority to operate the product.
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Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
Copyright © 2008 Cisco Systems, Inc. All rights reserved.
OL-13838-02
C O N T E N T S
About This Guide
vii
Objectives
1-vii
Audience
1-vii
Document Revision History
1-viii
Organization
1-viii
Related Documentation
1-ix
Obtaining Documentation, Obtaining Support, and Security Guidelines
1-ix
SIP and SPA Product Overview
1-1
Introduction to SIPs and SPAs
1-1
SPA Interface Processors
1-1
Shared Port Adapters
1-2
SIP and SPA Compatibility
1-2
Modular Optics Compatibility
1-3
Power Management
1-4
Cisco 10000 Series Router SPA Interface Processor-600
2-5
SIP Summary
2-5
Checking Hardware and Software Compatibility
2-5
Identifying Slots and Subslots for SIPs and SPAs
2-6
Specifying the Slot Location for a SIP
2-6
Specifying the Location for a SPA
2-9
Cisco 10000 SIP-600 Overview
2-10
Cisco 10000 SIP-600 Processor
2-10
Cisco 10000 SIP-600 LED
2-10
Cisco 10000 SIP-600 Physical Specifications
2-12
Cisco 10000 Series Router Shared Port Adapters
3-13
Bandwidth Oversubscription
3-13
SIP Ingress Oversubscription
3-15
PRE4 Egress Oversubscription
3-15
SIP Performance with a PRE3
3-15
1-Port 10-Gigabit Ethernet SPA Overview
3-16
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide iii
Contents
iv
1-Port 10-Gigabit Ethernet SPA LEDs
3-17
1-Port 10-Gigabit Ethernet SPA XFP Optical Transceiver Modules, Connectors, and Cables
3-17
2-Port Gigabit Ethernet SPA Overview
3-19
2-Port Gigabit Ethernet SPA LEDs
3-19
SFP Module Cabling and Connection Equipment
3-22
5-Port Gigabit Ethernet SPA Overview
3-23
5-Port Gigabit Ethernet SPA LEDs
3-23
5-Port Gigabit Ethernet SPA Cables and Connectors
3-24
8-Port Gigabit Ethernet SPA Overview
3-27
8-Port Gigabit Ethernet SPA LEDs
3-27
8-Port Gigabit Ethernet SPA Cables and Connectors
3-28
2-Port Channelized OC-12/DS0 SPA
3-31
2-Port Channelized OC-12/DS0 SPA LEDs
3-31
2-Port Channelized OC-12/DS0 SPA Interface Specifications
3-32
2-Port Channelized OC-12/DS0 SPA SFP Optical Transceiver Modules and Cables
3-32
Preparing to Install a SIP or a SPA
4-35
Required Tools and Equipment
4-35
Safety Guidelines
4-35
Safety Warnings
4-35
Electrical Equipment Guidelines
4-40
Telephone Wiring Guidelines
4-40
Preventing Electrostatic Discharge Damage
4-41
Laser/LED Safety
4-41
Installing and Removing a SIP
5-45
Handling SIPs
5-45
Online Insertion and Removal of a SIP
5-46
Deactivating a SIP
5-47
Reactivating a SIP
5-47
Verifying the Status of a SIP
5-47
SIP Installation and Removal
5-49
Installing a SIP
5-49
Removing a SIP
5-52
Installing and Removing a SPA
6-57
Handling SPAs
6-57
Online Insertion and Removal of a SPA
6-58
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
OL-13838-02
Deactivating a SPA
6-58
Reactivating a SPA
6-59
Verifying the Status of a SPA
6-59
Installing a SPA in a SIP
6-60
Removing a SPA from a SIP
6-60
Optical Device Maintenance
6-60
Cleaning Optical Devices
6-61
Checking the Installation
6-61
Verifying the Installation
6-61
Using show Commands to Verify SPA Status
6-62
SPA Blank Filler Plates
6-62
Troubleshooting the Installation
7-63
Troubleshooting
7-63
Using debug Commands
7-64
Packing a SPA for Shipment
7-65
Packing a SIP for Shipment
7-65
Contents
OL-13838-02
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide v
Contents vi
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
OL-13838-02
About This Guide
•
•
•
•
•
•
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 viii
Related Documentation, page ix
Obtaining Documentation, Obtaining Support, and Security Guidelines, page ix
Objectives
This document describes the SPA interface processor (SIP) and shared port adapters (SPAs) that are supported on the Cisco 10000 series router. This document also describes how to install the supported
SIP and SPAs and how to troubleshoot the installation.
Audience
This document is intended for network administrators who are familiar with Cisco routers, and who will be installing and configuring SPA interface processors (SIP) and shared port adapters (SPAs) supported on the Cisco 10000 series router.
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Cisco 10000 Series Router SIP and SPA Hardware Installation Guide vii
About This Guide
Document Revision History
Document Revision History
Table 1 records technical changes to this document.
Table 1 Document Revision History
Cisco IOS
Release
12.2(33)SB
12.2(34)SB
Revision
OL-13838-01
OL-13838-02
Date
April 2008
August 2008
Change Summary
First release.
Introduced the following new hardware on the Cisco 10000 series router for the
PRE4.
•
•
Introduced the 8-port Gigabit
Ethernet Shared Port Adapter (SPA).
Introduced the 2-port channelized
OC-12/DS0 SPA.
Organization
This document contains the following chapters:
Section
Chapter 1
Chapter 7
Title
Troubleshooting the Installation
Description
Provides an introduction to the SPA interface processor (SIP) and shared port adapters (SPAs).
Chapter 3
Cisco 10000 Series Router Shared
Provides a SIP and SPA compatibility summary.
For each supported SIP, provides a summary of
SIP characteristics.
Provides a summary of SPA characteristics for each supported SPA.
Chapter 4
Preparing to Install a SIP or a SPA
Describes the required tools, equipment, and safety guidelines for installing SIPs and SPAs.
Chapter 5
Describes the procedures for installing and removing a SIP on a Cisco 10000 series router.
Chapter 6
Describes the procedures for installing and removing a SPA on a Cisco 10000 series router. It also describes how to verify the SIP and SPA installation.
Provides information for troubleshooting the installation of SIPs and SPAs. It also lists helpful debug commands and error messages.
Index viii
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
OL-13838-02
About This Guide
Related Documentation
Related Documentation
The related information listed below is available online.
•
•
Cisco 10000 Series Router SIP and SPA Software Configuration Guide
Cisco IOS software:
– For Cisco IOS configuration information and support, refer to the configuration guide or command reference for a Cisco IOS mainline release. You can also refer to the specific Cisco
IOS software document for a particular feature.
– To see if a feature is supported by a Cisco IOS release, to locate the software document for that feature, or to check the minimum Cisco IOS software requirements with the hardware installed on your router, Cisco maintains the Software Advisor tool on Cisco.com. You must be a registered user on Cisco.com to access this tool. To access 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.
Note You can access Cisco IOS software configuration and hardware installation and maintenance documentation on the World Wide Web at http://www.cisco.com. Translated documentation is available at: http://www.cisco.com/public/countries_languages.shtml
.
For international agency compliance, safety, and statutory information for WAN interfaces:
• Regulatory Compliance and Safety Information for the Cisco 10000 Series Routers
Obtaining Documentation, Obtaining Support, and Security
Guidelines
For information on obtaining documentation, obtaining support, providing documentation feedback, security guidelines, and also recommended aliases and general Cisco documents, 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
OL-13838-02
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide ix
Obtaining Documentation, Obtaining Support, and Security Guidelines
About This Guide x
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
OL-13838-02
C H A P T E R
1
SIP and SPA Product Overview
This chapter provides an introduction to SPA interface processors (SIPs) and shared port adapters
(SPAs). It includes the following sections:
•
•
•
•
Introduction to SIPs and SPAs, page 1-1
SIP and SPA Compatibility, page 1-2
Modular Optics Compatibility, page 1-3
For software configuration information for the SIPs and SPAs that are supported on the Cisco 10000 series router, refer to the Cisco 10000 Series Router SIP and SPA Software Configuration Guide .
Introduction to SIPs and SPAs
SIP and SPA carrier card and port adapter architecture increases modularity, flexibility, and density across Cisco Systems routers for network connectivity. This section describes the SIPs and SPAs and provides some guidelines for their use.
SPA Interface Processors
This section describes general characteristics of a SPA interface processor (SIP). A SIP:
•
•
Is a carrier card that inserts into a router slot like a line card. It provides no network connectivity on its own.
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, should reside in the router fully populated with either: functional SPAs in all subslots, or with a blank filler plate (SPA-BLANK=) inserted in all empty subslots.
Support online insertion and removal (OIR). They can be inserted or removed independently from the SIP.
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
1-1 OL-13838-02
Chapter 1 SIP and SPA Product Overview
SIP and SPA Compatibility
Shared Port Adapters
General characteristics of a SPA include:
•
•
A SPA is a modular type of port adapter that inserts into a subslot of a compatible SIP carrier card to provide network connectivity and increased interface port density. A SIP can hold one or more
SPAs, depending on the SIP type and the SPA size.
SPAs are available in the following sizes:
– Half-height—Inserts into one SIP subslot.
– Full-height—Inserts into two horizontally aligned SIP subslots. The Cisco 10000 SIP-600 supports two full-height SPAs, specified as SPA 0 and SPA 1.
– Full-height, double-wide—Occupies four standard, half-height SIP subslots.
Figure 1-1 shows the slot orientation for the SPAs.
Figure 1-1
Front of SIP
Vertical Chassis Slot Orientation for SPA Subslots
Vertical slot orientation
•
•
•
Each SPA provides a certain number of connectors, or ports, that are the interfaces to one or more networks. These interfaces can be individually configured using the Cisco IOS command-line interface (CLI).
To maintain cooling integrity, either a blank filler plate (SPA-BLANK=) or a functional SPA must reside in each subslot of a SIP during normal operation. Blank filler plates are available in half-height form only.
SPAs support online insertion and removal (OIR). They can be inserted or removed independently from the SIP. The SIP also supports OIR with SPAs inserted in their subslots.
SIP and SPA Compatibility
shows the SPAs that are supported on the Cisco 10000 series router and the SIPs that support them.
1-2
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
OL-13838-02
Chapter 1 SIP and SPA Product Overview
Modular Optics Compatibility
Table 1-1 SIP and SPA Compatibility
SPA
1-port 10-Gigabit Ethernet SPA
2-port Gigabit Ethernet SPA
5-port Gigabit Ethernet SPA
8-port Gigabit Ethernet SPA
2-port channelized OC-12/DS0 SPA
Product ID
SPA-1X10GE-L-V2
SPA-2X1GE-V2
SPA-5X1GE-V2
SIP-600
Yes
Yes
Yes
SPA-8X1GE-V2 Yes
SPA-2XCHOC12/DS0 Yes
Minimum Cisco IOS
Software Release
12.2(33)SB
12.2(33)SB
12.2(33)SB
12.2(34)SB
12.2(34)SB
Modular Optics Compatibility
Some SPAs implement small form-factor pluggable (SFP or XFP) optical transceivers to provide network connectivity. The SFP and XFP modules are fiber-optic transceiver devices that mount to the front panel to provide network connectivity.
Note SFP modules are optics modules with speeds lower than 10 gigabits per second (Gb/s); XFP modules are optics modules with speeds equal to or greater than 10 Gb/s.
Cisco Systems qualifies the SFP modules that can be used with SPAs.
Note The SPAs accept only the optics modules listed as supported in this document. Each time an SFP or XFP module is inserted into a SPA, a check is run. Only SFP and XFP modules that pass this check are usable.
Table 1-2 shows the types of optics modules that are qualified for use with a SPA.
Table 1-2 SPA Optics Compatibility
SPA
1-port 10-Gigabit Ethernet SPA
2-port Gigabit Ethernet SPA
5-port Gigabit Ethernet SPA
Qualified Optics Modules—Cisco Part Numbers
•
•
•
•
•
•
•
•
•
•
XFP-10GLR-OC192SR
XFP-10GER-OC192IR
SFP-GE-T
SFP-GE-S
SFP-GE-L
SFP-GE-Z
SFP-GE-T
SFP-GE-S
SFP-GE-L
SFP-GE-Z
1
OL-13838-02
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
1-3
Chapter 1 SIP and SPA Product Overview
Power Management
Table 1-2 SPA Optics Compatibility (continued)
SPA
8-port Gigabit Ethernet SPA
Qualified Optics Modules—Cisco Part Numbers
• SFP-GE-T
•
•
SFP-GE-S
SFP-GE-L
2-port channelized OC-12/DS0 SPA
•
•
•
•
•
•
•
SFP-GE-Z
SFP-OC12-MM
SFP-OC12-SR
SFP-OC12-IR1
SFP-OC12-LR1
SFP-OC12-LR2
SFP-OC12-IR2
1.
A single-port, 1000BASE-T, Small Form-factor Pluggable copper transceiver
Power Management
SPAs and SIPs consume chassis power; therefore, make sure the chassis is within the power budget on the Cisco 10000 series router.
shows the maximum power consumption, in watts, for the SIP and SPAs.
Table 1-3 SIP and SPA Power Consumption
SIP
10000 SIP-600
SPA
1-port 10-Gigabit Ethernet SPA
2-port Gigabit Ethernet SPA
5-port Gigabit Ethernet SPA
8-port Gigabit Ethernet SPA
2-port channelized OC-12/DS0 SPA
1.
Maximum with four SPAs installed
Maximum Power Consumption (Watts)
160
1
25
12.9
18.1
20 (with SX and LX optics)
22.3(with ZX optics)
56.3 (with both SFPs)
Note There are no power consumption restrictions on the types of SPAs inserted in a Cisco 10000 SIP-600, or on the number of SIPs installed in a chassis (up to the maximum of 4 SIPs).
1-4
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
OL-13838-02
C H A P T E R
2
Cisco 10000 Series Router SPA Interface
Processor-600
•
•
•
This chapter describes the SPA interface processor (SIP) 600 which is supported on the Cisco 10000 series router. This chapter contains the following sections:
Identifying Slots and Subslots for SIPs and SPAs
Cisco 10000 SIP-600 Overview, page 2-10
SIP Summary
Table 2-1 describes the SIP that is supported on the Cisco 10000 series router.
Note The Description column indicates the aggregate bandwidth supported by the SIP across all subslots—not for each SPA subslot.
Table 2-1 SPA Interface Processor Summary
SIP
Cisco 10000 SIP-600
Product Number Description
10000-SIP-600 1 x 10-Gb/s SPA interface processor
Maximum Number of SPAs
4 half-height SPAs
2 full-height SPAs
1 full-height, double-wide SPA
Minimum Cisco IOS
Software
12.2(33)SB
Checking Hardware and Software Compatibility
You can check the minimum software requirements of Cisco IOS software with the hardware installed on your router. Use the Software Advisor tool on Cisco.com. This tool does not verify if SIPs or SPAs within a system are compatible, but it provides the minimum Cisco IOS requirements for individual hardware modules or components.
Note Access to the Software Advisor tool is limited to users with Cisco.com login accounts.
OL-13838-02
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
2-5
Chapter 2 Cisco 10000 Series Router SPA Interface Processor-600
Identifying Slots and Subslots for SIPs and SPAs
Identifying Slots and Subslots for SIPs and SPAs
This section describes how to specify the physical locations of a SIP and SPA on the Cisco 10000 series router using the command-line interface (CLI) to configure or monitor those devices.
Specifying the Slot Location for a SIP
The Cisco 10000 SIP-600 is a full-height, vertical line card that occupies two physical slots in a Cisco
10000 series router. Each chassis supports a maximum of four SIPs.
shows the slot numbers for a Cisco 10000 series router fully populated with SIPs.
Figure 2-1 SIPs Installed in a Cisco 10000 Series Router
POWER
FAULT
MISWI
RE
POWER
FAULT
MISWI
RE
1 SIP slot 1
2 SIP slot 3
FANS
OK
FAN
FAILURE
MULTI-
FAN
FAILURE
1
2
CISCO
10000
0
FA
I L
2
3
2
CISCO
10000
0
FA
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4
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1
2
3
4
3 SIP slot 5
4 SIP slot 7
Some commands allow you to display information about a SIP and its SPAs, such as show inventory
and show diag. For example, to view information about the SIP installed in chassis slot 1 and its SPAs, enter the following command:
Router# show diag 1/0
2-6
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
OL-13838-02
Chapter 2 Cisco 10000 Series Router SPA Interface Processor-600
Identifying Slots and Subslots for SIPs and SPAs
Slot/Subslot 1/0:
4jacket-1 card, 0 ports
Card is full slot size
Card is analyzed
Card detected 07:42:30 ago
Card uptime 0 days, 7 hours, 42 minutes, 31 seconds
Card idle time 0 days, 3 hours, 3 minutes, 17 seconds
Voltage status:
EEPROM contents, slot 1/0:
Controller Type : 1380
Hardware Revision : 1.0
PCB Part Number : 73-10771-01
Board Revision :
Deviation Number : 0-0
Fab Version : 01
PCB Serial Number : CSJ10497186
RMA Test History : 00
RMA Number : 0-0-0-0
RMA History : 00
Top Assy. Part Number : 800-27953-01
CLEI Code : UNASSIGNED
Product Identifier (PID) : 10000-SIP-600
Version Identifier (VID) : V00
LCMON version, slot 1/0
LCDOS (C10000 PowerQUICC-III Line Card MONitor Image : DEVELOPMENT BUILD jkotelly-spumoni_lc /vob/lcdos/obj-c10k-pq3-lcmon 102
)
Built by jkotelly at Thu Nov 9 10:54:20 2006.
Reset reason 0x00000008 (PRE hard reset).
Operational Image version, slot 1/0
LCDOS (C10000 4 SPA Jacket Card Image (Spumoni) : DEVELOPMENT BUILD
BLD-mayflower_lc.lcdos-nightly-mayflower-c10k /vob/lcdos/ob j-c10k-spumoni 102) major version 1189663592.
Built by ashah at Thu Sep 13 02:08:59 2007.
SW Version 4.0
Code MD5 068FBA5273DC8F598CC66E34D867A197
FPGA MD5 89C8DD3DCD939BDD43DB19D514416137
Expected Switchover Action: NO ACTION
ECC 1 bit errors since last cleared (dd hh mm ss) = 0 (0 days, 0 hours, 0 minutes,
0 seconds)
ECC 1 bit errors while up (total) = 0
Number of crashdumps recorded = 8
SPA Information: subslot 1/0 SPA-5X1GE-V2 ok
SW Version 1.0
Expected Switchover Action: NO ACTION
Product Identifier (PID) : SPA-5X1GE-V2
Version Identifier (VID) : V01
PCB Serial Number : JAB105201VV
Top Assy. Part Number : 68-2616-01
Top Assy. Revision : D0
Hardware Revision : 1.1
CLEI Code : CNUIANAAAA
The Transceiver in slot 1 subslot 0 port 0 is ENABLED.
The Transceiver in slot 1 subslot 0 port 1 is ENABLED.
The Transceiver in slot 1 subslot 0 port 2 is ENABLED.
The Transceiver in slot 1 subslot 0 port 3 is ENABLED.
The Transceiver in slot 1 subslot 0 port 4 is ENABLED.
SPA Information: subslot 1/1 SPA-5X1GE-V2 ok
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SW Version 1.0
Expected Switchover Action: NO ACTION
Product Identifier (PID) : SPA-5X1GE-V2
Version Identifier (VID) : V01
PCB Serial Number : JAB110202HP
Top Assy. Part Number : 68-2616-01
Top Assy. Revision : E0
Hardware Revision : 1.1
CLEI Code : CNUIANAAAA
The Transceiver in slot 1 subslot 1 port 0 is ENABLED.
The Transceiver in slot 1 subslot 1 port 1 is ENABLED.
The Transceiver in slot 1 subslot 1 port 2 is ENABLED.
The Transceiver in slot 1 subslot 1 port 3 is ENABLED.
The Transceiver in slot 1 subslot 1 port 4 is ENABLED.
SPA Information: subslot 1/2 SPA-5X1GE-V2 ok
SW Version 1.0
Expected Switchover Action: NO ACTION
Product Identifier (PID) : SPA-5X1GE-V2
Version Identifier (VID) : V01
PCB Serial Number : JAB1042060D
Top Assy. Part Number : 68-2616-01
Top Assy. Revision : D0
Hardware Revision : 1.1
CLEI Code : CNUIANAAAA
The Transceiver in slot 1 subslot 2 port 0 is ENABLED.
The Transceiver in slot 1 subslot 2 port 1 is ENABLED.
The Transceiver in slot 1 subslot 2 port 2 is ENABLED.
The Transceiver in slot 1 subslot 2 port 3 is ENABLED.
The Transceiver in slot 1 subslot 2 port 4 is ENABLED.
SPA Information: subslot 1/3 SPA-5X1GE-V2 ok
SW Version 1.0
Expected Switchover Action: NO ACTION
Product Identifier (PID) : SPA-5X1GE-V2
Version Identifier (VID) : V01
PCB Serial Number : JAB110202GA
Top Assy. Part Number : 68-2616-01
Top Assy. Revision : E0
Hardware Revision : 1.1
CLEI Code : CNUIANAAAA
The Transceiver in slot 1 subslot 3 port 0 is ENABLED.
The Transceiver in slot 1 subslot 3 port 1 is ENABLED.
The Transceiver in slot 1 subslot 3 port 2 is ENABLED.
The Transceiver in slot 1 subslot 3 port 3 is ENABLED.
The Transceiver in slot 1 subslot 3 port 4 is ENABLED.
Router#
The following example displays information about the 2-port OC12 SPA:
Router# show diag 5/0
Slot/Subslot 5/0:
4jacket-1 card, 0 ports
Card is full slot size
Card is analyzed
Card detected 01:25:03 ago
Card uptime 0 days, 1 hours, 25 minutes, 3 seconds
Card idle time 0 days, 0 hours, 1 minutes, 52 seconds
Voltage status:
EEPROM contents, slot 5/0:
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Controller Type : 1380
Hardware Revision : 1.0
PCB Part Number : 73-10771-01
Board Revision :
Deviation Number : 0-0
Fab Version : 01
PCB Serial Number : CSJ10497112
RMA Test History : 00
RMA Number : 0-0-0-0
RMA History : 00
Top Assy. Part Number : 800-27953-01
CLEI Code : UNASSIGNED
Product Identifier (PID) : 10000-SIP-600
Version Identifier (VID) : V00
LCMON version, slot 5/0
LCDOS (V122_33_2_31_SBK06-BOOT : DEVELOPMENT BUILD chandrav-lcmon
/vob/lcdos/obj-c10k-pq3-lcmon 114)
Built by chandrav at Sun Jun 15 13:55:54 2008.
Reset reason 0x00000008 (PRE hard reset).
Operational Image version, slot 5/0
LCDOS (C10000 4 SPA Jacket Card Image (Spumoni) : DEVELOPMENT BUILD
BLD-v122_34_sb_lc_throttle.lcdos-V122_33_3_10_SB-v122_34_sb_throttle
/vob/lcdos/obj-c10k-spumoni 102) major version 1219740068.
Built by richv at Tue Aug 26 04:44:51 2008.
SW Version 1.1
Code MD5 53E9196510CAE3216B1663318CA47620
FPGA MD5 89C8DD3DCD939BDD43DB19D514416137
Expected Switchover Action: NO ACTION
ECC 1 bit errors since last cleared (dd hh mm ss) = 0 (0 days, 0 hours, 0 minutes,
0 seconds)
ECC 1 bit errors while up (total) = 0
Number of crashdumps recorded = 3
SPA Information: subslot 5/0 SPA-2XCHOC12/DS0 ok
SW Version 1.0
Expected Switchover Action: NO INFORMATION
Product Identifier (PID) : SPA-2XCHOC12/DS0
Version Identifier (VID) : V01
PCB Serial Number : PRTA6404025
Top Assy. Part Number : 68-3137-01
Top Assy. Revision : 02
Hardware Revision : 0.17
CLEI Code :
The Transceiver in slot 5 subslot 0 port 0 is ENABLED.
The Transceiver in slot 5 subslot 0 port 1 is ENABLED.
For more information about SIP commands, see the Cisco 10000 Series Router SIP and SPA Software
Configuration Guide.
Specifying the Location for a SPA
A Cisco 10000 SIP-600 supports four subslots for the installation of SPAs. The SPA subslots are numbered from 0 to 3, as shown in
Figure 2-2 . The number for each SPA subslot is indicated by a small
numeric label on the SIP faceplate.
SPAs in the Cisco 10000 series router use an addressing format that specifies the physical location of the
SIP, SPA, and interface in the format slot/subslot/port, where:
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Cisco 10000 SIP-600 Overview
•
•
•
slot—Specifies the chassis slot number where the SIP is installed.
subslot—Specifies the secondary slot of the SIP where the SPA is installed.
port—Specifies the interface number that you want to select on the SPA.
To display information about a SPA, use the show diag, show hw-module sublsot, and show inventory commands. For more information about SPA commands, refer to the Cisco 10000 Series Router SIP and
SPA Software Configuration Guide.
Cisco 10000 SIP-600 Overview
•
•
•
The following sections describe the Cisco 10000 SIP-600:
Cisco 10000 SIP-600 Processor, page 2-10
Cisco 10000 SIP-600 LED, page 2-10
Cisco 10000 SIP-600 Physical Specifications, page 2-12
Cisco 10000 SIP-600 Processor
describes the processor on a Cisco 10000 SIP-600.
Table 2-2
Type
CPU
Cisco 10000 SIP-600 Processor
Speed Description
800 megahertz (MHz) internal operating frequency
Power QUICC III integrated communications processor
Cisco 10000 SIP-600 LED
The Cisco 10000 SIP-600 has one LED (
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Chapter 2 Cisco 10000 Series Router SPA Interface Processor-600
Figure 2-2 Cisco 10000 SIP-600 Faceplate
6
2
CISCO
10000
0
FA
IL
1
A/L
0
A/L
4
1
2
Cisco 10000 SIP-600 Overview
5
0
1
A/L
A/L
ST
A
T
US
3
6
ST
A
3 1
1 Fail LED 4 SPA subslot 2
2 SPA subslot 0 5 SPA subslot 3
3 SPA subslot 1 6 Ejector levers
Table 2-3 describes the LED on the Cisco 10000 SIP-600.
Table 2-3
LED Label
FAIL
Cisco 10000 SIP-600 LED
Color
Amber
State
On
Off
Meaning
The SIP is booting.
If the Fail LED remains on for more than 5 seconds or if it turns on during normal operation, the SIP experienced a failure. Refer to
“Troubleshooting the Installation” for SIP and SPA
troubleshooting information.
The SIP is active and operating normally.
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Cisco 10000 SIP-600 Overview
Cisco 10000 SIP-600 Physical Specifications
lists the Cisco 10000 SIP-600 physical specifications.
Table 2-4
Description
Physical dimensions (H x W x D)
Weight
Cisco 10000 SIP-600 Physical Specifications
Operating temperature
Relative humidity
Storage temperature
Specifications
16 x 2.44 x 10.4 in. (41.5 x 6.32 x 27 cm)
The SIP occupies two physical slots in a chassis.
10.0 lb (4.6 kg)
41 to 104°F (5 to 40°C)
Operating—10 to 90 percent, noncondensing
Storage—5 to 95%
–4 to 149°F (–20 to 65°C)
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C H A P T E R
3
Cisco 10000 Series Router Shared Port Adapters
•
•
•
•
•
•
This chapter describes the shared port adapters (SPAs) that are supported on the Cisco 10000 series router and contains the following sections:
Bandwidth Oversubscription, page 3-13
1-Port 10-Gigabit Ethernet SPA Overview, page 3-16
2-Port Gigabit Ethernet SPA Overview, page 3-19
5-Port Gigabit Ethernet SPA Overview, page 3-23
8-Port Gigabit Ethernet SPA Overview, page 3-27
2-Port Channelized OC-12/DS0 SPA, page 3-31
Bandwidth Oversubscription
On a Cisco 10000 series router running a Performance Routing Engine 4 (PRE4), each half of the chassis comprises four slots and is serviced by a single Nickel 10G Application Specific Integrated Circuit
(ASIC) that supports a bandwidth of 11.2 Gbps, as represented in
Figure 3-1 . The total bandwidth
supported on either half of chassis is limited to 11.2Gbps regardless of number of linecards, SIPs or
SPAs. To maximize throughput, install the SIP or SPA interfaces for ingress and egress, evenly on both sides of the chassis. This is achieved by using any pair(s) of odd slots on opposite sides of the PREs.
When interfaces are oversubscribed, the line cards on a heavily oversubscribed side receive less overall bandwidth as compared to the line cards on the undersubscribed side. It is important to balance the bandwidth between the left and right sides of the chassis when the forwarded throughput is more than
10 Gbps.
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Bandwidth Oversubscription
Figure 3-1 Bandwidth Oversubscription
PRE-4
Toaster
Complex
The lesser of:
10Mpps or 17Gbps
Chapter 3 Cisco 10000 Series Router Shared Port Adapters
Nickel
10G
11Gbps
11Gbps
11Gbps 11Gbps
Nickel
10G
11Gbps
11Gbps
provides information about the bandwidth for each port (per-port bandwidth) on a SPA, as well as the cumulative bandwidth (total bandwidth) for all ports available on the SPA.
Table 3-1 SPA Bandwidth Capacity
SPA
1-Port 10-Gigabit Ethernet SPA
2-Port Gigabit Ethernet SPA
Per-Port Bandwidth Number of Ports Total Bandwidth
10 Gbps 1 10 Gbps
1 Gbps 2 2 Gbps
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Bandwidth Oversubscription
Table 3-1 SPA Bandwidth Capacity
SPA
5-Port Gigabit Ethernet SPA
Per-Port Bandwidth Number of Ports Total Bandwidth
1 Gbps 5 5 Gbps
8-Port Gigabit Ethernet SPA 1 Gbps
2-Port Channelized OC-12/DS0 SPA 622 Mbps
8
2
8 Gbps
1.2 Gbps
SIP Ingress Oversubscription
The Application-Specific Integrated Circuit (ASIC) device for the Cisco 10000 SIP-600 can receive over
40 Gbps of ingress data from the four SPA SPI4.2 interfaces. While the ASIC supports 40 Gbps of ingress memory write bandwidth, the ingress memory read bandwidth on the SIP is the 10 Gbps rate of the SPI4.2 interface to the backplane.
To support this four-to-one oversubscription, the SIP has 128 MB of error correction code (ECC) protected buffering that is divided between the four SPA subslots. The ingress buffering absorbs transient bursts of traffic from the SPAs.
Each Ethernet SPA has a pair of ingress queues (high and low priority) for each physical port. Each pair of queues is configured into the ingress scheduler based on the bandwidth capability of the port. For example, a 10GE interface is allocated 10 times the bandwidth of a single GE interface. The ingress scheduler will round robin amongst each pair of queues attempting to provide the minimum configured bandwidth.
Within each pair of ingress queues, traffic from the high priority queue is serviced before the normal priority queue. Traffic is selected into a high priority ingress queue by means of the plim qos commands as described in the Cisco 10000 Series Router SIP and SPA Software Configuration Guide.
PRE4 Egress Oversubscription
When operating with a PRE4, each SIP is viewed as one line card. When there is packet oversubscription on the PRE4, multiple egress queues may contain packets waiting to be transmitted to the SIP. For example, a SIP on the left side of the chassis contains a 1-Port 10-Gigabit Ethernet SPA and a 5-Port
Gigabit Ethernet SPA. On the right side of the chassis, the same SPAs are in separate SIPs. In this scenario, the combined egress bandwidth on the right side of the chassis may exceed the egress bandwidth on the left side.
In an oversubscribed system, we recommend that you balance the overall traffic bandwidth between the left and right sides of the chassis. For example, balancing subscriber traffic on one side and trunk traffic on the other side.
Note Install the SIPs into the slots that are at the extreme ends of the chassis first.
SIP Performance with a PRE3
When operating with a PRE3, each SIP is viewed as two separate, full-slot line cards, each with a 2.8
Gbps interface, as shown in
Figure 3-2 . A pair of SPA subslots are assigned to one of the backplane
interfaces on the SIP. If one SPA pair does not fully utilize its respective 2.8 Gbps backplane bandwidth,
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1-Port 10-Gigabit Ethernet SPA Overview the other SPA pair may not use the excess bandwidth. When using a SIP with a PRE3, we recommend that you balance the overall SPA bandwidth between the top two SPA subslots and the bottom two SPA subslots. Also, install the SIPs in the outside slots of the chassis first.
Figure 3-2 Maximum SIP Bandwidth with PRE3
B a y 2
B a y 0
Bo u nd Wide
Iron B us
S lot 1
2.
8 G b p s
B a y 3
B a y 1
Bo u nd Wide
Iron B us
S lot 2
2.
8 G b p s
1-Port 10-Gigabit Ethernet SPA Overview
The following sections describe the 1-Port 10-Gigabit Ethernet SPA:
•
•
1-Port 10-Gigabit Ethernet SPA LEDs, page 3-17
1-Port 10-Gigabit Ethernet SPA XFP Optical Transceiver Modules, Connectors, and Cables, page 3-17
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1-Port 10-Gigabit Ethernet SPA LEDs
The 1-Port 10-Gigabit Ethernet SPA has two LEDs, an ACTIVE/LINK LED for the port and a STATUS
LED, as shown in
.
Figure 3-3 1-Port 10-Gigabit Ethernet SPA Faceplate
ACTIVE/LINK
1
SPA-1X10GE-L-V2
ST
ATUS
2
1 ACTIVE/LINK LED 2 STATUS LED
Table 3-2 describes the 1-Port 10-Gigabit Ethernet SPA LEDs.
Table 3-2 1-Port 10-Gigabit Ethernet SPA LEDs
LED Label Color
ACTIVE/LINK Off
Green
STATUS
Amber
Off
Green
Amber
State
Off
On
On
Off
On
On
Meaning
Port is not enabled by software.
Port is enabled by software and the link is up.
Port is enabled by software and the link is down.
SPA power is off.
SPA is ready and operational.
SPA power is on and good, and the SPA is being configured.
1-Port 10-Gigabit Ethernet SPA XFP Optical Transceiver Modules, Connectors, and Cables
The 1-Port 10-Gigabit Ethernet SPA supports the following types of optical transceiver modules:
•
•
Single-mode short-reach (SR) XFP module—XFP-10GLR-OC192SR
Single-mode intermediate-reach (IR) XFP module—XFP-10GER-OC192IR
Cisco Systems qualifies the optics that are approved for use with its SPAs. As of the above-listed small form-factor pluggable (XFPs) are the only optical transceiver modules qualified for use.
Use a single-mode optical fiber that has a modal-field diameter of 8.7 ±0.5 microns (nominal diameter is approximately 10/125 microns) to connect your router to a network.
XFP Connections
The XFP-10GLR-OC192SR and XFP-10GER-OC192IR XFP modules include an optical transmitter and receiver pair integrated with Clock and Data Recovery (CDR) integrated circuits. The XFP modules provide high-speed serial links at the rate of 10.3125 Gbps (10 Gigabit Ethernet) on single-mode fiber
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1-Port 10-Gigabit Ethernet SPA Overview
(SMF). The transmit side recovers and retimes the 10-Gbps serial data and passes it to a laser driver. The laser driver biases and modulates a 1310-nm or 155-nm laser, enabling data transmission over SMF through an LC connector. The receive side recovers and retimes the 10-Gbps optical data stream from a photo detector transimpedance amplifier and passes it to an output driver.
See the label on the XFP module for technology type and model.
Figure 3-4 shows an XFP module and
shows the XFP module specifications.
Figure 3-4 XFP Module
•
•
•
XFP module dimensions are:
Height: 12.5 mm
Width: 18.35 mm
Length: 71.1mm
Table 3-3 XFP Module Specifications for 10-Gigabit Ethernet SPA
Specification
Wavelength (TX)
Cabling distance (maximum)
Operating case temperature range
Storage temperature range
TX power
Receiver sensitivity (maximum)
Description
XFP-10GLR-OC192SR: 1260 nm to 1355 nm
XFP-10GER-OC192IR: 1530 nm to 1565 nm
XFP-10GLR-OC192SR: 6.2 miles (10 km)
XFP-10GER-OC192IR: 24.8 miles (40 km)
XFP-10GLR-OC192SR: 23 to 158 degrees F (–5 to 70 degrees C)
XFP-10GER-OC192IR: 23 to 158 degrees F (–5 to 70 degrees C)
XFP-10GLR-OC192SR: –40 to 185 degrees F (–40 to 85 degrees C)
XFP-10GER-OC192IR: –40 to 185 degrees F (–40 to 85 degrees C)
XFP-10GLR-OC192SR: –8.2 to 0.5 dBm
XFP-10GER-OC192IR: –4.7 to 4 dBm
XFP-10GLR-OC192SR: –12.6 dBm
XFP-10GER-OC192IR: –14.1 dBm
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Table 3-3
Specification
RX overload
XFP Module Specifications for 10-Gigabit Ethernet SPA (continued)
Maximum receiver power damage
Description
XFP-10GLR-OC192SR: 0.5 dBm
XFP-10GER-OC192IR: –1.0 dBm
XFP-10GLR-OC192SR: +5 dBm
XFP-10GER-OC192IR: +5 dBm
XFP Port Cabling Specifications
Table 3-4 shows the port cabling specifications for an XFP module.
Table 3-4 XFP Port Cabling Specifications
XFP Module Wavelength
XFP-10GLR-OC192SR 1310 nm
XFP-10GER-OC192IR 1550 nm
Fiber Type
SMF
SMF
2-Port Gigabit Ethernet SPA Overview
The following sections describe the 2-Port Gigabit Ethernet SPA:
•
•
2-Port Gigabit Ethernet SPA LEDs, page 3-19
SFP Module Cabling and Connection Equipment, page 3-22
2-Port Gigabit Ethernet SPA LEDs
The 2-Port Gigabit Ethernet SPA has two types of LEDs. There is an A/L LED for each port and. one
STATUS LED as shown in
.
Figure 3-5 2-Port Gigabit Ethernet SPA Faceplate
1 3
1 0
A/L
0
A/L
1
A/L A/L
SPA-2X1GE
ST
AT
US
2
1 A/L LED (for each interface)
3 Two RJ45 (copper) ports
2 STATUS LED (for entire SPA)
The 2-Port Gigabit Ethernet SPA LEDs are described in
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Table 3-5
LED Label
A/L
STATUS
2-Port Gigabit Ethernet SPA LEDs
Color
Off
Green
Amber
Off
Green
Amber
State
Off
On
On
Off
On
On
Meaning
Port is not enabled.
The port is enabled and the link is up.
The port is enabled and the link is down.
SPA power is off.
SPA is ready and operational.
SPA power is on and good, and SPA is being configured.
2-Port Gigabit Ethernet SPA Cables and Connectors
The interface connectors on the 2-Port Gigabit Ethernet SPA are two individual fiber optic receivers that support two SFP modules Each port can send and receive traffic using the optical fiber connections. In addition there are two built-in copper RJ 45 ports provided on the 2-port Gigabit Ethernet SPA as shown in
. A combination of these Gigabit Ethernet ports is permitted, limited to a total of 2 Gigabit
Ethernet ports (both copper, both optical, or one copper and one optical).
SFP Module Connections
The small form-factor pluggable (SFP) module is an input/output (I/O) device that plugs into the Gigabit
Ethernet optical slots on the 2-Port Gigabit Ethernet SPA, linking the port with a 1000BASE-X fiber-optic network.
Note The 2-Port Gigabit Ethernet SPA will only accept the SFP modules listed as supported in this document.
An SFP check is run every time an SFP module is inserted into the 2-Port Gigabit Ethernet SPA and only
SFP modules that pass this check will be usable by the 2-Port Gigabit Ethernet SPA.
SFP modules exist for technologies other than Gigabit Ethernet and for products other than the 2-Port
Gigabit Ethernet SPA. However, the information in this document pertains only to SFP modules that plug into the 2-Port Gigabit Ethernet SPA ports.
The SFP module has a receiver port (RX) and a transmitter port (TX) that compose one optical interface.
and
provide SFP module information and specifications.
Table 3-6 SFP Module Options
SFP Module
Product Number SFP Module
SFP-GE-S Short wavelength
(1000BASE-SX)
SFP-GE-L Long wavelength/long haul
(1000BASE-LX/LH)
Description
Contains a Class 1 laser of 850 nm for
1000BASE-SX (short wavelength) applications.
Contains a Class 1 laser of 1310 nm for
1000BASE-LX/LH (long wavelength) applications.
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Table 3-6 SFP Module Options
SFP Module
Product Number SFP Module
SFP-GE-Z
SFP-GE-T
Extended distance
(1000BASE-ZX)
RJ-45 copper SFP transceiver
(1000BASE-T)
Description
Contains a Class 1 laser of 1550 nm for
1000BASE-ZX (extended wavelength) applications.
Provides full-duplex Gigabit Ethernet connectivity to high-end workstations and between wiring closets over an existing copper network infrastructure.
Table 3-7
Specification
Wavelength
Operating case temperature range
SFP Module Specifications
Cabling distance (maximum)
Storage temperature range
Supply voltage range
Description
SFP-GE-S: 770 to 860 nm
SFP-GE-L: 1270 to 1355 nm
SFP-GE-Z: 1500 to 1580 nm
SFP-GE-T: N/A
SFP-GE-S: 500 m on 50/125um MMF; 300 m on 62.5/125um MMF
SFP-GE-L: 6.2 miles (10 km)
SFP-GE-Z: 49.7 miles (80 km)
SFP-GE-T: 328 ft. (100 m)
SFP-GE-S: 23 to 185 degrees F (–5 to 85 degrees C)
SFP-GE-L: 23 to 185 degrees F (–5 to 85 degrees C)
SFP-GE-Z: 23 to 185 degrees F (–5 to 85 degrees C)
SFP-GE-S: –40 to 185 degrees F (–40 to 85 degrees C)
SFP-GE-L: –40 to 185 degrees F (–40 to 85 degrees C)
SFP-GE-Z: –40 to 185 degrees F (–40 to 85 degrees C)
SFP-GE-S: 3.1 to 3.5 V
SFP-GE-L: 3.1 to 3.5 V
SFP-GE-Z: 3.1 to 3.5 V
SFP-GE-S Modules
The 1000BASE-SX (short wavelength) module operates on standard multimode fiber-optic link spans of up to 500 m on 50/125um MMF and 300 m on 62.5/125um MMF.
SFP-GE-L Modules
The 1000BASE-LX/LH (long wavelength/long haul) module interfaces fully comply with the IEEE
802.3z 1000BASE-LX standard. However, their higher optical quality allows them to reach 6.2 miles (10 km) over single-mode fiber (SMF) versus the 3.1 miles (5 km) specified in the standard.
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SFP-GE-Z Modules
The 1000BASE-ZX (extended wavelength) module operates on ordinary single-mode fiber-optic link spans of up to 49.7 miles (80 km). Link spans of up to 62.1 miles (100 km) are possible using premium single-mode fiber or dispersion-shifted single-mode fiber (premium single-mode fiber has a lower attenuation per unit length than ordinary single-mode fiber; dispersion-shifted single-mode fiber has both lower attenuation and less dispersion).
The 1000BASE-ZX module must be coupled to single-mode fiber-optic cable, which is the type of cable typically used in long-haul telecommunications applications. The 1000BASE-ZX module will not operate correctly when coupled to multimode fiber, and it is not intended to be used in environments where multimode fiber is frequently used (for example, building backbones, or horizontal cabling).
The 1000BASE-ZX module is intended to be used as a Physical Medium Dependent (PMD) component for Gigabit Ethernet interfaces found on various switch and router products. It operates at a signaling rate of 1250 Mbaud, transmitting and receiving 8B/10B encoded data.
When shorter lengths of single-mode fiber are used, it may be necessary to insert an in-line optical attenuator in the link to avoid overloading the receiver.
• Insert a 10-dB in-line optical attenuator between the fiber-optic cable plant and the receiving port on the 1000BASE-ZX module at each end of the link whenever the fiber-optic cable span is less than
15.5 miles (25 km).
• Insert a 5-dB in-line optical attenuator between the fiber-optic cable plant and the receiving port on the 1000BASE-ZX module at each end of the link whenever the fiber-optic cable span is equal to or greater than 15.5 miles (25 km) but less than 31 miles (50 km).
SFP-GE-T Modules
The SFP-GE-T (1000BASE-T copper SFP module) provides full-duplex Gigabit Ethernet connectivity to high-end workstations and between wiring closets over an existing copper network infrastructure. The
SFP-GE-T maximum cabling distance is 328 feet (100 m).
SFP Module Cabling and Connection Equipment
provides cabling specifications for the SFP modules that can be installed on the 2-Port Gigabit
Ethernet SPA. Note that all optical SFP ports have LC-type connectors.
The minimum cable distance for the SFP-GE-S is 6.5 feet (2 m), and the minimum link distance for the
SFP-GE-Z is 6.2 miles (10 km) with an 8-dB attenuator installed at each end of the link. Without attenuators, the minimum link distance for the SFP-GE-Z is 24.9 miles (40 km).
Table 3-8 SFP Module Port Cabling Specifications
SFP Modules
SFP-GE-S
Wavelength
(nm)
850
Fiber Type
MMF
1
Core Size
(micron)
62.5
62.5
50.0
50.0
Modal
Bandwidth
(MHz/km)
160
200
400
500
Maximum
Cable Distance
722 ft (220 m)
984 ft (300 m)
1640 ft (500 m)
1804 ft (550 m)
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Table 3-8 SFP Module Port Cabling Specifications (continued)
SFP Modules
SFP-GE-L
SFP-GE-Z
Wavelength
(nm)
1300
1550
Fiber Type
MMF
2
and
SMF
SMF
SMF
3
Core Size
(micron)
62.5
50.0
50.0
9/10
9/10
8
Modal
Bandwidth
(MHz/km)
500
400
500
—
—
—
Maximum
Cable Distance
1804 ft (550 m)
1804 ft (550 m)
1804 ft (550 m)
6.2 miles (10 km)
49.7 miles
(80 km)
62.1 miles
(100 km)
328 ft. (100 m) SFP-GE-T N/A Copper N/A N/A
1.
Multimode fiber (MMF) only.
2.
A mode-conditioning patch cord is required.
When using the SFP-GE-L with 62.5-micron diameter MMF, you must install a mode-conditioning patch cord between the
SFP module and the MMF cable on both the transmit and the receive ends of the link when link distances are greater than
984 ft (300 m).
We do not recommend using the SFP-GE-L and MMF with no patch cord for very short link distance (tens of meters). The result could be an elevated bit error rate (BER).
3.
Dispersion-shifted single-mode fiber-optic cable.
Note The 1000BASE-ZX SFP modules provide an optical power budget of 21.5 dB. You should measure your cable plant with an optical loss test set to verify that the optical loss of the cable plant (including connectors and splices) is less than or equal to 21.5 dB. The optical loss measurement must be performed with a 1550-nm light source.
5-Port Gigabit Ethernet SPA Overview
The following sections describe the 5-Port Gigabit Ethernet SPA:
•
•
5-Port Gigabit Ethernet SPA LEDs, page 3-23
5-Port Gigabit Ethernet SPA Cables and Connectors, page 3-24
5-Port Gigabit Ethernet SPA LEDs
The 5-Port Gigabit Ethernet SPA has two types of LEDs: an A/L LED for each individual port and a
STATUS LED for the SPA, as shown in Figure 3-6
.
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5-Port Gigabit Ethernet SPA Overview
Figure 3-6
1
Chapter 3 Cisco 10000 Series Router Shared Port Adapters
5-Port Gigabit Ethernet SPA Faceplate
2
A/L A/L A/L A/L A/L
ST
ATUS
1 A/L (Active/Link) LED 2 STATUS LED
describes the 5-Port Gigabit Ethernet SPA LEDs.
Table 3-9
LED Label
A/L
STATUS
5-Port Gigabit Ethernet SPA LEDs
Color
Off
Green
Amber
Off
Green
Amber
State
Off
On
On
Off
On
On
Meaning
Port is not enabled.
Port is enabled and the link is up.
Port is enabled and the link is down.
SPA power is off.
SPA is ready and operational.
SPA power is on and good, and the SPA is being configured.
5-Port Gigabit Ethernet SPA Cables and Connectors
The 5-Port Gigabit Ethernet SPA has five electrical connectors that support SFP modules. Each port can send and receive traffic using cabling appropriate for the SFP module inserted.
SFP Module Connections
The small form-factor pluggable (SFP) module is an input/output (I/O) device that plugs into the Gigabit
Ethernet ports on the 5-Port Gigabit Ethernet SPA, linking the port with a fiber-optic network.
Note The 5-Port Gigabit Ethernet SPA accepts only the SFP modules listed as supported in this document. An
SFP module check is run every time an SFP module is inserted into the 5-Port Gigabit Ethernet SPA, and only SFP modules that pass this check can be used by the 5-Port Gigabit Ethernet SPA.
SFP modules exist for technologies other than Gigabit Ethernet and for products other than the 5-Port
Gigabit Ethernet SPA. However, the information in this document pertains only to SFP modules that plug into the 5-Port Gigabit Ethernet SPA ports.
The SFP module has a receiver port (RX) and a transmitter port (TX) that compose one optical interface.
Table 3-10 and Table 3-11 provide SFP module information and specifications.
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Table 3-10 SFP Module Options
SFP Module
Product Number SFP Module
SFP-GE-S
SFP-GE-L
SFP-GE-Z
SFP-GE-T
Short wavelength
(1000BASE-SX)
Long wavelength/long haul
(1000BASE-LX/LH)
Extended wavelength
(1000BASE-ZX)
RJ-45 copper SFP transceiver
(1000BASE-T)
Description
Contains a Class 1 laser of 850 nm for
1000BASE-SX (short-wavelength) applications.
Contains a Class 1 laser of 1310 nm for
1000BASE-LX/LH (long-wavelength) applications.
Contains a Class 1 laser of 1550 nm for
1000BASE-ZX (extended-wavelength) applications.
Provides full-duplex Gigabit Ethernet connectivity to high-end workstations and between wiring closets over an existing copper network infrastructure.
Table 3-11
Specification
Wavelength
Operating case temperature range
SFP Module Specifications
Cabling distance (maximum)
Storage temperature range
Supply voltage range
Description
SFP-GE-S: 770 to 860 nm
SFP-GE-L: 1270 to 1355 nm
SFP-GE-Z: 1500 to 1580 nm
SFP-GE-T: N/A.
SFP-GE-S: 500 m on 50/125um MMF; 300 m on 62.5/125um MMF
SFP-GE-L: 6.2 miles (10 km)
SFP-GE-Z: 49.7 miles (80 km)
SFP-GE-T: 328 ft. (100 m)
SFP-GE-S: 23 to 185 degrees F (–5 to 85 degrees C)
SFP-GE-L: 23 to 185 degrees F (–5 to 85 degrees C)
SFP-GE-Z: 23 to 185 degrees F (–5 to 85 degrees C)
SFP-GE-T: 23 to 185 degrees F (–5 to 85 degrees C)
SFP-GE-S: –40 to 185 degrees F (–40 to 85 degrees C)
SFP-GE-L: –40 to 185 degrees F (–40 to 85 degrees C)
SFP-GE-Z: –40 to 185 degrees F (–40 to 85 degrees C)
SFP-GE-T: –40 to 185 degrees F (–40 to 85 degrees C)
SFP-GE-S: 3.1 to 3.5 V
SFP-GE-L: 3.1 to 3.5 V
SFP-GE-Z: 3.1 to 3.5 V
SFP-GE-T: 3.1 to 3.5 V
SFP-GE-S Modules
The 1000BASE-SX (short-wavelength) module operates on standard multimode fiber-optic link spans of up to 500 m on 50/125um multimode fiber (MMF) and 300 m on 62.5/125um MMF.
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SFP-GE-L Modules
The 1000BASE-LX/LH (long-wavelength/long-haul) module interfaces fully comply with the
IEEE 802.3z 1000BASE-LX standard. However, their higher optical quality allows them to reach
6.2 miles (10 km) over single-mode fiber (SMF) versus the 3.1 miles (5 km) specified in the standard.
SFP-GE-Z Modules
The 1000BASE-ZX (extended wavelength) module operates on ordinary single-mode fiber-optic link spans of up to 49.7 miles (80 km). Link spans of up to 62.1 miles (100 km) are possible using premium single-mode fiber or dispersion-shifted single-mode fiber. (Premium single-mode fiber has a lower attenuation per unit length than ordinary single-mode fiber; dispersion-shifted single-mode fiber has both lower attenuation and less dispersion.)
The 1000BASE-ZX module must be coupled to single-mode fiber-optic cable, which is the type of cable typically used in long-haul telecommunications applications. The 1000BASE-ZX module does not operate correctly when coupled to multimode fiber, and it is not intended to be used in environments in which multimode fiber is frequently used (for example, building backbones or horizontal cabling).
The 1000BASE-ZX module is intended to be used as a Physical Medium Dependent (PMD) component for Gigabit Ethernet interfaces found on various switch and router products. It operates at a signaling rate of 1250 Mbaud, transmitting and receiving 8B/10B encoded data.
When shorter lengths of single-mode fiber are used, it may be necessary to insert an inline optical attenuator in the link to avoid overloading the receiver. Use the following guidelines:
• Insert a 10-dB inline optical attenuator between the fiber-optic cable plant and the receiving port on the 1000BASE-ZX module at each end of the link whenever the fiber-optic cable span is less than
15.5 miles (25 km).
• Insert a 5-dB inline optical attenuator between the fiber-optic cable plant and the receiving port on the 1000BASE-ZX module at each end of the link whenever the fiber-optic cable span is equal to or greater than 15.5 miles (25 km) but less than 31 miles (50 km).
SFP-GE-T Modules
The SFP-GE-T (1000BASE-T copper SFP module) provides full-duplex Gigabit Ethernet connectivity to high-end workstations and between wiring closets over an existing copper network infrastructure. The
SFP-GE-T maximum cabling distance is 328 feet (100 m).
SFP Module Cabling and Connection Equipment
Table 3-12 provides cabling specifications for the SFP modules that can be installed on the 5-Port
Gigabit Ethernet SPA. Note that all optical SFP ports have LC-type connectors.
The minimum cable distance for the SFP-GE-S is 6.5 feet (2 m), and the minimum link distance for the
SFP-GE-Z is 6.2 miles (10 km) with an 8-dB attenuator installed at each end of the link. Without attenuators, the minimum link distance for the SFP-GE-Z is 24.9 miles (40 km).
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Table 3-12 SFP Module Port Cabling Specifications
SFP Modules
SFP-GE-S
SFP-GE-L
SFP-GE-Z
Wavelength
(nm)
850
1300
1550
Fiber Type
MMF
MMF
SMF
SMF
SMF
3
1
2 and
Core Size
(micron)
62.5
62.5
50.0
50.0
62.5
50.0
50.0
9/10
9/10
8
Modal
Bandwidth
(MHz/km)
160
200
400
500
500
400
500
—
—
—
Maximum
Cable Distance
722 ft (220 m)
984 ft (300 m)
1640 ft (500 m)
1804 ft (550 m)
1804 ft (550 m)
1804 ft (550 m)
1804 ft (550 m)
6.2 miles (10 km)
49.7 miles
(80 km)
62.1 miles
(100 km)
328 ft. (100 m) SFP-GE-T N/A Copper N/A N/A
1.
Multimode fiber (MMF) only.
2.
A mode-conditioning patch cord is required.
When using the SFP-GE-L with 62.5-micron diameter MMF, you must install a mode-conditioning patch cord between the
SFP module and the MMF cable on both the transmit and the receive ends of the link when link distances are greater than
984 ft (300 m).
We do not recommend using the SFP-GE-L and MMF with no patch cord for very short link distance (tens of meters). The result could be an elevated bit error rate (BER).
3.
Dispersion-shifted single-mode fiber-optic cable.
Note The 1000BASE-ZX SFP modules provide an optical power budget of 21.5 dB. You should measure your cable plant with an optical loss test set to verify that the optical loss of the cable plant (including connectors and splices) is less than or equal to 21.5 dB. The optical loss measurement must be performed with a 1550-nm light source.
8-Port Gigabit Ethernet SPA Overview
The following sections describe the 8-Port Gigabit Ethernet SPA:
•
•
8-Port Gigabit Ethernet SPA LEDs, page 3-27
8-Port Gigabit Ethernet SPA Cables and Connectors, page 3-28
8-Port Gigabit Ethernet SPA LEDs
The 8-Port Gigabit Ethernet SPA has two types of LEDs: an A/L LED for each individual port and a
STATUS LED for the SPA, as shown in Figure 3-7
.
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8-Port Gigabit Ethernet SPA Overview
Figure 3-7
Chapter 3 Cisco 10000 Series Router Shared Port Adapters
8-Port Gigabit Ethernet SPA Faceplate
1
A/L
0
A/L
1
A/L
2
A/L
3
A/L 4 A/L 5 A/L 6 A/L 7
STAT
U
S
2
1 A/L (Active/Link) LED 2 STATUS LED
Table 3-13 describes the 8-Port Gigabit Ethernet SPA LEDs.
Table 3-13 8-Port Gigabit Ethernet SPA LEDs
LED Label
A/L
STATUS
Color
Off
Green
Amber
Off
Green
Amber
State
Off
On
On
Off
On
On
Meaning
Port is not enabled.
Port is enabled and the link is up.
Port is enabled and the link is down.
SPA power is off.
SPA is ready and operational.
SPA power is on and good, and the SPA is being configured.
8-Port Gigabit Ethernet SPA Cables and Connectors
The interface connectors on the 8-Port Gigabit Ethernet SPA are eight individual fiber-optic receivers that support SFP modules. Each port can send and receive traffic using the optical fiber connections.
SFP Module Connections
The small form-factor pluggable (SFP) module is an input/output (I/O) device that plugs into the Gigabit
Ethernet ports on the 8-Port Gigabit Ethernet SPA, linking the port with a fiber-optic network.
Note The 8-Port Gigabit Ethernet SPA accepts only the SFP modules listed as supported in this document. An
SFP module check is run every time an SFP module is inserted into the 8-Port Gigabit Ethernet SPA, and only SFP modules that pass this check can be used by the 8-Port Gigabit Ethernet SPA.
SFP modules exist for technologies other than Gigabit Ethernet and for products other than the 8-Port
Gigabit Ethernet SPA. However, the information in this document pertains only to SFP modules that plug into the 8-Port Gigabit Ethernet SPA ports.
The SFP module has a receiver port (RX) and a transmitter port (TX) that compose one optical interface.
Table 3-14 and Table 3-15 provide SFP module information and specifications.
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Table 3-14
SFP Module
Product Number
SFP-GE-S
SFP-GE-L
SFP-GE-Z
SFP Module Options
SFP Module
Short wavelength
(1000BASE-SX)
Description
Contains a Class 1 laser of 850 nm for
1000BASE-SX (short-wavelength) applications.
Long wavelength/long haul
(1000BASE-LX/LH)
Contains a Class 1 laser of 1310 nm for
1000BASE-LX/LH (long-wavelength) applications.
Extended wavelength
(1000BASE-ZX)
Contains a Class 1 laser of 1550 nm for
1000BASE-ZX (extended-wavelength) applications.
Table 3-15
Specification
Wavelength
SFP Module Specifications
Cabling distance (maximum)
Operating case temperature range
Storage temperature range
Supply voltage range
Description
SFP-GE-S: 770 to 860 nm
SFP-GE-L: 1270 to 1355 nm
SFP-GE-Z: 1500 to 1580 nm
SFP-GE-S: 500 m on 50/125um MMF; 300 m on
62.5/125um MMF
SFP-GE-L: 6.2 miles (10 km)
SFP-GE-Z: 49.7 miles (80 km)
SFP-GE-S: 23 to 185 degrees F (–5 to 85 degrees C)
SFP-GE-L: 23 to 185 degrees F (–5 to 85 degrees C)
SFP-GE-Z: 23 to 185 degrees F (–5 to 85 degrees C)
SFP-GE-S: –40 to 185 degrees F (–40 to 85 degrees C)
SFP-GE-L: –40 to 185 degrees F (–40 to 85 degrees C)
SFP-GE-Z: –40 to 185 degrees F (–40 to 85 degrees C)
SFP-GE-S: 3.1 to 3.5 V
SFP-GE-L: 3.1 to 3.5 V
SFP-GE-Z: 3.1 to 3.5 V
SFP-GE-S Modules
The 1000BASE-SX (short-wavelength) module operates on standard multimode fiber-optic link spans of up to 500 m on 50/125um multimode fiber (MMF) and 300 m on 62.5/125um MMF.
SFP-GE-L Modules
The 1000BASE-LX/LH (long-wavelength/long-haul) module interfaces fully comply with the
IEEE 802.3z 1000BASE-LX standard. However, their higher optical quality allows them to reach
6.2 miles (10 km) over single-mode fiber (SMF) versus the 3.1 miles (5 km) specified in the standard.
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SFP-GE-Z Modules
The 1000BASE-ZX (extended-wavelength) module operates on ordinary single-mode fiber-optic link spans of up to 49.7 miles (80 km). Link spans of up to 62.1 miles (100 km) are possible using premium single-mode fiber or dispersion-shifted single-mode fiber. (Premium single-mode fiber has a lower attenuation per unit length than ordinary single-mode fiber; dispersion-shifted single-mode fiber has both lower attenuation and less dispersion.)
The 1000BASE-ZX module must be coupled to single-mode fiber-optic cable, which is the type of cable typically used in long-haul telecommunications applications. The 1000BASE-ZX module does not operate correctly when coupled to multimode fiber, and it is not intended to be used in environments in which multimode fiber is frequently used (for example, building backbones or horizontal cabling).
The 1000BASE-ZX module is intended to be used as a Physical Medium Dependent (PMD) component for Gigabit Ethernet interfaces found on various switch and router products. It operates at a signaling rate of 1250 Mbaud, transmitting and receiving 8B/10B encoded data.
When shorter lengths of single-mode fiber are used, it may be necessary to insert an inline optical attenuator in the link to avoid overloading the receiver. Use the following guidelines:
• Insert a 10-dB inline optical attenuator between the fiber-optic cable plant and the receiving port on the 1000BASE-ZX module at each end of the link whenever the fiber-optic cable span is less than
15.5 miles (25 km).
• Insert a 5-dB inline optical attenuator between the fiber-optic cable plant and the receiving port on the 1000BASE-ZX module at each end of the link whenever the fiber-optic cable span is equal to or greater than 15.5 miles (25 km) but less than 31 miles (50 km).
SFP Module Cabling and Connection Equipment
Table 3-16 provides cabling specifications for the SFP modules that can be installed on the 8-Port
Gigabit Ethernet SPA. Note that all optical SFP ports have LC-type connectors.
The minimum cable distance for the SFP-GE-S is 6.5 feet (2 m), and the minimum link distance for the
SFP-GE-Z is 6.2 miles (10 km) with an 8-dB attenuator installed at each end of the link. Without attenuators, the minimum link distance for the SFP-GE-Z is 24.9 miles (40 km).
Table 3-16 SFP Module Port Cabling Specifications
SFP Modules
SFP-GE-S
SFP-GE-L
SFP-GE-Z
Wavelength
(nm)
850
1300
1550
Fiber Type
MMF
SMF
SMF
3
1
MMF
2
and
SMF
62.5
50.0
50.0
9/10
9/10
8
Core Size
(micron)
62.5
62.5
50.0
50.0
500
400
500
—
—
—
Modal
Bandwidth
(MHz/km)
160
200
400
500
Maximum
Cable Distance
722 ft (220 m)
984 ft (300 m)
1640 ft (500 m)
1804 ft (550 m)
1804 ft (550 m)
1804 ft (550 m)
1804 ft (550 m)
6.2 miles (10 km)
49.7 miles (80 km)
62.1 miles (100 km)
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1.
Multimode fiber (MMF) only.
2.
A mode-conditioning patch cord is required.
When using the SFP-GE-L with 62.5-micron diameter MMF, you must install a mode-conditioning patch cord between the SFP module and the MMF cable on both the transmit and the receive ends of the link when link distances are greater than 984 ft (300 m).
We do not recommend using the SFP-GE-L and MMF with no patch cord for very short link distance (tens of meters). The result could be an elevated bit error rate (BER).
3.
Dispersion-shifted single-mode fiber-optic cable.
Note The 1000BASE-ZX SFP modules provide an optical power budget of 21.5 dB. You should measure your cable plant with an optical loss test set to verify that the optical loss of the cable plant (including connectors and splices) is less than or equal to 21.5 dB. The optical loss measurement must be performed with a 1550-nm light source.
2-Port Channelized OC-12/DS0 SPA
The 2-Port Channelized OC-12/DS0 SPA is a full-height SPA that provides Synchronous Optical
NETwork (SONET) network connectivity with a bandwidth of 622.08 Mbps. The 2-Port Channelized
OC-12/DS0 SPA supports any combination of 2000 nxDS0, 672 DS1, or 24 DS3 channelized interfaces.
It provides separate queues for high and low priority egress traffic on each channelized interface.
The following sections describe the 2-Port Channelized OC-12/DS0 SPA:
•
•
2-Port Channelized OC-12/DS0 SPA LEDs, page 3-31
2-Port Channelized OC-12/DS0 SPA Interface Specifications, page 3-32
•
2-Port Channelized OC-12/DS0 SPA SFP Optical Transceiver Modules and Cables, page 3-32
2-Port Channelized OC-12/DS0 SPA LEDs
The 2-Port Channelized OC-12/DS0 SPA has three types of LEDs. There are two LEDs for each port on
the SPA, and one STATUS LED. Figure 3-8
shows an example of these LEDs on a SPA.
Figure 3-8 2-Port Channelized OC-12/DS0 SPA Faceplate
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CAR
AC
T
ST
ATUS
CAR
AC
T
SPA-2XCHOC12/DSO
1 CAR (Carrier/Alarm) LED
2 ACT (Active Loopback) LED
3 STATUS LED
describes the 2-Port Channelized OC-12/DS0 SPA LEDs.
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2-Port Channelized OC-12/DS0 SPA
Table 3-17
LED Label
CAR 1
ACT
STATUS
2
2-Port Channelized OC-12/DS0 SPA LEDs
Color
Off
Green
Amber
Off
Green
Amber
Off
Green
Amber
State
Off
On
On
Off
On
On
Off
On
On
1.
CAR and ACT LEDs are per port
2.
STATUS LED is per SPA
Meaning
Port is not enabled by software.
Port is enabled by software, and there is a valid SONET signal without any alarms.
Port is enabled by software, and there is at least one alarm.
Port is not enabled by software.
Port is enabled by software, loopback is off.
Port is enabled by software, loopback is on.
SPA power is off.
SPA is ready and operational.
SPA power is on and SPA is being configured.
2-Port Channelized OC-12/DS0 SPA Interface Specifications
The framer processes incoming and outgoing SONET frames. The framer operates at OC-12c/STM-4 line rates (622.08 Mbps). Packet data is transported with a user-configured encapsulation (such as
Point-to-Point Protocol [PPP]) and mapped into the STS-12c/STM-4 frame.
The 2-Port Channelized OC-12/DS0 SPA interface is compliant with ANSI and Telco standards. The interface provides support for Management Information Base (MIB) RFC 3592, RFC 2558, RFC 3896, and RFC 2496.
2-Port Channelized OC-12/DS0 SPA SFP Optical Transceiver Modules and
Cables
The 2-Port Channelized OC-12/DS0 SPA uses a small form-factor pluggable (SFP) optical transceiver module installed in each port for SONET single-mode and multimode optical fiber connection (see
Cisco Systems qualifies the optics that are approved for use with its SPAs. The 2-Port Channelized
OC-12/DS0 SPA supports the following types of optical transceiver modules:
•
•
•
•
•
Multimode (MM) SFP module—SFP-OC12-MM
Short reach (SR) SFP module—SFP-OC12-SR
Intermediate reach (IR) SFP module (15 km)—SFP-OC12-IR1
Long reach (LR) SFP module (40 km)—SFP-OC12-LR1
LR SFP module (80 km)—SFP-OC12-LR2
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Figure 3-9 SFP Optics Module
2-Port Channelized OC-12/DS0 SPA
The SFP optical transceiver modules used with the SPAs provide the following optical fiber options:
• Multimode—622.08-Mbps, OC-12 optical fiber (SONET STS-12c )
•
Use a multimode optical fiber that has a core/cladding diameter of 62.5/125 microns.
Single-mode—622.08-Mbps, OC-12 optical fiber (SONET STS-12c)
Use a single-mode optical fiber that has a modal-field diameter of 8.7 ±0.5 microns. (Nominal diameter is approximately 10/125 microns.)
Use single-mode (for intermediate or long-reach configurations) or multimode optical fiber cable to connect your router to a network or to connect two 2-Port Channelized OC-12/DS0 SPA -equipped routers back to back.
Long-range SFP optical transceiver modules (for long-reach configurations) cannot be connected back-to-back without using an attenuator between the two of them.
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C H A P T E R
4
Preparing to Install a SIP or a SPA
•
•
•
This chapter describes the general equipment, safety, and site preparation requirements for installing
SIPs and SPAs. This chapter contains the following sections:
Required Tools and Equipment, page 4-35
Required Tools and Equipment
You need the following tools and parts to install SIPs and SPAs. If you need additional equipment, contact a service representative for ordering information.
•
•
•
•
Shared port adapter interface processor (SIP)
Shared port adapter (SPA)
Number 1 Phillips and a 3/16-inch flat-blade screwdriver
Number 2 Phillips screwdriver
• Your own electrostatic discharge (ESD)-prevention equipment or the disposable grounding wrist strap supplied with the SIP or SPA
•
•
Antistatic mat
Antistatic container
Safety Guidelines
This section provides safety guidelines that you should follow when working with any equipment that connects to electrical power or telephone wiring.
Safety Warnings
Safety warnings appear throughout this publication in procedures that, if performed incorrectly, might harm you. A warning symbol precedes each warning statement.
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Warning Definition
Warning
Waarschuwing
Varoitus
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
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
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
Attention
Warnung
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
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.
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Avvertenza
Advarsel
Aviso
¡Advertencia!
Varning!
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
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
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
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
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
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Electrical Equipment Guidelines
•
•
•
•
Follow these basic guidelines when 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 moving a chassis.
Do not work alone when potentially hazardous conditions exist.
Never assume that power has been disconnected from a circuit; always check.
Do not perform any action that creates a potential hazard to people or makes the equipment unsafe; carefully examine your work area for possible hazards such as moist floors, ungrounded power extension cables, and missing safety grounds.
Caution This equipment is suitable for intra-building wiring only.
Telephone Wiring Guidelines
Use the following guidelines when working with any equipment that is connected to telephone wiring or to 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.
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Laser/LED Safety
•
•
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.
Preventing Electrostatic Discharge Damage
•
•
•
Electrostatic discharge (ESD) damage, which can occur when electronic cards or components are improperly handled, results in complete or intermittent failures. SIPs, SPAs, and processor modules comprise printed circuit boards that are fixed in metal carriers. Electromagnetic interference (EMI) shielding and connectors are integral components of the carrier. Although the metal carrier helps to protect the board from ESD, use a preventive antistatic strap during handling.
Following are guidelines for preventing ESD damage:
Always use an ESD wrist or ankle strap and ensure that it makes good skin contact.
Connect the equipment end of the strap to an unfinished chassis surface.
•
When installing a component, use any available ejector levers or captive installation screws to properly seat the bus connectors in the backplane or midplane. These devices prevent accidental removal, provide proper grounding for the system, and help to ensure that bus connectors are properly seated.
When removing a component, use any available ejector levers or captive installation screws to release the bus connectors from the backplane or midplane.
•
•
•
•
Handle carriers by available handles or edges only; avoid touching the printed circuit boards or connectors.
Place a removed board component-side-up on an antistatic surface or in a static shielding container.
If you plan to return the component to the factory, immediately place it in a static shielding container.
Avoid contact between the printed circuit boards and clothing. The wrist strap only protects components from ESD voltages on the body; ESD voltages on clothing can still cause damage.
Never attempt to remove the printed circuit board from the metal carrier.
Caution For safety, periodically check the resistance value of the antistatic strap. The measurement should be between 1 and 10 megohms (Mohms).
Laser/LED Safety
An optical single-mode transmitter uses a small laser to transmit the light signal to the network ring.
Keep the transmit port covered whenever a cable is not connected to it. Although multimode transceivers typically use LEDs for transmission, it is good practice to keep open ports covered and avoid staring into open ports or apertures. The single-mode aperture port contains a laser warning label, as shown in
. The multimode aperture contains a Class 1 LED warning label, as shown in
These warnings apply to SPAs and SFP modules that transmit signals via an optical carrier signal.
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Class 1 Laser Warning Labels for Single-Mode Port Figure 4-1
CLASS 1 LASER PRODUCT
LASERPRODUKT DER KLASSE 1
PRODUIT LASER DE CLASSE 1
1
PRODUCTO LASER CLASE 1
Warning Class 1 laser product. Statement 1008
Warning Invisible laser radiation may be emitted from disconnected fibers or connectors. Do not stare into beams or view directly with optical instruments. Statement 1051
Waarschuwing
Varoitus
Attention
Warnung
Avvertenza
Losgekoppelde of losgeraakte glasvezels of aansluitingen kunnen onzichtbare laserstraling produceren. Kijk niet rechtstreeks in de straling en gebruik geen optische instrumenten rond deze glasvezels of aansluitingen.
Irrotetuista kuiduista tai liittimistä voi tulla näkymätöntä lasersäteilyä. Älä tuijota säteitä tai katso niitä suoraan optisilla välineillä.
Les fibres ou connecteurs débranchés risquent d'émettre des rayonnements laser invisibles à l'œil.
Ne regardez jamais directement les faisceaux laser à l'œil nu, ni d'ailleurs avec des instruments optiques.
Unterbrochene Fasern oder Steckerverbindungenkönnen unsichtbare Laserstrahlung abgeben.
Blicken Sie weder mit bloßem Auge noch mit optischen Instrumenten direkt in Laserstrahlen.
Le fibre ottiche ed i relativi connettori possono emettere radiazioni laser. I fasci di luce non devono mai essere osservati direttamente o attraverso strumenti ottici.
Advarsel
Aviso
¡Advertencia!
Varning!
Det kan forekomme usynlig laserstråling fra fiber eller kontakter som er frakoblet. Stirr ikke direkte inn i strålene eller se på dem direkte gjennom et optisk instrument.
Radiação laser invisível pode ser emitida de conectores ou fibras desconectadas. Não olhe diretamente para os feixes ou com instrumentos ópticos.
Es posible que las fibras desconectadas emitan radiación láser invisible. No fije la vista en los rayos ni examine éstos con instrumentos ópticos.
Osynlig laserstrålning kan avges från frånkopplade fibrer eller kontaktdon. Rikta inte blicken in i strålar och titta aldrig direkt på dem med hjälp av optiska instrument.
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Aviso
Advarsel
Radiação laser invisível pode ser emitida a partir de fibras ou conectores desconectados. Não fixe o olhar nos feixes e nem olhe diretamente com instrumentos ópticos.
Usynlig laserstråling kan forekomme fra brugte fibre eller stik. Stir ikke ind i stråler eller direkte med optiske instrumenter.
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T
Warning Invisible laser radiation may be emitted from disconnected fibers or connectors. Do not stare into beams or view directly with optical instruments. Statement 1051
Warning Class 1 LED product. Statement 1027
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C H A P T E R
5
Installing and Removing a SIP
•
•
•
This chapter describes how to install or remove SIPs on a Cisco 10000 series router. This chapter contains the following sections:
Online Insertion and Removal of a SIP, page 5-46
SIP Installation and Removal, page 5-49
Handling SIPs
Each SIP circuit board is mounted to a metal carrier and is sensitive to electrostatic discharge (ESD) damage. Before you begin installation, read
Chapter 4, “Preparing to Install a SIP or a SPA,”
for a list of parts and tools required for installation.
Caution Always handle the SIP by the carrier edges; never touch the SIP components or connector pins
(see
When a slot is not in use, a blank filler plate must be installed in the empty slot 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 SIP in a slot that is not in use, you must first remove the two blank filler plates.
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Figure 5-1 Handling a Cisco 10000 SIP-600
CISCO
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Chapter 5 Installing and Removing a SIP
Caution The Cisco 10000 SIP-600 weighs 10 lb (4.6 kg). Always use two hands when handling the SIP.
Online Insertion and Removal of a SIP
The Cisco 10000 series router supports online insertion and removal (OIR) of the SPA interface processor (SIP) and of the shared port adapters (SPAs). Therefore, you can remove a SIP with its SPAs still intact, or you can remove a SPA independently from the SIP, leaving the SIP installed in the router.
To remove a SPA, refer to Chapter 6, “Installing and Removing a SPA” .
Although graceful deactivation of a SIP is preferred using the hw-module slot shutdown command, the
Cisco 10000 series router does support removal of the SIP without deactivating it first. If you plan to remove a SIP, you can deactivate the SIP first, using the hw-module slot shutdown command in global configuration mode. When you deactivate a SIP using this command, it automatically deactivates each of the SPAs that are installed in that SIP. Therefore, it is not necessary to deactivate each of the SPAs prior to deactivating the SIP.
For information about the recommended procedures for physical removal of the SIP, refer to the
“Removing a SIP” section on page 5-52
.
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Online Insertion and Removal of a SIP
Deactivating a SIP
To deactivate a SIP and its installed SPAs prior to removal of the SIP, use the following command in global configuration mode:
Command
Router(config)# hw-module slot slot shutdown
Purpose
Shuts down any installed interfaces, and deactivates the
SIP in the specified slot, where:
• slot—Specifies the chassis slot number where the
SIP is installed.
Reactivating a SIP
Once you deactivate a SIP, whether or not you have performed an OIR, you must use the no hw-module
slot shutdown command in global configuration mode to reactivate the SIP.
If you did not issue a command to deactivate the SPAs installed in a SIP, but you did deactivate the SIP using the no hw-module slot shutdown command, then you do not need to reactivate the SPAs after an
OIR of the SIP. The installed SPAs automatically reactivate upon reactivation of the SIP in the router.
For example, consider the case where you remove a SIP from the router to replace it with another SIP.
You reinstall the same SPAs into the new SIP. When you enter the no hw-module slot shutdown command on the router, the SPAs automatically reactivate with the new SIP.
To activate a SIP and its installed SPAs after the SIP has been deactivated, use the following command in global configuration mode:
Command
Router(config)# no hw-module slot slot shutdown
Purpose
Activates the SIP in the specified slot and its installed
SPAs, where:
• slot—Specifies the chassis slot number where the
SIP is installed.
Verifying the Status of a SIP
To view the status of a SIP, use the show diag command in privileged EXEC configuration mode.
Router# show diag 1/0
Slot/Subslot 1/0:
4jacket-1 card, 0 ports
Card is full slot size
Card is analyzed
Card detected 07:42:30 ago
Card uptime 0 days, 7 hours, 42 minutes, 31 seconds
Card idle time 0 days, 3 hours, 3 minutes, 17 seconds
Voltage status:
EEPROM contents, slot 1/0:
Controller Type : 1380
Hardware Revision : 1.0
PCB Part Number : 73-10771-01
Board Revision :
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Deviation Number : 0-0
Fab Version : 01
PCB Serial Number : CSJ10497186
RMA Test History : 00
RMA Number : 0-0-0-0
RMA History : 00
Top Assy. Part Number : 800-27953-01
CLEI Code : UNASSIGNED
Product Identifier (PID) : 10000-SIP-600
Version Identifier (VID) : V00
LCMON version, slot 1/0
LCDOS (C10000 PowerQUICC-III Line Card MONitor Image : DEVELOPMENT BUILD jkotelly-spumoni_lc /vob/lcdos/obj-c10k-pq3-lcmon 102
)
Built by jkotelly at Thu Nov 9 10:54:20 2006.
Reset reason 0x00000008 (PRE hard reset).
Operational Image version, slot 1/0
LCDOS (C10000 4 SPA Jacket Card Image (Spumoni) : DEVELOPMENT BUILD
BLD-mayflower_lc.lcdos-nightly-mayflower-c10k /vob/lcdos/ob j-c10k-spumoni 102) major version 1189663592.
Built by ashah at Thu Sep 13 02:08:59 2007.
SW Version 4.0
Code MD5 068FBA5273DC8F598CC66E34D867A197
FPGA MD5 89C8DD3DCD939BDD43DB19D514416137
Expected Switchover Action: NO ACTION
ECC 1 bit errors since last cleared (dd hh mm ss) = 0 (0 days, 0 hours, 0 minutes,
0 seconds)
ECC 1 bit errors while up (total) = 0
Number of crashdumps recorded = 8
SPA Information: subslot 1/0 SPA-5X1GE-V2 ok
SW Version 1.0
Expected Switchover Action: NO ACTION
Product Identifier (PID) : SPA-5X1GE-V2
Version Identifier (VID) : V01
PCB Serial Number : JAB105201VV
Top Assy. Part Number : 68-2616-01
Top Assy. Revision : D0
Hardware Revision : 1.1
CLEI Code : CNUIANAAAA
The Transceiver in slot 1 subslot 0 port 0 is ENABLED.
The Transceiver in slot 1 subslot 0 port 1 is ENABLED.
The Transceiver in slot 1 subslot 0 port 2 is ENABLED.
The Transceiver in slot 1 subslot 0 port 3 is ENABLED.
The Transceiver in slot 1 subslot 0 port 4 is ENABLED.
SPA Information: subslot 1/1 SPA-5X1GE-V2 ok
SW Version 1.0
Expected Switchover Action: NO ACTION
Product Identifier (PID) : SPA-5X1GE-V2
Version Identifier (VID) : V01
PCB Serial Number : JAB110202HP
Top Assy. Part Number : 68-2616-01
Top Assy. Revision : E0
Hardware Revision : 1.1
CLEI Code : CNUIANAAAA
The Transceiver in slot 1 subslot 1 port 0 is ENABLED.
The Transceiver in slot 1 subslot 1 port 1 is ENABLED.
The Transceiver in slot 1 subslot 1 port 2 is ENABLED.
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The Transceiver in slot 1 subslot 1 port 3 is ENABLED.
The Transceiver in slot 1 subslot 1 port 4 is ENABLED.
SPA Information: subslot 1/2 SPA-5X1GE-V2 ok
SW Version 1.0
Expected Switchover Action: NO ACTION
Product Identifier (PID) : SPA-5X1GE-V2
Version Identifier (VID) : V01
PCB Serial Number : JAB1042060D
Top Assy. Part Number : 68-2616-01
Top Assy. Revision : D0
Hardware Revision : 1.1
CLEI Code : CNUIANAAAA
The Transceiver in slot 1 subslot 2 port 0 is ENABLED.
The Transceiver in slot 1 subslot 2 port 1 is ENABLED.
The Transceiver in slot 1 subslot 2 port 2 is ENABLED.
The Transceiver in slot 1 subslot 2 port 3 is ENABLED.
The Transceiver in slot 1 subslot 2 port 4 is ENABLED.
SPA Information: subslot 1/3 SPA-5X1GE-V2 ok
SW Version 1.0
Expected Switchover Action: NO ACTION
Product Identifier (PID) : SPA-5X1GE-V2
Version Identifier (VID) : V01
PCB Serial Number : JAB110202GA
Top Assy. Part Number : 68-2616-01
Top Assy. Revision : E0
Hardware Revision : 1.1
CLEI Code : CNUIANAAAA
The Transceiver in slot 1 subslot 3 port 0 is ENABLED.
The Transceiver in slot 1 subslot 3 port 1 is ENABLED.
The Transceiver in slot 1 subslot 3 port 2 is ENABLED.
The Transceiver in slot 1 subslot 3 port 3 is ENABLED.
The Transceiver in slot 1 subslot 3 port 4 is ENABLED.
Router#
SIP Installation and Removal
SIP Installation and Removal
This section provides step-by-step instructions for installing and removing a SIP.
Warning When performing the following procedures, wear a grounding wrist strap to avoid ESD damage to the
SIP. Some platforms have an ESD connector for attaching the wrist strap. Do not directly touch the midplane or backplane with your hand or any metal tool, or you could shock yourself.
Caution Install or remove only one SIP at a time. Be sure to verify that each SIP is fully installed and secured before installing another SIP. Use of excessive force can damage the router or SIP.
Installing a SIP
To install a SIP, follow these steps:
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Step 1
Step 2
Step 3
Attach an ESD-preventive wrist or ankle strap and follow its instructions for use.
Remove the blank filler plates from two slots and set them aside.
If you are replacing legacy line cards with a SIP, perform these tasks: a.
Shutdown both slots in which you are installing the SIP using the hw-module slot slot
shutdown command. b.
Enter the no card command on both slots. c.
Remove the legacy cards from the slots. d.
.
Grasp the faceplate of the SIP with one hand and place your other hand under the SIP (to support the weight of the SIP) and position the SIP in front of the appropriate line card slots.
Caution The Cisco 10000 SIP-600 weighs 10 lb (4.6 kg). Use two hands when handling the SIP.
Step 4 Carefully align the upper and lower card guides on the SIP with the upper and lower guides in the chassis and slide the SIP into the module slot until you can feel it begin to seat in the backplane connectors, as shown in
.
Note A SIP is not supported if the SIP is installed in even slots.
Step 5 Pivot the SIP ejector levers to the open position as shown in
.
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Figure 5-2 Inserting the SIP
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SIP Installation and Removal
Step 6 Simultaneously pivot both SIP ejector levers toward each other (until they are parallel to the faceplate)
to firmly seat the SIP in the router backplane. See Figure 5-3
.
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Figure 5-3 Closing the Ejector Levers
POWER
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Step 7
Step 8
Step 9
Step 10
Tighten the captive screws on each end of the SIP faceplate to ensure proper EMI shielding and to
prevent the SIP from becoming partially dislodged from the backplane (see Figure 5-4
for the location of the captive screws).
Install the SPAs and optics modules in the SPAs that use them. See the
“Installing a SPA in a SIP” section on page 6-60 .
Install the interface cables.
If you installed the SIP in slots that previously contained legacy line cards, enter the no hw-module slot
slot shutdown command to activate the SIP.
Removing a SIP
Warning When performing the following procedures, wear a grounding wrist strap to avoid ESD damage to the
SIP. Some platforms have an ESD connector for attaching the wrist strap. Do not directly touch the midplane or backplane with your hand or any metal tool, or you could shock yourself.
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SIP Installation and Removal
Warning Because invisible radiation may be emitted from the aperture of the port when no fiber cable is connected, avoid exposure to radiation and do not stare into open apertures.
To remove a SIP, follow these steps:
Step 1
Step 2
Step 3
Attach an ESD-preventive wrist or ankle strap and follow its instructions for use.
Identify the SIP to be removed and disconnect all interface cables from the ports. Be sure to note the current connections of the cables to the ports on the SPAs installed in the SIP.
Unscrew the captive screws on each end of the SIP faceplate (see
Figure 5-4 Captive Screws
1
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Chapter 5 Installing and Removing a SIP
SIP Installation and Removal
Step 4 Simultaneously pivot both SIP ejector levers away from each other to disengage the SIP from the backplane, as shown in Figure
Figure 5-5 Opening the Ejector Levers
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Step 5 Touching only the metal card carrier, slide the SIP out of the slot (see
Figure 5-6 ). Place the SIP on an
antistatic surface, or in an antistatic bag.
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Chapter 5 Installing and Removing a SIP
Figure 5-6 Removing the SIP
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SIP Installation and Removal
Step 6 If you are not installing a new or replacement SIP, install blank filler plates to cover the slots and tighten the screws on the blank filler plates.
Warning Blank faceplates (filler 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 and faceplates are in place. Statement 1029
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SIP Installation and Removal
Chapter 5 Installing and Removing a SIP
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C H A P T E R
6
Installing and Removing a SPA
•
•
•
•
•
•
•
This chapter describes how to install or remove SPAs on the Cisco 10000 series router. This chapter contains the following sections:
Online Insertion and Removal of a SPA, page 6-58
Installing a SPA in a SIP, page 6-60
Removing a SPA from a SIP, page 6-60
Optical Device Maintenance, page 6-60
Checking the Installation, page 6-61
SPA Blank Filler Plates, page 6-62
Handling SPAs
Each SPA circuit board is mounted to a metal carrier and is sensitive to electrostatic discharge (ESD) damage. Before you begin installation, read the “Preparing to Install a SIP or a Shared Port Adapter,” chapter for a list of parts and tools required for installation.
Caution Always handle the SPA by the carrier edges and handle; never touch the SPA components or connector
).
When a subslot is not in use, a SPA blank filler plate must fill the empty subslot to allow the router or switch 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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Chapter 6 Installing and Removing a SPA
Online Insertion and Removal of a SPA
Figure 6-1 Handling a SPA
Metal carrier
Printed circuit board
Online Insertion and Removal of a SPA
The Cisco 10000 series router supports OIR of a SPA independently of removing the SIP. This means that a SIP can remain installed in the router with one SPA remaining active, while you remove another
SPA from one of the SIP subslots. If you are not planning to immediately replace a SPA into the SIP, then be sure to install a blank filler plate in the subslot. The SIP should always be fully installed with either functional SPAs or blank filler plates.
The interface configuration is retained (recalled) if a SIP or SPA is removed and then replaced with one of the same type.
If you are planning to remove a SIP along with its SPAs, then you do not need to follow the instructions in this section. To remove a SIP, see
Chapter 5, “Installing and Removing a SIP”
.
Deactivating a SPA
Although graceful deactivation of a SPA is preferred using the hw-module subslot shutdown command, the Cisco 10000 series router does support removal of the SPA without deactivating it first. Before deactivating a SPA, ensure that the SIP is seated securely into the slot before pulling out the SPA itself.
If you are preparing for an OIR of a SPA, there are no standard interfaces to be shut down prior to deactivation of the SPA. The hw-module subslot shutdown command automatically stops traffic on the
Gigabit Ethernet interfaces and deactivates them along with the SPA in preparation for OIR. In similar fashion, you do not need to independently restart any Gigabit Ethernet interfaces on a SPA after OIR of a SPA or SIP.
Note You do not need to shut down a SPA if you are removing it and replacing it with the same exact model of SPA in an online insertion and removal (OIR) operation. However, you must shut down a SPA and preprovision the line card slot whenever you are replacing a SPA with a different model of SPA.
To deactivate a SPA and all of its interfaces prior to removal of the SPA, use the following command in global configuration mode:
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Online Insertion and Removal of a SPA
Command
Router(config)# hw-module subslot slot/subslot shutdown
[ powered
| unpowered
]
Router(config)# no card slot/subslot
Purpose
Deactivates the SPA in the specified slot and subslot of the SIP, where:
•
•
slot—Specifies the chassis slot number where the
SIP is installed.
subslot—Specifies the subslot number on a SIP where a SPA is installed.
•
•
powered— Shuts down the SPA and all of its interfaces, and leaves them in an administratively down state with power enabled. This is the default state.
unpowered— Shuts down the SPA and all of its interfaces, and leaves them in an administratively down state without power.
(Optional) Preprovisions a line card slot in the Cisco
10000 series router to accept the specified SPA.
• slot—Specifies the number of the line card slot to preprovision.
• subslot—Specifies the number of the line card subslot to preprovision.
Reactivating a SPA
If you deactivate a SPA using the hw-module subslot shutdown global configuration command and again reactivate it without performing an OIR, you need to use the no hw-module subslot shutdown global configuration command to reactivate the SPA and its interfaces.
To activate a SPA and its interfaces after the SPA has been deactivated, use the following command in global configuration mode:
Command
Router(config)# no hw-module subslot slot/subslot shutdown
Purpose
Activates the SPA and its interfaces in the specified slot and subslot of the SIP, where:
•
•
slot—Specifies the chassis slot number where the
SIP is installed.
subslot—Specifies the subslot number on a SIP where a SPA is installed.
Verifying the Status of a SPA
When you deactivate a SPA, the corresponding interfaces are also deactivated. This means that these interfaces will no longer appear in the output of the show interface command.
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Installing a SPA in a SIP
To verify the deactivation of a SPA, enter the show hw-module subslot oir command in privileged
EXEC configuration mode. Observe the Operational Status field associated with the SPA that you want to verify.
In the following example, the SPA located in subslot 1 of the SIP in chassis slot 7 is administratively down after entering the hw-module subslot shutdown powered command:
Router(config)# hw-module subslot 7/1 shutdown powered
Performing request on SPA 7/1 in jacket card in slot 7
Router(config)# exit
Router# show hw-module subslot 7/1 oir
Module Model Operational Status
------------- -------------------- -----------------------subslot 7/1 SPA-5X1GE-V2 admin down
Router#
Installing a SPA in a SIP
To install a SPA in a SIP, do the following:
Step 1
Step 2
Step 3
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 right and bottom 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.
Removing a SPA from a SIP
To remove a SPA from a SIP, do the following:
Step 1
Step 2
Step 3
If attached, remove any cables from the SPA.
To remove the SPA from the SIP, unfasten the captive installation screws on the SPA.
Grasp the handles of the SPA and pull the SPA from the SIP. (You have already disconnected the cables from the SPA when removing the SIP).
Optical Device Maintenance
Any contamination of the fiber connection can cause failure of the component or failure of the whole system. A particle that partially or completely blocks the core generates strong back reflections, which can cause instability in the laser system. Inspection, cleaning, and reinspection are critical steps to take before making fiber-optic connections.
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Checking the Installation
Cleaning Optical Devices
See Inspection and Cleaning Procedures for Fiber-Optic Connections for information on cleaning optical devices.
Checking the Installation
This section describes the procedures you can use to verify the SIP and SPA installation, and includes information on the following topics:
•
•
Verifying the Installation, page 6-61
Using show Commands to Verify SPA Status, page 6-62
Verifying the Installation
This section describes how to verify the SIP and SPA installation by observing the SIP LED states, SPA
LED states, and the information displayed on the console terminal.
When the system has reinitialized all interfaces, the SIP FAIL LED is off and the SPA STATUS LEDs are green (on). The port LEDs (C/A and A/L) may be green (on), depending on your connections and configuration. The console screen also displays a message as the system discovers each interface during its reinitialization.
Use the following procedure to verify that a SIP and SPA are installed correctly:
Step 1 Observe the console display messages and verify that the system discovers the SIP, while the system reinitializes each interface, as follows:
• As a SIP initializes, the FAIL LED is amber indicating hat power is on and the SIP is being configured. The SIP is active when the FAIL LED turns off.
•
•
SPAs follow the same sequence once the SIP has completed its initialization. The SPA STATUS
LEDs illuminate amber and then turn to green when the SPAs become active.
When the SIP FAIL LED is off and the SPA STATUS LEDs are green, all associated interfaces are configurable.
•
•
If a SIP or SPA is replaced with a module of the same type (as in an OIR or hardware swap), the previous configuration is reinstated when the SIP or SPA becomes active.
If a SIP or SPA has not been previously installed in the same slot or subslot, the configuration for all associated interfaces are empty.
Note New interfaces are not available until you configure them.
Step 2 If the SIPs and SPAs have not become active within three minutes, refer to the system console messages as follows:
• If a SIP or SPA is undergoing a Field Programmable Device (FPD) upgrade, the console messages indicate that the FPD process has been initiated. The upgrade process can take several minutes. Use the show upgrade fpd progress command to obtain information about the FPD process. SIPs or
SPAs that undergo an FPD upgrade automatically reboot. Return to
.
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SPA Blank Filler Plates
• If there is no indication that an FPD upgrade is under way, see
Chapter 7, “Troubleshooting the
Using show Commands to Verify SPA Status
describes some show commands to verify that SPAs are configured and operating correctly.
Table 6-1 show Commands to Display SPA Information
Command Descriptions router(config)# show running-config router(config)# show hw-module subslot all oir
Displays the router’s running configuration and interfaces available in the system, including the SPA interfaces.
Displays the operational status of all SPAs. router(config)# show diag
Displays the SPA type in the specified slot and subslot, SPA operational state, number of ports, hardware revision, part number, transeiver state if initialized and EEPROM contents.
router(config)# show hw-module subslot all fpd
Displays the field-programmable devices (FPD) version information of SPAs.
router(config)# show version Displays the Cisco IOS software version, names and sources of configuration files, and boot images.
router(config)# show interfaces Displays SPA configuration and statistics information.
SPA Blank Filler Plates
SPA blank filler plates are available to fill an unused SPA subslot.
When a SPA subslot is not in use, a SPA blank filler plate must be installed in the empty subslot to allow the router or switch to conform to electromagnetic interference (EMI) emissions requirements and to allow proper airflow across the SPAs. If you plan to install a new SPA in a subslot that is not in use, you must first remove the SPA blank filler plate.
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C H A P T E R
7
Troubleshooting the Installation
•
•
•
•
This chapter describes how to troubleshoot the installation of SIPs and SPAs on the Cisco 10000 series router. This chapter contains the following sections:
Using debug Commands, page 7-64
Packing a SPA for Shipment, page 7-65
Packing a SIP for Shipment, page 7-65
Troubleshooting
•
•
•
This section describes troubleshooting the installation of the SIPs and SPAs. Possible problems, observations and comments, and solutions are indicated for the following troubleshooting symptoms:
SIP transitions repeatedly from on to off
SIP is deactivated
SPA is down and the line protocol is down
SIP Transitions Repeatedly From On to Off
Possible Problem Observations and Comments
SIP is booting; this is normal operation
SIP FAIL LED is on
Solutions
Wait 30 seconds until the boot process completes and the
FAIL LED turns off.
SIP does not go beyond the bootup stage
SIP FAIL LED stays on Follow the recommended action for the displayed error message.
SIP has experienced a failure SIP FAIL LED remains on more than 5 seconds, or is on during normal operation
Follow the recommended action for the displayed error message.
SIP FPGA is not up to date
The SIP FPGA update is not supported. Only SPA update is supported.
During SIP initialization, the need to update the FPGA is automatically detected
If the SIP is cycling because of an FPD problem, the most likely cause is a FPD failure or that the FPD package file is not present.
For more information about performing FPD upgrades, refer to the “Upgrading Field-Programmable Devices” chapter in the Cisco 10000 Series Router SIP and SPA
Software Configuration Guide.
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Chapter 7 Troubleshooting the Installation
Using debug Commands
SPA Is Deactivated
Possible Problem
SPA is not fully seated in the
SIP
SPA is not supported on the
SIP
SPA is not at the minimum hardware revision level
SPA is misconfigured
Observations and Comments
Output of the show diag slot command
SPA STATUS LED is off
Output of the show diag slot command
SIP STATUS LED is off
Output of the show hw-module
subslot fpd command
Output of the show diag command
SPA STATUS LED is off
Output of the show log command
Solutions
Follow this procedure:
•
•
•
Remove the SPA from the SIP.
Inspect the SIP and the SPA. Verify there are no bent pins or parts and that there is nothing lodged in the two devices that could prevent a good connection.
Insert the SPA in the SIP by sliding the SPA all the way into the SIP until the SPA is firmly seated in the SPA interface connector. When fully seated in the SIP, the
SPA might be slightly behind the SIP faceplate.
Install a SPA supported on the SIP.
Follow the FPD upgrade process to update the FPGA.
For more information about performing FPD upgrades, refer to the “Upgrading Field-Programmable Devices” chapter in the Cisco 10000 Series Router SIP and SPA
Software Configuration Guide.
Refer to the configuration section of the specific SPA software configuration guide, or use the Cisco IOS software configuration documentation listed in the
“Obtaining Documentation, Obtaining Support, and
Security Guidelines” section on page ix
.
Using debug Commands
Along with the other debug commands supported on the Cisco 10000 series router, you can obtain specific debug information for the SIP on the Cisco 10000 series router using the debug hw-module privileged EXEC command. The debug hw-module command is intended for use by Cisco Systems technical support personnel.
Caution Because debugging output is assigned high priority in the CPU process, it can render the system unusable. For this reason, use debug commands only to troubleshoot specific problems or during troubleshooting sessions with Cisco technical support personnel. Moreover, it is best to use debug commands during periods of lower network traffic and fewer users. Debugging during these periods decreases the likelihood that increased debug command processing overhead will affect system use.
For more information about other debug commands supported on the Cisco 10000 series router, refer to the Cisco IOS Command Reference publication for your Cisco IOS software release.
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Chapter 7 Troubleshooting the Installation
Packing a SPA for Shipment
Packing a SPA for Shipment
This section provides step-by-step instructions for packing a SPA and the cable-management brackets for shipment. Before beginning this procedure, you should have the following original Cisco Systems packaging materials:
•
•
Thermoform container (transparent plastic-molded clamshell)
Carton
Caution Use Cisco Systems original packaging for the shipment of all SPAs and cable-management brackets.
Failure to properly use Cisco Systems packaging can result in damage or loss of product.
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.
Note These instructions assume that the SPA and cable-management brackets have been removed from the router according to the recommended procedures specified in this guide.
To pack a SPA and the cable-management brackets for shipment, follow these steps:
Step 1 Open the thermoform container and place the SPA and each of the cable-management brackets into the appropriate cavities.
Caution Always handle the SPA by the carrier edges and handle; never touch the SPA components or connector pins.
Step 2
Step 3
Step 4
Step 5
Step 6
Close the thermoform container. Be sure to lock the snaps securely.
Check that the thermoform container is fully closed. Apply tape or a label closure over the opening to ensure that the container stays closed during shipping.
Place the thermoform container into the carton.
Close the carton.
Apply tape over the carton flap to ensure that the carton stays closed during shipping.
Packing a SIP for Shipment
This section provides step-by-step instructions for packing a SIP for shipment. Before beginning this procedure, you should have the following original Cisco Systems packaging materials:
•
•
•
Static shielding bag
Smaller inner carton
Larger exterior carton
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Chapter 7 Troubleshooting the Installation
Packing a SIP for Shipment
• Two foam packing cushions
Caution Use Cisco Systems original packaging for the shipment of all SIPs. Failure to properly use Cisco
Systems packaging can result in damage or loss of product.
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.
Note These instructions assume that the SIP has been removed from the router according to the recommended procedures specified in this guide.
To pack a SIP for shipment, follow these steps:
Step 1
Step 2
Step 3
Step 4
Step 5
Insert the SIP into the static shielding bag.
Insert the bagged SIP into the smaller inner carton. Be careful to position the SIP so that the faceplate is up against the cardboard cushions. Fold the small flaps first and then the big flaps.
Close the smaller inner carton and tape the sides closed.
Place the sealed smaller inner carton containing the SIP into the two foam packing cushions (they only fit one way).
Place the sealed smaller inner carton and packing cushions into the larger exterior carton, and seal the larger exterior carton with tape for shipment.
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G L O S S A R Y
B blank filler plate An empty panel used to fill vacant subslots on a SIP. For proper operation, a SIP should be fully installed with either functional SPAs or blank filler plates.
F
FPD full-height, double-wide
Field-programmable device. General term for any hardware component implemented on router cards that supports separate software upgrades. SIPs and SPAs must have the right FPD version to function properly; an FPD incompatibility will disable all interfaces on the SPA or all SPAs within the SIP.
FPD image package An FPD image package is used to upgrade FPD images. Whenever a Cisco IOS image is released that supports SPAs, a companion SPA FPD image package is also released for that Cisco IOS software release.
Describes the dimensions of a SPA that occupies four standard, half-height SIP subslots or two full-height SIP subslots.
O
OIR Online insertion and removal. Feature supported by SIPs and SPAs allowing removal of the cards while the router and the cards are activated, without affecting the operation of other cards or the router.
Although this removal can be done while the SIP or SPA is activated, it is generally recommended that you gracefully deactivate the hardware using the appropriate commands for your platform prior to removal of the hardware.
S
SFP single-height
SIP
Small form-factor pluggable optical transceiver. A type of fiber optic receptacle device that mounts flush with the front panel to provide network connectivity.
Describes the dimension of a SPA that occupies a single SIP subslot, or half of the SIP.
SPA interface processor. A SIP is a platform-specific carrier card that inserts into a router slot like a line card. A SIP can hold one or more SPAs in its subslots, depending on the SIP type. The SPA provides the network interface. The SIP provides the connection between the route processor (RP) and the SPA.
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GL-1
Glossary
SPA subslot
Shared port adapter. A SPA is a modular, platform-independent port adapter that inserts into a subslot of a compatible SIP carrier card to provide network connectivity and increased interface port density.
The SPA provides the interface between the network and the SIP.
Secondary slot on a SIP where a SPA is installed. The primary slot is the chassis slot on the router.
GL-2
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
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Numerics
10-Gigabit Ethernet SPA
1-Port 10-Gigabit Ethernet SPA
cables and connectors
LEDs
XFP module
2-Port Gigabit Ethernet SPA
LEDs
5-Port Gigabit Ethernet SPA
cables and connectors
LEDs
8-Port Gigabit Ethernet SPA
cables and connectors
LEDs
A addressing format
agency compliance
aggregate bandwidth
airflow blank slot covers
B bandwidth
blank filler plate for empty subslots in a SIP
single-height size
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I N D E X
C carrier card
chassis power
Cisco 10000 router overview
connectivity
cooling the hardware
D debug commands
document organization
F fiber-optic transceiver
H humidity
hw-module subslot shutdown command
I installation
interface number
interface numbers, on SIP
interface processor tools and parts required for installation
intermediate reach
SFP optical transceiver module 3-32
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
IN-1
Index
L
LED
10G SIP
line card
long reach optical transceiver module
P port adapter
power consumption, SIP and SPAs
preparation
4-35 preparing for installation 4-35
processor
M multimode
SFP optical transceiver module
Q
QUICC III integrated communications processor 2-10
N network connectivity
no card command
O
OC-12c/STM-4 POS SPA cables
interface specifications
descriptions (table)
optical transceiver modules
OIR (online insertion and removal)
for SPAs
operating temperature
optics modules
qualified for SPAs (table) 1-3
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
R relative humidity
S
SFP (small form-factor pluggable) optical transceiver modules
(figure)
for OC-12c/STM-4 POS SPA
SFP (small form-factor pluggable) optics
2-Port Gigabit Ethernet SPA
5-Port Gigabit Ethernet SPA
8-Port Gigabit Ethernet SPA
qualified for SPAs (table)
SFP-GE-L
SFP-GE-T
SFP-GE-Z
SFP module cabling
SFP-OC12-IR1
SFP-OC12-LR1
SFP-OC12-SR
IN-2 OL-13838-02
Index
SFP-OC3-LR2
short reach
SFP optical transceiver module
show diag command
show hw-module sublsot command
show hw-module subslot oir command
show inventory command
show ip interface command
SIP (SPA interface processor)
blank filler plates
deactivating
definition
reactivating
status
subslots description
slot numbers, on SIP
small form-factor pluggable optical transceivers 1-3
SPA (Shared port adapter) deactivating
reactivating
status
SPA (shared port adapter) definition
interfaces
optics compatibility (table)
SPA (shared port adapter) SPA
storage temperature
subslot numbers, on SIP
subslots
T temperature
transceivers
translated documentation
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Troubleshooting
V verifying installation
W warning laser radiation
warnings blank faceplates
weight
X
XFP-10GER-OC192IR
intermediate reach
short reach
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
IN-3
Index
IN-4
Cisco 10000 Series Router SIP and SPA Hardware Installation Guide
OL-13838-02
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Table of contents
- 7 Objectives
- 7 Audience
- 8 Document Revision History
- 8 Organization
- 9 Related Documentation
- 9 Obtaining Documentation, Obtaining Support, and Security Guidelines
- 11 Introduction to SIPs and SPAs
- 11 SPA Interface Processors
- 12 Shared Port Adapters
- 12 SIP and SPA Compatibility
- 13 Modular Optics Compatibility
- 14 Power Management
- 15 SIP Summary
- 15 Checking Hardware and Software Compatibility
- 16 Identifying Slots and Subslots for SIPs and SPAs
- 16 Specifying the Slot Location for a SIP
- 19 Specifying the Location for a SPA
- 20 Cisco 10000 SIP-600 Overview
- 20 Cisco 10000 SIP-600 Processor
- 20 Cisco 10000 SIP-600 LED
- 22 Cisco 10000 SIP-600 Physical Specifications
- 23 Bandwidth Oversubscription
- 25 SIP Ingress Oversubscription
- 25 PRE4 Egress Oversubscription
- 25 SIP Performance with a PRE3
- 26 1-Port 10-Gigabit Ethernet SPA Overview
- 27 1-Port 10-Gigabit Ethernet SPA LEDs
- 27 1-Port 10-Gigabit Ethernet SPA XFP Optical Transceiver Modules, Connectors, and Cables
- 27 XFP Connections
- 29 XFP Port Cabling Specifications
- 29 2-Port Gigabit Ethernet SPA Overview
- 29 2-Port Gigabit Ethernet SPA LEDs
- 30 2-Port Gigabit Ethernet SPA Cables and Connectors
- 30 SFP Module Connections
- 31 SFP-GE-S Modules
- 31 SFP-GE-L Modules
- 32 SFP-GE-Z Modules
- 32 SFP-GE-T Modules
- 32 SFP Module Cabling and Connection Equipment
- 33 5-Port Gigabit Ethernet SPA Overview
- 33 5-Port Gigabit Ethernet SPA LEDs
- 34 5-Port Gigabit Ethernet SPA Cables and Connectors
- 34 SFP Module Connections
- 35 SFP-GE-S Modules
- 36 SFP-GE-L Modules
- 36 SFP-GE-Z Modules
- 36 SFP-GE-T Modules
- 36 SFP Module Cabling and Connection Equipment
- 37 8-Port Gigabit Ethernet SPA Overview
- 37 8-Port Gigabit Ethernet SPA LEDs
- 38 8-Port Gigabit Ethernet SPA Cables and Connectors
- 38 SFP Module Connections
- 39 SFP-GE-S Modules
- 39 SFP-GE-L Modules
- 40 SFP-GE-Z Modules
- 40 SFP Module Cabling and Connection Equipment
- 41 2-Port Channelized OC-12/DS0 SPA
- 41 2-Port Channelized OC-12/DS0 SPA LEDs
- 42 2-Port Channelized OC-12/DS0 SPA Interface Specifications
- 42 2-Port Channelized OC-12/DS0 SPA SFP Optical Transceiver Modules and Cables
- 45 Required Tools and Equipment
- 45 Safety Guidelines
- 45 Safety Warnings
- 46 Warning Definition
- 50 Electrical Equipment Guidelines
- 50 Telephone Wiring Guidelines
- 51 Preventing Electrostatic Discharge Damage
- 51 Laser/LED Safety
- 55 Handling SIPs
- 56 Online Insertion and Removal of a SIP
- 57 Deactivating a SIP
- 57 Reactivating a SIP
- 57 Verifying the Status of a SIP
- 59 SIP Installation and Removal
- 59 Installing a SIP
- 62 Removing a SIP
- 67 Handling SPAs
- 68 Online Insertion and Removal of a SPA
- 68 Deactivating a SPA
- 69 Reactivating a SPA
- 69 Verifying the Status of a SPA
- 70 Installing a SPA in a SIP
- 70 Removing a SPA from a SIP
- 70 Optical Device Maintenance
- 71 Cleaning Optical Devices
- 71 Checking the Installation
- 71 Verifying the Installation
- 72 Using show Commands to Verify SPA Status
- 72 SPA Blank Filler Plates
- 73 Troubleshooting
- 74 Using debug Commands
- 75 Packing a SPA for Shipment
- 75 Packing a SIP for Shipment