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Cisco XR 12000 Series Router SIP and SPA
Hardware Installation Guide
Cisco IOS XR Release 4.3.0
Revised December 2012
Cisco Systems, Inc.
www.cisco.com
Cisco has more than 200 offices worldwide.
Addresses, phone numbers, and fax numbers are listed on the Cisco website at www.cisco.com/go/offices.
Text Part Number: OL-17438-04
THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO CHANGE WITHOUT NOTICE. ALL
STATEMENTS, INFORMATION, AND RECOMMENDATIONS IN THIS MANUAL ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT
WARRANTY OF ANY KIND, EXPRESS OR IMPLIED. USERS MUST TAKE FULL RESPONSIBILITY FOR THEIR APPLICATION OF ANY PRODUCTS.
THE SOFTWARE LICENSE AND LIMITED WARRANTY FOR THE ACCOMPANYING PRODUCT ARE SET FORTH IN THE INFORMATION PACKET THAT
SHIPPED WITH THE PRODUCT AND ARE INCORPORATED HEREIN BY THIS REFERENCE. IF YOU ARE UNABLE TO LOCATE THE SOFTWARE LICENSE
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.
The Cisco implementation of TCP header compression is an adaptation of a program developed by the University of California, Berkeley (UCB) as part of UCB’s public domain version of the UNIX operating system. All rights reserved. Copyright © 1981, Regents of the University of California.
NOTWITHSTANDING ANY OTHER WARRANTY HEREIN, ALL DOCUMENT FILES AND SOFTWARE OF THESE SUPPLIERS ARE PROVIDED “AS IS” WITH
ALL FAULTS. CISCO AND THE ABOVE-NAMED SUPPLIERS DISCLAIM ALL WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING, WITHOUT
LIMITATION, THOSE OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OR ARISING FROM A COURSE OF
DEALING, USAGE, OR TRADE PRACTICE.
IN NO EVENT SHALL CISCO OR ITS SUPPLIERS BE LIABLE FOR ANY INDIRECT, SPECIAL, CONSEQUENTIAL, OR INCIDENTAL DAMAGES, INCLUDING,
WITHOUT LIMITATION, LOST PROFITS OR LOSS OR DAMAGE TO DATA ARISING OUT OF THE USE OR INABILITY TO USE THIS MANUAL, EVEN IF CISCO
OR ITS SUPPLIERS HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
Cisco and the Cisco logo are trademarks or registered trademarks of Cisco and/or its affiliates in the U.S. and other countries. To view a list of Cisco trademarks, go to this
URL: www.cisco.com/go/trademarks . Third-party trademarks mentioned are the property of their respective owners. The use of the word partner does not imply a partnership relationship between Cisco and any other company. (1110R)
Any Internet Protocol (IP) addresses used in this document are not intended to be actual addresses. Any examples, command display output, and figures included in the document are shown for illustrative purposes only. Any use of actual IP addresses in illustrative content is unintentional and coincidental.
Cisco XR 12000 Series Router SIP and SPA Hardware Installation Guide
© 2014 Cisco Systems, Inc. All rights reserved.
OL-17438-04
Obtaining Documentation and Submitting a Service Request 3-xii xii
Overview: Cisco XR 12000 Series Router SPA Interface Processors 1-1
Router Hardware Installation 1-2
SIP Software and Hardware Compatibility 1-4
Cisco XR 12000 SIP-600 Overview 1-4
Cisco XR 12000 SIP-600 Board Components 1-4
Cisco XR 12000 SIP-600 LEDs 1-5
Cisco XR 12000 SIP-600 Physical Specifications 1-6
SPA Subslot Numbering on the Cisco XR 12000 SIP-600 1-6
SPA Interface Addresses on the Cisco XR 12000 SIP-600 1-6
Cisco XR 12000 SIP-401 Overview 1-7
Cisco XR 12000 SIP-401 Board Components 1-8
Cisco XR 12000 SIP-401 LEDs 1-8
Cisco XR 12000 SIP-401 Physical Specifications 1-9
SPA Slot Numbering on the Cisco XR 12000 SIP-401 1-9
SPA Interface Addresses on the Cisco XR 12000 SIP-401 1-10
Cisco XR 12000 SIP-501 Overview 1-11
Cisco XR 12000 SIP-501 Board Components 1-11
Cisco XR 12000 SIP-501 LEDs 1-11
Cisco XR 12000 SIP-501 Physical Specifications 1-12
SPA Subslot Numbering on the Cisco XR 12000 SIP-501 1-12
SPA Interface Addresses on the Cisco XR 12000 SIP-501 1-13
Cisco XR 12000 Series Router SIP and SPA Hardware Installation Guide iii
Contents
Cisco XR 12000 SIP-601 Overview
1-14
Cisco XR 12000 SIP-601 Board Components
1-14
1-14
Cisco XR 12000 SIP-601 Physical Specifications
1-15
SPA Subslot Numbering on the Cisco XR 12000 SIP-601
1-15
SPA Interface Addresses on the Cisco XR 12000 SIP-601
1-16
iv
Overview: Cisco XR 12000 Series Router Shared Port Adapters
2-1
2-2
Checking Hardware and Software Compatibility
2-3
2-3
2-Port and 4-Port T3/E3 Serial SPA Overview
2-5
2-Port and 4-Port Clear Channel T3/E3 SPA LEDs
2-5
2-Port and 4-Port Clear Channel T3/E3 SPA Interface Specifications
2-6
2-Port and 4-Port Clear Channel T3/E3 SPA Cables and Connectors
2-6
2-Port and 4-Port Channelized T3 to DS0 SPA Overview
2-6
2-Port and 4-Port Channelized T3 SPA LEDs
2-7
2-Port and 4-Port Channelized T3 SPA Interface Specifications
2-7
2-Port and 4-Port Channelized T3 SPA Cables and Connectors
2-8
8-Port Channelized T1/E1 SPA Overview
2-8
8-Port Channelized T1/E1 SPA LEDs
2-9
8-Port Channelized T1/E1 SPA Interface Specifications
2-9
8-Port Channelized T1/E1 SPA Cables, Connectors, and Pinouts
2-10
8 Port FastEthernet SPA Overview
2-10
2-11
8-Port FastEthernet SPA Cables, Connectors, and Pinouts
2-11
1 Port 10-Gigabit Ethernet SPA Overview
2-13
1-Port 10-Gigabit Ethernet SPA LEDs
2-13
1-Port 10-Gigabit Ethernet SPA XFP Optical Transceiver Modules, Connectors, and Cables
2-14
2-14
XFP Port Cabling Specifications
2-16
2-Port Gigabit Ethernet SPA Overview
2-16
2-Port Gigabit Ethernet SPA LEDs
2-16
2-Port Gigabit Ethernet SPA (Version 2) LEDs
2-17
2-Port Gigabit Ethernet SPA Cables and Connectors
2-18
2-18
SFP Module Cabling and Connection Equipment
2-20
5-Port Gigabit Ethernet SPA Overview
2-21
5-Port Gigabit Ethernet SPA LEDs
2-21
Cisco XR 12000 Series Router SIP and SPA Hardware Installation Guide
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Contents
5-Port Gigabit Ethernet SPA Cables and Connectors
2-22
2-22
SFP Module Cabling and Connection Equipment
2-24
10-Port Gigabit Ethernet SPA Overview
2-25
10-Port Gigabit Ethernet SPA LEDs
2-26
10-Port Gigabit Ethernet SPA Cables and Connectors
2-26
2-26
SFP Module Cabling and Connection Equipment
2-28
1-Port Channelized STM-1/OC-3 SPA Overview
2-29
1-Port Channelized STM-1/OC-3 SPA LEDs
2-29
1-Port Channelized STM-1/OC-3 SPA Interface Specifications
2-30
1-Port Channelized STM-1/OC-3 SPA Cables and Connectors
2-30
1-Port Channelized STM-4/OC-12 SPA Overview
2-31
1-Port Channelized STM-4/OC-12 SPA LEDs
2-32
1-Port Channelized STM-4/OC-12 SPA Interface Specifications
2-33
1-Port Channelized STM-4/OC-12 SPA Cables and Connectors
2-33
1-Port Channelized STM-16/OC-48 SPA Overview
2-34
1-Port Channelized STM-16/OC-48 SPA LEDs
2-34
1-Port Channelized STM-16/OC-48 SPA Interface Specifications
2-35
1-Port Channelized STM-16/OC-48 SPA Cables and Connectors
2-36
1-Port OC-192/STM-64 POS SPA Overview
2-37
1-Port OC-192/STM-64 POS/RPR SPA LEDs
2-37
1-Port OC-192/STM-64 POS/RPR SPA Interface Specifications
2-38
1-Port OC-192/STM-64 POS/RPR SPA Fixed Optical Transceiver, 40-Pin Connector, and Cables
2-39
2-39
1-Port OC-192 STM-64 POS RPR XFP SPA Overview
2-40
1-Port OC-192/STM-64 POS/RPR XFP SPA LEDs
2-41
1-Port OC-192/STM-64 POS/RPR XFP SPA Interface Specifications
2-42
1-Port OC-192/STM-64 POS/RPR XFP SPA Optical Transceiver Modules, Connectors, and
2-42
2-43
2-44
4-Port OC-3/STM-1 POS SPA Overview
2-44
2-Port and 4-Port OC-3/STM-1 POS SPA LEDs
2-45
2-Port and 4-Port OC-3/STM-1 POS SPA Interface Specifications
2-46
2-Port and 4-Port OC-3/STM-1 POS SPA Optical Transceiver Modules and Cables
2-46
2-48
8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Overview
2-49
8-Port OC-3 STM-1/OC-12 STM-4 POS SPA LEDs
2-49
Cisco XR 12000 Series Router SIP and SPA Hardware Installation Guide v
Contents vi
8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Interface Specifications
2-50
8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Optical Transceiver Modules and Cables
2-50
2-52
2-53
1-Port OC-12/STM-4 POS SPA Overview
2-54
1-Port OC-12/STM-4 POS SPA LEDs
2-54
1-Port OC-12/STM-4 POS SPA Interface Specifications
2-55
1-Port OC-12/STM-4 POS SPA SFP Optical Transceiver Modules and Cables
2-55
1-Port OC-48/STM-16 POS SPA Overview
2-57
1-Port OC-48/STM-16 POS SPA LEDs
2-57
1-Port OC-48/STM-16 POS SPA Interface Specifications
2-58
1-Port OC-48/STM-16 POS SPA Optical Transceiver Modules, Connectors, and Cables
2-59
2-59
2-Port and 4-Port OC-48/STM-16 POS SPA Overview
2-60
2-Port and 4-Port OC-48/STM-16 POS SPA LEDs
2-61
2-Port and 4-Port OC-48/STM-16 POS SPA Interface Specifications
2-62
2-Port and 4-Port OC-48/STM-16 POS SPA Cables, Optical Transceiver Modules, and
2-62
2-63
2-63
2-Port OC-48 POS RPR SPA Overview
2-64
2-64
2-Port OC48-POS/RPR SPA Interface Specifications
2-66
2-Port OC48-POS/RPR SPA Cables, Optical Transceiver Modules, and Connectors
2-66
Cisco XR12000 IPSec VPN SPA Overview
2-66
2-67
1-Port and 3-Port Clear Channel OC-3 ATM SPA Overview
2-68
1-Port and 3-Port Clear Channel OC-3 ATM SPA LEDs
2-68
1-Port and 3-Port Clear Channel OC-3 ATM SPA Interface Specifications
2-69
1-Port and 3-Port Clear Channel OC-3 ATM SPA Cables and Connectors
2-69
1-Port Clear Channel OC-12 ATM SPA Overview
2-70
1-Port Clear Channel OC-12 ATM SPA LEDs
2-70
1-Port Clear Channel OC-12 ATM SPA Interface Specifications
2-71
1-Port Clear Channel OC-12 ATM SPA Cables and Connectors
2-72
2-Port Channelized T3/E3 ATM CEoP SPA Overview
2-73
2-Port Channelized T3/E3 ATM CEoP SPA LEDs
2-73
2-Port Channelized T3/E3 ATM CEoP SPA Interface Specifications
2-74
2-Port Channelized T3/E3 ATM CEoP SPA Cables and Connectors
2-74
24-Port Channelized T1/E1/J1 ATM CEoP SPA Overview
2-75
Cisco XR 12000 Series Router SIP and SPA Hardware Installation Guide
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Contents
24-Port Channelized T1/E1/J1 ATM CEoP SPA LEDs
2-75
24-Port Channelized T1/E1/J1 ATM CEoP SPA Interface Specifications
2-76
24-Port Channelized T1/E1/J1 ATM CEoP SPA Cables and Connectors
2-76
2-77
2-77
2-80
2-80
24-Port Channelized T1/E1/J1 ATM CEoP SPA Patch Panel
2-80
1-Port Channelized OC-3 ATM CEoP SPA Overview
2-81
1-Port Channelized OC-3 ATM CEoP SPA LEDs
2-81
1-Port Channelized OC-3 ATM CEoP SPA Interface Specifications
2-82
1-Port Channelized OC-3 ATM CEoP SPA Optical Transeiver Modules and Cables
2-82
1-Port 10-Gigabit Ethernet DWDM SPA Overview
2-82
1-Port 10-Gigabit Ethernet DWDM SPA LEDs
2-82
1-Port 10-Gigabit Ethernet DWDM SPA XFP Optical Transceiver Modules, Connectors, and
2-83
1-Port 10-Gigabit Ethernet WAN PHY SPA Overview
2-84
1-Port 10-Gigabit Ethernet SPA LEDs
2-84
1-Port 10-Gigabit Ethernet SPA XFP Optical Transceiver Modules, Connectors, and Cables
2-85
2-86
XFP Port Cabling Specifications
2-87
Preparing to Install a Shared Port Adapter or a SPA Interface Processor
3-1
3-1
3-1
Electromagnetic Compatibility Regulatory Statements
3-2
Electrical Equipment Guidelines
3-2
3-2
3-2
Preventing Electrostatic Discharge
3-3
3-4
Installing and Removing a SPA Interface Processor
4-1
4-1
4-2
Guidelines for SIP Removal and Installation
4-2
4-3
4-5
Cisco XR 12000 Series Router SIP and SPA Hardware Installation Guide vii
Contents
Installing and Removing a Shared Port Adapter
5-1
5-1
5-2
5-2
Optical Device Installation and Removal
5-3
5-3
5-4
5-4
Using show Commands to Verify SIP and SPA Status
5-5
Using show Commands to Display SPA Information
5-5
Using the ping Command to Verify Network Connectivity
5-9
Troubleshooting the Installation
6-1
6-1
6-1
6-2
6-3
viii
Cisco XR 12000 Series Router SIP and SPA Hardware Installation Guide
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Preface
This preface describes the objectives and organization of this document and explains how to find additional information on related products and services. This preface contains the following sections:
•
Changes to This Document, page ix
•
•
•
•
Related Documentation, page xii
Obtaining Documentation and Submitting a Service Request, page xii
Changes to This Document
provides a list of the changes to this document.
Release No.
4.3.0
4.1.1
4.0.1
3.8.0
3.7.0
Table 1 Changes to This Document
Revision Date
OL-17438-04 December 2012
OL-17438-03
OL-17438-02
OL-17438-01
Rev. E0
December 2011
December 2010
March 2009
June 30, 2008
Change Summary
Provides descriptions and installation instructions for the 1-Port
10-Gigabit Ethernet WAN PHY SPA
Provides descriptions and installation instructions for the following
SPAs:
•
•
1-Port Channelized OC-3 ATM CEoP SPA
1-Port 10-Gigabit Ethernet DWDM SPA
Provides descriptions and installation instructions for the 24-Port
Channelized T1/E1 ATM CEoP SPA.
Provides information about FRF.12 and MFR feature support for
1-Port Channelized STM-4/OC-12 SPA
Provides descriptions and installation instructions for the following
SPAs:
•
•
•
1-Port and 3-Port Clear Channel OC-3 ATM SPA
1-Port Clear Channel OC-12 ATM SPA
2-Port Channelized T3/E3 ATM CEoP SPA
OL-17438-04
Cisco XR 12000 Series Router SIP and SPA Hardware Installation Guide ix
Release No.
3.6.0
3.5.1
3.4.1
3.4.0
Table 1
Revision
Rev. D1
Rev. C1
Rev. B1
Rev. B0
Changes to This Document
Date Change Summary
November 19, 2007 Provides descriptions and installation instructions for the following
SPAs:
October 24, 2007
•
•
8-Port Channelized T1/E1 SPA
1-Port Channelized STM-16/OC-48 SPA
Provides descriptions and installation instructions for the following
SPAs:
January 31, 2007
•
•
•
•
•
•
•
•
4-port OC3/STM4 POS SPA
8-port OC3/STM4 POS SPA
2-port OC12/STM4 POS SPA
4-port OC12/STM4 POS SPA
8-port OC12/STM4 POS SPA
1-port OC48/STM16 POS/RPR SPA
1-port Channelized OC12 to DS0 SPA
1-port Channelized OC48 to DS3 SPA
• 1-port Channelized STM1/OC3 to DS0 SPA
Provides descriptions and installation instructions for the following
SPA:
October 30, 2006
•
•
2-Port Gigabit Ethernet SPA (SPA-2X1GE-V2)
Provides descriptions and installation instructions for the following
SPAs:
8-Port Fast Ethernet SPA (SPA-8X1FE-TX-V2)
•
•
•
1-Port 10-Gigabit Ethernet SPA (SPA-1X10GE-L-V2)
5-Port Gigabit Ethernet SPA (SPA-5x1GE-V2)
10-Port Gigabit Ethernet SPA (SPA-10X1GE-V2) x
Cisco XR 12000 Series Router SIP and SPA Hardware Installation Guide
OL-17438-04
Release No.
3.3
3.2
Table 1
Revision
Rev. A1
Rev. A0
Changes to This Document
Date
May 15, 2006
April 14, 2005
Change Summary
Provides descriptions and installation instructions for the following
SIPs and SPAs:
•
•
•
•
•
•
Cisco XR 12000 SIP-401
Cisco XR 12000 SIP-501
Cisco XR 12000 SIP-601
2-Port and 4-Port Channelized T3 SPA •
•
•
•
•
2-Port OC-48 POS/RPR SPA
Initial release and 1st publication. Provides descriptions and installation instructions for the following SIPs and SPAs:
Cisco XR 12000 SIP-600
•
2-Port and 4-Port Clear Channel T3/E3 SPA
8-Port FastEthernet SPA
1-Port 10-Gigabit Ethernet SPA
5-Port Gigabit Ethernet SPA
10-Port Gigabit Ethernet SPA
1-Port OC-192/STM-64 POS/RPR SPA
Objectives
This document describes the shared port adapters (SPAs) and SPA Interface Processors (SIPs) that are supported on Cisco XR 12000 Series Routers. This document also describes how to install the supported
SIPs and SPAs and how to troubleshoot the installation.
Organization
This document contains the following chapters:
Section Title Description
Overview: Cisco XR 12000 Series
Router SPA Interface Processors
Chapter 2
Overview: Cisco XR 12000 Series
Chapter 3
Preparing to Install a Shared Port
Adapter or a SPA Interface Processor
Chapter 4
Provides a SIP/SPA compatibility summary. For each supported SIP, provides a summary of SIP characteristics and a SIP overview.
For each supported SPA, provides a summary of
SPA characteristics and a SPA overview.
Describes the required tools, equipment, and safety guidelines for installing SIPs and SPAs.
Describes the procedures for installing and removing a SIP on a Cisco 12000 Series Router.
OL-17438-04
Cisco XR 12000 Series Router SIP and SPA Hardware Installation Guide xi
Obtaining Documentation and Submitting a Service Request
Section Title
Chapter 5
Installing and Removing a Shared
Chapter 6
Troubleshooting the Installation
Description
Describes the procedures for installing and removing a SPA on a Cisco 12000 Series Router.
It also describes how to verify the SIP and SPA installation.
Provides information for troubleshooting the installation of SIPs and SPAs.
Related Documentation
•
•
•
•
•
•
•
•
This section refers you to other documentation that also might be useful as you configure your Cisco XR
12000 Series Router. The documentation listed below is available online.
Cisco IOS XR Getting Started Guide
Cisco IOS XR configuration guides and command references
•
•
•
Cisco IOS XR Command Modes Reference
Cisco IOS XR Diagnostics
Cisco IOS XR Software Craft Works Interface Guide
Cisco IOS XR XML API Guide
•
•
Cisco IOS XR ROM Monitor Guide
Upgrading from Cisco IOS to Cisco IOS XR Software on the Cisco XR 12000 Series Router
Converting Cisco IOS Configurations to Cisco IOS XR Configurations
Cisco IOS XR Security Guide
•
Cisco IOS XR System Error Message Reference Guide
Cisco XR 12000 Series Router Chassis Installation Guide
Release Notes for Cisco IOS XR Software
Regulatory Compliance and Safety Information for Cisco XR 12000 Series Routers
Obtaining Documentation and Submitting a Service Request
For information on obtaining documentation, using the Cisco Bug Search Tool (BST), submitting a service request, and gathering additional information, see What’s New in Cisco Product Documentation .
To receive new and revised Cisco technical content directly to your desktop, you can subscribe to the What’s New in Cisco Product Documentation RSS feed . The RSS feeds are a free service.
xii
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C H A P T E R
1
Overview: Cisco XR 12000 Series Router SPA
Interface Processors
This chapter describes the SPA interface processors (SIPs) that are supported on the Cisco XR 12000
Series Router and contains the following sections:
•
•
SIP and SPA Compatibility, page 1-1
Router Hardware Installation, page 1-2
•
•
•
•
•
SIP Software and Hardware Compatibility, page 1-4
Cisco XR 12000 SIP-600 Overview, page 1-4
Cisco XR 12000 SIP-401 Overview, page 1-7
Cisco XR 12000 SIP-501 Overview, page 1-11
Cisco XR 12000 SIP-601 Overview, page 1-14
SIP and SPA Compatibility
shows the SPAs that are supported on the Cisco XR 12000 Series Router and the SIPs that support them:
Table 1-1 SIP and SPA Compatibility on the Cisco XR 12000 Series Router
SPA
2-Port T3/E3 Serial SPA
8-Port Channelized T1/E1 SPA
4-Port Clear Channel T3/E3 SPA
2-Port Channelized T3 SPA
4-Port Channelized T3 SPA
8-Port FastEthernet SPA
1-Port 10-Gigabit Ethernet SPA
2-Port Gigabit Ethernet SPA
5-Port Gigabit Ethernet SPA
X
X
X
X
X
SIP 401
X
X X
X
X
X
X
X
X
SIP 501
X
X
X
X
X
X
X
X
X
SIP 601
X
SIP 600
X
X
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1-1
Chapter 1 Overview: Cisco XR 12000 Series Router SPA Interface Processors
Router Hardware Installation
Table 1-1 SIP and SPA Compatibility on the Cisco XR 12000 Series Router (continued)
SPA
10-Port Gigabit Ethernet SPA
2-Port OC48-POS/RPR SPA
2-Port and 4-Port OC-48/STM-16 POS
SPA
1-Port OC-192/STM-64 POS/RPR SPA
4-port OC3/STM1 POS SPA
8-port OC3/STM1 POS SPA
2-port OC12/STM4 POS SPA
4-port OC12/STM4 POS SPA
SIP 401
8-port OC12/STM4 POS SPA
IPSec VPN SPA
1-Port Clear Channel OC-3 ATM SPA
3-Port Clear Channel OC-3 ATM SPA
1-Port Clear Channel OC-12 ATM SPA X
2-Port Channelized T3/E3 ATM CEoP
SPA
X
1-Port Channelized OC-3/STM-1 SPA X
1-Port Channelized OC-12/STM-4 SPA X
X
X
X
X
X
X
X
1-Port Channelized OC-48/STM-16 SPA X
2-Port Channelized T3/E3 ATM CEoP
SPA
X
24-Port Channelized T1/E1/J1 ATM
CEoP SPA
1-Port Channelized OC-3 ATM CEoP
SPA
X
X
1-Port 10-Gigabit Ethernet DWDM SPA
1-Port 10-Gigabit Ethernet WAN PHY
SPA
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
SIP 501
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
SIP 601
X
X
X
SIP 600
X
X
X
Router Hardware Installation
For Cisco XR 12000 Series Router hardware installation and configuration information, refer to the installation and configuration guide for your router. The guide includes information on the router switch fabric and how it affects the operation of SIPs, as well as SIP slot locations, slot width, and other requirements.
1-2
Cisco XR 12000 Series Router SIP and SPA Hardware Installation Guide
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Chapter 1 Overview: Cisco XR 12000 Series Router SPA Interface Processors
SIP Summary
Note References to line cards in the router hardware installation and configuration guides apply equally to
SIPs.
Supported Platforms
SIPs are supported on all Cisco XR 12000 Series Routers. The 2.5G ISE SIP is supported on the
Cisco 12016, 124xx, and 128xx routers. The Cisco XR 12000 SIP-401, the Cisco XR 12000 SIP-501, the Cisco XR 12000 SIP-600, and the Cisco XR 12000 SIP-601 are supported on the Cisco 124xx and
128xx routers.
Note To support the requirements of this line card, the Cisco XR 12000 Series Router must have at least one clock and scheduler card (CSC) installed. For additional information, refer to the installation and configuration guide for your Cisco XR 12000 Series Router.
SIP Summary
Summary descriptions of all SIPs supported on the Cisco XR 12000 Series Router are shown in
.
Table 1-2 SIP Summary
SIP
Cisco XR
12000 SIP-600
Cisco XR
12000 SIP-401
Cisco XR
12000 SIP-501
Cisco XR
12000 SIP-601
Product Number Description Number of Supported SPAs
12000-SIP-600 10G Engine 5 SPA Interface Processor 2 single-width, double-height
2 single-width, single-height
1
1 dual-width, double-height
2
12000-SIP-401 2.5G Engine 5 SPA Interface Processor 2 single-width, double-height
2 single-width, single-height
1 dual-width, double-height
12000-SIP-501 5G Engine 5 SPA Interface Processor 2 single-width, double-height
2 single-width, single-height
Engine Type
Engine 5
Engine 5
Engine 5
1 dual-width, double-height
12000-SIP-601 10G Engine 5 SPA Interface Processor 2 single-width, double-height
4 single-width, single-height
1 dual-width, double-height
Engine 5
1.
Requires that a blank module filler plate be installed in the bottom subslot.
2.
Requires the removal of the central septum between the SPA subslots.
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Chapter 1 Overview: Cisco XR 12000 Series Router SPA Interface Processors
Cisco XR 12000 SIP-600 Overview
SIP Software and Hardware Compatibility
For software configuration information, refer to the Cisco IOS XR software configuration and command reference publications for the installed Cisco IOS XR release. Also refer to the Cisco IOS XR software release notes for additional information.
lists the Cisco IOS XR releases that are compatible with supported SIPs.
To ensure compatibility with the software, your SIPs should have a specific hardware revision number.
The number is printed on a label affixed to the component side of the card. The hardware revision number can be displayed by using the show diags slot-number
command. Table 1-3 lists the hardware
revision number for all supported SIPs.
Table 1-3 SIP Hardware and Software Compatibility
SIP
Cisco XR 12000
SIP-600
Part Number
12000-SIP-600
Cisco XR 12000
SIP-401
12000-SIP-401
Cisco XR 12000
SIP-501
12000-SIP-501
Cisco XR 12000
SIP-601
12000-SIP-601
Minimum Cisco IOS XR Software
Release
3.2
3.3
3.3
3.3
Minimum Hardware
Revision
The show version and show hardware commands display the current hardware configuration of the router, including the system software version that is currently loaded and running. For complete descriptions of show commands, refer to the Cisco IOS XR Configuration Fundamentals Configuration
Guide and the Cisco IOS XR Configuration Fundamentals Command Reference for the installed Cisco
Cisco IOS XR release.
Cisco XR 12000 SIP-600 Overview
The following sections describe the Cisco XR 12000 SIP-600:
•
•
Cisco XR 12000 SIP-600 Board Components, page 1-4
Cisco XR 12000 SIP-600 LEDs, page 1-5
•
•
•
Cisco XR 12000 SIP-600 Physical Specifications, page 1-6
SPA Subslot Numbering on the Cisco XR 12000 SIP-600, page 1-6
SPA Interface Addresses on the Cisco XR 12000 SIP-600, page 1-6
Cisco XR 12000 SIP-600 Board Components
The main Cisco XR 12000 SIP-600
board components are shown in Figure 1-1
.
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Figure 1-1 Cisco XR 12000 SIP-600 Board—Rear View
1
Cisco XR 12000 SIP-600 Overview
1 SPA enclosure
2
2 Backplane connector
Cisco XR 12000 SIP-600 LEDs
The Cisco XR 12000 SIP-600 supports 2 single-width, double-height SPAs, 2 single-width, single-height SPAs, or 1 dual-width, double-height SPA. The Cisco XR 12000 SIP-600 face plate has
shows the Cisco 12000 SIP-600 face plate with 2 single-width, single-height
SPAs.
Cisco XR 12000 SIP-600 Face Plate Figure 1-2
1
0
2
1
ST
AT
US
3 4 3
1 SPA subslot 0
2 SPA subslot 1
3 Ejector Levers
4 Status LED
The Cisco XR 12000 SIP-600 LEDs are described in
.
Table 1-4 Cisco XR 12000 SIP-600 LEDs
LED Label
Status
Color
Yellow
Green
State
On
On
Meaning
SIP is powered and IOS is loading.
SIP is active.
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Chapter 1 Overview: Cisco XR 12000 Series Router SPA Interface Processors
Cisco XR 12000 SIP-600 Overview
Cisco XR 12000 SIP-600 Physical Specifications
The Cisco XR 12000 SIP-600 physical specifications are shown in the following table.
Table 1-5 Cisco XR 12000 SIP-600 Physical Specifications
Description
Physical dimensions
Shipping weight
Operating temperature
Relative humidity
Storage temperature
Specifications
Occupies one line card slot on a Cisco 12000 Series Router
10kg
32 to 104°F (0 to 40°C)
10 to 90 percent, noncondensing
–4 to 149°F (–20 to 65°C)
SPA Subslot Numbering on the Cisco XR 12000 SIP-600
The Cisco XR 12000 SIP-600 accepts 2 single-width SPAs or 1 dual-width SPA.
shows a Cisco XR 12000 SIP-600 with 2 SPAs installed. The left SPA slot is subslot 0 and the right SPA slot is subslot 1. If one dual-width SPA is installed, it is recognized as being in subslot 0.
Figure 1-3 Subslot Locations for the 1-Port 10-Gigabit Ethernet SPA
1
0
ACT
IVE
K
Table 1-6
Call Out Number
1
2
SPA-1XTENGE-X
FP-A
ST
ATUS
A/L
A/L
0
A/L
5
A/L
1
6
A/L
A/L
2
A/L
7
A/L
3
A/L
4
ST
AT
US
A/L
8
9
SPA10X1GE-A
2
Subslot Locations for the 1-Port 10-Gigabit Ethernet SPA
Description
Subslot 0
Subslot 1
SPA Interface Addresses on the Cisco XR 12000 SIP-600
A Cisco 12000 Series Router identifies a SPA interface address by its SIP slot number, SPA subslot, and port number on the SPA, in the format slot/subslot/port . Subslots and ports are numbered starting from
0, so each Cisco XR 12000 SIP-600 has two subslots 0 (left) and 1 (right). For example, the interface address of a 1-port SPA located in the second SIP subslot, where the SIP is inserted into router line card slot 3 is 3/1/0.
Figure 1-4 shows the slot, subslot, and port locations for the 1-Port 10-Gigabit Ethernet
SPA and the 10-Port Gigabit Ethernet SPA.
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Figure 1-4
Cisco XR 12000 SIP-401 Overview
Slot, Subslot, and Port Locations for the 1-Port 10-Gigabit Ethernet SPA and the
10-Port Gigabit Ethernet SPA.
ALARM A
ALARM B
A
B
MI
NO
R
MAJ
OR
CRIT
IC
AL
MBUS
CSC
A B
0 1 0 1
SFC
2 3 4
FAIL
ENABLE
1
0
0
ACTIVE
CARRIER
RX PKT
ACTIVE
CARRIER
RX PKT
1
ACTIVE
CARRIE
RX PKT
R
1
ACTIVE
CAR
2
2
ACTIVE
CARRIER
RX PKT
ACTIVE
CAR
3
ACTIVE
CARRIER
RX PKT
3
ACTIVE
CARRIER
RX PKT
CTIVE
/LINK
ST
AT
U S
AC
TIV
CA
RR
E
IE RX
P
KT
R
2
EJE
CT
SLO
T-0
SLO
T-1
LINK
DATA
LINK
DATA
SIG
AC
T
SIG
AC
T
EC
T
SLO
SLO
T-
0
T-1
SIG
AC
T
SIG
AC
T
LINK
DATA
LINK
DATA
3
Table 1-7
2
3
Call Out Number
1
Slot and Port Locations for the 1-Port 10-Gigabit Ethernet SPA
Description
Slot 3
Subslot 0, Port 3/0/0
Subslot 1, Ports 3/1/0 to 3/1/9
Cisco XR 12000 SIP-401 Overview
The following sections describe the Cisco XR 12000 SIP-401:
•
Cisco XR 12000 SIP-401 Board Components, page 1-8
•
•
•
•
Cisco XR 12000 SIP-401 LEDs, page 1-8
Cisco XR 12000 SIP-401 Physical Specifications, page 1-9
SPA Slot Numbering on the Cisco XR 12000 SIP-401, page 1-9
SPA Interface Addresses on the Cisco XR 12000 SIP-401, page 1-10
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Cisco XR 12000 SIP-401 Overview
Cisco XR 12000 SIP-401 Board Components
The main Cisco XR 12000 SIP-401
board components are shown in Figure 1-5
.
Figure 1-5 Cisco XR 12000 SIP-401 Board—Rear View
1
1 SPA enclosure
2
2 Backplane connector
Cisco XR 12000 SIP-401 LEDs
The Cisco XR 12000 SIP-401
has two LEDs, as shown in Figure 1-6
.
Figure 1-6 Cisco XR 12000 SIP-401 Face Plate
1
0
2
6
5 3 7
1 SPA subslot 0
2 SPA subslot 1
3 SPA subslot 2
4 SPA subslot 3
5
6
7
Ejector Levers
Status LED
Rate LED
The Cisco XR 12000 SIP-401 LEDs are described in
Table 1-8 Cisco XR 12000 SIP-401 LED
LED Label
Status
Color
Yellow
Green
State
On
On
Meaning
IOS is loaded and SIP is ready to be enabled.
SIP is active.
2
ST
AT
US
1
RA
TE
3
4 5
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Table 1-8
LED Label
Rate
Cisco XR 12000 SIP-401 Overview
Cisco XR 12000 SIP-401 LED
Color
Off
Green
State
Off
On
Meaning
SIP is SIP-401 or SIP-501.
SIP is SIP-601.
Cisco XR 12000 SIP-401 Physical Specifications
The Cisco XR 12000 SIP-401 physical specifications are shown in the following table.
Table 1-9 Cisco XR 12000 SIP-401 Physical Specifications
Description
Physical dimensions
Shipping weight
Operating temperature
Relative humidity
Storage temperature
Specifications
Occupies one line card slot on a Cisco 12000 Series Router
10 kg
32 to 104°F (0 to 40°C)
10 to 90 percent, noncondensing
–4 to 149°F (–20 to 65°C)
SPA Slot Numbering on the Cisco XR 12000 SIP-401
The Cisco XR 12000 SIP-401 accepts 4 single-width, single-height SPAs.
Figure 1-7 shows a Cisco XR 12000 SIP-401
with 4 SPAs installed. The top leftmost SPA slot is subslot
0; the top rightmost SPA slot is subslot 1; the bottom leftmost SPA slot is subslot 2; the bottom rightmost
SPA slot is subslot 3.
Figure 1-7 Cisco XR 12000 SIP-401 with SPAs Installed
2
1
0
2
C/A
A/L
0
TX
C/A
A/L
0
RX
TX
RX
C/A
A/L
1
TX
C/A
A/L
1
RX
TX
RX
C/A
A/L
2
TX
C/A
A/L
2
RX
TX
RX
C/A
A/L
TX
C/A
A/L
TX
3
3
RX
SPA-4XT3/E3
STAT
US
RX SPA-4XT3/E3
ST
ATUS
3
C/A
A/L
0
TX
C/A
A/L
0
RX
TX
RX
C/A
A/L
1
TX
C/A
A/L
1
TX
RX
RX
4
C/A
A/L
2
TX
C/A
A/L
2
RX
TX
RX
C/A
A/L
TX
C/A
A/L
TX
3
3
RX SPA-4XT3/E3
ST
ATUS
RX
SPA-4XT3/E3
ST
ATUS
1
3
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Cisco XR 12000 SIP-401 Overview
Chapter 1 Overview: Cisco XR 12000 Series Router SPA Interface Processors
1 SPA subslot 0
2 SPA subslot 1
3 SPA subslot 2
4 SPA subslot 3
SPA Interface Addresses on the Cisco XR 12000 SIP-401
A Cisco 12000 Series Router identifies a SPA interface address by its SIP slot number, SPA subslot, and port number on the SPA, in the format slot/subslot/port . Subslots and ports are numbered starting from
0, so each Cisco XR 12000 SIP-401 has four subslots. A 4-port SPA would have ports 0 to 3. For example, the interface address of the second port on a 4-port SPA located in the first SIP subslot, where the SIP is inserted into router line card slot 6 is 6/0/1.
Figure 1-8 Cisco 12000 Series Router with Cisco XR 12000 SIP-401 Installed
1
ALARM A
ALARM B
A
B
MINO
R R
MAJO CRITICA
L
MBUS CSC
A B 0 1
SFC
0 1 2 3
FAIL
4
ENABLE
4
0
ACTIVE
CARRIER
RX PKT
0
ACTIVE
CAR
1
ACTIVE
CARRIER
RX PKT
1
ACTIVE
CARRIER
RX PKT
2
2
3
ACTIVE
CARRIER
RX PKT
ACTIVE
CARRIER
RX PKT
ACTIV
RX P
KT
3
AC
TIVE
CARRIER
RX PKT
5
CTIVE/LINK
ST
AT
U
S
AC
TIV
CA
RR
RX
P
E
IE
R
KT
TX
R
X
C
/A
A/L
0
TX
R
X
A/L
0
TX
R
X
C
/A
A/L
1
TX
R
X
A/L
1
TX
R
X
C /A
A/L
2
TX
R X
C
/A
A/L
2
TX
R
X
C /A
A/L
3
TX
R X
C
/A
A/L
3
STA
TU
S
ST
ATU
S
AT
US
1
12000-SIP-600
0
TX
R
X
C
/A
A/L
0
TX
R
X
C
/A
A/L
0
TX
R
X
C
/A
A/L
1
TX
R
X
A/L
1
TX
R
X
C
/A
A/L
2
TX
R X
C
/A
A/L
2
TX
R
X
C /A
A/L
3
TX
R X
C
/A
A/L
3
STA
TU
S
ST
ATU
S
EJ
EC
T
SLO
T-0
SLO
T-1
SIG
AC
T
SIG
AC
T
LINK
DA
TA
LINK
DATA
EJ
T
SLO
T-0
SLO
T-1
LINK
DATA
LINK
DATA
SIG
AC
T
SIG
AC
T
2
3
1 Router slot number 6
2 SPA subslot 0 with ports 6/0/0 to 6/0/3
3 SPA subslot 1 with ports 6/1/0 to 6/1/3
4 SPA subslot 2 with ports 6/2/0 to 6/2/3
5 SPA subslot 3 with ports 6/3/0 to 6/3/3
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Cisco XR 12000 SIP-501 Overview
The following sections describe the Cisco XR 12000 SIP-501:
•
Cisco XR 12000 SIP-501 Board Components, page 1-11
•
•
•
•
Cisco XR 12000 SIP-501 LEDs, page 1-11
Cisco XR 12000 SIP-501 Physical Specifications, page 1-12
SPA Subslot Numbering on the Cisco XR 12000 SIP-501, page 1-12
SPA Interface Addresses on the Cisco XR 12000 SIP-501, page 1-13
Cisco XR 12000 SIP-501 Overview
Cisco XR 12000 SIP-501 Board Components
The main Cisco XR 12000 SIP-501 board components are shown in
Figure 1-9 Cisco XR 12000 SIP-501 Board—Rear View
1
1
0
2
2
2 Backplane connector 1 SPA enclosure
Cisco XR 12000 SIP-501 LEDs
The Cisco XR 12000 SIP-501 supports 2 single-width, double-height SPAs, 2 single-width, single-height SPAs, or 1 dual-width, double-height SPA. The Cisco XR 12000 SIP-501 face plate has one Status LED.
Figure 1-10 shows the Cisco XR 12000 SIP-501 face plate with 4 single-width,
single-height SPAs.
Figure 1-10 Cisco XR 12000 SIP-501 Face Plate
6 2
ST
AT
US
1
RA
TE
3
5 3 7 4 5
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Cisco XR 12000 SIP-501 Overview
Chapter 1 Overview: Cisco XR 12000 Series Router SPA Interface Processors
1 SPA subslot 0
2 SPA subslot 1
3 SPA subslot 2
4 SPA subslot 3
5 Ejector Levers
6 Status LED
The Cisco XR 12000 SIP-501 LEDs are described in
.
Table 1-10 Cisco XR 12000 SIP-501 LEDs
LED Label
Status
Rate
Color
Yellow
Green
Off
Green
State
On
On
Off
On
Meaning
IOS is loaded and SIP is ready to be enabled.
SIP is active.
SIP is SIP-401 or SIP-501.
SIP is SIP-601.
Cisco XR 12000 SIP-501 Physical Specifications
The Cisco XR 12000 SIP-501 physical specifications are shown in the following table.
Table 1-11 Cisco XR 12000 SIP-501 Physical Specifications
Description
Physical dimensions
Shipping weight
Operating temperature
Relative humidity
Storage temperature
Specifications
Occupies one line card slot on a Cisco 12000 Series Router
10kg
32 to 104°F (0 to 40°C)
10 to 90 percent, noncondensing
–4 to 149°F (–20 to 65°C)
SPA Subslot Numbering on the Cisco XR 12000 SIP-501
The Cisco XR 12000 SIP-501 accepts up to 4 single-width SPAs or 1 dual-width SPA.
shows a Cisco XR 12000 SIP-501 with 2 SPAs installed. The left SPA slot is subslot 0 and the right SPA slot is subslot 1. If one dual-width SPA is installed, it is recognized as being in subslot 0.
Figure 1-11 Subslot Locations for the 1-Port 10-Gigabit Ethernet SPA
1
0
ACT
IVE
K
SPA-1XTENGE-X
FP-A
ST
ATUS
A/L
A/L
0
A/L
5
A/L
1
6
A/L
A/L
2
A/L
7
A/L
3
A/L
4
ST
AT
US
A/L
8
9
SPA10X1GE-A
2
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Cisco XR 12000 SIP-501 Overview
Table 1-12
Call Out Number
1
2
Subslot Locations for the 1-Port 10-Gigabit Ethernet SPA
Description
Subslot 0
Subslot 1
SPA Interface Addresses on the Cisco XR 12000 SIP-501
A Cisco 12000 Series Router identifies a SPA interface address by its SIP slot number, SPA subslot, and port number on the SPA, in the format slot/subslot/port . Subslots and ports are numbered starting from
0, so each Cisco XR 12000 SIP-601 has two subslots 0 (left) and 1 (right). For example, the interface address of a 1-port SPA located in the second SIP subslot, where the SIP is inserted into router line card slot 3 is 3/1/0.
Figure 1-12 shows the slot, subslot, and port locations for the 1-Port 10-Gigabit Ethernet
SPA and the 10-Port Gigabit Ethernet SPA.
Figure 1-12 Slot, Subslot, and Port Locations for the 1-Port 10-Gigabit Ethernet SPA and the
10-Port Gigabit Ethernet SPA.
ALARM A
ALARM B
A
B
R
MINO MAJOR
CRITIC
AL
MBUS
CSC
A B 0
1
SFC
0 1 2 3
4
FAIL
ENABLE
1
0
ACTIVE
CARRIER
RX PKT
0
ACTIVE
CARRIER
RX PKT
1
ACTIVE
CARRIER
RX PKT
1
ACTIVE
CARRIER
RX PKT
2
ACTIVE
CAR
2
ACTIVE
CAR
3
ACTIVE
CARRIER
RX PKT
3
AC
RX PKT
CTIVE/LINK
ST
AT
U S
AC
TIV
E
CA
RR
IE RX
P
KT
R
2
EJE
CT
SLO
T-0
SLO
T-1
LINK
DATA
LINK
DATA
SIG
AC
T
SIG
AC
T
EC
T
SLO SLO
T-0 T-1
LINK
DATA
LINK
DATA
SIG
AC
T
SIG
AC
T
3
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Cisco XR 12000 SIP-601 Overview
Chapter 1 Overview: Cisco XR 12000 Series Router SPA Interface Processors
Table 1-13
2
3
Call Out Number
1
Slot and Port Locations for the 1-Port 10-Gigabit Ethernet SPA
Description
Slot 3
Subslot 0, Port 3/0/0
Subslot 1, Ports 3/1/0 to 3/1/9
Cisco XR 12000 SIP-601 Overview
The following sections describe the Cisco XR 12000 SIP-601:
•
•
•
•
•
Cisco XR 12000 SIP-601 Board Components, page 1-14
Cisco XR 12000 SIP-601 LEDs, page 1-14
Cisco XR 12000 SIP-601 Physical Specifications, page 1-15
SPA Subslot Numbering on the Cisco XR 12000 SIP-601, page 1-15
SPA Interface Addresses on the Cisco XR 12000 SIP-601, page 1-16
Cisco XR 12000 SIP-601 Board Components
The main Cisco XR 12000 SIP-601
board components are shown in Figure 1-13
.
Figure 1-13 Cisco XR 12000 SIP-601 Board—Rear View
1
2
2 Backplane connector 1 SPA enclosure
Cisco XR 12000 SIP-601 LEDs
The Cisco XR 12000 SIP-601 supports 4 single-height SPAs (the aggregate throughput should not exceed 2 full-rate SPAs); 2 double-height SPAs; 1 dual-width, double-height SPA, or a combination of single-height and double-height SPAs. The Cisco XR 12000 SIP-601 face plate has one Status LED.
shows the Cisco XR 12000 SIP-601 face plate with 4 single-width, single-height SPAs.
1-14
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Chapter 1 Overview: Cisco XR 12000 Series Router SPA Interface Processors
Figure 1-14 Cisco XR 12000 SIP-601 Face Plate
1
0
2
Cisco XR 12000 SIP-601 Overview
7
6 2
ST
AT
US
1
RA
TE
3
4 5 5 3
1 SPA subslot 0
2 SPA subslot 1
3 SPA subslot 2
4 SPA subslot 3
5
6
7
Ejector Levers
Status LED
Rate LED
The Cisco XR 12000 SIP-601 LEDs are described in
Table 1-14 Cisco XR 12000 SIP-601 LEDs
LED Label
Status
Rate
Color
Yellow
Green
Off
Green
State
On
On
Off
On
Meaning
IOS is loaded and SIP is ready to be enabled.
SIP is active.
SIP is SIP-401 or SIP-501.
SIP is SIP-601.
Cisco XR 12000 SIP-601 Physical Specifications
The Cisco XR 12000 SIP-601 physical specifications are shown in the following table.
Table 1-15 Cisco XR 12000 SIP-601 Physical Specifications
Description
Physical dimensions
Shipping weight
Operating temperature
Relative humidity
Storage temperature
Specifications
Occupies one line card slot on a Cisco 12000 Series Router
10kg
32 to 104°F (0 to 40°C)
10 to 90 percent, noncondensing
–4 to 149°F (–20 to 65°C)
SPA Subslot Numbering on the Cisco XR 12000 SIP-601
The Cisco XR 12000 SIP-601 accepts 4 single-height SPAs (the aggregate throughput should not exceed
2 full-rate SPAs); 2 double-height SPAs; 1 dual-width, double-height SPA, or a combination of single-height and double-height SPAs.
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Chapter 1 Overview: Cisco XR 12000 Series Router SPA Interface Processors
Cisco XR 12000 SIP-601 Overview
shows a Cisco XR 12000 SIP-601 with 2 SPAs installed. The left SPA slot is subslot 0 and the right SPA slot is subslot 1. If one dual-width SPA is installed, it is recognized as being in subslot 0.
Figure 1-15 Subslot Locations for the 1-Port 10-Gigabit Ethernet SPA
1
0
ACT
IVE
K
Table 1-16
Call Out Number
1
2
SPA-1XTENGE-X
FP-A
STAT
US
A/L
A/L
A/L
0
1
5
A/L
6
A/L
A/L
2
7
A/L
A/L
3
A/L
4
ST
AT
US
8
A/L
9
SPA10X1GE-A
2
Subslot Locations for the 1-Port 10-Gigabit Ethernet SPA
Description
Subslot 0
Subslot 1
SPA Interface Addresses on the Cisco XR 12000 SIP-601
A Cisco 12000 Series Router identifies a SPA interface address by its SIP slot number, SPA subslot, and port number on the SPA, in the format slot/subslot/port . Subslots and ports are numbered starting from
0, so each Cisco XR 12000 SIP-601 has two subslots 0 (left) and 1 (right). For example, the interface address of a 1-port SPA located in the second SIP subslot, where the SIP is inserted into router line card slot 3 is 3/1/0.
Figure 1-16 shows the slot, subslot, and port locations for the 1-Port 10-Gigabit Ethernet
SPA and the 10-Port Gigabit Ethernet SPA.
1-16
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Chapter 1 Overview: Cisco XR 12000 Series Router SPA Interface Processors
Figure 1-16
Cisco XR 12000 SIP-601 Overview
Slot, Subslot, and Port Locations for the 1-Port 10-Gigabit Ethernet SPA and the
10-Port Gigabit Ethernet SPA.
ALARM A
ALARM B
A
B
MI
NO
R
MAJ
OR
CRIT
IC
AL
MBUS
CSC
A B
0 1 0 1
SFC
2 3 4
FAIL
ENABLE
1
0
0
ACTIVE
CARRIER
RX PKT
ACTIVE
CARRIER
RX PKT
1
ACTIVE
CARRIE
RX PKT
R
1
ACTIVE
CAR
2
2
ACTIVE
CARRIER
RX PKT
ACTIVE
CAR
3
ACTIVE
CARRIER
RX PKT
3
ACTIVE
CARRIER
RX PKT
CTIVE
/LINK
ST
AT
U S
AC
TIV
CA
RR
E
IE RX
P
KT
R
2
EJE
CT
SLO
T-0
SLO
T-1
LINK
DATA
LINK
DATA
SIG
AC
T
SIG
AC
T
EC
T
SLO
SLO
T-
0
T-1
SIG
AC
T
SIG
AC
T
LINK
DATA
LINK
DATA
3
Table 1-17
2
3
Call Out Number
1
Slot and Port Locations for the 1-Port 10-Gigabit Ethernet SPA
Description
Slot 3
Subslot 0, Port 3/0/0
Subslot 1, Ports 3/1/0 to 3/1/9
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Cisco XR 12000 SIP-601 Overview
Chapter 1 Overview: Cisco XR 12000 Series Router SPA Interface Processors
1-18
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C H A P T E R
2
Overview: Cisco XR 12000 Series Router Shared
Port Adapters
This chapter describes the shared port adapters (SPAs) that are supported on the Cisco XR 12000 Series
Router and contains the following sections:
•
•
Bandwidth Oversubscription, page 2-3
•
•
•
•
2-Port and 4-Port T3/E3 Serial SPA Overview, page 2-5
2-Port and 4-Port Channelized T3 to DS0 SPA Overview, page 2-6
8-Port Channelized T1/E1 SPA Overview, page 2-8
8 Port FastEthernet SPA Overview, page 2-10
•
•
•
•
•
•
•
•
•
•
•
•
1 Port 10-Gigabit Ethernet SPA Overview, page 2-13
2-Port Gigabit Ethernet SPA Overview, page 2-16
5-Port Gigabit Ethernet SPA Overview, page 2-21
10-Port Gigabit Ethernet SPA Overview, page 2-25
1-Port Channelized STM-1/OC-3 SPA Overview, page 2-29
1-Port Channelized STM-4/OC-12 SPA Overview, page 2-31
1-Port OC-192/STM-64 POS SPA Overview, page 2-37
1-Port OC-192/STM-64 POS SPA Overview, page 2-37
1-Port OC-192 STM-64 POS RPR XFP SPA Overview, page 2-40
4-Port OC-3/STM-1 POS SPA Overview, page 2-44
8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Overview, page 2-49
1-Port OC-12/STM-4 POS SPA Overview, page 2-54
•
•
•
•
•
•
•
1-Port OC-48/STM-16 POS SPA Overview, page 2-57
2-Port and 4-Port OC-48/STM-16 POS SPA Overview, page 2-60
2-Port OC-48 POS RPR SPA Overview, page 2-64
Cisco XR12000 IPSec VPN SPA Overview, page 2-66
1-Port and 3-Port Clear Channel OC-3 ATM SPA Overview, page 2-68
1-Port Clear Channel OC-12 ATM SPA Overview, page 2-70
2-Port Channelized T3/E3 ATM CEoP SPA Overview, page 2-73
Cisco XR 12000 Series Router SIP and SPA Hardware Installation Guide
2-1
SPA Summary
Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
•
•
•
•
24-Port Channelized T1/E1/J1 ATM CEoP SPA Overview, page 2-75
1-Port Channelized OC-3 ATM CEoP SPA Overview, page 2-81
1-Port 10-Gigabit Ethernet DWDM SPA Overview, page 2-82
1-Port 10-Gigabit Ethernet WAN PHY SPA Overview, page 2-84
SPA Summary
Table 2-1 shows the summary descriptions of the SPAs that are supported on the Cisco XR 12000 Series
Router.
Table 2-1 Supported SPAs on Cisco XR 12000 Series Routers
Product Number
SPA-2XT3/E3
SPA-4XT3/E3
SPA-2XCT3/DS0
SPA-4XCT3/DS0
SPA-8XCHT1/E1
SPA-8XFE
SPA-8X1FE-TX-V2
SPA-1XTENGE-XFP
SPA-1X10GE-L-V2
SPA-2X1GE-V2
SPA-5XGE
SPA-5XGE-V2
SPA-10XGE
SPA-10X1GE-V2
SPA-1XCHOC3/DS0
SPA-1XCHOC12/DS0
SPA-1XCHOC48/DS3
SPA-OC192POS
SPA-4XOC3POS
SPA-8XOC12-POS
SPA-OC48POS
SPA-4XOC48POS
SPA-2XOC48POS
SPA-IPSEC-2G-2
SPA-1XOC3-ATM-V2
Description
2-Port T3/E3 Serial SPA
4-Port T3/E3 Serial SPA
2-Port Channelized T3 to DS0 SPA
4-Port Channelized T3 to DS0 SPA
8-Port Channelized T1/E1 SPA
8-Port FastEthernet SPA
8-Port Fast Ethernet SPA
1-Port 10-Gigabit Ethernet SPA
1-Port 10-Gigabit Ethernet SPA
2-Port Gigabit Ethernet SPA
5-Port Gigabit Ethernet SPA
5-Port Gigabit Ethernet SPA
10-Port Gigabit Ethernet SPA
10-Port Gigabit Ethernet SPA
1-Port Channelized STM-1/OC-3 SPA
1-Port Channelized STM-4/OC-12 SPA
1-Port Channelized STM-16/OC-48 SPA
1-Port OC-192/STM-64 POS SPA
4-Port OC-3/STM-1 POS SPA
8-Port OC-3 STM-1/OC-12 STM-4 POS SPA 8
1-Port OC-48/STM-16 POS SPA 1
4-Port OC-48/STM-16 POS/RPR SPA
2-Port OC48-POS/RPR SPA
4
2
IPSec VPN SPA
1-Port Clear Channel OC-3 ATM SPA
-
1
1
1
1
4
5
10
10
1
1
1
2
5
4
8
4
2
8
8
Number of
Ports
2
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
Minimum
Hardware
Revision
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
3.5.0
3.6.0
3.2
3.5.0
3.5.0
3.6.0
3.5.0
3.3.0
3.4.0
3.7.0
3.2
3.4.0
3.4.1
3.2
3.4.0
3.2
3.4.0
3.5.0
Minimum IOS
XR Release
3.3.0
3.3.0
3.3.0
3.3.0
3.6.0
3.3.0
3.4.0
2-2
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Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
Table 2-1 Supported SPAs on Cisco XR 12000 Series Routers (continued)
Bandwidth Oversubscription
Product Number Description
SPA-3XOC3-ATM-V2 3-Port Clear Channel OC-3 ATM SPA
SPA-1XOC12-ATM-V2 1-Port Clear Channel OC-12 ATM SPA
SPA-2CHT3-CE-ATM 2-Port Channelized T3/E3 ATM CEoP SPA 2
SPA-24CHT1-CE-ATM 24-Port Channelized T1/E1/J1 ATM CEoP SPA 24
SPA-1CHOC3-CE-ATM 1-Port Channelized OC-3 ATM CEoP SPA 1
SPA-1X10GE-L-IT
SPA-1X10GE-WL-V2
1-Port 10-Gigabit Ethernet DWDM SPA
1-Port 10-Gigabit Ethernet WAN PHY SPA
1
1
3
1
Number of
Ports
Minimum IOS
XR Release
3.7.0
3.7.0
3.7.0
4.0.1
4.1.1
4.1.1
4.3.0
1.0
1.0
1.0
1.0
1.0
Minimum
Hardware
Revision
1.0
1.0
Checking Hardware and Software Compatibility
To check the minimum software requirements of Cisco IOS XR software with the hardware installed on your router, Cisco maintains the Software Advisor tool on Cisco.com. This tool does not verify whether
SIPs or SPAs within a system are compatible, but it does provide the minimum Cisco IOS XR requirements for individual hardware modules or components.
Note Access to this tool is limited to users with Cisco.com login accounts.
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.
Choose a product family or enter a specific product number to search for the minimum supported software release needed for your hardware.
Bandwidth Oversubscription
Oversubscribing the bandwidth limit recommendations of a router can result in decreased or degraded performance. For this reason, it is important to determine the amount of bandwidth used by the SPAs on the router and verify that the total bandwidth used by all SPAs does not exceed the recommended bandwidth limit of the router. The aggregate throughput should not exceed 2 full-rate SPAs for 10G SIPs.
Note The SIP-600 [10G SIP], SIP-401 [2.5G SIP], SIP-501 [5G SIP], and SIP-601 [10G SIP] can support up to 20G of installed SPAs, but the bandwidth through the engine and the fabric is no more than 10G
(SIP-600 or SIP-601). The bandwidth through the engine and the fabric is no more than 5G for the
SIP-501 and is no more than 2.5G for the SIP-401.
Note In Cisco IOS XR software release 3.9.1 or prior, the full-rate SPAs need to be positioned in bay 0 and 1.
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.
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Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
Bandwidth Oversubscription
SPA Bandwidth Capacity Table 2-2
SPA
2-Port Channelized T3 SPA
4-Port Channelized T3 SPA
2-Port Clear Channel T3/E3 SPA
4-Port Clear Channel T3/E3 SPA
Per-Port Bandwidth
44.736 Mbps
44.736 Mbps
44.736 Mbps (T3)
34.368 Mbps (E3)
44.736 Mbps (T3)
34.368 Mbps (E3)
8-Port Channelized T1/E1 SPA
1-Port 10-Gigabit Ethernet SPA
5-Port Gigabit Ethernet SPA
10-Port Gigabit Ethernet SPA
1-Port Channelized STM-1/OC-3 SPA
1-Port Channelized STM-4/OC-12 SPA
1-Port Channelized STM-16/OC-48 SPA
1-Port OC-192/STM-64 POS SPA
4-Port OC-3/STM-1 POS SPA
1.544 Mbps (T1)
2.048 Mbps (E1)
10 Gbps
1 Gbps
1 Gbps
155.52 Mbps
622.08 Mbps
2.488 Gbps
9.953 Gbps
155.52 Mbps
8-Port OC-3 STM-1/OC-12 STM-4 POS SPA 155.52 Mbps or
622.08 Mbps
1-Port OC-12/STM-4 POS SPA 622.08 Mbps
1-Port OC-48/STM-16 POS SPA
4-Port OC-48/STM-16 POS/RPR SPA
2-Port OC48-POS/RPR SPA
1-Port Clear Channel OC-3 ATM SPA
3-Port Clear Channel OC-3 ATM SPA
1-Port Clear Channel OC-12 ATM SPA
2.488 Gbps
2.488 Gbps
2.488 Gbps
155.52 Mbps
155.52 Mbps
622.08 Mbps
2-Port Channelized T3/E3 ATM CEoP SPA 44.210 Mbps
34.010 Mbps
24-Port Channelized T1/E1/J1 ATM CEoP
SPA
1.544 Mbps
2.048 Mbps
1-Port Channelized OC-3 ATM CEoP SPA
1-Port 10-Gigabit Ethernet DWDM SPA
155.52 Mbps
10 Gbps
1-Port 10-Gigabit Ethernet WAN PHY SPA 10 Gbps
4
8
1
4
8
1
1
1
5
10
1
1
1
4
2
1
3
1
2
24
1
1
1
4
2
Number of Ports
2
1.
Total bandwidth value assumes eight OC-12/STM-4 optics modules.
622.08 Mbps
2.488 Gbps
10 Gbps
4.976 Gbps
155.52 Mbps
466.56 Mbps
622.08 Mbps
88.42 Mbps
68.02 Mbps
37.056 Mbps
49.152 Mbps
155.52 Mbps
10 Gbps
10 Gbps
Total Bandwidth
89.47 Mbps
178.94 Mbps
89.47 Mbps (T3)
68.74 Mbps (E3)
178.94 Mbps (T3)
137.47 Mbps (E3)
12.35 Mbps (T1)
16.38 Mbps (E1)
10 Gbps
5 Gbps
10 Gbps
155.52 Mbps
622.08 Mbps
2.488 Gbps
9.953 Gbps
622.08 Mbps
5 Gbps
1
2-4
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Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
2-Port and 4-Port T3/E3 Serial SPA Overview
2-Port and 4-Port T3/E3 Serial SPA Overview
The following sections describe the 2-Port and 4-Port Clear Channel T3/E3 SPA:
•
2-Port and 4-Port Clear Channel T3/E3 SPA LEDs, page 2-5
•
•
2-Port and 4-Port Clear Channel T3/E3 SPA Interface Specifications, page 2-6
2-Port and 4-Port Clear Channel T3/E3 SPA Cables and Connectors, page 2-6
2-Port and 4-Port Clear Channel T3/E3 SPA LEDs
The 2-Port and 4-Port Clear Channel T3/E3 SPA has three types of LEDs: two LEDs for each port on the SPA, and one STATUS LED, as shown in
Figure 2-1
1
2
4-Port Clear Channel T3/E3 SPA Faceplate
C/A A/L
0
TX RX
3 4
C/A A/L
1
TX RX
C/A A/L
2
TX RX
C/A A/L
TX
3
RX SPA-4XT3/E3
ST
ATUS
5
1 C/A (Carrier/Alarm) LED
2 A/L (Active Loopback) LED
3 TX (Transmit) connector
4
5
RX (Receive) connector
STATUS LED
describes the 2-Port and 4-Port Clear Channel T3/E3 SPA LEDs.
Table 2-3 2-Port and 4-Port Clear Channel T3/E3 SPA LEDs
LED Label
C/A
A/L
STATUS
Color
Off
Green
Amber
Off
Green
Amber
Off
Green
Amber
State
Off
On
On
Off
On
On
Off
On
On
Meaning
Port is not enabled by software.
Port is enabled by software, and there is a valid E3 or T3 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, and loopback is off.
Port is enabled by software, and loopback is on.
SPA power is off.
SPA is ready and operational.
SPA power is on and good, and the SPA is being configured.
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Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
2-Port and 4-Port Channelized T3 to DS0 SPA Overview
2-Port and 4-Port Clear Channel T3/E3 SPA Interface Specifications
The framer processes incoming and outgoing T3 (cbit, m13/m23, and unframe) and E3 (g751, g832, and unframe) frames. The framer operates at T3/E3 line rates (44.736 /34.368 Mbps) depending on the mode in which it is configured.
Packet data is transported with a user-configurable encapsulation (such as Point-to-Point Protocol [PPP] or High-Level Data Link Control [HDLC]), and is mapped to T3 and E3 frames. The encapsulations add transport overhead to the packet of data frames before transporting, and are stripped when a packet is transported to the far end.
The T3/E3 SPA interface is compliant with ANSI and Telco standards. The interface also provides support for Management Information Base (MIB) RFC 2496 and T1.231.
2-Port and 4-Port Clear Channel T3/E3 SPA Cables and Connectors
The interface connectors on the 2-Port and 4-Port Clear Channel T3/E3 SPA are 75-ohm coaxial Siemax types, with one connector and cable for transmit (TX) and one for receive (RX).
The following cables can be used with the 2-Port and 4-Port Clear Channel T3/E3 SPA. The cables have
BNC connectors on one end and the Siemax connectors on the other. If similar SPAs are connected back-to-back, both ends of cable will be Siemax.
• CAB-T3E3-RF-BNC-M (T3 or E3 Cable, 1.0/2.3 RF to BNC-Male, 10 feet)
•
•
CAB-T3E3-RF-BNC-F (T3 or E3 Cable, 1.0/2.3 RF to BNC-Female, 10 feet)
CAB-T3E3-RF-OPEN (T3 or E3 Cable, 1.0/2.3 RF to BNC-Open end, 10 feet)
Note The Cisco cable part numbers are 72-4124-01 (with male BNC end) and 72-4131-01 (with female BNC end).
shows the connectors on the 4-Port Clear Channel T3/E3 SPA, and
signal descriptions for these connectors.
Table 2-4 2-Port and 4-Port Clear Channel T3/E3 SPA Connectors
Connector Label
TX
RX
Meaning
Transmitted signals appear on the center contact, and the outer shield is ground for the 75-ohm RG-59 coaxial cable you attach to the TX BNC connector.
Received signals appear on the center contact, and the outer shield is ground for the 75-ohm RG-59 coaxial cable you attach to the RX BNC connector.
2-Port and 4-Port Channelized T3 to DS0 SPA Overview
The following sections describe the 2-Port and 4-Port Channelized T3 SPA:
•
2-Port and 4-Port Channelized T3 SPA LEDs, page 2-7
•
2-Port and 4-Port Channelized T3 SPA Interface Specifications, page 2-7
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Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
2-Port and 4-Port Channelized T3 to DS0 SPA Overview
•
2-Port and 4-Port Channelized T3 SPA Cables and Connectors, page 2-8
2-Port and 4-Port Channelized T3 SPA LEDs
The 2-Port and 4-Port Channelized T3 SPA has three types of LEDs. There are two LEDs for each port
on the SPA, and one STATUS LED. Figure 2-2
shows an example of these LEDs on a 4-Port Channelized
T3 SPA.
Figure 2-2
1
2
4-Port Channelized T3 SPA Faceplate
C/A A/L
TX
0
RX
3 4
C/A A/L
TX
1
RX
C/A A/L
2
TX RX
C/A A/L
TX
3
STAT
US
5
1 C/A (Carrier/Alarm) LED
2 A/L (Active Loopback) LED
3 TX (Transmit) connector
4
5
RX (Receive) connector
STATUS LED
The 2-Port and 4-Port Channelized T3 SPA LEDs are described in
Table 2-5 2-Port and 4-Port Channelized T3 SPA LEDs
LED Label
C/A
A/L
STATUS
Color
Off
Green
Amber
Off
Green
Amber
Off
Green
Amber
State
Off
On
On
Off
On
On
Off
On
On
Meaning
Port is not enabled by software.
Port is enabled by software, and there is a valid E3 or T3 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 good, and SPA is being configured.
2-Port and 4-Port Channelized T3 SPA Interface Specifications
The framer processes incoming and outgoing T3 frames (cbit, m13/m23, and unframe) and E3 (g751, g832) frames. The framer operates at T3/E3 line rates (44.2 44.736/34.368 Mbps) depending on the mode in which it is configured.
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Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
8-Port Channelized T1/E1 SPA Overview
Packet data is transported with a user-configurable encapsulation (such as Point-to-Point Protocol [PPP] or High-Level Data Link Control [HDLC]), and is mapped to T3 and E3 frames. The encapsulations add transport overhead to the packet of data frames before transporting, and are stripped when a packet is transported to the far end.
The T3/E3 SPA interface is compliant with ANSI and Telco standards. The interface also provides support for Management Information Base (MIB) RFC 2495, RFC 2496, and T1.231.
Note The 2-Port and 4-Port Channelized T3 SPA supports Frame Relay Fragmentation (FRF.12) and Multilink
Fame Relay (MFR) features for Cisco IOS XR Software Release 3.6.0 and later releases.
2-Port and 4-Port Channelized T3 SPA Cables and Connectors
The interface connectors on the 2-Port and 4-Port Channelized T3 SPA are 75-ohm coaxial Siemax types, with one connector and cable for transmit (TX) and one for receive (RX).
The following cables can be used with the 2-Port and 4-Port Channelized T3 SPA. The cables have BNC connectors on one end and the Siemax connectors on the other.
•
•
CAB-T3E3-RF-BNC-M (T3 or E3 Cable, 1.0/2.3 RF to BNC-Male, 10 feet)
CAB-T3E3-RF-BNC-F (T3 or E3 Cable, 1.0/2.3 RF to BNC-Female, 10 feet)
• CAB-T3E3-RF-OPEN (T3 or E3 Cable, 1.0/2.3 RF to BNC-Open end, 10 feet)
Note The Cisco cable part numbers are 72-4124-01 (with Male BNC end) and 72-4131-01 (with Female BNC end).
shows the Siemax connectors on the 2-Port and 4-Port Channelized T3 SPA, and
provides the signal descriptions for these connectors.
Table 2-6 2-Port and 4-Port Channelized T3 SPA Connectors
Connector Label
TX
RX
Meaning
Transmitted signals appear on the center contact, and the outer shield is ground for the 75-ohm RG-59 coaxial cable you attach to the TX BNC Siemax connector.
Received signals appear on the center contact, and the outer shield is ground for the 75-ohm RG-59 coaxial cable you attach to the RX BNC Siemax connector.
8-Port Channelized T1/E1 SPA Overview
The following sections describe the 8-Port Channelized T1/E1 SPA:
•
8-Port Channelized T1/E1 SPA LEDs, page 2-9
•
•
8-Port Channelized T1/E1 SPA Cables, Connectors, and Pinouts, page 2-10
2-8
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8-Port Channelized T1/E1 SPA Overview
8-Port Channelized T1/E1 SPA LEDs
The 8-Port Channelized T1/E1 SPA has three types of LEDs. There are two LEDs for each port on the
SPA, and one STATUS LED as shown in
.
Figure 2-3 8-Port Channelized T1/E1 SPA Faceplate
1
2
C/A 0 A/L C/A 1 A/L C/A 2 A/L C/A 3 A/L C/A 4 A/L C/A 5 A/L C/A 6 A/L C/A 7 A/L
ST
ATUS
3
1 C/A (Carrier/Alarm) LED
2 A/L (Active Loopback) LED
3 STATUS LED
The 8-Port Channelized T1/E1 SPA LEDs are described in
.
Table 2-7 8-Port Channelized T1/E1 SPA LEDs
LED Label
C/A
A/L
STATUS
Color
Off
Green
Amber
Off
Green
Amber
Off
Amber
Green
State
Off
On
On
Off
On
On
Off
On
On
Meaning
Port is not enabled by software.
Port is enabled by software, and there is a valid T1 or E1 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 power is on and good, and SPA is being configured.
SPA is ready and operational.
8-Port Channelized T1/E1 SPA Interface Specifications
The E1 interface on the 8-Port Channelized T1/E1 SPA uses RJ-48c receptacles for E1 (120-Ohm) cables with RJ-45 connectors. You can use all ports simultaneously. Each E1 connection supports interfaces that meet G.703 standards. The RJ-45 connection does not require an external transceiver. The E1 ports are
E1 interfaces that use 120-ohm shielded twisted pair (STP) cables.
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8 Port FastEthernet SPA Overview
Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
Warning Shielded twisted pair (STP) T1/E1 cables must be used to comply with EN55022/CISPR22 Class A emissions requirements. For revisions 73-8358-05 through 73-8358-08 Shielded Twisted pair (STP)
T1/E1 cables must be used to comply with FCC Class A emissions requirements.
8-Port Channelized T1/E1 SPA Cables, Connectors, and Pinouts
shows an RJ-45 connector.
Note The terms RJ-45 and RJ-48c are sometimes used interchangeably. The RJ-48c is the jack or receptacle; the RJ-45 is the connector.
Figure 2-4 RJ-45 Connector
RJ-45
RJ-48c
Pin 1
Pin 8
Table 2-8 describes the signals and connector pinouts for RJ-45 cable connectors.
Table 2-8
2
3
4
Pin
1
5
6
7
8
RJ-45 Connector Pinouts
Signal
RX–
RX+
NC
TX–
TX+
NC
NC
NC
Description
Receive ring –
Receive tip +
No connection
Transmit ring –
Transmit tip +
No connection
No connection
No connection
8 Port FastEthernet SPA Overview
The following sections describe the 8-Port FastEthernet SPA:
•
•
8-Port FastEthernet SPA LEDs, page 2-11
8-Port FastEthernet SPA Cables, Connectors, and Pinouts, page 2-11
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8 Port FastEthernet SPA Overview
8-Port FastEthernet SPA LEDs
The 8-Port FastEthernet 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 2-5 8-Port FastEthernet SPA Faceplate
1 2
0 A/L 1 A/L 2 A/L 3 A/L 4 A/L 5 A/L 6 A/L 7 A/L
ST
ATUS
1 A/L (Active/Link) LED 2 STATUS LED
describes the 8-Port FastEthernet SPA LEDs.
Table 2-9 8-Port FastEthernet SPA LEDs
LED Label Color
Port Number
A/L (0, 1, 2, 3, 4,
5, 6 or 7)
1
Off
Green
Amber
STATUS 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.
1.
In this case, port number refers to the numbered LEDs on the 8-Port FastEthernet SPA (0, 1, 2, 3, 4, 5, 6 or 7). Each LED number on the 8-Port FastEthernet SPA references a port on the SPA.
8-Port FastEthernet SPA Cables, Connectors, and Pinouts
The interface connectors on the 8-Port FastEthernet SPA are eight individual RJ-45 receptacles. You can use all eight interface connectors simultaneously. Each connection supports IEEE 802.3 and Ethernet
10/100BASE-T interfaces compliant with appropriate standards. Cisco Systems does not supply
Category 5 unshielded twisted-pair (UTP) RJ-45 cables; these cables are available commercially.
Figure 2-6 shows the RJ-45 connector.
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8 Port FastEthernet SPA Overview
Figure 2-6
Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
RJ-45 Connections, Plug, and Receptacle
8 7 6 5 4 3 2 1
RJ-45 connector
Table 2-10 lists the pinouts and signals for the RJ-45 connector.
Table 2-10 RJ-45 Connector Pinout
2
3
4
Pin
1
5
6
7
8
Description
Transmit data + (TxD+)
TxD–
Receive data + (RxD+)
Reserved
Reserved
RxD–
Reserved
Reserved
Note Referring to the RJ-45 pinout in
Table 2-10 , proper common-mode line terminations should be used for
the unused Category 5 UTP cable pairs 4/5 and 7/8. Common-mode termination reduces the contributions to electromagnetic interference (EMI) and susceptibility to common-mode sources. Wire pairs 4/5 and 7/8 are actively terminated in the RJ-45 port circuitry in the 8-Port FastEthernet SPA.
The 8-Port FastEthernet SPA supports automatic MDI/MDIX crossover at all speeds of operation allowing the SPA to work with straight-through and crossover Ethernet cables. Depending on your RJ-45 interface cabling requirements, use the pinouts in
and
Figure 2-7
Hub or LAN switch
3 TxD+
6 TxD–
Straight-Through Cable Pinout, RJ-45 Connection to a Hub or Repeater
Ethernet port
3 RxD+
6 RxD–
1 RxD+
2 RxD–
1 TxD+
2 TxD–
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Figure 2-8
Router
3 TxD+
6 TxD–
1 Port 10-Gigabit Ethernet SPA Overview
Crossover Cable Pinout, RJ-45 Connections Between Routers
Router
3 TxD+
6 TxD–
1 RxD+
2 RxD–
1 RxD+
2 RxD–
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 2-13
1-Port 10-Gigabit Ethernet SPA XFP Optical Transceiver Modules, Connectors, and Cables, page 2-14
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 2-9 1-Port 10-Gigabit Ethernet SPA Faceplate
ACTIVE/LINK
1
1 ACTIVE/LINK LED
SPA-1X10GE-L-V2
STAT
US
2
2 STATUS LED
describes the 1-Port 10-Gigabit Ethernet SPA LEDs.
Table 2-11 1-Port 10-Gigabit Ethernet SPA LEDs
LED Label Color
ACTIVE/LINK Off
Green
STATUS
Amber
Off
State
Off
On
On
Off
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.
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1 Port 10-Gigabit Ethernet SPA Overview
Table 2-11
LED Label
Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
1-Port 10-Gigabit Ethernet SPA LEDs (continued)
Color
Green
Amber
State
On
On
Meaning
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
Single-mode very-long-reach (ZR) XFP module—XFP-10GER-OC192LR
• Multi-mode short reach (SR) XFP module—XFP-10G-MM-SR
Cisco Systems qualifies the optics that are approved for use with its SPAs. As of Cisco IOS XR
Release 3.4.1, 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.
shows the cable type for use with the XFP optical transceiver module on the 1-Port
10-Gigabit Ethernet SPA.
Figure 2-10 LC-Type Cable for the XFP Optical Transceiver Modules
/ /
/ /
/ /
RX TX
Note The 40-pin connector on the 1-Port 10-Gigabit Ethernet SPA is used for resilient packet ring (RPR) connections. This feature is not supported in Cisco IOS XR Release 4.3.0.
XFP Connections
The 10GLR, 10GER, and 10GZR 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 (SMF).
The transmit side recovers and retimes the 10-Gbps serial data and passes it to a laser driver. The laser
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1 Port 10-Gigabit Ethernet SPA Overview driver biases and modulates a 1310-nm, 850 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 2-11 shows an XFP module and
shows the XFP module specifications.
Figure 2-11 XFP Module
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XFP module dimensions are:
• Height: 12.5 mm
•
•
Width: 18.35 mm
Length: 71.1mm
Table 2-12
TX power
XFP Module Specifications for 10-Gigabit Ethernet SPA
Specification
Wavelength (TX)
Cabling distance (maximum)
Operating case temperature range
Storage temperature range
Description
10GLR SR-1: 1260 nm to 1355 nm
10GER IR-2: 1530 nm to 1565 nm
10GZR LR-2: 1530 nm to 1565 nm
10G-MM-SR: 840 nm to 860 nm
10GLR SR-1: 6.2 miles (10 km)
10GER IR-2: 24.8 miles (40 km)
10GZR LR-2: 50 miles (80 km)
10G-MM-SR: 26m, 33m, 66m, 82m, 300m
10GLR SR-1: 23 to 158 degrees F (–5 to 70 degrees C)
10GER IR-2: 23 to 158 degrees F (–5 to 70 degrees C)
10GZR LR-2: 23 to 158 degrees F (–5 to 70 degrees C)
10G-MM-SR: 32 to 158 degrees F (0 to 70 degrees C)
10GLR SR-1: –40 to 185 degrees F (–40 to 85 degrees C)
10GER IR-2: –40 to 185 degrees F (–40 to 85 degrees C)
10GZR LR-2: –40 to 185 degrees F (–40 to 85 degrees C)
10G-MM-SR: –40 to 185 degrees F (–40 to 85 degrees C)
10GLR SR-1: –8.2 to 0.5 dBm
10GER IR-2: –4.7 to 4 dBm
10GZR LR-2: 0 to 4 dBm
10G-MM-SR: 3dBm,-1.5dBm,-1dBm
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2-Port Gigabit Ethernet SPA Overview
Table 2-12
Specification
Receiver sensitivity (maximum)
RX overload
XFP Module Specifications for 10-Gigabit Ethernet SPA (continued)
Maximum receiver power damage
Description
10GLR SR-1: –12.6 dBm
10GER IR-2: –14.1 dBm
10GZR LR-2: –24 dBm
10G-MM-SR: -11.1dBm
10GLR SR-1: 0.5 dBm
10GER IR-2: –1.0 dBm
10GZR LR-2: –7.0 dBm
10G-MM-SR: 1.0 dBm
10GLR SR-1: +5 dBm
10GER IR-2: +5 dBm
10GZR LR-2: +5 dBm
10G-MM-SR: -1dBm
XFP Port Cabling Specifications
Table 2-13 shows the port cabling specifications for an XFP module.
Table 2-13 XFP Port Cabling Specifications
XFP Module Wavelength
XFP-10GLR-OC192SR 1310 nm
XFP-10GER-OC192IR 1550 nm
XFP-10GZR-OC192LR 1550 nm
XFP-10G-MM-SR 850 nm
Fiber Type
SMF
SMF
SMF
MMF
2-Port Gigabit Ethernet SPA Overview
The following sections describe the version 1 and version 2 of the 2-Port Gigabit Ethernet SPA:
•
2-Port Gigabit Ethernet SPA LEDs, page 2-16
•
•
2-Port Gigabit Ethernet SPA (Version 2) LEDs, page 2-17
SFP Module Cabling and Connection Equipment, page 2-20
2-Port Gigabit Ethernet SPA LEDs
The 2-Port Gigabit Ethernet SPA has two types of LEDs: an A/L LED for each port and a STATUS LED, as shown in
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Figure 2-12 2-Port Gigabit Ethernet SPA Faceplate
1
1
A/L A/L A/L
0 1
3
A/L
2-Port Gigabit Ethernet SPA Overview
0
SPA-2X1GE
ST
AT
US
2
1 A/L (Active/Link) LED
2 STATUS LED
3 RJ-45 port (not supported on Cisco XR 12000 Series Router)
describes the 2-Port Gigabit Ethernet SPA LEDs.
Table 2-14 2-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 SPA is being configured.
2-Port Gigabit Ethernet SPA (Version 2) LEDs
The 2-Port Gigabit Ethernet SPA (Version 2) has two types of LEDs: an A/L LED for each SFP port and
a STATUS LED, as shown in Figure 2-13
.
Figure 2-13 2-Port Gigabit Ethernet SPA (Version 2) Faceplate
1
0 1
A/L
0
A/L
1
A/L A/L
SPA-2X1GE-V2
STAT
U
S
2
describes the 2-Port Gigabit Ethernet SPA (Version 2) LEDs.
1 A/L (Active/Link) LED 2 STATUS LED
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2-Port Gigabit Ethernet SPA Overview
Table 2-15
LED Label
A/L
STATUS
2-Port Gigabit Ethernet SPA (Version 2) LEDs
Color
Off
Green
Amber
Off
Green
Amber
State
Off
On
On
Off
On
On
Meaning
Port is not enabled.
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 SPA is being configured.
The valid configuration of the SFP ports for the 2-Port Gigabit Ethernet SPA (Version 2) is Port 0 (SFP) and Port 1 (SFP), or any single port.
Note The 2-Port Gigabit Ethernet SPA has two RJ-45 ports. However, these RJ-45 ports are not supported by the Cisco XR 12000 Series Router.
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 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 2-Port Gigabit Ethernet SPA, linking the port with a fiber-optic network.
Note The 2-Port Gigabit Ethernet SPA will only accept the SFP modules listed as supported in this document.
An SFP module 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.
provide SFP module information and specifications.
Table 2-16 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 2-16 SFP Module Options
SFP Module
Product Number SFP Module
SFP-GE-Z Extended wavelength
(1000BASE-ZX)
SFP-GE-T RJ-45 copper SFP module
(1000BASE-T)
2-Port Gigabit Ethernet SPA Overview
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 2-17
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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2-Port Gigabit Ethernet SPA Overview
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
Table 2-18 provides cabling specifications for the SFP modules that can be installed on the 2-Port
Gigabit Ethernet SPA. Note that all 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 2-18 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 2-18 SFP Module Port Cabling Specifications
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 2-21
5-Port Gigabit Ethernet SPA Cables and Connectors, page 2-22
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
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5-Port Gigabit Ethernet SPA Overview
Figure 2-14
1
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
Table 2-19 describes the 5-Port Gigabit Ethernet SPA LEDs.
Table 2-19 5-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.
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.
provide SFP module information and specifications.
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Table 2-20 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)
SFP-GE-Z Extended wavelength
(1000BASE-ZX)
SFP-GE-T RJ-45 copper SFP module
(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 2-21
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 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-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 2-22 provides cabling specifications for the SFP modules that can be installed on the 5-Port
Gigabit Ethernet SPA. Note that all 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 2-22 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 2-22 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.
10-Port Gigabit Ethernet SPA Overview
The following sections describe the 10-Port Gigabit Ethernet SPA:
•
•
10-Port Gigabit Ethernet SPA LEDs, page 2-26
10-Port Gigabit Ethernet SPA Cables and Connectors, page 2-26
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10-Port Gigabit Ethernet SPA Overview
10-Port Gigabit Ethernet SPA LEDs
The 10-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 2-15
.
Figure 2-15 10-Port Gigabit Ethernet SPA Faceplate
1 2
1 A/L (Active/Link) LED 2 STATUS LED
Table 2-23 describes the 10-Port Gigabit Ethernet SPA LEDs.
Table 2-23 10-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.
10-Port Gigabit Ethernet SPA Cables and Connectors
The 10-Port Gigabit Ethernet SPA has ten 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 optical slots on the 10-Port Gigabit Ethernet SPA, linking the port with a 1000BASE-X fiber-optic network.
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10-Port Gigabit Ethernet SPA Overview
Note The 10-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 is inserted into the 10-Port Gigabit Ethernet SPA, and only SFP modules that pass this check can be used by the 10-Port Gigabit Ethernet SPA.
SFP modules exist for technologies other than Gigabit Ethernet and for products other than the 10-Port
Gigabit Ethernet SPA. However, the information in this document pertains only to SFP modules that plug into the 10-Port Gigabit Ethernet SPA ports.
The SFP module has a receiver port (RX) and a transmitter port (TX) that compose one optical interface.
and
Table 2-25 provide SFP information and specifications.
Table 2-24 10-Port Gigabit Ethernet 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)
SFP-GE-Z Extended wavelength
(1000BASE-ZX)
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.
Table 2-25
Specification
Wavelength
Operating case temperature range
10-Port Gigabit Ethernet 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-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.
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10-Port Gigabit Ethernet SPA Overview
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 Module Cabling and Connection Equipment
Table 2-26 provides cabling specifications for the SFP modules that can be installed on the 10-Port
Gigabit Ethernet SPA. Note that all 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 2-26 SFP Module Port Cabling Specifications
SFP Modules
SFP-GE-S
SFP-GE-L
Wavelength
(nm)
850
Fiber Type
MMF
1
1300 SMF
Core Size
(micron)
62.5
62.5
50.0
50.0
9/10
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)
6.2 miles (10 km)
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Table 2-26
SFP Modules
SFP-GE-Z
SFP Module Port Cabling Specifications (continued)
Wavelength
(nm)
1550
Fiber Type
SMF
Core Size
(micron)
9/10
Modal
Bandwidth
(MHz/km)
—
SMF
2
8
1-Port Channelized STM-1/OC-3 SPA Overview
—
Maximum
Cable Distance
49.7 miles
(80 km)
62.1 miles
(100 km)
1.
Multimode fiber (MMF) only.
2.
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.
1-Port Channelized STM-1/OC-3 SPA Overview
The following sections describe the 1-Port Channelized STM-1/OC-3 SPA:
•
•
•
1-Port Channelized STM-1/OC-3 SPA LEDs, page 2-29
1-Port Channelized STM-1/OC-3 SPA Interface Specifications, page 2-30
1-Port Channelized STM-1/OC-3 SPA Cables and Connectors, page 2-30
1-Port Channelized STM-1/OC-3 SPA LEDs
The 1-Port Channelized STM-1/OC-3 SPA has two types of LEDs: an A/L LED for each port and a
STATUS LED, as shown in Figure 2-16
.
Figure 2-16 1-Port Channelized STM-1/OC-3 SPA Faceplate
1
C/A
A/L
0
2
1 C/A (Carrier/Alarm) LED
2 A/L (Active Loopback) LED
3 STATUS LED
ST
ATUS
SPA-1XCHSTM1/OC3
3
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1-Port Channelized STM-1/OC-3 SPA Overview
The 1-Port Channelized STM-1/OC-3 SPALEDs are described in
.
Table 2-27 1-Port Channelized STM-1/OC-3 SPA LEDs
LED Label
C/A
A/L
STATUS
Color
Off
Green
Amber
Off
Green
Amber
Off
Green
Amber
State
Off
On
On
Off
On
On
Off
On
On
Meaning
Port is not enabled by software.
Port is enabled by software, and there is a valid T3 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 good, and SPA is being configured.
1-Port Channelized STM-1/OC-3 SPA Interface Specifications
The framer processes incoming and outgoing SONET or SDH frames. The framer operates at
OC-3/STM-1 line rates (155.52 Mbps).
Packet data is transported with a user-configured encapsulation (such as Point-to-Point Protocol [PPP]) and is mapped into the STS-3/STM-1 frame.
The 1-Port Channelized STM-1/OC-3 SPA interface is compliant with RFC 1619, PPP over
SONET/SDH , and RFC 1662, PPP in HDLC-like Framing . The 1-Port Channelized STM-1/OC-3 SPA also provides support for SNMP v1 agent (RFC 1155–1157), and Management Information Base (MIB)
II (RFC 1213).
Note The 1-Port Channelized STM-1/OC-3 SPA supports Frame Relay Fragmentation (FRF.12) and Multilink
Fame Relay (MFR) features for Cisco IOS XR Software Release 3.6.0 and later releases.
1-Port Channelized STM-1/OC-3 SPA Cables and Connectors
The 1-Port Channelized STM-1/OC-3 SPA uses a small form-factor pluggable (SFP) optical transceiver module installed in each port for SONET and SDH single-mode and multimode optical fiber connection
(see
).
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Figure 2-17 SFP Optics Module
1-Port Channelized STM-4/OC-12 SPA Overview
The SFP optical transceiver modules used with the 1-Port Channelized STM-1/OC-3 SPA provide the following optical fiber options:
• Multimode—155-Mbps, OC-3/STM-1 optical fiber (SONET STS-3 or SDH STM-1)
•
Use a multimode optical fiber that has a core/cladding diameter of 62.5/125 microns.
Single-mode—155-Mbps, OC-3/STM-1 optical fiber (SONET STS-3 or SDH STM-1)
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.)
For single-mode and multimode optical fiber connections, you can use either a duplex LC-type cable (see
Figure 2-18 ) or two simplex LC-type cables, one for transmit (TX) and one for receive (RX).
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 1-Port Channelized STM-1/OC-3 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.
Figure 2-18 LC Type Cables
/ /
/ /
/ /
RX TX
1-Port Channelized STM-4/OC-12 SPA Overview
The following sections describe the 1-Port Channelized STM-4/OC-12 SPA:
•
1-Port Channelized STM-4/OC-12 SPA LEDs, page 2-32
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1-Port Channelized STM-4/OC-12 SPA Overview
•
•
1-Port Channelized STM-4/OC-12 SPA Interface Specifications, page 2-33
1-Port Channelized STM-4/OC-12 SPA Cables and Connectors, page 2-33
1-Port Channelized STM-4/OC-12 SPA LEDs
The 1-Port Channelized STM-4/OC-12 SPA has two types of LEDs: an A/L LED for each port and a
STATUS LED, as shown in
.
Figure 2-19 1-Port Channelized STM-4/OC-12 SPA Faceplate
1 2
S
T
A
T
U
S
C
/ A
A
/
L
S PA-1XCHOC12/D S 0
3
1 C/A (Carrier/Alarm) LED
2 A/L (Active Loopback) LED
3 STATUS LED
The 1-Port Channelized STM-4/OC-12 SPALEDs are described in
.
Table 2-28 1-Port Channelized STM-4/OC-12 SPA LEDs
LED Label
C/A
A/L
STATUS
Color
Off
Green
Amber
Off
Green
Amber
Off
Green
Amber
State
Off
On
On
Off
On
On
Off
On
On
Meaning
Port is not enabled by software.
Port is enabled by software, and there is a valid T3 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 good, and SPA is being configured.
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1-Port Channelized STM-4/OC-12 SPA Interface Specifications
The framer processes incoming and outgoing SONET or SDH frames. The framer operates at
OC-12/STM-4 line rates (622.08 Mbps).
Packet data is transported with a user-configured encapsulation (such as Point-to-Point Protocol [PPP]) and is mapped into the STS-12/STM-4 frame.
The 1-Port Channelized STM-4/OC-12 SPA interface is compliant with RFC 1619, PPP over
SONET/SDH , and RFC 1662, PPP in HDLC-like Framing . The 1-Port Channelized STM-4/OC-12 SPA also provides support for SNMP v1 agent (RFC 1155–1157), and Management Information Base (MIB)
II (RFC 1213).
Note For Cisco IOS XR Software Release 3.8.0 and beyond, the 1-Port Channelized STM-4/OC-12 SPA supports Frame Relay Fragmentation (FRF.12) to achieve fragmentation of data packets and interleaving of voice packets. FRF.12 provides a method to fragment low-priority packets and interleave high-priority packets in between the low-priority fragments to provide less delay or jitter for high-priority traffic like voice and video.
Note For Cisco IOS XR Software Release 3.8.0 and beyond, the 1-Port Channelized STM-4/OC-12 SPA supports Multilink Frame Relay (MFR) feature. MFR provides a mechanism for aggregating multiple serial links into a bundle to provide greater bandwidth, load balancing between links, and improved service availability by protecting against single point link failures.
1-Port Channelized STM-4/OC-12 SPA Cables and Connectors
The 1-Port Channelized STM-4/OC-12 SPA uses a small form-factor pluggable (SFP) optical transceiver module installed in each port for SONET and SDH single-mode and multimode optical fiber connection
).
Figure 2-20 SFP Optics Module
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1-Port Channelized STM-16/OC-48 SPA Overview
The SFP optical transceiver modules used with the 1-Port Channelized STM-4/OC-12 SPA provide the following optical fiber options:
• Multimode—622-Mbps, OC-12/STM-4 optical fiber (SONET STS-12 or SDH STM-4)
Use a multimode optical fiber that has a core/cladding diameter of 62.5/125 microns.
• Single-mode—622-Mbps, OC-12/STM-4 optical fiber (SONET STS-12 or SDH STM-4)
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.)
For single-mode and multimode optical fiber connections, you can use either a duplex LC-type cable (see
) or two simplex LC-type cables, one for transmit (TX) and one for receive (RX).
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 1-Port Channelized STM-4/OC-12 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.
Figure 2-21 LC Type Cables
/ /
/ /
/ /
RX TX
1-Port Channelized STM-16/OC-48 SPA Overview
The following sections describe the 1-Port Channelized STM-4/OC-12 SPA:
•
•
•
1-Port Channelized STM-16/OC-48 SPA LEDs, page 2-34
1-Port Channelized STM-16/OC-48 SPA Interface Specifications, page 2-35
1-Port Channelized STM-16/OC-48 SPA Cables and Connectors, page 2-36
1-Port Channelized STM-16/OC-48 SPA LEDs
The 1-Port Channelized STM-16/OC-48 SPA has two types of LEDs: an A/L LED for each port and a
STATUS LED, as shown in
.
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Figure 2-22
1-Port Channelized STM-16/OC-48 SPA Overview
1-Port Channelized STM-16/OC-48 SPA Faceplate
1
S
T
A
T
U
S
C
/ A
A
/ L
S PA-1XCHOC4 8 /D S3
2
3
1 C/A (Carrier/Alarm) LED
2 A/L (Active Loopback) LED
3 STATUS LED
The 1-Port Channelized STM-16/OC-48 SPA LEDs are described in Table 2-29 .
Table 2-29 1-Port Channelized STM-16/OC-48 SPA LEDs
LED Label
C/A
A/L
STATUS
Color
Off
Green
Amber
Off
Green
Amber
Off
Green
Amber
State
Off
On
On
Off
On
On
Off
On
On
Meaning
Port is not enabled by software.
Port is enabled by software, and there is a valid T3 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 good, and SPA is being configured.
1-Port Channelized STM-16/OC-48 SPA Interface Specifications
The framer processes incoming and outgoing SONET or SDH frames. The framer operates at
OC-48/STM-16 line rates (2.488 Gbps).
Packet data is transported with a user-configured encapsulation (such as Point-to-Point Protocol [PPP]) and is mapped into the STS-48/STM-16 frame.
The 1-Port Channelized STM-16/OC-48 SPA interface is compliant with RFC 1619, PPP over
SONET/SDH , and RFC 1662, PPP in HDLC-like Framing . The 1-Port Channelized STM-16/OC-48 SPA also provides support for SNMP v1 agent (RFC 1155–1157), and Management Information Base (MIB)
II (RFC 1213).
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1-Port Channelized STM-16/OC-48 SPA Overview
1-Port Channelized STM-16/OC-48 SPA Cables and Connectors
The 1-Port Channelized STM-16/OC-48 SPA uses a small form-factor pluggable (SFP) optical transceiver module installed in each port for SONET and SDH single-mode and multimode optical fiber connection (see
).
Figure 2-23 SFP Optics Module
The SFP optical transceiver modules used with the 1-Port Channelized STM-16/OC-48 SPA provide the following optical fiber options:
• Multimode—2.488-Gbps, OC-48/STM-16 optical fiber (SONET STS-48 or SDH STM-16)
Use a multimode optical fiber that has a core/cladding diameter of 62.5/125 microns.
• Single-mode—2.488-Gbps, OC-48/STM-16 optical fiber (SONET STS-48 or SDH STM-16)
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.)
For single-mode and multimode optical fiber connections, you can use either a duplex LC-type cable (see
) or two simplex LC-type cables, one for transmit (TX) and one for receive (RX).
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 1-Port Channelized STM-16/OC-48 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.
Figure 2-24 LC Type Cables
/ /
/ /
/ /
RX TX
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Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
1-Port OC-192/STM-64 POS SPA Overview
1-Port OC-192/STM-64 POS SPA Overview
The 1-Port OC-192/STM-64 POS/RPR SPA is a double-height SPA that is installed in two SIP subslots.
The 1-Port OC-192/STM-64 POS/RPR SPA provides SONET and SDH network connectivity with a bandwidth of 9.95 Gbps.
For more information about SPA bandwidth, see the “Bandwidth Oversubscription” section on page 2-2.
For more information about SPAs and their compatibility with SIPs and modular optics, see the “SIP and
SPA Compatibility” chapter in this guide.
The 1-Port OC-192/STM-64 POS/RPR SPA uses a single,10-Gbps fixed optical receptacle allowing a connection to single-mode optical fiber. For more information on the optical fiber cables used with this
SPA, see the
“1-Port OC-192/STM-64 POS/RPR SPA Fixed Optical Transceiver, 40-Pin Connector, and
.
The following sections describe the 1-Port OC-192/STM-64 POS/RPR SPA:
•
•
•
1-Port OC-192/STM-64 POS/RPR SPA LEDs, page 2-37
1-Port OC-192/STM-64 POS/RPR SPA Interface Specifications, page 2-38
1-Port OC-192/STM-64 POS/RPR SPA Fixed Optical Transceiver, 40-Pin Connector, and Cables, page 2-39
1-Port OC-192/STM-64 POS/RPR SPA LEDs
The 1-Port OC-192/STM-64 POS/RPR SPA has six LEDs, as shown in Figure 2-25
.
Figure 2-25 1-Port OC-192/STM-64 POS/RPR SPA Faceplate
1
2
3
4
5
6
ST
ATUS
TX
0
WRAP
TESYNC
CARRIER
ACTIVE
RX
SPA-OC192POS LR
1 WRAP LED
2 PASSTHRU LED
3 MATESYNC LED
4 CARRIER LED
5 ACTIVE LED
6 STATUS LED
Note The WRAP, PASSTHRU, and MATESYNC LEDs apply to the SPA in RPR/SRP mode only. In
Cisco IOS Release 12.0(31)S, RPR/SRP mode is not supported.
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1-Port OC-192/STM-64 POS SPA Overview
The 1-Port OC-192/STM-64 POS/RPR SPA LEDs are described in
Table 2-30 1-Port OC-192/STM-64 POS/RPR SPA LEDs
LED Label
WRAP
Color
Off
Green
Amber
PASSTHRU Off
Amber
MATESYNC Off
Green
CARRIER Off
Green
ACTIVE
STATUS
Amber
Off
Green
Amber
Off
Green
Amber
Off
On
On
Off
On
On
Off
On
Off
On
State
Off
On
On
Off
On
Meaning
Port is not in wrap mode.
Port is in wrap mode somewhere on the ring.
Port is in wrap mode locally.
Port is not in pass-thru mode.
Port is in pass-thru mode.
Mate port is not synchronized.
Mate port is synchronized.
Port is not enabled by software.
Port is enabled by software; there is a valid SONET signal without alarms.
On Port is enabled by software; there is at least one alarm (LOS,
LOF, RDI, and so on).
Blinking Indicates SRP mode mismatch 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 off.
SPA is ready and operational.
SPA power is on and good; SPA is being configured.
1-Port OC-192/STM-64 POS/RPR SPA Interface Specifications
The 1-Port OC-192/STM-64 POS/RPR SPA contains a SONET/SDH framer to process incoming and outgoing SONET or SDH frames. The framer operates at OC-192/STM-64 line rates (9.95 Gbps).
Packet data is transported with a user-configured encapsulation (such as Point-to-Point Protocol [PPP]) and is mapped into the STS-192/STM-64 frame.
The 1-Port OC-192/STM-64 POS/RPR SPA interface is compliant with the following RFCs:
• RFC 1619, PPP over SONET/SDH
•
•
RFC 1662, PPP in HDLC-like Framing
RFC 2615, PPP over SONET/SDH
The 1-Port OC-192/STM-64 POS/RPR SPA also provides support for SNMP v1 agent (RFC 1155–1157) and RFC 1213:
• RFC 1155, Structure and Identification of Management Information for TCP/IP-Based Internets
•
•
RFC 1156, Management Information Base for Network Management of TCP/IP-Based Internets
RFC 1157, Simple Network Management Protocol (SNMP)
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1-Port OC-192/STM-64 POS SPA Overview
• RFC 1213, Management Information Base (MIB) for Network Management of TCP/IP-Based
Internets:MIB II
1-Port OC-192/STM-64 POS/RPR SPA Fixed Optical Transceiver, 40-Pin
Connector, and Cables
The 1-Port OC-192/STM-64 POS/RPR SPA uses fixed optical transceivers, one for receive (RX) and one for transmit (TX), for SONET and SDH connection to the network. In Cisco IOS Release 12.0(31)S, only long-reach (LR) optics are supported.
Cisco Systems qualifies the optics that are approved for use with its SPAs. As of Cisco IOS Release
12.0(31)S and Cisco IOS XR Software Release 3.2, the XFP-10GLR-OC192SR and the
XFP-10GER-OC192IR are the only optical transceiver modules qualified for use.
The 1-Port OC-192/STM-64 POS/RPR SPA uses single-mode SC-type connectors:
• Single-mode—9.95 Gbps, OC-192 optical fiber (SONET STS-192 or SDH STM-64c)
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 a single-mode optical fiber cable to connect your router to a network.
Note The 40-pin connector on the 1-Port OC-192/STM-64 POS/RPR SPA is used for resilient packet ring
(RPR) connections.
Figure 2-26 shows the cable type for use with the fixed optical transceiver module on the 1-Port
OC-192/STM-64 POS/RPR SPA.
Figure 2-26 SC-Type Connectors for the Fixed Optical Transceivers
Mate Interface Cables
The 1-Port OC-192/STM-64 POS/RPR SPA supports two mate interface configurations:
•
•
Mate between two OC-192 SPAs in the same SIP
Mate between two OC-192 SPAs in adjacent SIPs
Two 1-Port OC-192/STM-64 POS/RPR SPAs are connected using a 40–pin connector copper mate cable.
The length of the cables allow only two possible connection scenarios, next slot horizontal and same slot
connect the SPAs.
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1-Port OC-192 STM-64 POS RPR XFP SPA Overview
Figure 2-27 SPA Mate Cables
1
Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
2
1 Long length RPR mate cable for single port
RPR SPAs (CBL-RPR-OC192-L)
2 Short length RPR mate cable for single port
RPR SPAs (CAB-RPR-OC192-S)
Note The RPR mate cable is necessary only when the SPA is to be used in RPR mode. It is not needed in POS mode. Support for the RPR feature is dependent on the platform software release feature content. Verify support for the RPR feature support by reviewing the relevant SPA datasheets or by contacting your
Cisco representative.
1-Port OC-192 STM-64 POS RPR XFP SPA Overview
The 1-Port OC-192/STM-64 POS/RPR XFP SPA is a single-height SPA that is installed in one SIP subslot. The 1-Port OC-192/STM-64 POS/RPR XFP SPA provides SONET and SDH network connectivity with a bandwidth of 9.95 Gbps.
For more information about SPA bandwidth, see the “Bandwidth Oversubscription” section in this chapter. For more information about SPAs and their compatibility with SIPs and modular optics, see the product overview chapter in this guide.
The 1-Port OC-192/STM-64 POS/RPR XFP SPA uses a 10-Gbps small form-factor pluggable optical receptacle for each port allowing connection to single-mode optical fiber. For more information on the optical fiber cables used with this SPA, see the
“1-Port OC-192/STM-64 POS/RPR SPA Fixed Optical
Transceiver, 40-Pin Connector, and Cables” section on page 2-39 .
The following sections describe the 1-Port OC-192/STM-64 POS/RPR XFP SPA:
•
•
•
1-Port OC-192/STM-64 POS/RPR XFP SPA LEDs, page 2-41
1-Port OC-192/STM-64 POS/RPR XFP SPA Interface Specifications, page 2-42
1-Port OC-192/STM-64 POS/RPR XFP SPA Optical Transceiver Modules, Connectors, and Cables, page 2-42
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Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
1-Port OC-192 STM-64 POS RPR XFP SPA Overview
1-Port OC-192/STM-64 POS/RPR XFP SPA LEDs
The 1-Port OC-192/STM-64 POS/RPR XFP SPA has six LEDs, as shown in
Figure 2-28 1-Port OC-192/STM-64 POS/RPR XFP SPA Faceplate
1
2
3 4
5
SPA-0C192POS-XFP
ST
AT
US
WRAP
PA
T H
S S
M A
R U
T E
S Y
N C
0
6
1 WRAP LED
2 PASSTHRU LED
3 MATESYNC LED
4 CARRIER LED
5 ACTIVE LED
6 STATUS LED
Note The WRAP, PASSTHRU, and MATESYNC LEDs apply to the SPA in RPR/SRP mode only. As of
Cisco IOS XR Software Release 3.4.0, RPR/SRP mode is not supported.
describes the 1-Port OC-192/STM-64 POS/RPR XFP SPA LEDs.
Table 2-31 1-Port OC-192/STM-64 POS/RPR XFP SPA LEDs
LED Label
WRAP
Color
Off
State
Off
Green On
Amber On
Meaning
Port is not in wrap mode.
Port is in wrap mode somewhere on the ring.
Port is in wrap mode locally.
PASSTHRU Off Off
Amber On
MATESYNC
CARRIER
Off
Green
Off
Green
Off
On
Off
On
Port is not in pass-thru mode.
Port is in pass-thru mode.
Mate port is not synchronized.
Mate port is synchronized.
Port is not enabled by software.
Port is enabled by software, and there is a valid SONET signal without alarms.
Amber On Port is enabled by software, and there is at least one alarm (LOS,
LOF, RDI, and so on).
Blinking SRP mode mismatch alarm is indicated.
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1-Port OC-192 STM-64 POS RPR XFP SPA Overview
Table 2-31
LED Label
ACTIVE
STATUS
1-Port OC-192/STM-64 POS/RPR XFP SPA LEDs (continued)
Color
Off
Green
State
Off
On
Amber On
Off
Green
Off
On
Amber On
Meaning
Port is not enabled by software.
Port is enabled by software, and loopback is off.
Port is enabled by software, and loopback is on.
SPA power off.
SPA is ready and operational.
SPA power is on and good, and the SPA is being configured.
1-Port OC-192/STM-64 POS/RPR XFP SPA Interface Specifications
The framer processes incoming and outgoing SONET or SDH frames. The framer operates at
OC-192/STM-64 line rates (9.95 Gbps).
Packet data is transported with a user-configured encapsulation (such as Point-to-Point Protocol [PPP]) and is mapped into the STS-192/STM-64 frame.
The 1-Port OC-192/STM-64 POS/RPR XFP SPA interface is compliant with the following RFCs:
•
•
RFC 1662, PPP in HDLC-like Framing
RFC 2615, PPP over SONET/SDH
For information on SNMP MIB support, see “Implementing SNMP on Cisco IOS XR Software” in
Cisco IOS XR System Management Configuration Guide .
1-Port OC-192/STM-64 POS/RPR XFP SPA Optical Transceiver Modules,
Connectors, and Cables
The 1-Port OC-192/STM-64 POS/RPR XFP SPA uses a single-mode, 9.95 Gbps, OC-192 optical fiber
(SONET STS-192 or SDH STM-64) optical transceiver module for SONET and SDH connection to the network.
The 1-Port OC-192/STM-64 POS/RPR XFP SPA supports the following types of optical transceiver module:
•
•
Single-mode short-reach (SR) XFP module—XFP-10GLR-OC192SR
Single-mode intermediate-reach (IR) XFP module—XFP-10GER-OC192IR
• Single-mode very-long reach XFP module—XFP-10GZR-OC192LR
Cisco Systems qualifies the optics that are approved for use with its SPAs. As of Cisco IOS XR Software
Release 3.4.0, the above-listed 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.
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1-Port OC-192 STM-64 POS RPR XFP SPA Overview
Figure 2-29 shows the cable type for use with the XFP optical transceiver module on the 1-Port
OC-192/STM-64 POS/RPR XFP SPA.
Figure 2-29 LC-Type Cable for the XFP Optical Transceiver Modules
/ /
/ /
/ /
RX TX
Note The 40-pin connector on the 1-Port OC-192/STM-64 POS/RPR XFP SPA is used for resilient packet ring
(RPR) connections. This feature is not supported in Cisco IOS XR Software Release 3.4.0.
OC-192 Module Connections
shows the OC-192 specifications for use with the 1-Port OC-192/STM-64 POS/RPR XFP
SPA.
Table 2-32
Specification
Wavelength
OC-192 Specifications
Cabling distance (maximum)
Operating case temperature range
Tx Power
Receiver Sensitivity (maximum)
RX Overload
Maximum Receiver Power Damage
Description
OC-192 SR-1: 1290 nm to 1330 nm
OC-192 IR-2: 1530 nm to 1565 nm
OC-192 LR-2: 1530 nm to 1565 nm
OC-192 SR-1: 2 km (1.2 miles)
OC-192 IR-2: 40 km (24.8 miles)
OC-192 LR-2: 50 miles (80 km)
OC-192 SR-1: 23 to 158 degrees F (–5 to 70 degrees C)
OC-192 IR-2: 23 to 158 degrees F (–5 to 70 degrees C)
OC-192 LR-2: 23 to 158 degrees F (–5 to 70 degrees C)
OC-192 SR-1: –6 dBm –1 dBm
OC-192 IR-2: –1 dBm +2 dBm
OC-192 LR-2: 0 to +4 dBm
OC-192 SR-1: –11 dBm
OC-192 IR-2: –14 dBm
OC-192 LR-2: –24 dBm
OC-192 SR-1: –1 dBm
OC-192 IR-2: +2 dBm
OC-192 LR-2: –7.0 dBm
OC-192 SR-1: +5 dBm
OC-192 IR-2: +5 dBm
OC-192 LR-2: +5 dBm
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4-Port OC-3/STM-1 POS SPA Overview
Mate Interface Cables
The 1-Port OC-192/STM-64 POS/RPR XFP SPA supports two mate interface configurations:
• Mate between two OC-192 SPAs in the same SIP
• Mate between two OC-192 SPAs in adjacent SIPs
Two 1-Port OC-192/STM-64 POS/RPR XFP SPAs are connected using a 40–pin connector copper mate cable. The length of the cables allow only two possible connection scenarios, next slot horizontal and
used to connect the SPAs.
Figure 2-30 SPA Mate Cables
1
2
1 Long length RPR mate cable for single port
RPR SPAs (CBL-RPR-OC192-L)
2 Short length RPR mate cable for single port
RPR SPAs (CAB-RPR-OC192-S)
Note The RPR mate cable is necessary only when the SPA is to be used in RPR mode. It is not needed in POS mode. Support for the RPR feature is dependent on the platform software release feature content. Verify support for the RPR feature support via SPA datasheets or by contacting your Cisco representative.
4-Port OC-3/STM-1 POS SPA Overview
The 2-Port and 4-Port OC-3/STM-1 POS SPA is a single-height SPA that installs into one SIP subslot.
The OC-3c/STM-1 POS SPA with small form-factor pluggable (SFP) optical transceiver modules provides SONET and SDH network connectivity with a per-port bandwidth of 155.52 Mbps. The 2-Port and 4-Port OC-3/STM-1 POS SPA operates at quarter rate.
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Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
4-Port OC-3/STM-1 POS SPA Overview
Note When SFP modules are replaced, the SPA interface retains any previously defined configurations. These configurations include settings for IP address, clock source, loopback, Cyclic Redundancy Check
(CRC), and POS flags.
For more information about SPA bandwidth, see the “Bandwidth Oversubscription” section in this chapter. For more information about SPAs and their compatibility with SIPs and modular optics, see the
“SIP and SPA Product Overview” chapter in this guide.
The following sections describe the 2-Port and 4-Port OC-3/STM-1 POS SPA:
•
•
•
2-Port and 4-Port OC-3/STM-1 POS SPA LEDs, page 2-45
2-Port and 4-Port OC-3/STM-1 POS SPA Interface Specifications, page 2-46
2-Port and 4-Port OC-3/STM-1 POS SPA Optical Transceiver Modules and Cables, page 2-46
2-Port and 4-Port OC-3/STM-1 POS SPA LEDs
The 2-Port and 4-Port OC-3/STM-1 POS SPA has three types of LEDs: two LEDs for each port on the
SPA and one STATUS LED.
Figure 2-31 shows the 4-Port OC-3/STM-1 POS SPA.
Figure 2-31 4-Port OC-3/STM-1 POS SPA Faceplate
1
C/A
A/L
C/A
A/L
C/A
A/L
C/A
A/L
ST
ATUS
0 1 2 3
2 3
1 C/A (Carrier/Alarm) LED
2 A/L (Active/Loopback) LED
3 STATUS LED
describes the 2-Port and 4-Port OC-3/STM-1 POS SPA LEDs.
Table 2-33 2-Port and 4-Port OC-3/STM-1 POS SPA LEDs
LED Label
C/A
A/L
Color
Off
Green
Amber
Off
Green
Amber
State
Off
On
On
Off
On
On
Meaning
SONET controller is shut down.
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.
Interface is shut down.
Port is enabled by software, and loopback is off.
Port is enabled by software, and loopback is on.
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4-Port OC-3/STM-1 POS SPA Overview
Table 2-33
LED Label
STATUS
Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
2-Port and 4-Port OC-3/STM-1 POS SPA LEDs (continued)
Color
Off
Green
Amber
State
Off
On
On
Meaning
SPA power is off.
SPA is ready and operational.
SPA power is on and good, and the SPA is being configured.
2-Port and 4-Port OC-3/STM-1 POS SPA Interface Specifications
The framer processes incoming and outgoing SONET or SDH frames. The framer operates at
OC-3c/STM-1 line rates (155.52 Mbps).
Packet data is transported with a user-configured encapsulation (such as Point-to-Point Protocol [PPP]) and is mapped into the STS-3c/STM-1 frame.
The 2-Port and 4-Port OC-3/STM-1 POS SPA interface complies with the following RFCs:
•
•
•
RFC 1662, PPP in HDLC-like Framing
RFC 2427, Multiprotocol Interconnect over Frame Relay
RFC 2615, PPP over SONET/SDH
2-Port and 4-Port OC-3/STM-1 POS SPA Optical Transceiver Modules and
Cables
The 2-Port and 4-Port OC-3/STM-1 POS SPA uses a small form-factor pluggable (SFP) optical transceiver module installed in each port for SONET and SDH single-mode and multimode optical fiber connection (see
).
Cisco Systems qualifies the optics that are approved for use with its SPAs. The 2-Port and 4-Port
OC-3/STM-1 POS SPA supports the following types of optical transceiver modules:
•
•
•
•
•
Multimode (MM) SFP module—SFP-OC3-MM
Short-reach (SR) SFP module—SFP-OC3-SR
Intermediate-reach (IR) SFP module (15 km)—SFP-OC3-IR1
Long-reach (LR) SFP module (40 km)—SFP-OC3-LR1
Long-reach (LR) SFP module (80 km)—SFP-OC3-LR2
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Figure 2-32 SFP Optics Module
4-Port OC-3/STM-1 POS SPA Overview
OL-17438-04
The SFP optical transceiver modules used with the 2-Port and 4-Port OC-3/STM-1 POS SPA provide the following optical fiber options:
• Multimode—155-Mbps, OC-3c/STM-1 optical fiber (SONET STS-3c or SDH STM-1)
Use a multimode optical fiber that has a core/cladding diameter of 62.5/125 microns.
• Single-mode—155-Mbps, OC-3c/STM-1 optical fiber (SONET STS-3c or SDH STM-1)
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.)
For single-mode and multimode optical fiber connections, you can use either a duplex LC-type cable (see
Figure 2-33 ) or two simplex LC-type cables, one for transmit (TX) and one for receive (RX).
Use single-mode (for intermediate-reach or long-reach configurations) or multimode optical fiber cable to connect your router to a network or to connect two 2-Port and 4-Port OC-3/STM-1 POS 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 them.
Figure 2-33 LC-Type Cable
/ /
/ /
/ /
RX TX
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4-Port OC-3/STM-1 POS SPA Overview
OC-3 Module Connections
Table 2-34 shows the OC-3 specifications of the optics on the 2-Port and 4-Port OC-3/STM-1 POS SPA.
Table 2-34 OC-3 Specifications
Specification
Wavelength
Cabling distance (maximum)
Operating case temperature range
TX power
Receiver sensitivity (maximum)
RX overload
Maximum receiver power damage
Description
OC-3 MM: 1270 nm to 1380 nm
OC-3 SR: 1260 nm to 1360 nm
OC-3 IR-1: 1261 nm to 1360 nm
OC-3 LR-1: 1263 nm to1360 nm
OC-3 LR-2: 1480 nm to 1580 nm
OC-3 MM: 2 km (1.2 miles)
OC-3 SR: 2 km (1.2 miles)
OC-3 IR-1: 15 km (9.3 miles)
OC-3 LR-1: 40 km (24.8 miles)
OC-3 LR-2: 80 km (49.7 miles)
OC-3 MM: 23 to 185 degrees F (–5 to 85 degrees C)
OC-3 SR: 23 to 185 degrees F (–5 to 85 degrees C)
OC-3 IR-1: 23 to 185 degrees F (–5 to 85 degrees C)
OC-3 LR-1: 23 to 185 degrees F (–5 to 85 degrees C)
OC-3 LR-2: 23 to 185 degrees F (–5 to 85 degrees C)
OC-3 MM: –19 to –14 dBm
OC-3 SR: –15 to –8 dBm
OC-3 IR-1: –15 to –8 dBm
OC-3 LR-1: –5 to 0 dBm
OC-3 LR-2: –5 to 0 dBm
OC-3 MM: –30 dBm
OC-3 SR: –23 dBm
OC-3 IR-1: –28 dBm
OC-3 LR-1: –34 dBm
OC-3 LR-2: –34 dBm
OC-3 MM: –5 dBm
OC-3 SR: –8 dBm
OC-3 IR-1: –8 dBm
OC-3 LR-1: –10 dBm
OC-3 LR-2: –10 dBm
OC-3 MM: +5 dBm
OC-3 SR: +5 dBm
OC-3 IR-1: +5 dBm
OC-3 LR-1: +5 dBm
OC-3 LR-2: +5 dBm
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8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Overview
8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Overview
The 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA is a single-height SPA that installs into one SIP subslot. The SPA with small form-factor pluggable (SFP) optical transceiver modules provides Optical
Carrier Level (OCn ) for SONET and Synchronous Transport Module (STMn ) for SDH network connectivity. On this SPA, any given port can use either an OC-3 or OC-12 SFP module, so the per-port bandwidth can be either 155.52 Mbps or 622.08 Mbps, respectively, depending on the customer configuration.
Note When SFP modules are replaced, the SPA interface retains any previously defined configurations. These configurations include settings for IP address, clock source, loopback, CRC, and POS flags.
For more information about SPA bandwidth, see the “Bandwidth Oversubscription” topic in this chapter.
For more information about SPAs and their compatibility with SIPs and modular optics, see the “SIP and
SPA Product Overview” chapter in this guide.
The following sections describe the 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA:
•
•
•
8-Port OC-3 STM-1/OC-12 STM-4 POS SPA LEDs, page 2-49
8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Interface Specifications, page 2-50
8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Optical Transceiver Modules and Cables, page 2-50
8-Port OC-3 STM-1/OC-12 STM-4 POS SPA LEDs
The 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA has three types of LEDs: two LEDs for each port on the SPA and one STATUS LED.
Figure 2-34 shows the 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA
faceplate.
Figure 2-34 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Faceplate
C/A
0
A/L C/A
1
A/L C/A
2
A/L C/A
3
A/L C/A
4
A/L C/A
5
A/L C/A
6
A/L C/A
7
A/L
1 2
STAT
U
S
3
1 C/A (Carrier/Alarm) LED
2 A/L (Active/Loopback) LED
3 STATUS LED
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8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Overview
Table 2-35 describes the 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA LEDs.
Table 2-35 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA LEDs
LED Label Color
C/A Off
Green
A/L
Amber
Off
Green
Amber
STATUS Off
Green
Amber
State
Off
On
On
Off
On
On
Off
On
On
Meaning
SONET controller is shut down.
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.
Interface is shut down.
Port is enabled by software, and loopback is off.
Port is enabled by software, and loopback is on.
SPA power is off.
SPA is ready and operational.
SPA power is on and good, and the SPA is being configured.
8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Interface Specifications
The framer processes incoming and outgoing SONET or SDH frames. The framer operates at OC-3 line rates (155.52 Mbps) and OC-12 line rates (622.08 Mbps). Packet data is transported with a user-configured encapsulation (such as Point-to-Point Protocol [PPP]) and is mapped into the Layer 2 frame.
The 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA interface complies with the following RFCs:
•
•
•
RFC 1662, PPP in HDLC-like Framing
RFC 2427, Multiprotocol Interconnect over Frame Relay
RFC 2615, PPP over SONET/SDH
8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Optical Transceiver Modules and
Cables
The 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA uses a small form-factor pluggable (SFP) optical transceiver module installed in each port for SONET and SDH single-mode and multimode optical fiber connections (see
).
Cisco Systems qualifies the optics that are approved for use with its SPAs. The following OC-3 optical transceiver modules are supported on the 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA:
•
•
•
•
•
Multimode (MM) SFP module—SFP-OC3-MM
Short-reach (SR) SFP module—SFP-OC3-SR
Intermediate-reach (IR) SFP module (15 km)—SFP-OC3-IR1
Long-reach (LR) SFP module (40 km)—SFP-OC3-LR1
Long-reach (LR) SFP module (80 km)—SFP-OC3-LR2
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8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Overview
The following OC-12 optical transceiver modules are supported on the 8-Port OC-3 STM-1/OC-12
STM-4 POS SPA:
•
•
•
•
•
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
Long-reach (LR) SFP module (80 km)—SFP-OC12-LR2
Figure 2-35 SFP Optics Module
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The following OC-3 optical fiber options are available for the 8-Port OC-3 STM-1/OC-12 STM-4 POS
SPA:
• Multimode—155.52-Mbps, OC-3 optical fiber (SONET STS-3c or SDH STM-1)
Use a multimode optical fiber that has a core/cladding diameter of 62.5/125 microns.
• Single-mode—155.52-Mbps, OC-3 optical fiber (SONET STS-3c or SDH STM-1)
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.)
The following OC-12 optical fiber options are available for the 8-Port OC-3 STM-1/OC-12 STM-4 POS
SPA:
•
•
Multimode—622.08-Mbps, OC-12 optical fiber (SONET STS-12c or SDH STM-4)
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 or SDH STM-4)
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.)
For single-mode and multimode optical fiber connections, you can use either a duplex LC-type cable (see
Figure 2-36 ) or two simplex LC-type cables, one for transmit (TX) and one for receive (RX).
Use single-mode (for short-, intermediate- or long-reach configurations) or multimode optical fiber cable to connect your router to a network or two OC-3-equipped or OC-12-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 them.
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Figure 2-36 LC-Type Cable
/ /
/ /
/ /
RX TX
OC-3 Module Connections
Table 2-36 shows the OC-3 specifications of the optics on the 8-Port OC-3 STM-1/OC-12 STM-4 POS
SPA.
Table 2-36
Specification
Wavelength
OC-3 Specifications
Cabling distance (maximum)
Operating case temperature range
TX power
Receiver sensitivity (maximum)
Description
OC-3 MM: 1270 nm to 1380 nm
OC-3 SR: 1260 nm to 1360 nm
OC-3 IR-1: 1261 nm to 1360 nm
OC-3 LR-1: 1263 nm to1360 nm
OC-3 LR-2: 1480 nm to 1580 nm
OC-3 MM: 2 km (1.2 miles)
OC-3 SR: 2 km (1.2 miles)
OC-3 IR-1: 15 km (9.3 miles)
OC-3 LR-1: 40 km (24.8 miles)
OC-3 LR-2: 80 km (49.7 miles)
OC-3 MM: 23 to 185 degrees F (–5 to 85 degrees C)
OC-3 SR: 23 to 185 degrees F (–5 to 85 degrees C)
OC-3 IR-1: 23 to 185 degrees F (–5 to 85 degrees C)
OC-3 LR-1: 23 to 185 degrees F (–5 to 85 degrees C)
OC-3 LR-2: 23 to 185 degrees F (–5 to 85 degrees C)
OC-3 MM: –19 to –14 dBm
OC-3 SR: –15 to –8 dBm
OC-3 IR-1: –15 to –8 dBm
OC-3 LR-1: –5 to 0 dBm
OC-3 LR-2: –5 to 0 dBm
OC-3 MM: –30 dBm
OC-3 SR: –23 dBm
OC-3 IR-1: –28 dBm
OC-3 LR-1: –34 dBm
OC-3 LR-2: –34 dBm
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8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Overview
Table 2-36
Specification
RX overload
OC-3 Specifications (continued)
Maximum receiver power damage
Description
OC-3 MM: –5 dBm
OC-3 SR: –8 dBm
OC-3 IR-1: –8 dBm
OC-3 LR-1: –10 dBm
OC-3 LR-2: –10 dBm
OC-3 MM: +5 dBm
OC-3 SR: +5 dBm
OC-3 IR-1: +5 dBm
OC-3 LR-1: +5 dBm
OC-3 LR-2: +5 dBm
OC-12 Module Connections
shows the OC-12 specifications of the optics on the 8-Port OC-3 STM-1/OC-12 STM-4 POS
SPA.
Table 2-37 OC-12 Specifications
Specification
Wavelength
Cabling distance (maximum)
Operating case temperature range
TX power
Receiver sensitivity (maximum)
Description
OC-12 MM: 1270 nm to 1380 nm
OC-12 SR: 1261 nm to 1360 nm
OC-12 IR-1: 1293 nm to 1334 nm
OC-12 LR-1: 1280 nm to 1335 nm
OC-12 LR-2: 1480 nm to 1580 nm
OC-12 MM: 0.5 km (0.3 miles)
OC-12 SR: 2 km (1.2 miles)
OC-12 IR-1: 15 km (9.3 miles)
OC-12 LR-1: 40 km (24.8 miles)
OC-12 LR-2: 80 km (49.7 miles)
OC-12 MM: 23 to 185 degrees F (–5 to 85 degrees C)
OC-12 SR: 23 to 185 degrees F (–5 to 85 degrees C)
OC-12 IR-1: 23 to 185 degrees F (–5 to 85 degrees C)
OC-12 LR-1: 23 to 185 degrees F (–5 to 85 degrees C)
OC-12 LR-2: 23 to 185 degrees F (–5 to 85 degrees C)
OC-12 MM: –20 to –14 dBm
OC-12 SR: –15 to –8 dBm
OC-12 IR-1: –15 to –8 dBm
OC-12 LR-1: –3 to 2 dBm
OC-12 LR-2: –3 to 2 dBm
OC-12 MM: –26 dB
OC-12 SR: –23 dBm
OC-12 IR-1: –28 dBm
OC-12 LR-1: –28 dBm
OC-12 LR-2: –28 dBm
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1-Port OC-12/STM-4 POS SPA Overview
Table 2-37
Specification
RX overload
OC-12 Specifications (continued)
Maximum receiver power damage
Description
OC-12 MM: –6 dBm
OC-12 SR: –8 dBm
OC-12 IR-1: –8 dBm
OC-12 LR-1: –8 dBm
OC-12 LR-2: –8 dBm
OC-12 MM: +5 dBm
OC-12 SR: +5 dBm
OC-12 IR-1: +5 dBm
OC-12 LR-1: +5 dBm
OC-12 LR-2: +5 dBm
1-Port OC-12/STM-4 POS SPA Overview
The 1-Port OC-12/STM-4 POS SPA is single-height SPA that installs into one SIP subslot. The 1-Port
OC-12/STM-4 POS SPA with a small form-factor pluggable (SFP) optical transceiver module provides
SONET and SDH network connectivity with a bandwidth of 622.08 Mbps.
For more information about SPA bandwidth, see the “Bandwidth Oversubscription” topic in this chapter.
For more information about SPAs and their compatibility with SIPs and modular optics, see the “SIP and
SPA Product Overview” chapter in this guide.
The following sections describe the 1-Port OC-12/STM-4 POS SPA:
•
•
•
1-Port OC-12/STM-4 POS SPA LEDs, page 2-54
1-Port OC-12/STM-4 POS SPA Interface Specifications, page 2-55
1-Port OC-12/STM-4 POS SPA SFP Optical Transceiver Modules and Cables, page 2-55
1-Port OC-12/STM-4 POS SPA LEDs
The 1-Port OC-12/STM-4 POS SPA has three types of LEDs. There are two LEDs for each port on the
SPA, and one STATUS LED.
Figure 2-37 shows an example of these LEDs on a 1-Port OC-12/STM-4
POS SPA.
Figure 2-37 1-Port OC-12/STM-4 POS SPA Faceplate
1
C/A
A/L
0
2
SPA-1XOC12-POS
STAT
U
S
3
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1-Port OC-12/STM-4 POS SPA Overview
1 C/A (Carrier/Alarm) LED
2 A/L (Active Loopback) LED
3 STATUS LED
The 1-Port OC-12/STM-4 POS SPA LEDs are described in
Table 2-38 1-Port OC-12/STM-4 POS SPA LEDs
LED Label
C/A
A/L
STATUS
Color
Off
Green
Amber
Off
Green
Amber
Off
Green
Amber
State
Off
On
On
Off
On
On
Off
On
On
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 good; SPA is being configured.
1-Port OC-12/STM-4 POS SPA Interface Specifications
The framer processes incoming and outgoing SONET or SDH frames. The framer operates at
OC-12/STM-4 line rates (622.08 Mbps).
Packet data is transported with a user-configured encapsulation (such as Point-to-Point Protocol [PPP]) and is mapped into the STS-12/STM-4 frame.
The 1-Port OC-12/STM-4 POS SPA interface is compliant with the following RFCs:
• RFC 1619, PPP over SONET/SDH
• RFC 1662, PPP in HDLC-like Framing
The 1-Port OC-12/STM-4 POS SPA also provides support for SNMP v1 agent (RFC 1155–1157) and
RFC 1213:
•
•
•
RFC 1155, Structure and Identification of Management Information for TCP/IP-based Internets
RFC 1156, Management Information Base for Network Management of TCP/IP-Based Internets
•
RFC 1157, Simple Network Management Protocol (SNMP)
RFC 1213, Management Information Base (MIB) for Network Management of TCP/IP-Based
Internets:MIB II .
1-Port OC-12/STM-4 POS SPA SFP Optical Transceiver Modules and Cables
The POS SPA uses a small form-factor pluggable (SFP) optical transceiver module installed in each port for SONET and SDH single-mode and multimode optical fiber connection (see
).
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1-Port OC-12/STM-4 POS SPA Overview
Cisco Systems qualifies the optics that are approved for use with its SPAs. The 1-Port OC-12/STM-4
POS 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
Figure 2-38 SFP Optics Module
The SFP optical transceiver modules used with the POS SPAs provide the following optical fiber options:
• Multimode—622.08-Mbps, OC-12 optical fiber (SONET STS-12 or SDH STM-4)
•
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-12 or SDH STM-4)
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.)
For single-mode and multimode optical fiber connections, you can use either a duplex LC-type cable (see
) or two simplex LC-type cables, one for transmit (TX) and one for receive (RX).
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 1-Port OC-12/STM-4 POS 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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Figure 2-39 LC-Type Cable
/ /
/ /
/ /
1-Port OC-48/STM-16 POS SPA Overview
RX TX
1-Port OC-48/STM-16 POS SPA Overview
The 1-Port OC-48/STM-16 POS SPA is a single-height SPA that is installed in a SIP subslot. The
1-Port OC-48/STM-16 POS SPA provides RPR over SONET (IEEE 802.17), SRP over SONET (Cisco
Proprietary), and Packet over SONET (POS) network connectivity with a bandwidth of 9.95 Gbps.
For more information about SPA bandwidth, see the “Bandwidth Oversubscription” topic in this chapter.
For more information about SPAs and their compatibility with SIPs and modular optics, see the “SIP and
SPA Product Overview” chapter in this guide.
The following sections describe the 1-Port OC-48/STM-16 POS SPA:
•
1-Port OC-48/STM-16 POS SPA LEDs, page 2-57
•
•
1-Port OC-48/STM-16 POS SPA Interface Specifications, page 2-58
1-Port OC-48/STM-16 POS SPA Optical Transceiver Modules, Connectors, and Cables, page 2-59
1-Port OC-48/STM-16 POS SPA LEDs
The 1-Port OC-48/STM-16 POS SPA has six LEDs, as shown in
Figure 2-40
1
2
1-Port OC-48/STM-16 POS SPA Faceplate
3
4
5
6
U
WRAP
MA
TESYNC
PASSTHR
0
C/A
A/L
CARRIER
TIVE
7
SPA-1XOC48POS/RPR
SPA-1XOC12-POS
ST
ATUS
8
1 WRAP LED
2 PASSTHRU LED
3 MATESYNC LED
4 C/A (Carrier/Alarm) LED
5 CARRIER LED
6 ACTIVE LED
7 A/L (Active Loopback) LED
8 STATUS LED
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Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
Note The WRAP, PASSTHRU, and MATESYNC LEDs apply to the SPA in RPR/SRP mode only.
The 1-Port OC-48/STM-16 POS SPA LEDs are described in
.
Table 2-39 1-Port OC-48/STM-16 POS SPA LEDs
LED Label
WRAP
A/L
CARRIER
Color
Off
Green
Amber
PASSTHRU Off
Amber
MATESYNC Off
Green
C/A Off
Green
Amber
Off
Green
Amber
Off
Green
ACTIVE
STATUS
Amber
Off
Green
Amber
Off
Green
Amber
Off
On
On
Off
On
On
Off
On
Off
On
State
Off
On
On
Meaning
Port is not in wrap mode.
Port is in wrap mode somewhere on the ring.
Port is in wrap mode locally.
Port is not in pass-thru mode.
Port is in pass-thru mode.
Mate port is not synchronized.
Mate port is synchronized.
On
On
Off
On
Off
On
On
Off
Port is not enabled by software.
Port is enabled by software.
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.
Port is not enabled by software.
Port is enabled by software; there is a valid SONET signal without alarms.
On Port is enabled by software; there is at least one alarm (LOS,
LOF, RDI, and so on).
Blinking Indicates SRP mode mismatch 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 off.
SPA is ready and operational.
SPA power is on and good; SPA is being configured.
1-Port OC-48/STM-16 POS SPA Interface Specifications
The framer processes incoming and outgoing SONET or SDH frames. The framer operates at
OC-48/STM-64 line rates (9.95 Gbps).
Packet data is transported with a user-configured encapsulation (such as Point-to-Point Protocol [PPP]) and is mapped into the STS-48/STM-64 frame.
The 1-Port OC-48/STM-16 POS SPA interface is compliant with the following RFCs:
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•
•
RFC 1662, PPP in HDLC-like Framing
RFC 2615, PPP over SONET/SDH
1-Port OC-48/STM-16 POS SPA Overview
1-Port OC-48/STM-16 POS SPA Optical Transceiver Modules, Connectors, and
Cables
The 1-Port OC-48/STM-16 POS SPA uses a single-mode, 9.95 Gbps, OC-48 optical fiber (SONET STS-48) optical transceiver module for SONET connection to the network.
The 1-Port OC-48/STM-16 POS SPA supports the following type of optical transceiver module:
•
•
Single-mode short reach (SR) SFP module—SFP-OC48-SROC-48/STM-16c
Single-mode intermediate reach (IR) SFP module—SFP-OC48-IR1OC-48/STM-16c
• Single-mode long reach (LR) SFP module—SFP-OC48-LR2OC-48/STM-16c
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.
Figure 2-41 shows the cable type for use with the XFP optical transceiver module on the
1-Port OC-48/STM-16 POS SPA.
Figure 2-41 LC-Type Cable for the SFP Optical Transceiver Modules
/ /
/ /
/ /
RX TX
Note The 40-pin connector on the 1-Port OC-48/STM-16 POS SPA is used for resilient packet ring (RPR) connections.
Mate Interface Cables
The 1-Port OC-48/STM-16 POS SPA supports two mate interface configurations:
• Mate between two OC-48 SPAs in the same SIP
• Mate between two OC-48 SPAs in adjacent SIPs
Two 1-Port OC-48/STM-16 POS SPAs are connected using a 40–pin connector copper mate cable. The length of the cables allow only two possible connection scenarios, next slot horizontal and same slot
connect the SPAs.
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2-Port and 4-Port OC-48/STM-16 POS SPA Overview
Figure 2-42 SPA Mate Cables
1
Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
2
1 Long length RPR mate cable for single port
RPR SPAs (CBL-RPR-OC48-L)
2 Short length RPR mate cable for single port
RPR SPAs (CAB-RPR-OC48-S)
Note The RPR mate cable is necessary only when the SPA is to be used in RPR mode. It is not needed in POS mode. Support for the RPR feature is dependent on the platform software release feature content. Verify support for the RPR feature support by reviewing the relevant SPA datasheets or by contacting your
Cisco representative.
2-Port and 4-Port OC-48/STM-16 POS SPA Overview
The following sections describe the 2-Port and 4-Port OC-48/STM-16 POS SPA:
•
2-Port and 4-Port OC-48/STM-16 POS SPA LEDs, page 2-61
•
•
2-Port and 4-Port OC-48/STM-16 POS SPA Interface Specifications, page 2-62
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2-Port and 4-Port OC-48/STM-16 POS SPA Overview
2-Port and 4-Port OC-48/STM-16 POS SPA LEDs
The 2-Port and 4-Port OC-48/STM-16 POS SPA has five types of LEDs: four LEDs for each port on the
SPA and one STATUS LED, as shown in
.
Figure 2-43 2-Port OC-48 POS/RPR SPA Faceplate
1 2
PTH
CAR
PR
T
AC
T
PTH
CAR
PR
T
AC
T
0
3 4
1
ST
AT
US
SPA-2XOC48-POS/RPR
5
1 PTH (Pass Through) LED
2 PRT (Protect) LED
3 CAR (Carrier Alarm) LED
4
5
ACT (Active Loopback) LED
STATUS LED
describes the 2-Port and 4-Port OC-48/STM-16 POS SPA LEDs.
Table 2-40 2-Port and 4-Port OC-48/STM-16 POS SPA LEDs
LED Label
PTH
CAR
PRT
ACT
Color
Off
Green
Off
Green
Amber
Amber
Off
Green
Green
Amber
Amber
Off
Green
Amber
State Meaning
Off
On
Off
On
Port is not in pass-through mode.
Port is in pass-through mode.
Port is not enabled by software.
Port is enabled by software, and there is a valid
SONET signal without any alarms.
On Port is enabled by software, and there is at least one alarm.
Flashing Port is enabled by software, and there is a side mismatch.
Off
On
Port is not wrapped or steering.
A node on the ring is wrapped.
Flashing A node on the ring is steering.
On Port is locally wrapped.
Flashing Port is locally steering.
Off Port is not enabled by software.
On
On
Port is enabled by software, and loopback is off.
Port is enabled by software, and loopback is on.
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2-Port and 4-Port OC-48/STM-16 POS SPA Overview
Table 2-40
LED Label
STATUS
2-Port and 4-Port OC-48/STM-16 POS SPA LEDs (continued)
Color
Off
Green
Amber
State
Off
On
On
Meaning
SPA power is off.
SPA is ready and operational.
SPA power is on and good, and the SPA is being configured.
2-Port and 4-Port OC-48/STM-16 POS SPA Interface Specifications
The physical layer interface for the 2-Port and 4-Port OC-48/STM-16 POS SPA is Optical Carrier-48
(OC-48), and provides SONET and SDH network connectivity with a per-port bandwidth of 2.488 Gbps.
Each port on the 2-Port and 4-Port OC-48/STM-16 POS SPA has one duplex LC-type receptacle that allows connection to single-mode optical fiber.
2-Port and 4-Port OC-48/STM-16 POS SPA Cables, Optical Transceiver
Modules, and Connectors
Use single-mode (for intermediate-reach configurations) optical fiber cable to connect your router to a network or to connect two OC-48-equipped routers back-to-back.
The 2-Port and 4-Port OC-48/STM-16 POS SPA supports the following types of optical transceiver modules:
•
•
Single-mode short-reach (SR) SFP module—SFP-OC48-SR OC48/STM16c
Single-mode intermediate-reach (IR) SFP module—SFP-OC48-IR1 OC48/STM16c
• Single-mode long-reach (LR) SFP module—SFP-OC48-LR2 OC48/STM16c
Each port on the 2-Port and 4-Port OC-48/STM-16 POS SPA has one duplex LC-type receptacle. For single-mode optical fiber connections, you can use either a duplex LC-type cable (see
) or two simplex LC-type cables, one for transmit (TX) and one for receive (RX).
Figure 2-44 LC-Type Cable
/ /
/ / / /
RX TX
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2-Port and 4-Port OC-48/STM-16 POS SPA Overview
OC-48 Module Connections
shows the OC-48 specifications for use with the 2-Port and 4-Port OC-48/STM-16 POS SPA.
Table 2-41 OC-48 Specifications
Specification
Wavelength
Cabling distance (maximum)
Operating case temperature range
TX power
Receiver sensitivity (maximum)
RX overload
Maximum receiver power damage
Description
OC-48 SR: 1266 nm to 1360 nm
OC-48 IR-1: 1260 nm to 1360 nm
OC-48 LR-2: 1500 nm to 1580 nm
OC-48 SR: 2 km (1.2 miles)
OC-48 IR-1: 15 km (9.3 miles)
OC-48 LR-2: 80 km (49.7 miles)
OC-48 SR: 23 to 158 degrees F (–5 to 70 degrees C)
OC-48 IR-1: 23 to 158 degrees F (–5 to 70 degrees C)
OC-48 LR-2: 23 to 158 degrees F (–5 to 70 degrees C)
OC-48 SR: –10 to –3 dBm
OC-48 IR-1: –5 to 0 dBm
OC-48 LR-2: –2 to +3 dBm
OC-48 SR: –18 dBm
OC-48 IR-1: –18 dBm
OC-48 LR-2: –28 dBm
OC-48 SR: –3 dBm
OC-48 IR-1: 0 dBm
OC-48 LR-2: –9 dBm
OC-48 SR: +5 dBm
OC-48 IR-1: +5 dBm
OC-48 LR-2: +5 dBm
Mate Interface Cables
The 2-Port and 4-Port OC-48/STM-16 POS SPA supports two mate interface configurations:
•
•
Mate between two OC-192 SPAs in the same SIP
Mate between two OC-192 SPAs in adjacent SIPs
Two SPAs are connected using a 40–pin connector copper mate cable. The length of the cables allow only two possible connection scenarios, next slot horizontal and same slot vertical. This assumes that the
chassis is mounted vertically. Figure 2-45 shows the mate cables used to connect the SPAs.
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2-Port OC-48 POS RPR SPA Overview
Figure 2-45 SPA Mate Cables
1
Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
2
1 Long length RPR mate cable for single port
RPR SPAs (CBL-RPR-OC192-L)
2 Short length RPR mate cable for single port
RPR SPAs (CAB-RPR-OC192-S)
2-Port OC-48 POS RPR SPA Overview
The following sections describe the 2-Port OC48-POS/RPR SPA:
•
•
2-Port OC48-POS/RPR SPA LEDs, page 2-64
2-Port OC48-POS/RPR SPA Interface Specifications, page 2-66
•
2-Port OC48-POS/RPR SPA Cables, Optical Transceiver Modules, and Connectors, page 2-66
2-Port OC48-POS/RPR SPA LEDs
The 2-Port OC48-POS/RPR SPA has five LEDs, as shown in
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2-Port OC-48 POS RPR SPA Overview
Figure 2-46 2-Port OC48-POS/RPR SPA Faceplate
1 2
PTH
CAR
PR
T
AC
T
PTH
CAR
PR
T
AC
T
0
3 4
1
STAT
U
S
SPA-2XOC48-POS/RPR
5
1 PTH (Pass-Through) LED
2 PRT (Protect) LED
3 CAR (Carrier/Alarm) LED
4
5
ACT (Active Loopback) LED
STATUS LED
The 2-Port OC48-POS/RPR SPA LEDs are described in
.
Table 2-42 2-Port OC48-POS/RPR SPA LEDs
LED Label
PTH
CAR
PRT
ACT
STATUS
Color
Off
Amber
Off
Green
Amber
Amber
Off
Green
Green
Amber
Amber
Off
Green
Amber
Off
Green
Amber
State
Off
On
Off
On
Meaning
Port is not in pass-through mode.
Port is in pass-through mode.
Port is not enabled by software.
Port is enabled by software, and there is a valid
SONET signal without any alarms.
On Port is enabled by software, and there is at least one alarm.
Blinking Port is enabled by software, and there is a side mismatch.
On
On
Off
On
On
Off
On
Port is not in wrap mode or steer.
A node on the ring is wrapped.
Blinking A node on the ring is steering pass-through
On Port is locally wrapped
Blinking Port is locally steering
Off 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 good, and SPA is being configured.
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Cisco XR12000 IPSec VPN SPA Overview
2-Port OC48-POS/RPR SPA Interface Specifications
The physical layer interface for the 2-Port OC48-POS/RPR SPA is Optical Carrier-48 (OC-48), and the
2-Port OC48-POS/RPR SPA is designed to comply with POS specifications. The
2-Port OC48-POS/RPR SPA provides two 2.488-Gbps network interfaces for all supported platforms.
2-Port OC48-POS/RPR SPA Cables, Optical Transceiver Modules, and
Connectors
Use single-mode (for intermediate-configurations) optical fiber cable to connect your router to a network or to connect two OC-48-equipped routers back-to-back.
The 2-Port OC48-POS/RPR SPA supports the following types of optical transceiver modules:
•
•
Single-mode short-reach (SR) SFP module—SFP-OC48-SR
Single-mode intermediate-reach (IR) SFP module —SFP-OC48-IR1
• Single-mode long-reach (LR) SFP module — SFP-OC48-LR2
Each port on the 2-Port OC48-POS/RPR SPA has one duplex LC-type receptacle. For single-mode optical fiber connections, you can use either a duplex LC-type cable (see
LC-type cables, one for transmit (TX) and one for receive (RX).
Figure 2-47 Duplex Patch Cable with LC-Type Connectors
/ /
/ /
/ /
RX TX
Cisco XR12000 IPSec VPN SPA Overview
The Cisco XR12000 IPSec VPN SPA (SPA) provides remote access and remote site VPN connectivity for the Cisco XR 12000 Series Router.
The following features are supported:
•
•
Site-to-Site communication over point-to-point IPSec/GRE tunnels
Remote User Access over IPSec tunnels.
Any slot of the Cisco XR 12000 Series Router that contains a Cisco XR 12000 SIP-401, Cisco XR 12000
SIP-501, or a Cisco XR 12000 SIP-601 can support up to two Cisco XR12000 IPSec VPN SPAs, or any mixture of the Cisco XR12000 IPSec VPN SPA with other interface SPA types on the same SIP card.
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Cisco XR12000 IPSec VPN SPA Overview
Note that the Cisco XR12000 IPSec VPN SPA (SPA-IPSEC-2G-2) supported on the Cisco XR 12000
Series Router is a different form factor from the IPSec VPN SPA supported on the Cisco 7600 router
(SPA-IPSEC-2G-1).
Warning Attempting to install a SPA-IPSEC-2G-1 into a Cisco XR 12000 SIP-401, Cisco XR 12000 SIP-501, or a
Cisco XR 12000 SIP-601 will result in mounting rail damage. Only the Cisco XR12000 IPSec VPN SPA
(SPA-IPSEC-2G-2) is supported on the Cisco XR 12000 Series Router.
The following sections describe the IPSec VPN SPA:
•
IPSec VPN SPA LEDs
The IPSec VPN SPA has one LED, as shown in
Figure 2-48 IPSec VPN SPA Faceplate
1
ST
ATUS
VPN SERVICES SPA SPA-IPSEC-2G
1 STATUS LED
The IPSec VPN SPA LED is described in
.
Table 2-43 IPSec VPN SPA LED
LED Label
STATUS
Color
Off
Amber
Green
State
Off
On
On
Meaning
SPA power is off.
SPA is on and good, and the SPA is being configured.
SPA is ready and operational.
Caution The Cisco XR 12000 SIP-401, Cisco XR 12000 SIP-501, and Cisco XR 12000 SIP-601 do not support the IPSec VPN SPA (SPA-IPSEC-2G). Installing a IPSec VPN SPA in these carrier cards could damage the guide rails.
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1-Port and 3-Port Clear Channel OC-3 ATM SPA Overview
Chapter 2 Overview: Cisco XR 12000 Series Router Shared Port Adapters
1-Port and 3-Port Clear Channel OC-3 ATM SPA Overview
The 1-Port and 3-Port Clear Channel OC-3 ATM SPA is a single-height SPA that installs into one SIP subslot. The Clear Channel OC-3 ATM SPA with small form-factor pluggable (SFP) optical transceiver modules provides SONET and SDH network connectivity with a per-port bandwidth of 155.52 Mbps.
For more information about SPA bandwidth, see the “Bandwidth Oversubscription” section in this chapter.
The following sections describe the 1-Port and 3-Port Clear Channel OC-3 ATM SPA:
•
1-Port and 3-Port Clear Channel OC-3 ATM SPA LEDs, page 2-68
•
•
1-Port and 3-Port Clear Channel OC-3 ATM SPA Interface Specifications, page 2-69
1-Port and 3-Port Clear Channel OC-3 ATM SPA Cables and Connectors, page 2-69
1-Port and 3-Port Clear Channel OC-3 ATM SPA LEDs
The 1-Port and 3-Port Clear Channel OC-3 ATM SPA has three types of LEDs. There are two LEDs for each port on the SPA, and one STATUS LED.
Figure 2-49 shows an example of these LEDs on a 3-Port
Clear Channel OC-3 ATM SPA.
Figure 2-49 3-Port Clear Channel OC-3 ATM SPA Faceplate
1 2 3
C/A
A/L
ST
AT
U
S
Port 0 Port 1 Port 2
SPA-3XOC3-ATM-V2
0
1 2
1 C/A (Carrier/Alarm) LED
2 A/L (Active Loopback) LED
3 STATUS LED
The 1-Port and 3-Port Clear Channel OC-3 ATM SPA LEDs are described in
.
Table 2-44 1-Port and 3-Port Clear Channel OC-3 ATM SPA LEDs
LED Label
C/A
A/L
Color
Off
Green
Amber
Off
State
Off
On
On
Off
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.
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Table 2-44
LED Label
STATUS
1-Port and 3-Port Clear Channel OC-3 ATM SPA Overview
1-Port and 3-Port Clear Channel OC-3 ATM SPA LEDs (continued)
Color
Green
Amber
Off
Amber
Green
State
On
On
Off
On
On
Meaning
Port is enabled by software, and loopback is off.
Port is enabled by software, and loopback is on.
SPA power is off.
SPA power is on and good, and SPA is being configured.
SPA is ready and operational.
1-Port and 3-Port Clear Channel OC-3 ATM SPA Interface Specifications
The physical layer interface for the 1-Port and 3-Port Clear Channel OC-3 ATM SPA is Optical Carrier-3
(OC-3), and the data link layer is designed to comply with ATM specifications. The 1-Port and 3-Port
Clear Channel OC-3 ATM SPA provides up to one and three 155-Mbps OC-3 network interfaces, respectively, for all supported platforms.
Each SPA port accepts an SFP module with a duplex LC-type receptacle that allows connection to single-mode or multimode optical fiber.
1-Port and 3-Port Clear Channel OC-3 ATM SPA Cables and Connectors
The 1-Port and 3-Port Clear Channel OC-3 ATM SPA uses a small form-factor pluggable (SFP) optical transceiver module installed in each port for SONET and SDH single-mode and multimode optical fiber connection (see
Figure 2-50 SFP Optics Module
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The SFP optical transceiver modules used with the 1-Port and 3-Port Clear Channel OC-3 ATM SPA provide the following optical fiber options:
• Multimode—155-Mbps, OC-3 optical fiber (SONET STS-3c or SDH STM-1)
Use a multimode optical fiber that has a core/cladding diameter of 62.5/125 microns.
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1-Port Clear Channel OC-12 ATM SPA Overview
• Single-mode—155-Mbps, OC-3 optical fiber (SONET STS-3c or SDH STM-1)
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.)
For single-mode and multimode optical fiber connections, you can use either a duplex LC-type cable (see
) or two simplex LC-type cables, one for transmit (TX) and one for receive (RX).
Use a single-mode (for intermediate-reach or long-reach configurations) or multimode optical fiber cable to connect your router to a network or to connect two OC-3-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 them.
Figure 2-51 Duplex Patch Cable with LC-Type Connectors
/ /
/ /
/ /
RX TX
1-Port Clear Channel OC-12 ATM SPA Overview
The 1-Port Clear Channel OC-12 ATM SPA is a single-height ATM SPA that can be installed into one
SIP subslot. The OC-12 ATM SPA with small form-factor pluggable (SFP) optical transceiver modules provides SONET and SDH network connectivity with a per-port bandwidth of 622.08 Mbps. For more information about SPA bandwidth, see the “Bandwidth Oversubscription” section in this chapter.
The following sections describe the 1-Port Clear Channel OC-12 ATM SPA:
•
•
•
1-Port Clear Channel OC-12 ATM SPA LEDs, page 2-70
1-Port Clear Channel OC-12 ATM SPA Interface Specifications, page 2-71
1-Port Clear Channel OC-12 ATM SPA Cables and Connectors, page 2-72
1-Port Clear Channel OC-12 ATM SPA LEDs
The 1-Port Clear Channel OC-12 ATM SPA has three types of LEDs. There are two LEDs for the port on the SPA, and one STATUS LED, as shown in
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Figure 2-52
1-Port Clear Channel OC-12 ATM SPA Overview
1-Port Clear Channel OC-12 ATM SPA Faceplate
1 2 3
C/A
A/L
ST
AT
US
Port 0
SPA-1XOC12-ATM-V2
0
1 C/A (Carrier/Alarm) LED
2 A/L (Active Loopback) LED
3 STATUS LED
The 1-Port Clear Channel OC-12 ATM SPA LEDs are described in
Table 2-45 1-Port Clear Channel OC-12 ATM SPA LEDs
LED Label
C/A
A/L
STATUS
Color
Off
Green
Amber
Off
Green
Amber
Off
Amber
Green
State
Off
On
On
Off
On
On
Off
On
On
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, and loopback is off.
Port is enabled by software, and loopback is on.
SPA power is off.
SPA power is on and good, and SPA is being configured.
SPA is ready and operational.
1-Port Clear Channel OC-12 ATM SPA Interface Specifications
The physical layer interface for the 1-Port Clear Channel OC-12 ATM SPA is Optical Carrier-12
(OC-12), and the 1-Port Clear Channel OC-12 ATM SPA is designed to comply with ATM specifications.
The 1-Port Clear Channel OC-12 ATM SPA provides one 622.08 Mbps OC-12 network interface for all supported platforms.
The single SPA port accepts an SFP module with a duplex LC-type receptacle that allows connection to single-mode or multimode optical fiber.
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1-Port Clear Channel OC-12 ATM SPA Overview
1-Port Clear Channel OC-12 ATM SPA Cables and Connectors
The 1-Port Clear Channel OC-12 ATM SPA uses a small form-factor pluggable (SFP) optical transceiver module installed in each port for SONET and SDH single-mode and multimode optical fiber connection
(see
).
The 1-Port Clear Channel OC-12 ATM 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
Long-reach (LR) SFP module (80 km)—SFP-OC12-LR2
The SR, IR, and LR1 transceivers provide a full-duplex 622.08-Mbps, laser-based SONET/SDH- compliant interface with an average wavelength of 1310 nm. The LR2 transceivers provide a full-duplex,
622.08-Mbps, laser-based SONET/SDH-compliant interface with an average wavelength of 1530 nm.
The multimode transceiver provides a full-duplex, 622.08-Mbps, LED-based SONET/SDH-compliant interface with an average wavelength of 1325 nm.
Figure 2-53 SFP Optics Module
The 1-Port Clear Channel OC-12 ATM SPA provides the following optical fiber options:
• Multimode—622.08-Mbps, OC-12 optical fiber (SONET STS-12c or SDH STM-4)
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 or SDH STM-4)
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.)
For single-mode and multimode optical fiber connections, you can use either a duplex LC-type cable (see
) or two simplex LC-type cables, one for transmit (TX) and one for receive (RX).
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Figure 2-54
2-Port Channelized T3/E3 ATM CEoP SPA Overview
Duplex Patch Cable with LC-Type Connectors
/ /
/ /
/ /
RX TX
2-Port Channelized T3/E3 ATM CEoP SPA Overview
The following sections describe the 2-Port Channelized T3/E3 ATM CEoP SPA:
•
•
•
2-Port Channelized T3/E3 ATM CEoP SPA LEDs
2-Port Channelized T3/E3 ATM CEoP SPA Interface Specifications
2-Port Channelized T3/E3 ATM CEoP SPA Cables and Connectors
2-Port Channelized T3/E3 ATM CEoP SPA LEDs
The 2-Port Channelized T3/E3 ATM CEoP SPA has three types of LEDs (see
two LEDs for each port on the SPA, and a single STATUS LED for the SPA.
Figure 2-55 2-Port Channelized T3/E3 ATM CEoP SPA Faceplate
3
4
0
TX RX
1 2
C/A
A/L
TX
1
RX
C/A
A/L
ST
ATUS
SPA-2CHT3-CE-ATM
5
1 TX (Transmit) connector
2 RX (Receive) connector
3 C/A (Carrier/Alarm) LED
4
5
A/L (Active/Loopback)
STATUS LED
The 2-Port Channelized T3/E3 ATM CEoP SPA LEDs are described in
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2-Port Channelized T3/E3 ATM CEoP SPA Overview
Table 2-46
LED Label
C/A
A/L
STATUS
2-Port Channelized T3/E3 ATM CEoP SPA LEDs
Color
Off
Green
Amber
Off
Green
Amber
Off
Amber
Green
State
Off
On
On
Off
On
On
Off
On
On
Meaning
Port is not enabled by software.
Port is enabled by software.
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 power is on and good, and SPA is being configured.
SPA is ready and operational.
2-Port Channelized T3/E3 ATM CEoP SPA Interface Specifications
The framer processes incoming and outgoing T3 (cbit, m13/m23, and unframe) and E3 (g751 and unframe) frames. The framer operates at T3 or E3 line rates (44.736 or 34.368 Mbps), depending on the mode in which it is configured.
Note For Cisco IOS XR Software Release 3.7.0, the 2-Port Channelized T3/E3 ATM CEoP SPA supports T3
ATM only. E3 ATM is not supported.
T3/E3 data is encapsulated and sent across the MPLS network over user-configurable pseudowires.
In ATM mode, data is encapsulated into ATM cells and transported across the network.
In circuit emulation (CE) mode, channelized data is encapsulated in structured mode using the Circuit
Emulation Services over Packet Switched Network (CESoPSN) format, and unchannelized data is encapsulated in unstructured mode using Structure-Agnostic TDM over Packet (SAToP) format.
The encapsulation adds transport overhead to the CEM frames or ATM cells before transport and removes the overhead at the far end.
Note For Cisco IOS XR Software Release 3.7.0, the 2-Port Channelized T3/E3 ATM CEoP SPA does not support circuit emulation (CE) mode.
The T3/E3 SPA interface is compliant with ANSI and Telco standards. The interface also provides support for Management Information Base (MIB) RFC 2495, RFC 2496, and T1.231.
2-Port Channelized T3/E3 ATM CEoP SPA Cables and Connectors
The interface connectors on the 2-Port Channelized T3/E3 ATM CEoP SPA are 75-ohm coaxial Siemax types, with one connector and cable for transmit (TX) and one for receive (RX).
The following cables can be used with the 2-Port Channelized T3/E3 ATM CEoP SPA. The cables have
BNC connectors on one end and the Siemax connectors on the other. If similar SPAs are connected back-to-back, both ends of the cable are Siemax.
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24-Port Channelized T1/E1/J1 ATM CEoP SPA Overview
•
•
•
CAB-T3E3-RF-BNC-M (T3 or E3 Cable, 1.0/2.3 RF to BNC-Male, 10 feet)
CAB-T3E3-RF-BNC-F (T3 or E3 Cable, 1.0/2.3 RF to BNC-Female, 10 feet)
CAB-T3E3-RF-OPEN (T3 or E3 Cable, 1.0/2.3 RF to BNC-Open end, 10 feet)
Note •
•
The Cisco cable part numbers are 72-4124-01 (with male BNC end) and 72-4131-01 (with female
BNC end).
The SPA can receive data over the cable up to a maximum distance of 1350 ft (411.5 meters).
Figure 2-55 shows the connectors on the 2-Port Channelized T3/E3 ATM CEoP SPA, and
describes the signal descriptions for these connectors.
Table 2-47 2-Port Channelized T3/E3 ATM CEoP SPA Connectors
Connector Label
TX
RX
Meaning
Transmitted signals appear on the center contact, and the outer shield is ground for the 75-ohm RG-59 coaxial cable you attach to the TX Siemax connector.
Received signals appear on the center contact, and the outer shield is ground for the 75-ohm RG-59 coaxial cable you attach to the RX Siemax connector.
24-Port Channelized T1/E1/J1 ATM CEoP SPA Overview
The following sections describe the 24-Port Channelized T1/E1/J1 ATM CEoP SPA:
• 24-Port Channelized T1/E1/J1 ATM CEoP SPA LEDs
•
•
•
24-Port Channelized T1/E1/J1 ATM CEoP SPA Interface Specifications
24-Port Channelized T1/E1/J1 ATM CEoP SPA Cables and Connectors
24-Port Channelized T1/E1/J1 ATM CEoP SPA Patch Panel
24-Port Channelized T1/E1/J1 ATM CEoP SPA LEDs
The 24-Port Channelized T1/E1/J1 ATM CEoP SPA has two types of LEDs, as shown in this figure:
Figure 2-56 24-Port Channelized T1/E1/J1 ATM CEoP SPA Faceplate
TX / RX A
C
A
C
0 1
12 13
2 3
14 15
4 5
16 17
6 7 8 9 10 11
ST
ATUS
18 19 20 21 22 23
B1
1 2
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1 A/C (Alarm/Carrier) LEDs 2 STATUS LED
The 24-Port Channelized T1/E1/J1 ATM CEoP SPA LEDs are described in the following table.
Table 2-48 24-Port Channelized T1/E1/J1 ATM CEoP SPA LEDs
LED Label
STATUS
A/C
Color
Off
Amber
Green
Off
Green
Amber
State
Off
On
On
Off
On
On
Meaning
SPA power is off.
SPA power is on and good, and SPA is being configured.
SPA is ready and operational.
Port is not enabled by software.
Port is enabled by software.
Port is enabled by software, and there is at least one alarm.
24-Port Channelized T1/E1/J1 ATM CEoP SPA Interface Specifications
The physical layer interface for the 24-Port Channelized T1/E1/J1 ATM CEoP SPA is a customer-installed high-density connector. The high-density connector has thumbscrews which should be screwed into the SPA when the cable is installed.
24-Port Channelized T1/E1/J1 ATM CEoP SPA Cables and Connectors
The 24-Port Channelized T1/E1/J1 ATM CEoP SPA requires a Cisco cable (part number
CABLE-24T1E1J1), which is shown in the following figure.
Figure 2-57
1 51
24-Port Channelized T1/E1/J1 ATM CEoP SPA High-Density Cable
50 100
50
25
26
1
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Cable Installation
One end of the cable has a 100-pin connector that plugs into the front of the 24-Port Channelized
T1/E1/J1 ATM CEoP SPA. Use the thumbscrews on either side of the connector to secure the cable to the SPA.
The other end of the cable has two 50-pin Telco connectors that attach to the rear of a 24-port RJ-45 patch panel. Both connectors are identical: one is for Transmit (TX) and the other is for Receive (RX).
The following figure shows how the cable is connected between the 24-Port Channelized T1/E1/J1 ATM
CEoP SPA and the patch panel.
Figure 2-58 Cable Installation between SPA and Patch Panel
SPA-24CHT1-CE-A
TM
24-Port Patch Panel
(rear view, rotated
180 o
for clarity)
TRANSMIT
RECEIVE
SPA Cable Pinouts
The following table shows the cable pinouts for the cable (part number CABLE-24T1E1J1) that is installed between the 24-Port Channelized T1/E1/J1 ATM CEoP SPA and the rear of the patch panel.
Table 2-49 24-Port Channelized T1/E1/J1 ATM CEoP SPA Cable Connector Pinouts
Subscriber
Line
Line 1
Line 2
Line 3
Signal
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
4
54
28
78
3
53
27
77
Connector Pins
SPA
2
52
26
76
TX Cable Lead
1
26
Not connected
RX Cable Lead
Not connected
1
26
2
27
Not connected
Not connected 2
27
3
28
Not connected
Not connected 3
28
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Table 2-49
Subscriber
Line
Line 4
Line 5
Line 6
Line 7
Line 8
Line 9
Line 10
Line 11
Line 12
Line 13
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
Signal
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
24-Port Channelized T1/E1/J1 ATM CEoP SPA Cable Connector Pinouts (continued)
12
62
36
86
13
63
37
87
14
64
38
88
10
60
34
84
11
61
35
85
8
58
32
82
9
59
33
83
6
56
30
80
7
57
31
81
5
55
29
79
Connector Pins
SPA TX Cable Lead RX Cable Lead
4
29
Not connected
Not connected 4
29
5
30
Not connected
Not connected 5
30
6
31
Not connected
Not connected 6
31
7
32
Not connected
Not connected 7
32
8
33
Not connected
Not connected 8
33
9
34
Not connected
Not connected 9
34
10
35
Not connected
Not connected 10
35
11
36
Not connected
Not connected 11
36
12
37
Not connected
Not connected 12
37
13
38
Not connected
Not connected 13
38
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Table 2-49
Subscriber
Line
Line 14
Line 15
Line 16
Line 17
Line 18
Line 19
Line 20
Line 21
Line 22
Line 23
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
Signal
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
TX Tip
TX Ring
RX Tip
RX Ring
24-Port Channelized T1/E1/J1 ATM CEoP SPA Cable Connector Pinouts (continued)
22
72
46
96
23
73
47
97
24
74
48
98
20
70
44
94
21
71
45
95
18
68
42
92
19
69
43
93
16
66
40
90
17
67
41
91
15
65
39
89
Connector Pins
SPA TX Cable Lead RX Cable Lead
14
39
Not connected
Not connected 14
39
15
40
Not connected
Not connected 15
40
16
41
Not connected
Not connected 16
41
17
42
Not connected
Not connected 17
42
18
43
Not connected
Not connected 18
43
19
44
Not connected
Not connected 19
44
20
45
Not connected
Not connected 20
45
21
46
Not connected
Not connected 21
46
22
47
Not connected
Not connected 22
47
23
48
Not connected
Not connected 23
48
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Table 2-49
Subscriber
Line
Line 24
24-Port Channelized T1/E1/J1 ATM CEoP SPA Cable Connector Pinouts (continued)
Signal
TX Tip
TX Ring
RX Tip
RX Ring
25
75
49
99
Connector Pins
SPA TX Cable Lead RX Cable Lead
24
49
Not connected
Not connected 24
49
RJ-45 Cable Pinouts
T1 lines from individual subscribers are attached to RJ-45 connectors on the front of the 24-port patch panel. Each RJ-45 port accommodates an individual T1 subscriber line.
Pins 1 and 2 and 4 and 5 of the RJ-45 connectors are used for the 24-port CEoP SPA’s Transmit (TX) and Receive (RX) signals. Depending on how the cable is installed between the SPA and its patch panel
(rear), the RJ-45 connectors operate as follows:
•
•
If the TX cable lead is connected to Transmit on the patch panel and RX is connected to Receive:
– The SPA’s TX signals are transmitted on RJ-45 pins 1 (ring) and 2 (tip).
– The SPA’s RX signals are received on RJ-45 pins 4 (ring) and 5 (tip).
If the TX cable lead is connected to Receive on the patch panel and RX is connected to Transmit:
–
–
RJ-45 pins 1 and 2 are used for the SPA’s RX signal.
RJ-45 pins 4 and 5 are used for the SPA’s TX signal.
Patch Panel Cabling
If you are connecting two 24-Port Channelized T1/E1/J1 ATM CEoP SPAs to each other, you must cable both SPA’s patch panels together using a T1 cross-over cable or a T1 straight-through cable. The type of cable you use (cross-over or straight-through) depends on how the CEoP SPAs are cabled to their patch panels:
•
•
If both CEoP SPAs are connected to their patch panels in the same manner (TX to Transmit and
RX to Receive, or TX to Receive and RX to Transmit), use a T1 cross-over cable to connect the patch panels to each other.
If both CEoP SPAs are connected to their patch panels in a different configuration (TX to Transmit and RX to Receive on one SPA, and TX to Receive and RX to Transmit on the other SPA), use a
T1 straight-through cable (standard RJ-45 patch cable) between the patch panels.
24-Port Channelized T1/E1/J1 ATM CEoP SPA Patch Panel
The recommended patch panel is part number DCC2484/25T1S from SMP Data Communications
( http://www.smpdata.com
).
To order the patch panel, contact the Sales and Marketing Support staff at SMP Data Communications:
•
•
•
800-880-7674 (toll free in the U.S.A.)
828-298-2260 (outside the U.S.A.) [email protected]
(email)
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For product support for the patch panel, contact Cisco Engineering Support at SMP Data
Communications:
•
•
•
800-880-7674 (toll free in the U.S.A.)
828-298-2260 (outside the U.S.A.) [email protected]
(email)
1-Port Channelized OC-3 ATM CEoP SPA Overview
The following sections describe the 1-Port Channelized OC-3 ATM CEoP SPA:
• 1-Port Channelized OC-3 ATM CEoP SPA LEDs
•
•
1-Port Channelized OC-3 ATM CEoP SPA Interface Specifications
1-Port Channelized OC-3 ATM CEoP SPA Optical Transceiver Modules and Cables
1-Port Channelized OC-3 ATM CEoP SPA LEDs
The 1-Port Channelized OC-3 ATM CEoP SPA has three types of LEDs. There are two LEDs for the port on the SPA, and one STATUS LED as shown in the following figure.
Figure 2-59 1-Port Channelized OC-3 ATM CEoP SPA Faceplate
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1 C/A (Carrier/Alarm) LED
2 A/L (Active Loopback) LED
3 STATUS LED
The 1-Port Channelized OC-3 ATM CEoP SPA LEDs are described in the following table.
Table 2-50 1-Port Channelized OC-3 ATM CEoP SPA LEDs
LED Label
C/A
A/L
Color
Off
Green
Amber
Off
Green
State
Off
On
On
Off
On
Meaning
Port is not enabled by software.
Port is enabled by software.
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.
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Table 2-50
LED Label
STATUS
1-Port Channelized OC-3 ATM CEoP SPA LEDs (continued)
Color
Amber
Off
Amber
Green
State
On
Off
On
On
Meaning
Port is enabled by software, loopback is on.
SPA power is off.
SPA power is on and good, and SPA is being configured.
SPA is ready and operational.
1-Port Channelized OC-3 ATM CEoP SPA Interface Specifications
The physical layer interface for the 1-Port Channelized OC-3 ATM CEoP SPA is Optical Carrier-3
(OC-3). The 1-Port Channelized OC-3 ATM CEoP SPA provides one 155.52-Mbps OC-3 network interface for all supported platforms.
The single SPA port accepts an SFP module with a duplex LC-type receptacle that allows connection to optical fiber.
1-Port Channelized OC-3 ATM CEoP SPA Optical Transeiver Modules and
Cables
•
•
•
Cisco Systems qualifies the optics that are approved for use with its SPAs. The 1-Port Channelized OC-3
ATM CEoP SPA supports the following types of optical transceiver modules:
•
•
Multimode (MM) SFP module—SFP-OC3-MM
Short Reach (SR) SFP module—SFP-OC3-SR
Intermediate Reach (IR) SFP module (15 km)—SFP-OC3-IR1
Long Reach (LR) SFP module (40 km)—SFP-OC3-LR1
Long Reach 2 (LR2) SFP module (80 km)—SFP-OC3-LR2
1-Port 10-Gigabit Ethernet DWDM SPA Overview
The following sections describe the 1-Port 10-Gigabit Ethernet DWDM SPA:
•
•
1-Port 10-Gigabit Ethernet SPA LEDs
1-Port 10-Gigabit Ethernet SPA XFP Optical Transceiver Modules, Connectors, and Cables
1-Port 10-Gigabit Ethernet DWDM SPA LEDs
The 1-Port 10-Gigabit Ethernet DWDM SPA has three LEDs: an ACTIVE/LINK LED for the port, a
CARRIER LED, and a STATUS LED, as shown in this figure.
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Figure 2-60
1-Port 10-Gigabit Ethernet DWDM SPA Overview
1-Port 10-Gigabit Ethernet DWDM SPA Faceplate
1 2 3
RX
0
TX
ACTIVE/LINK
CARRIER
ST
ATUS
SPA-1X10GE-L-ITUC
1 ACTIVE/LINK LED
3 STATUS LED
2 CARRIER LED
The 1-Port 10-Gigabit Ethernet DWDM SPA LEDs are described in this table.
Table 2-51 1-Port 10-Gigabit Ethernet DWDM SPA LEDs
LED Label Color
ACTIVE/LINK Off
CARRIER
Green
Amber
Off
Green
STATUS
Amber
Off
Amber
Green
State
Off
On
On
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.
Port is not enabled by software.
Port is enabled by software, and the interface is receiving valid frames, and the PCS is locked.
Port is enabled by software, but there are active alarms that indicate either an out-of-frame condition or a PCS loss-of-lock condition.
SPA power is off.
SPA power is on and good, and SPA is being configured.
SPA is ready and operational.
1-Port 10-Gigabit Ethernet DWDM SPA XFP Optical Transceiver Modules,
Connectors, and Cables
The 1-Port 10-Gigabit Ethernet DWDM SPA supports the following types of optical transceiver modules:
•
•
Multi-mode short reach (SR) XFP module—XFP-10G-MM-SR
Single-mode short reach (SR) XFP module—XFP-10GLR
• Single-mode intermediate reach (IR) XFP module—XFP-10GER
Cisco Systems qualifies the optics that are approved for use with its SPAs.
As of Cisco IOS Release 12.0(31)S, the above listed 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.
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1-Port 10-Gigabit Ethernet WAN PHY SPA Overview
The 1-Port 10-Gigabit Ethernet DWDM SPA has an in-built XFP optical transceiver module, and so, an external XFP module is not required.
This figure shows the cable type for use with the XFP optical transceiver module on the 1-Port
10-Gigabit Ethernet SPA.
Figure 2-61 LC-Type Cable for the XFP Optical Transceiver Modules
/ /
/ /
/ /
RX TX
Note The 40-pin connector on the 1-Port 10-Gigabit Ethernet SPA is used for resilient packet ring (RPR) connections.
1-Port 10-Gigabit Ethernet WAN PHY SPA Overview
The 1-Port 10-Gigabit Ethernet SPA is a single-height SPA that installs into one SIP subslot. There are two types of 1-Port 10-Gigabit Ethernet SPA: the SPA-1X10GE-L-V2 and the SPA-1X10GE-WL-V2.
The SPA-1X10GE-L-V2 supports the 10-Gigabit Ethernet LAN physical layer device (PHY) mode of operation at an optical interface bit rate of 10.3125 Gbps. The SPA-1X10GE-WL-V2 supports both the
10-Gigabit Ethernet LAN PHY mode of operation (at 10.3125 Gbps) as well as the 10-Gigabit Ethernet
WAN PHY mode of operation (at 9.95328 Gbps). The following sections describe the 1-Port 10-Gigabit
Ethernet SPA.
•
1-Port 10-Gigabit Ethernet SPA LEDs, page 2-84
•
1-Port 10-Gigabit Ethernet SPA XFP Optical Transceiver Modules, Connectors, and Cables, page 2-85
1-Port 10-Gigabit Ethernet SPA LEDs
The 1-Port 10-Gigabit Ethernet SPA has two LEDs, as shown in Figure 2-62
.
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Figure 2-62 1-Port 10-Gigabit Ethernet SPA Faceplate
1-Port 10-Gigabit Ethernet WAN PHY SPA Overview
ACTIVE/LINK
1
SPA-1X10GE-L-V2
ST
ATUS
2
1 ACTIVE/LINK LED 2 STATUS LED
describes the 1-Port 10-Gigabit Ethernet SPA LEDs. The LED behavior applies to both the
SPA-1X10GE-L-V2 and the SPA-1X10GE-WL-V2 regardless of the mode of operation.
Table 2-52 1-Port 10-Gigabit Ethernet SPA LEDs
LED Label Color
ACTIVE/LINK Off
STATUS
Green
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 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
Single-mode very-long reach (ZR) XFP module—XFP-10GZR-OC192LR
Cisco qualifies the optics that are approved for use with its SPAs. As of Cisco IOS XR Software Release
4.3.0, the above-listed XFP modules 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.
type for use with the XFP optical transceiver module on the 1-Port
10-Gigabit Ethernet SPA.
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Figure 2-63 LC-Type Cable for the XFP Optical Transceiver Modules
/ /
/ /
/ /
RX TX
XFP Module Connections
The 10GLR, 10GER, and 10GZR 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 LAN PHY mode) and
9.95328 Gbps (10-Gigabit Ethernet WAN PHY mode) on single-mode fibers (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 1550-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 the technology type and model.
shows an XFP module and
shows the XFP module specifications.
Figure 2-64 XFP Module
XFP module dimensions are:
•
•
•
Height: 12.5 mm
Width: 18.35 mm
Length: 71.1mm
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Table 2-53 XFP Module Specifications
Specification
Wavelength (TX)
Cabling distance (maximum)
Operating case temperature range
Description
10GLR SR-1: 1260 nm to 1355 nm
10GER IR-2: 1530 nm to 1565 nm
10GZR LR-2: 1530 nm to 1565 nm
10GLR SR-1: 6.2 miles (10 km)
10GER IR-2: 24.8 miles (40 km)
10GZR LR-2: 50 miles (80 km)
10GLR SR-1: 23 to 158 degrees F (–5 to 70 degrees C)
10GER IR-2: 23 to 158 degrees F (–5 to 70 degrees C)
10GZR LR-2: 23 to 158 degrees F (–5 to 70 degrees C)
Storage temperature range
TX power
10GLR SR-1: –40 to 185 degrees F (–40 to 85 degrees C)
10GER IR-2: –40 to 185 degrees F (–40 to 85 degrees C)
10GZR LR-2: –40 to 185 degrees F (–40 to 85 degrees C)
10GLR SR-1: –8.2 to 0.5 dBm
10GER IR-2: –4.7 to 4 dBm
10GZR LR-2: 0 to 4 dBm
Receiver sensitivity (maximum) 10GLR SR-1: –12.6 dBm
10GER IR-2: –14.1 dBm
10GZR LR-2: –24 dBm
RX overload 10GLR SR-1: 0.5 dBm
10GER IR-2: –1.0 dBm
10GZR LR-2: –7.0 dBm
Maximum receiver power damage
10GLR SR-1: +5 dBm
10GER IR-2: +5 dBm
10GZR LR-2: +5 dBm
XFP Port Cabling Specifications
shows the port cabling specifications for an XFP module.
Table 2-54 XFP Port Cabling Specifications
XFP Wavelength
XFP-10GLR-OC192SR 1310 nm
XFP-10GER-OC192IR 1550 nm
XFP-10GZR-OC192LR 1550 nm
Fiber Type
SMF
SMF
SMF
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C H A P T E R
3
Preparing to Install a Shared Port Adapter or a
SPA Interface Processor
This chapter describes the general equipment, safety, and site preparation requirements for installing
SIPs and SPAs. This chapter contains the following sections:
•
•
•
Preventing Electrostatic Discharge, page 3-3
Required Tools and Equipment, page 3-4
Safety Guidelines
Before you perform any procedure in this publication, review the safety guidelines in this section to avoid injuring yourself or damaging the equipment.
The following guidelines are for your safety and to protect equipment. The guidelines do not include all hazards. Be alert.
•
•
•
•
•
Electromagnetic Compatibility Regulatory Statements, page 3-2
Electrical Equipment Guidelines, page 3-2
Telephone Wiring Guidelines, page 3-2
Safety Warnings
Note Review the safety warnings listed in the Regulatory Compliance and Safety Information for Cisco XR
12000 Series Internet Router publication (Document Number 78-4347-xx) that accompanied your router before installing, configuring, or maintaining a line card.
•
•
Keep the work area clear and dust free during and after installation. Do not allow dirt or debris to enter into any laser-based components.
Do not wear loose clothing, jewelry, or other items that could get caught in the router while working with line cards.
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Safety Guidelines
Chapter 3 Preparing to Install a Shared Port Adapter or a SPA Interface Processor
• Cisco equipment operates safely when it is used in accordance with its specifications and product usage instructions.
Electromagnetic Compatibility Regulatory Statements
Electromagnetic compatibility regulatory statements are listed in the Regulatory Compliance and Safety
Information for XR Cisco 12000 Series Internet Router publication (Document Number 78-4347-xx) that accompanied your router. Review these before installing, configuring, or maintaining your SIP or
SPA.
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.
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.
•
•
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.
Laser/LED Safety
The single-mode transmitter in the module 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
3-2
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Figure 3-1 Laser Warning Labels for Single-Mode Port
CLASS 1 LASER PRODUCT
LASERPRODUKT DER KLASSE 1
PRODUIT LASER DE CLASSE 1
1
PRODUCTO LASER CLASE 1
Preventing Electrostatic Discharge
Warning Invisible laser radiation may be emitted from the aperture ports of the single-mode products when no fiber cable is connected. Avoid exposure and do not stare into open apertures.
Warning Class 1 laser product.
The multimode aperture contains a Class 1 LED warning label, as shown in
.
Figure 3-2 Class 1 LED Warning Label for Multimode Port
CLASS 1 LED PRODUCT
PRODUKT MIT KLASSE 1 LED
PRODUIT AVEC VOYANT DEL
DE CLASSE 1
LED
PRODUCTO LED DE LA CLASE 1
Warning Because invisible laser radiation may be emitted form the aperture of the port when no fiber cable is connected, avoid exposure to radiation and do not stare into open apertures.
Warning Class 1 LED product.
Preventing Electrostatic Discharge
Electrostatic discharge (ESD) damage, which can occur when electronic cards or components are improperly handled, results in complete or intermittent failures. Electromagnetic interference (EMI) shielding is an integral component of the line card. Cisco recommends using an ESD-preventive strap whenever you are handling network equipment or one of its components.
The following are guidelines for preventing ESD damage:
• Always use an ESD-preventive wrist or ankle strap and ensure that it makes good skin contact.
Connect the equipment end of the connection cord to an ESD connection socket on the router or to bare metal on the chassis.
•
•
•
Handle SIPs by the captive installation screws, the provided handle, ejector levers, or the line card metal carrier only; avoid touching the board or connector pins.
Place removed SIPs board-side-up on an antistatic surface or in a static shielding bag. If you plan to return the component to the factory, immediately place it in a static shielding bag.
Avoid contact between the SIPs and clothing. The wrist strap only protects the board from ESD voltages on the body; ESD voltages on clothing can still cause damage.
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Required Tools and Equipment
Chapter 3 Preparing to Install a Shared Port Adapter or a SPA Interface Processor
Warning For safety, periodically check the resistance value of the ESD strap. The measurement should be between 1 and 10 megohms.
Required Tools and Equipment
You need the following tools and parts to remove and install SIPs:
• Flat-blade or Phillips screwdriver
•
•
ESD-preventive wrist or ankle strap and instructions
Interface cables to connect the SIP with another router or switch
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4
Installing and Removing a SPA Interface
Processor
This chapter describes how to install or remove SIPs on the Cisco XR 12000 Series Router. This chapter contains the following sections:
•
•
Removing and Installing a SIP, page 4-2
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
“Preparing to Install a Shared Port Adapter or a SPA
Interface Processor” for a list of parts and tools required for installation.
Caution Always handle the SIP by the carrier edges and handle; never touch the SIP components or connector pins. (See
.)
When a slot is not in use, a blank must fill 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 an SIP in a slot that is not in use, you must first remove the blank.
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Removing and Installing a SIP
Figure 4-1 Handling a SIP
Printed circuit board
Chapter 4 Installing and Removing a SPA Interface Processor
Metal carrier
GND
Removing and Installing a SIP
The following sections describe the procedures for removing and installing SIPs:
•
•
•
Guidelines for SIP Removal and Installation
Note Some of the procedures in the following sections use illustrations of a Cisco 12012 Router to support the descriptions of removing and installing SIPs. Although the card cages of Cisco XR 12000 Series Routers differ, the designated use of slots and the process of installing and removing a SIP are basically the same.
Therefore, separate procedures and illustrations are not included in this publication.
Guidelines for SIP Removal and Installation
Guidelines for SIP removal and installation include the following:
• Online insertion and removal (OIR) is supported, enabling you to remove and install SIPs while the router is operating. OIR is seamless to users on the network, maintains all routing information, and ensures session preservation.
Note With OIR, notifying the software or resetting the power is not required. However, you have the option of using the shutdown command before removing a SIP.
• After you reinstall a SIP, the router automatically downloads the necessary software from the route processor (RP). Next, the router brings online only those interfaces that match the current configuration and were previously configured as administratively up . You must configure all others with the configure command.
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Removing and Installing a SIP
Caution The router may indicate a hardware failure if you do not follow proper procedures. Remove or insert only one SIP at a time. Allow at least 15 seconds for the router to complete the preceding tasks before removing or inserting another SIP.
• SIPs have two ejector levers to release the card from its backplane connector. Use the levers when you are removing the SIP and to seat the SIP firmly in its backplane connector when you are installing the SIP. The ejector levers align and seat the card connectors in the backplane.
Caution When you remove a SIP, always use the ejector levers to ensure that the connector pins disconnect from the backplane in the logical sequence expected by the router. Any card that is only partially connected to the backplane can halt the router.
When you install a SIP, always use the ejector levers to ensure that the card is correctly aligned with the backplane connector; the connector pins should make contact with the backplane in the correct order, indicating that the card is fully seated in the backplane. A card that is only partially seated in the backplane will cause the router to hang and subsequently crash.
Removing a SIP
If you are replacing a failed SIP, remove the existing SIP first, then install the new SIP in the same slot.
To remove a SIP, use Figure 4-2
as a reference and follow these steps:
Step 1
Step 2
Step 3
Step 4
Attach an ESD-preventive wrist strap and follow its instructions for use.
Disconnect and remove all interface cables from the ports; note the current connections of the cables to the ports on the SIP.
Detach the SIP cable-management bracket from the SIP.
Use a screwdriver to loosen the captive screw at each end of the SIP faceplate. (See Figure 4-2
.)
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Removing and Installing a SIP
Figure 4-2 SIP Removal and Installation
Chapter 4 Installing and Removing a SPA Interface Processor a Loosen captive screws b Pivot ejector levers away from card to unseat card c Grasp card carrier to slide card out of slot
0
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12000-SIP-600
Caution When you remove a SIP, always use the ejector levers to ensure that the SIP connector pins disconnect from the backplane in the logical sequence expected by the router. Any SIP that is only partially connected to the backplane can halt the router.
Step 5
Step 6
Step 7
Step 8
Step 9
Simultaneously pivot the ejector levers away from each other to release the SIP from the backplane
.)
Grasp the ejector levers and pull the SIP halfway out of the slot.
Grasp the SIP by the handle and gently pull it straight out of the slot, keeping your other hand under the
SIP to guide it. (See
Figure 4-2 .) Avoid touching the SIP printed circuit board, components, or any
connector pins.
Place the removed SIP on an antistatic mat, or immediately place it in an antistatic bag if you plan to return it to the factory.
If the SIP slot is to remain empty, install a line card blank (Product Number MAS-GSR-BLANK) to keep dust out of the chassis and to maintain proper airflow through the SIP compartment. Secure the SIP blank to the chassis by tightening its captive screws.
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Removing and Installing a SIP
Installing a SIP
A SIP slides into almost any available SIP slot and connects directly to the backplane. If you install a new SIP, you must first remove the SIP blank from the available slot.
Note Refer to the installation and configuration guide for your router for information on SIP slot types, slot width, and slot location.
Caution The router may indicate a hardware failure if you do not follow proper procedures. Remove or insert only one SIP at a time. Allow at least 15 seconds for the router to complete the preceding tasks before removing or inserting another SIP.
To install a SIP, follow these steps:
Step 1
Step 2
Attach an ESD-preventive wrist or ankle strap and follow its instructions for use.
Choose an available SIP slot for the SIP, and verify that the SIP interface cable is long enough for you to connect the SIP with any external equipment.
Caution To prevent ESD damage, handle SIPs by the captive installation screws, the provided handle, ejector levers, or the card carrier edges only. Do not touch any of the electrical components or circuitry.
Step 3
Step 4
Grasp the handle of the SIP with one hand and place your other hand under the card carrier to support the weight of the card; position the card for insertion into the card cage slot. Avoid touching the SIP printed circuit board, components, or any connector pins.
Carefully slide the SIP into the slot until the ejector levers make contact with the edges of the card cage, then stop when the ejector lever hooks catch the lip of the card cage. If they do not catch, try reinserting the SIP until the ejector lever hooks are fully latched. (See
Figure 4-3 Ejector Levers
When inserting a card, make sure that the ejector lever hooks catch the lip of the card cage.
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Chapter 4 Installing and Removing a SPA Interface Processor
Removing and Installing a SIP
Caution When you install a SIP, always use the ejector levers to ensure that the card is correctly aligned with the backplane connector, the card connector pins make contact with the backplane in the correct order, and the card is fully seated in the backplane. A card that is only partially seated in the backplane can cause the router to hang and subsequently crash.
Step 5
Step 6
Simultaneously pivot both ejector levers toward each other until they are perpendicular to the SIP faceplate. This action firmly seats the card in the backplane.
Use a 3/16-inch flat-blade screwdriver to tighten the captive screw on each end of the SIP faceplate to ensure proper EMI shielding and to prevent the SIP from becoming partially dislodged from the backplane. Tighten the locking thumbscrews on both sides of the SIP to a torque of between 8.3 and 11 inch-pounds (94 to 124 N-cm). Do not overtighten.
Caution To ensure adequate space for additional SIPs, always tighten the captive installation screws on each newly installed SIP before you insert any additional SIPs. These screws also prevent accidental removal and provide proper grounding and EMI shielding for the router.
Step 7
Step 8
Install the SPAs and SFP modules in the SPAs that use them. Refer to
“Installing and Removing a Shared
Port Adapter” section on page 5-1 .
Install the interface cables.
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5
Installing and Removing a Shared Port Adapter
This chapter describes how to install or remove SPAs on the Cisco XR 12000 Series Router. This chapter contains the following sections:
•
•
•
•
•
Online Insertion and Removal, page 5-2
SPA Installation and Removal, page 5-2
Optical Device Installation and Removal, page 5-3
Checking the Installation, page 5-4
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
“Preparing to Install a Shared Port Adapter or a SPA
Interface Processor” 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 pins. (See
.)
When a slot is not in use, a blank must fill the empty slot 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 slot that is not in use, you must first remove the blank.
Figure 5-1 Handling a SPA
Metal carrier
Printed circuit board
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Online Insertion and Removal
Online Insertion and Removal
Cisco XR 12000 Series Router SIPs and SPAs support online insertion and removal (OIR). SPAs can be inserted or removed independently from the SIP. OIR of a SIP with installed SPAs is also supported.
SPA Installation and Removal
You can install one single-width SPA in an SIP. This section provides step-by-step instructions for removing and installing a SPA in an SIP.
Warning When performing the following procedures, wear a grounding wrist strap to avoid ESD damage to the
SPA. 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.
To remove and install a SPA in an SIP, refer to
and do the following:
Step 1
Step 2
Step 3
Step 4
Step 5
To insert the SPA in the SIP, locate the guide rails inside the SIP that hold the SPA in place. They are at the top left and top right of the SPA slot and are recessed about an inch, as shown in C of
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, turn the SPA lock to its locked and horizontal position, as shown in A of
.
To remove the SPA from the SIP, turn the SPA lock from its locked and horizontal position shown in A of
to its unlocked and vertical position shown in B of
Figure 5-2 . (If the SIP is still in the
router, you must remove the SIP before removing a SPA.)
Grasp the handle of the SPA and pull the SPA from the SIP. (You have already disconnected the cables from the SPA when removing the SIP).
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Figure 5-2 SPA Installation and Removal
A B
Optical Device Installation and Removal
7300-CC-PA
OIR
STATUS
7300 PA CAR
RIER
ENABLED
ATM
C
7300-CC-PA
EN
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D
ATM
7300-CC-P
A
OIR
STATUS
7300 PA CARRIER
Optical Device Installation and Removal
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.
Cleaning Optical Devices
Refer to the Inspection and Cleaning Procedures for Fiber-Optic Connections document for information on cleaning optical devices.
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Chapter 5 Installing and Removing a Shared Port Adapter
Checking the Installation
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 5-4
•
•
Using show Commands to Verify SIP and SPA Status, page 5-5
Using show Commands to Verify SIP and SPA Status, page 5-5
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 STATUS LED should be green (on) and the SPA
STATUS LEDs should be 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.
Note A POS interface is used in the following examples for illustrative purposes.
The following sample display shows the events logged by the system as a SIP with a POS SPA was removed from module slot 4 in the router. In this example, interface 0 (interface 4/0/0) on the POS SPA was up and active when the SIP was removed from the router. Note that the system logs that the SIP card was removed from slot 4 and that interface 4/0/0 is changed to down .
Router#
00:06:17:%WS_ALARM-6-INFO:ASSERT CRITICAL slot 4 Active Card Removed OIR Alarm
00:06:17:%OIR-6-REMCARD:Card removed from slot 4, interfaces disabled
00:06:18:%LINEPROTO-5-UPDOWN:Line protocol on Interface pos4/0/0, changed state to down
When you reinsert the SIP with the installed POS SPA, the system automatically brings up the interface that was changed to down when the SIP was removed.
Router#
00:07:29:%OIR-6-INSCARD:Card inserted in slot 4, interfaces administratively shut down
00:07:32:%WS_ALARM-6-INFO:CLEAR CRITICAL slot 4 Active Card Removed OIR Alarm
00:07:35:%LINK-3-UPDOWN:Interface pos4/0/0, changed state to up
00:07:36:%LINEPROTO-5-UPDOWN:Line protocol on Interface pos4/0/0, changed state to up
Use the following procedure to verify that a SIP and SPA are installed correctly:
5-4
Step 1
Step 2
Observe the console display messages and verify that the system discovers the SIP, while the system reinitializes each interface, as follows:
• As a SIP is initialized, the STATUS LED will first be yellow, indicating that power is on, but the SIP is being configured. When the SIP is active, the STATUS LED will illuminate green.
• SPAs will follow the same sequence once the SIP has completed its initialization. The SPA STATUS
LEDs will illuminate yellow, turning to green when the SPAs become active.
When the SIP and SPA STATUS LEDs are green, all associated interfaces are configurable.
Refer to the Cisco IOS XR Getting Started Guide for configuration instructions.
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Checking the Installation
•
•
If a SIP or SPA is replaced with a module of the same type (as in an OIR or hardware swap), the previous configuration will be reinstated when the SIP or SPA becomes active.
If a SIP or SPA has not been previously installed in the same slot or subslot, then the configuration for all associated interfaces will be empty.
Note New interfaces are not available until you configure them.
Step 3 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 an FPD upgrade, then console messages will indicate that the FPD process has been initiated. The upgrade process might take several minutes. Use the show fpd upgrade process command to obtain information about the FPD process. SIPs or SPAs that undergo an FPD upgrade will automatically be rebooted. Return to
.
• If there is no indication that an FPD upgrade is underway, see
Chapter 6, “Troubleshooting the
Using show Commands to Verify SIP and SPA Status
The following procedure uses show commands to verify that the new SPAs are configured and operating correctly.
Step 1
Step 2
Step 3
Step 4
Use the show running-config command to display the system configuration. Verify that the configuration includes the new SPA interfaces.
Display all of the current SPAs and a summary of their status using the show hw-module subslot oir command.
Display information about the installed SIPs using the show diag command.
Use the show hw-module subslot fpd command to verify the FPD version information of the SPAs installed in the system.
Note If a SPA does not meet the minimum version required, it will automatically be updated. If the update fails, the failing module will be powered down and an error message will be reported on the system console.
Step 5 Finally, you can use the show version command to obtain a few details on the installed SIPs and interfaces available.
Using show Commands to Display SPA Information
describes the show commands you can use to display SPA information.
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Checking the Installation
Table 5-1 show hw-module subslot oir show diag show hw-module subslot fpd show version show Commands to Display SPA Information
Command show running-config
Type of Information Provided
The router’s running configuration and interfaces available in the system.
The operational status of all SPAs in the system.
SPA type in that slot, number of ports, hardware revision, part number, and EEPROM contents.
FPD version information of SPAs in the system.
Cisco IOS software version, names and sources of configuration files, and boot images.
Table 5-2 show Commands to Display SPA Information
Command show controllers type slot/subslot/port show interfaces type slot/subslot/port
Type of Information Provided
Network link status, register contents, and controller chip errors.
Line status and data link protocol status for a particular SPA port. Statistics about data traffic sent and received by the port.
Example show controllers pos 2/3/0 show interfaces pos 2/2/0
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Table 5-2
Command show diag slot show version show Commands to Display SPA Information
Type of Information Provided
SPA type in that slot, number of ports, hardware revision, part number, and EEPROM contents.
Example show diag 4
Cisco IOS software version, names and sources of configuration files, and boot images.
show version
Checking the Installation
Note A Fast Ethernet interface is used in the following examples for illustrative purposes.
The following sample display shows the events logged by the system as an SIP with a Fast Ethernet SPA was removed from module slot 3; the system then reinitializes the remaining interface processors and marks as down the Fast Ethernet interface on the SIP that was removed from slot 3.
Router#
18:04:29: %OIR-6-REMCARD: Card removed from slot 3, interfaces disabled
18:04:30: %LINEPROTO-5-UPDOWN: Line protocol on Interface FastEthernet3/0, changed state to down
When you reinsert the SIP, the system automatically brings up the interfaces that were up when the SIP was removed.
Router#
18:05:00: %OIR-6-INSCARD: Card inserted in slot 3, interfaces administratively shut down
18:05:08: %LINEPROTO-5-UPDOWN: Line protocol on Interface FastEthernet3/0, changed state to up
Note When a new SIP is inserted or when a SIP is moved to a new slot, the system recognizes the new interfaces but leaves them in the shutdown state until you configure them and change their state to up.
The following sample display shows the events logged by the system as you insert a new SIP in module slot 3.
Router#
18:05:25: %LINEPROTO-5-UPDOWN: Line protocol on Interface FastEthernet3/1, changed state to down
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Use the following procedure to verify that the SIP is installed correctly:
Step 1
Step 2
Step 3
Observe the console display messages and verify that the system discovers the SIP, while the system reinitializes each interface, as follows:
•
•
If you installed a new SIP, the STATUS LED should be on (green). The system should recognize all new interfaces but leave them configured as down .
If you replaced a SIP, the STATUS LED should be on (green). The system does not recognize each interface and places it in the administratively down state .
Verify that the ENABLED LED on the SPA goes on (is green) and remains on after the reinitialization is complete. If the ENABLED LED remains on, proceed to
Step 5 . If the ENABLED LED does not
remain on, proceed to
If the ENABLED LED on a SPA fails to go on, the SPA or the SIP might not be fully seated even if the
SPA lock is in the locked and horizontal position . When a SPA is not recognized, the SIP is deactivated, and its OIR LED is yellow.
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Checking the Installation
Step 4
Step 5
•
•
•
•
•
Insert the SPA in the SIP by sliding the SPA all the way in 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.
Insert the SIP into the router.
•
• After the system reinitialization, the ENABLED LED on the SPA should go on and remain on. If the
ENABLED LED remains on, proceed to
Step 5 . If it does not, proceed to Step 4
.
If the ENABLED LED on a SPA still fails to go on, remove the SIP and install it in another available slot on the router.
• If the ENABLED LED goes on, suspect a failed backplane port in the original slot.
If the ENABLED LED fails to go on, remove the SIP and ensure the SPA is firmly seated in its slot.
Remove and reinstall it accordingly.
•
Remove the SIP from the router.
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.
•
If the ENABLED LED still fails to go on, but other LEDs on the SIP SPA go on to indicate activity, proceed to
to resume the installation checkout; suspect that the ENABLED LED on the SPA has failed. Contact a service representative to report the problem and obtain further instructions.
If no LEDs on the SPA go on:
–
–
Verify that the SPA is supported on the SIP and that it has the required hardware revision. If the
SPA is not supported or has an old hardware revision, the show diag command indicates that the SIP is deactivated.
Suspect a faulty SIP. Contact a service representative to report the problem and obtain further instructions.
If the SPA is new and is not a replacement, configure the new SPA using Cisco xxxx Series Router SIP and SPA Software Configuration Guide .
Note New interfaces are not available until you configure them.
Step 6
Step 7
Step 8
Step 9
If the SIP is a replacement, use the show interfaces type slot-number/port-number command or the show controllers command to verify the status of the SPAs. (See the
“Using show Commands to Verify
SIP and SPA Status” section on page 5-5 .)
If you replaced a SIP with another SIP with a different SPA installed, the system recognizes the interfaces on the previously configured SPA but does not recognize the new SPA interfaces. The new interfaces remain in the shutdown state until you configure them.
When the interfaces are up, check the activity of each SPA by observing the status LEDs.
If an interface LED fails to go on and a cable is connected to the interface port, check the cable connection and make certain it is properly seated in the connector.
Repeat
to verify that any additional MSCs are properly installed.
If you experience other problems that you are unable to solve, contact TAC (see the
Documentation and Submitting a Service Request” section on page -xii
in the
representative for assistance.
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Chapter 5 Installing and Removing a Shared Port Adapter
Checking the Installation
To configure the new interface, use Cisco xxxx Series Router SIP and SPA Software Configuration
Guide .
Using the ping Command to Verify Network Connectivity
This section provides brief descriptions of the ping command. The ping command allows you to verify that a SPA port is functioning properly and to check the path between a specific port and connected devices at various locations on the network. After you verify that the system and the SIP have booted successfully and are operational, you can use this command to verify the status of the SPA ports. Refer
to the publications listed in the “Related Documentation” section on page xii
for detailed command descriptions and examples.
The ping command sends an echo request out to a remote device at an IP address that you specify. After sending a series of signals, the command waits a specified time for the remote device to echo the signals.
Each returned signal is displayed as an exclamation point (!) on the console terminal; each signal that is not returned before the specified timeout is displayed as a period (.). A series of exclamation points
(!!!!!) indicates a good connection; a series of periods (.....) or the messages [timed out] or [failed] indicate that the connection failed.
Following is an example of a successful ping command to a remote server with the IP address 10.1.1.60:
Router# ping 10.1.1.60 <Return>
Type escape sequence to abort.
Sending 5, 100-byte ICMP Echoes to 10.1.1.60, timeout is 2 seconds:
!!!!!
Success rate is 100 percent (5/5), round-trip min/avg/max = 1/15/64 ms
Router#
If the connection fails, verify that you have the correct IP address for the server and that the server is active (powered on), and repeat the ping command.
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Checking the Installation
Chapter 5 Installing and Removing a Shared Port Adapter
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C H A P T E R
6
Troubleshooting the Installation
This chapter describes how to troubleshoot the installation of SIPs and SPAs on the Cisco XR 12000
Series Router. This chapter contains the following sections:
•
Troubleshooting the SIP, page 6-1
•
•
•
Using debug Commands, page 6-1
Packing a SIP for Shipment, page 6-2
Packing a SPA for Shipment, page 6-3
Troubleshooting the SIP
If a SIP fails to operate or to power up upon installation:
• Make sure that the SIP is seated firmly in the line card chassis slot. One easy way to verify physical installation is to see whether the front faceplate of the SIP is even with the fronts of the other PLIMs installed in the card cage.
•
•
•
•
Check whether the ejector levers are latched and that the captive screws are fastened properly. If you are uncertain, unlatch the levers, loosen the screws, and attempt to reseat the SIP.
Determine whether there are any active alarms by looking at the alarm LEDs on the route processor.
Examine the power distribution units (PDUs) to see whether the chassis, as a whole, is receiving power.
Use the LED on the SIP to verify the correct installation and operation of the card. The STATUS
LED indicates whether the card is properly seated and operating correctly:
•
•
•
Green—The card is properly installed and operating correctly.
Amber—A problem exists on the SIP.
Off (dark)—Verify that the card is installed correctly. Also verify that there is power to the card by looking at the indicators on the power shelf (16-slot) or PDU (8-slot).
Using debug Commands
Along with the other debug commands supported on the Cisco XR 12000 Series Router, you can obtain specific debug information for SPAs on the Cisco XR 12000 Series Router using the debug spa privileged EXEC command.
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Chapter 6 Troubleshooting the Installation
Packing a SIP for Shipment
The debug spa 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.
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:
• Clipboard insert
•
•
•
Smaller inner carton
Larger exterior carton
Two packing cushions
Caution The Cisco Systems original packaging is to be used 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, perform the following steps:
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Insert the SIP into the clipboard insert by carefully aligning the edges of the SIP between the upper and lower edges of the clipboard insert.
Slide the SIP all the way into the clipboard insert until it clicks into place. You might have to lift the clip assembly to ensure that it securely engages with the sheet-metal carrier.
Place the clipboard insert containing the SIP into the smaller inner carton.
Close the carton top, and tape the sides closed.
Apply the packing cushions to the sealed smaller inner carton.
Place the sealed smaller inner carton and packing cushions into the larger exterior carton, and seal the exterior carton with tape for shipment.
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Chapter 6 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 The Cisco Systems original packaging is to be used 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, perform the following 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 the container stays closed during shipping.
Place the Thermoform container into the carton.
Close the carton.
Apply tape over the carton flap to ensure the carton stays closed during shipping.
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G L O S S A R Y
D double height Describes the dimension of a SPA that occupies two, vertically-aligned SIP subslots.
F
FPD 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 XR image is released that supports SPAs, a companion SPA FPD image package is also released for that Cisco IOS XR software release.
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
SPA subslot
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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.
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.
Cisco XR 12000 Series Router SIP and SPA Hardware Installation Guide
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Glossary
GL-6
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Table of contents
- 1 Cisco XR 12000 Series Router SIP and SPA Hardware Installation Guide
- 3 Contents
- 9 Preface
- 9 Changes to This Document
- 11 Objectives
- 11 Organization
- 12 Related Documentation
- 13 1
- 13 Overview: Cisco XR 12000 Series Router SPA Interface Processors
- 13 SIP and SPA Compatibility
- 13 Table 1-1 SIP and SPA Compatibility on the Cisco XR 12000 Series Router
- 14 Router Hardware Installation
- 15 Supported Platforms
- 15 SIP Summary
- 15 Table 1-2 SIP Summary
- 16 SIP Software and Hardware Compatibility
- 16 Table 1-3 SIP Hardware and Software Compatibility
- 16 Cisco XR 12000 SIP-600 Overview
- 16 Cisco XR 12000 SIP-600 Board Components
- 17 Figure 1-1 Cisco XR 12000 SIP-600 Board—Rear View
- 17 Cisco XR 12000 SIP-600 LEDs
- 17 Figure 1-2 Cisco XR 12000 SIP-600 Face Plate
- 17 Table 1-4 Cisco XR 12000 SIP-600 LEDs
- 18 Cisco XR 12000 SIP-600 Physical Specifications
- 18 Table 1-5 Cisco XR 12000 SIP-600 Physical Specifications
- 18 SPA Subslot Numbering on the Cisco XR 12000 SIP-600
- 18 Figure 1-3 Subslot Locations for the 1-Port 10-Gigabit Ethernet SPA
- 18 Table 1-6 Subslot Locations for the 1-Port 10-Gigabit Ethernet SPA
- 18 SPA Interface Addresses on the Cisco XR 12000 SIP-600
- 19 Figure 1-4 Slot, Subslot, and Port Locations for the 1-Port 10-Gigabit Ethernet SPA and the 10-Port Gigabit Ethernet SPA.
- 19 Table 1-7 Slot and Port Locations for the 1-Port 10-Gigabit Ethernet SPA
- 19 Cisco XR 12000 SIP-401 Overview
- 20 Cisco XR 12000 SIP-401 Board Components
- 20 Figure 1-5 Cisco XR 12000 SIP-401 Board—Rear View
- 20 Cisco XR 12000 SIP-401 LEDs
- 20 Figure 1-6 Cisco XR 12000 SIP-401 Face Plate
- 20 Table 1-8 Cisco XR 12000 SIP-401 LED
- 21 Cisco XR 12000 SIP-401 Physical Specifications
- 21 Table 1-9 Cisco XR 12000 SIP-401 Physical Specifications
- 21 SPA Slot Numbering on the Cisco XR 12000 SIP-401
- 21 Figure 1-7 Cisco XR 12000 SIP-401 with SPAs Installed
- 22 SPA Interface Addresses on the Cisco XR 12000 SIP-401
- 22 Figure 1-8 Cisco 12000 Series Router with Cisco XR 12000 SIP-401 Installed
- 23 Cisco XR 12000 SIP-501 Overview
- 23 Cisco XR 12000 SIP-501 Board Components
- 23 Figure 1-9 Cisco XR 12000 SIP-501 Board—Rear View
- 23 Cisco XR 12000 SIP-501 LEDs
- 23 Figure 1-10 Cisco XR 12000 SIP-501 Face Plate
- 24 Table 1-10 Cisco XR 12000 SIP-501 LEDs
- 24 Cisco XR 12000 SIP-501 Physical Specifications
- 24 Table 1-11 Cisco XR 12000 SIP-501 Physical Specifications
- 24 SPA Subslot Numbering on the Cisco XR 12000 SIP-501
- 24 Figure 1-11 Subslot Locations for the 1-Port 10-Gigabit Ethernet SPA
- 25 Table 1-12 Subslot Locations for the 1-Port 10-Gigabit Ethernet SPA
- 25 SPA Interface Addresses on the Cisco XR 12000 SIP-501
- 25 Figure 1-12 Slot, Subslot, and Port Locations for the 1-Port 10-Gigabit Ethernet SPA and the 10-Port Gigabit Ethernet SPA.
- 26 Table 1-13 Slot and Port Locations for the 1-Port 10-Gigabit Ethernet SPA
- 26 Cisco XR 12000 SIP-601 Overview
- 26 Cisco XR 12000 SIP-601 Board Components
- 26 Figure 1-13 Cisco XR 12000 SIP-601 Board—Rear View
- 26 Cisco XR 12000 SIP-601 LEDs
- 27 Figure 1-14 Cisco XR 12000 SIP-601 Face Plate
- 27 Table 1-14 Cisco XR 12000 SIP-601 LEDs
- 27 Cisco XR 12000 SIP-601 Physical Specifications
- 27 Table 1-15 Cisco XR 12000 SIP-601 Physical Specifications
- 27 SPA Subslot Numbering on the Cisco XR 12000 SIP-601
- 28 Figure 1-15 Subslot Locations for the 1-Port 10-Gigabit Ethernet SPA
- 28 Table 1-16 Subslot Locations for the 1-Port 10-Gigabit Ethernet SPA
- 28 SPA Interface Addresses on the Cisco XR 12000 SIP-601
- 29 Figure 1-16 Slot, Subslot, and Port Locations for the 1-Port 10-Gigabit Ethernet SPA and the 10-Port Gigabit Ethernet SPA.
- 29 Table 1-17 Slot and Port Locations for the 1-Port 10-Gigabit Ethernet SPA
- 31 2
- 31 Overview: Cisco XR 12000 Series Router Shared Port Adapters
- 32 SPA Summary
- 32 Table 2-1 Supported SPAs on Cisco XR 12000 Series Routers
- 33 Checking Hardware and Software Compatibility
- 33 Bandwidth Oversubscription
- 34 Table 2-2 SPA Bandwidth Capacity
- 35 2-Port and 4-Port T3/E3 Serial SPA Overview
- 35 2-Port and 4-Port Clear Channel T3/E3 SPA LEDs
- 35 Figure 2-1 4-Port Clear Channel T3/E3 SPA Faceplate
- 35 Table 2-3 2-Port and 4-Port Clear Channel T3/E3 SPA LEDs
- 36 2-Port and 4-Port Clear Channel T3/E3 SPA Interface Specifications
- 36 2-Port and 4-Port Clear Channel T3/E3 SPA Cables and Connectors
- 36 Table 2-4 2-Port and 4-Port Clear Channel T3/E3 SPA Connectors
- 36 2-Port and 4-Port Channelized T3 to DS0 SPA Overview
- 37 2-Port and 4-Port Channelized T3 SPA LEDs
- 37 Figure 2-2 4-Port Channelized T3 SPA Faceplate
- 37 Table 2-5 2-Port and 4-Port Channelized T3 SPA LEDs
- 37 2-Port and 4-Port Channelized T3 SPA Interface Specifications
- 38 2-Port and 4-Port Channelized T3 SPA Cables and Connectors
- 38 Table 2-6 2-Port and 4-Port Channelized T3 SPA Connectors
- 38 8-Port Channelized T1/E1 SPA Overview
- 39 8-Port Channelized T1/E1 SPA LEDs
- 39 Figure 2-3 8-Port Channelized T1/E1 SPA Faceplate
- 39 Table 2-7 8-Port Channelized T1/E1 SPA LEDs
- 39 8-Port Channelized T1/E1 SPA Interface Specifications
- 40 8-Port Channelized T1/E1 SPA Cables, Connectors, and Pinouts
- 40 Figure 2-4 RJ-45 Connector
- 40 Table 2-8 RJ-45 Connector Pinouts
- 40 8 Port FastEthernet SPA Overview
- 41 8-Port FastEthernet SPA LEDs
- 41 Figure 2-5 8-Port FastEthernet SPA Faceplate
- 41 Table 2-9 8-Port FastEthernet SPA LEDs
- 41 8-Port FastEthernet SPA Cables, Connectors, and Pinouts
- 42 Figure 2-6 RJ-45 Connections, Plug, and Receptacle
- 42 Table 2-10 RJ-45 Connector Pinout
- 42 Figure 2-7 Straight-Through Cable Pinout, RJ-45 Connection to a Hub or Repeater
- 43 Figure 2-8 Crossover Cable Pinout, RJ-45 Connections Between Routers
- 43 1 Port 10-Gigabit Ethernet SPA Overview
- 43 1-Port 10-Gigabit Ethernet SPA LEDs
- 43 Figure 2-9 1-Port 10-Gigabit Ethernet SPA Faceplate
- 43 Table 2-11 1-Port 10-Gigabit Ethernet SPA LEDs
- 44 1-Port 10-Gigabit Ethernet SPA XFP Optical Transceiver Modules, Connectors, and Cables
- 44 Figure 2-10 LC-Type Cable for the XFP Optical Transceiver Modules
- 44 XFP Connections
- 45 Figure 2-11 XFP Module
- 45 Table 2-12 XFP Module Specifications for 10-Gigabit Ethernet SPA
- 46 XFP Port Cabling Specifications
- 46 Table 2-13 XFP Port Cabling Specifications
- 46 2-Port Gigabit Ethernet SPA Overview
- 46 2-Port Gigabit Ethernet SPA LEDs
- 47 Figure 2-12 2-Port Gigabit Ethernet SPA Faceplate
- 47 Table 2-14 2-Port Gigabit Ethernet SPA LEDs
- 47 2-Port Gigabit Ethernet SPA (Version 2) LEDs
- 47 Figure 2-13 2-Port Gigabit Ethernet SPA (Version 2) Faceplate
- 48 Table 2-15 2-Port Gigabit Ethernet SPA (Version 2) LEDs
- 48 2-Port Gigabit Ethernet SPA Cables and Connectors
- 48 SFP Module Connections
- 48 Table 2-16 SFP Module Options
- 49 Table 2-17 SFP Module Specifications
- 49 SFP-GE-S Modules
- 49 SFP-GE-L Modules
- 50 SFP-GE-Z Modules
- 50 SFP-GE-T Modules
- 50 SFP Module Cabling and Connection Equipment
- 50 Table 2-18 SFP Module Port Cabling Specifications
- 51 5-Port Gigabit Ethernet SPA Overview
- 51 5-Port Gigabit Ethernet SPA LEDs
- 52 Figure 2-14 5-Port Gigabit Ethernet SPA Faceplate
- 52 Table 2-19 5-Port Gigabit Ethernet SPA LEDs
- 52 5-Port Gigabit Ethernet SPA Cables and Connectors
- 52 SFP Module Connections
- 53 Table 2-20 SFP Module Options
- 53 Table 2-21 SFP Module Specifications
- 53 SFP-GE-S Modules
- 53 SFP-GE-L Modules
- 54 SFP-GE-Z Modules
- 54 SFP-GE-T Modules
- 54 SFP Module Cabling and Connection Equipment
- 54 Table 2-22 SFP Module Port Cabling Specifications
- 55 10-Port Gigabit Ethernet SPA Overview
- 56 10-Port Gigabit Ethernet SPA LEDs
- 56 Figure 2-15 10-Port Gigabit Ethernet SPA Faceplate
- 56 Table 2-23 10-Port Gigabit Ethernet SPA LEDs
- 56 10-Port Gigabit Ethernet SPA Cables and Connectors
- 56 SFP Module Connections
- 57 Table 2-24 10-Port Gigabit Ethernet SFP Module Options
- 57 Table 2-25 10-Port Gigabit Ethernet SFP Module Specifications
- 57 SFP-GE-S Modules
- 58 SFP-GE-L Modules
- 58 SFP-GE-Z Modules
- 58 SFP Module Cabling and Connection Equipment
- 58 Table 2-26 SFP Module Port Cabling Specifications
- 59 1-Port Channelized STM-1/OC-3 SPA Overview
- 59 1-Port Channelized STM-1/OC-3 SPA LEDs
- 59 Figure 2-16 1-Port Channelized STM-1/OC-3 SPA Faceplate
- 60 Table 2-27 1-Port Channelized STM-1/OC-3 SPA LEDs
- 60 1-Port Channelized STM-1/OC-3 SPA Interface Specifications
- 60 1-Port Channelized STM-1/OC-3 SPA Cables and Connectors
- 61 Figure 2-17 SFP Optics Module
- 61 Figure 2-18 LC Type Cables
- 61 1-Port Channelized STM-4/OC-12 SPA Overview
- 62 1-Port Channelized STM-4/OC-12 SPA LEDs
- 62 Figure 2-19 1-Port Channelized STM-4/OC-12 SPA Faceplate
- 62 Table 2-28 1-Port Channelized STM-4/OC-12 SPA LEDs
- 63 1-Port Channelized STM-4/OC-12 SPA Interface Specifications
- 63 1-Port Channelized STM-4/OC-12 SPA Cables and Connectors
- 63 Figure 2-20 SFP Optics Module
- 64 Figure 2-21 LC Type Cables
- 64 1-Port Channelized STM-16/OC-48 SPA Overview
- 64 1-Port Channelized STM-16/OC-48 SPA LEDs
- 65 Figure 2-22 1-Port Channelized STM-16/OC-48 SPA Faceplate
- 65 Table 2-29 1-Port Channelized STM-16/OC-48 SPA LEDs
- 65 1-Port Channelized STM-16/OC-48 SPA Interface Specifications
- 66 1-Port Channelized STM-16/OC-48 SPA Cables and Connectors
- 66 Figure 2-23 SFP Optics Module
- 66 Figure 2-24 LC Type Cables
- 67 1-Port OC-192/STM-64 POS SPA Overview
- 67 1-Port OC-192/STM-64 POS/RPR SPA LEDs
- 67 Figure 2-25 1-Port OC-192/STM-64 POS/RPR SPA Faceplate
- 68 Table 2-30 1-Port OC-192/STM-64 POS/RPR SPA LEDs
- 68 1-Port OC-192/STM-64 POS/RPR SPA Interface Specifications
- 69 1-Port OC-192/STM-64 POS/RPR SPA Fixed Optical Transceiver, 40-Pin Connector, and Cables
- 69 Figure 2-26 SC-Type Connectors for the Fixed Optical Transceivers
- 69 Mate Interface Cables
- 70 Figure 2-27 SPA Mate Cables
- 70 1-Port OC-192 STM-64 POS RPR XFP SPA Overview
- 71 1-Port OC-192/STM-64 POS/RPR XFP SPA LEDs
- 71 Figure 2-28 1-Port OC-192/STM-64 POS/RPR XFP SPA Faceplate
- 71 Table 2-31 1-Port OC-192/STM-64 POS/RPR XFP SPA LEDs
- 72 1-Port OC-192/STM-64 POS/RPR XFP SPA Interface Specifications
- 72 1-Port OC-192/STM-64 POS/RPR XFP SPA Optical Transceiver Modules, Connectors, and Cables
- 73 Figure 2-29 LC-Type Cable for the XFP Optical Transceiver Modules
- 73 OC-192 Module Connections
- 73 Table 2-32 OC-192 Specifications
- 74 Mate Interface Cables
- 74 Figure 2-30 SPA Mate Cables
- 74 4-Port OC-3/STM-1 POS SPA Overview
- 75 2-Port and 4-Port OC-3/STM-1 POS SPA LEDs
- 75 Figure 2-31 4-Port OC-3/STM-1 POS SPA Faceplate
- 75 Table 2-33 2-Port and 4-Port OC-3/STM-1 POS SPA LEDs
- 76 2-Port and 4-Port OC-3/STM-1 POS SPA Interface Specifications
- 76 2-Port and 4-Port OC-3/STM-1 POS SPA Optical Transceiver Modules and Cables
- 77 Figure 2-32 SFP Optics Module
- 77 Figure 2-33 LC-Type Cable
- 78 OC-3 Module Connections
- 78 Table 2-34 OC-3 Specifications
- 79 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Overview
- 79 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA LEDs
- 79 Figure 2-34 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Faceplate
- 80 Table 2-35 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA LEDs
- 80 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Interface Specifications
- 80 8-Port OC-3 STM-1/OC-12 STM-4 POS SPA Optical Transceiver Modules and Cables
- 81 Figure 2-35 SFP Optics Module
- 82 Figure 2-36 LC-Type Cable
- 82 OC-3 Module Connections
- 82 Table 2-36 OC-3 Specifications
- 83 OC-12 Module Connections
- 83 Table 2-37 OC-12 Specifications
- 84 1-Port OC-12/STM-4 POS SPA Overview
- 84 1-Port OC-12/STM-4 POS SPA LEDs
- 84 Figure 2-37 1-Port OC-12/STM-4 POS SPA Faceplate
- 85 Table 2-38 1-Port OC-12/STM-4 POS SPA LEDs
- 85 1-Port OC-12/STM-4 POS SPA Interface Specifications
- 85 1-Port OC-12/STM-4 POS SPA SFP Optical Transceiver Modules and Cables
- 86 Figure 2-38 SFP Optics Module
- 87 Figure 2-39 LC-Type Cable
- 87 1-Port OC-48/STM-16 POS SPA Overview
- 87 1-Port OC-48/STM-16 POS SPA LEDs
- 87 Figure 2-40 1-Port OC-48/STM-16 POS SPA Faceplate
- 88 Table 2-39 1-Port OC-48/STM-16 POS SPA LEDs
- 88 1-Port OC-48/STM-16 POS SPA Interface Specifications
- 89 1-Port OC-48/STM-16 POS SPA Optical Transceiver Modules, Connectors, and Cables
- 89 Figure 2-41 LC-Type Cable for the SFP Optical Transceiver Modules
- 89 Mate Interface Cables
- 90 Figure 2-42 SPA Mate Cables
- 90 2-Port and 4-Port OC-48/STM-16 POS SPA Overview
- 91 2-Port and 4-Port OC-48/STM-16 POS SPA LEDs
- 91 Figure 2-43 2-Port OC-48 POS/RPR SPA Faceplate
- 91 Table 2-40 2-Port and 4-Port OC-48/STM-16 POS SPA LEDs
- 92 2-Port and 4-Port OC-48/STM-16 POS SPA Interface Specifications
- 92 2-Port and 4-Port OC-48/STM-16 POS SPA Cables, Optical Transceiver Modules, and Connectors
- 92 Figure 2-44 LC-Type Cable
- 93 OC-48 Module Connections
- 93 Table 2-41 OC-48 Specifications
- 93 Mate Interface Cables
- 94 Figure 2-45 SPA Mate Cables
- 94 2-Port OC-48 POS RPR SPA Overview
- 94 2-Port OC48-POS/RPR SPA LEDs
- 95 Figure 2-46 2-Port OC48-POS/RPR SPA Faceplate
- 95 Table 2-42 2-Port OC48-POS/RPR SPA LEDs
- 96 2-Port OC48-POS/RPR SPA Interface Specifications
- 96 2-Port OC48-POS/RPR SPA Cables, Optical Transceiver Modules, and Connectors
- 96 Figure 2-47 Duplex Patch Cable with LC-Type Connectors
- 96 Cisco XR12000 IPSec VPN SPA Overview
- 97 IPSec VPN SPA LEDs
- 97 Figure 2-48 IPSec VPN SPA Faceplate
- 97 Table 2-43 IPSec VPN SPA LED
- 98 1-Port and 3-Port Clear Channel OC-3 ATM SPA Overview
- 98 1-Port and 3-Port Clear Channel OC-3 ATM SPA LEDs
- 98 Figure 2-49 3-Port Clear Channel OC-3 ATM SPA Faceplate
- 98 Table 2-44 1-Port and 3-Port Clear Channel OC-3 ATM SPA LEDs
- 99 1-Port and 3-Port Clear Channel OC-3 ATM SPA Interface Specifications
- 99 1-Port and 3-Port Clear Channel OC-3 ATM SPA Cables and Connectors
- 99 Figure 2-50 SFP Optics Module
- 100 Figure 2-51 Duplex Patch Cable with LC-Type Connectors
- 100 1-Port Clear Channel OC-12 ATM SPA Overview
- 100 1-Port Clear Channel OC-12 ATM SPA LEDs
- 101 Figure 2-52 1-Port Clear Channel OC-12 ATM SPA Faceplate
- 101 Table 2-45 1-Port Clear Channel OC-12 ATM SPA LEDs
- 101 1-Port Clear Channel OC-12 ATM SPA Interface Specifications
- 102 1-Port Clear Channel OC-12 ATM SPA Cables and Connectors
- 102 Figure 2-53 SFP Optics Module
- 103 Figure 2-54 Duplex Patch Cable with LC-Type Connectors
- 103 2-Port Channelized T3/E3 ATM CEoP SPA Overview
- 103 2-Port Channelized T3/E3 ATM CEoP SPA LEDs
- 103 Figure 2-55 2-Port Channelized T3/E3 ATM CEoP SPA Faceplate
- 104 Table 2-46 2-Port Channelized T3/E3 ATM CEoP SPA LEDs
- 104 2-Port Channelized T3/E3 ATM CEoP SPA Interface Specifications
- 104 2-Port Channelized T3/E3 ATM CEoP SPA Cables and Connectors
- 105 Table 2-47 2-Port Channelized T3/E3 ATM CEoP SPA Connectors
- 105 24-Port Channelized T1/E1/J1 ATM CEoP SPA Overview
- 105 24-Port Channelized T1/E1/J1 ATM CEoP SPA LEDs
- 105 Figure 2-56 24-Port Channelized T1/E1/J1 ATM CEoP SPA Faceplate
- 106 Table 2-48 24-Port Channelized T1/E1/J1 ATM CEoP SPA LEDs
- 106 24-Port Channelized T1/E1/J1 ATM CEoP SPA Interface Specifications
- 106 24-Port Channelized T1/E1/J1 ATM CEoP SPA Cables and Connectors
- 106 Figure 2-57 24-Port Channelized T1/E1/J1 ATM CEoP SPA High-Density Cable
- 107 Cable Installation
- 107 Figure 2-58 Cable Installation between SPA and Patch Panel
- 107 SPA Cable Pinouts
- 107 Table 2-49 24-Port Channelized T1/E1/J1 ATM CEoP SPA Cable Connector Pinouts
- 110 RJ-45 Cable Pinouts
- 110 Patch Panel Cabling
- 110 24-Port Channelized T1/E1/J1 ATM CEoP SPA Patch Panel
- 111 1-Port Channelized OC-3 ATM CEoP SPA Overview
- 111 1-Port Channelized OC-3 ATM CEoP SPA LEDs
- 111 Figure 2-59 1-Port Channelized OC-3 ATM CEoP SPA Faceplate
- 111 Table 2-50 1-Port Channelized OC-3 ATM CEoP SPA LEDs
- 112 1-Port Channelized OC-3 ATM CEoP SPA Interface Specifications
- 112 1-Port Channelized OC-3 ATM CEoP SPA Optical Transeiver Modules and Cables
- 112 1-Port 10-Gigabit Ethernet DWDM SPA Overview
- 112 1-Port 10-Gigabit Ethernet DWDM SPA LEDs
- 113 Figure 2-60 1-Port 10-Gigabit Ethernet DWDM SPA Faceplate
- 113 Table 2-51 1-Port 10-Gigabit Ethernet DWDM SPA LEDs
- 113 1-Port 10-Gigabit Ethernet DWDM SPA XFP Optical Transceiver Modules, Connectors, and Cables
- 114 Figure 2-61 LC-Type Cable for the XFP Optical Transceiver Modules
- 114 1-Port 10-Gigabit Ethernet WAN PHY SPA Overview
- 114 1-Port 10-Gigabit Ethernet SPA LEDs
- 115 Figure 2-62 1-Port 10-Gigabit Ethernet SPA Faceplate
- 115 Table 2-52 1-Port 10-Gigabit Ethernet SPA LEDs
- 115 1-Port 10-Gigabit Ethernet SPA XFP Optical Transceiver Modules, Connectors, and Cables
- 116 Figure 2-63 LC-Type Cable for the XFP Optical Transceiver Modules
- 116 XFP Module Connections
- 116 Figure 2-64 XFP Module
- 117 Table 2-53 XFP Module Specifications
- 117 XFP Port Cabling Specifications
- 117 Table 2-54 XFP Port Cabling Specifications
- 119 3
- 119 Preparing to Install a Shared Port Adapter or a SPA Interface Processor
- 119 Safety Guidelines
- 119 Safety Warnings
- 120 Electromagnetic Compatibility Regulatory Statements
- 120 Electrical Equipment Guidelines
- 120 Telephone Wiring Guidelines
- 120 Laser/LED Safety
- 121 Figure 3-1 Laser Warning Labels for Single-Mode Port
- 121 Figure 3-2 Class 1 LED Warning Label for Multimode Port
- 121 Preventing Electrostatic Discharge
- 122 Required Tools and Equipment
- 123 4
- 123 Installing and Removing a SPA Interface Processor
- 123 Handling SIPs
- 124 Figure 4-1 Handling a SIP
- 124 Removing and Installing a SIP
- 124 Guidelines for SIP Removal and Installation
- 125 Removing a SIP
- 125 Step 1 Attach an ESD-preventive wrist strap and follow its instructions for use.
- 125 Step 2 Disconnect and remove all interface cables from the ports; note the current connections of the cables to the ports on the SIP.
- 125 Step 3 Detach the SIP cable-management bracket from the SIP.
- 125 Step 4 Use a screwdriver to loosen the captive screw at each end of the SIP faceplate. (See Figure 4-2.)
- 126 Figure 4-2 SIP Removal and Installation
- 126 Step 5 Simultaneously pivot the ejector levers away from each other to release the SIP from the backplane connector. (See Figure 4-2.)
- 126 Step 6 Grasp the ejector levers and pull the SIP halfway out of the slot.
- 126 Step 7 Grasp the SIP by the handle and gently pull it straight out of the slot, keeping your other hand under the SIP to guide it. (See Figure 4-2.) Avoid touching the SIP printed circuit board, components, or any connector pins.
- 126 Step 8 Place the removed SIP on an antistatic mat, or immediately place it in an antistatic bag if you plan to return it to the factory.
- 126 Step 9 If the SIP slot is to remain empty, install a line card blank (Product Number MAS-GSR-BLANK) to keep dust out of the chassis and to maintain proper airflow through the SIP compartment. Secure the SIP blank to the chassis by tightening its capt...
- 127 Installing a SIP
- 127 Step 1 Attach an ESD-preventive wrist or ankle strap and follow its instructions for use.
- 127 Step 2 Choose an available SIP slot for the SIP, and verify that the SIP interface cable is long enough for you to connect the SIP with any external equipment.
- 127 Step 3 Grasp the handle of the SIP with one hand and place your other hand under the card carrier to support the weight of the card; position the card for insertion into the card cage slot. Avoid touching the SIP printed circuit board, components, or...
- 127 Step 4 Carefully slide the SIP into the slot until the ejector levers make contact with the edges of the card cage, then stop when the ejector lever hooks catch the lip of the card cage. If they do not catch, try reinserting the SIP until the ejector...
- 127 Figure 4-3 Ejector Levers
- 128 Step 5 Simultaneously pivot both ejector levers toward each other until they are perpendicular to the SIP faceplate. This action firmly seats the card in the backplane.
- 128 Step 6 Use a 3/16-inch flat-blade screwdriver to tighten the captive screw on each end of the SIP faceplate to ensure proper EMI shielding and to prevent the SIP from becoming partially dislodged from the backplane. Tighten the locking thumbscrews on...
- 128 Step 7 Install the SPAs and SFP modules in the SPAs that use them. Refer to “Installing and Removing a Shared Port Adapter” section on page 5-1.
- 128 Step 8 Install the interface cables.
- 129 5
- 129 Installing and Removing a Shared Port Adapter
- 129 Handling SPAs
- 129 Figure 5-1 Handling a SPA
- 130 Online Insertion and Removal
- 130 SPA Installation and Removal
- 130 Step 1 To insert the SPA in the SIP, locate the guide rails inside the SIP that hold the SPA in place. They are at the top left and top right of the SPA slot and are recessed about an inch, as shown in C of Figure 5-2.
- 130 Step 2 Carefully slide the SPA all the way in the SIP until the SPA is firmly seated in the SPA interface connector. When fully seated, the SPA might be slightly behind the SIP faceplate.
- 130 Step 3 After the SPA is properly seated, turn the SPA lock to its locked and horizontal position, as shown in A of Figure 5-2.
- 130 Step 4 To remove the SPA from the SIP, turn the SPA lock from its locked and horizontal position shown in A of Figure 5-2 to its unlocked and vertical position shown in B of Figure 5-2. (If the SIP is still in the router, you must remove the SIP befo...
- 130 Step 5 Grasp the handle of the SPA and pull the SPA from the SIP. (You have already disconnected the cables from the SPA when removing the SIP).
- 131 Figure 5-2 SPA Installation and Removal
- 131 Optical Device Installation and Removal
- 131 Cleaning Optical Devices
- 132 Checking the Installation
- 132 Verifying the Installation
- 132 Step 1 Observe the console display messages and verify that the system discovers the SIP, while the system reinitializes each interface, as follows:
- 132 Step 2 When the SIP and SPA STATUS LEDs are green, all associated interfaces are configurable.
- 133 Step 3 If the SIPs and SPAs have not become active within three minutes, refer to the system console messages as follows:
- 133 Using show Commands to Verify SIP and SPA Status
- 133 Step 1 Use the show running-config command to display the system configuration. Verify that the configuration includes the new SPA interfaces.
- 133 Step 2 Display all of the current SPAs and a summary of their status using the show hw-module subslot oir command.
- 133 Step 3 Display information about the installed SIPs using the show diag command.
- 133 Step 4 Use the show hw-module subslot fpd command to verify the FPD version information of the SPAs installed in the system.
- 133 Step 5 Finally, you can use the show version command to obtain a few details on the installed SIPs and interfaces available.
- 133 Using show Commands to Display SPA Information
- 134 Table 5-1 show Commands to Display SPA Information
- 134 Table 5-2 show Commands to Display SPA Information
- 135 Step 1 Observe the console display messages and verify that the system discovers the SIP, while the system reinitializes each interface, as follows:
- 135 Step 2 Verify that the ENABLED LED on the SPA goes on (is green) and remains on after the reinitialization is complete. If the ENABLED LED remains on, proceed to Step 5. If the ENABLED LED does not remain on, proceed to Step 3.
- 135 Step 3 If the ENABLED LED on a SPA fails to go on, the SPA or the SIP might not be fully seated even if the SPA lock is in the locked and horizontal position. When a SPA is not recognized, the SIP is deactivated, and its OIR LED is yellow.
- 136 Step 4 If the ENABLED LED on a SPA still fails to go on, remove the SIP and install it in another available slot on the router.
- 136 Step 5 If the SPA is new and is not a replacement, configure the new SPA using Cisco xxxx Series Router SIP and SPA Software Configuration Guide.
- 136 Step 6 If the SIP is a replacement, use the show interfaces type slot-number/port-number command or the show controllers command to verify the status of the SPAs. (See the “Using show Commands to Verify SIP and SPA Status” section on page 5-5.)
- 136 Step 7 When the interfaces are up, check the activity of each SPA by observing the status LEDs.
- 136 Step 8 If an interface LED fails to go on and a cable is connected to the interface port, check the cable connection and make certain it is properly seated in the connector.
- 136 Step 9 Repeat Step 1 through Step 8 to verify that any additional MSCs are properly installed.
- 137 Using the ping Command to Verify Network Connectivity
- 139 6
- 139 Troubleshooting the Installation
- 139 Troubleshooting the SIP
- 139 Using debug Commands
- 140 Packing a SIP for Shipment
- 140 Step 1 Insert the SIP into the clipboard insert by carefully aligning the edges of the SIP between the upper and lower edges of the clipboard insert.
- 140 Step 2 Slide the SIP all the way into the clipboard insert until it clicks into place. You might have to lift the clip assembly to ensure that it securely engages with the sheet-metal carrier.
- 140 Step 3 Place the clipboard insert containing the SIP into the smaller inner carton.
- 140 Step 4 Close the carton top, and tape the sides closed.
- 140 Step 5 Apply the packing cushions to the sealed smaller inner carton.
- 140 Step 6 Place the sealed smaller inner carton and packing cushions into the larger exterior carton, and seal the exterior carton with tape for shipment.
- 141 Packing a SPA for Shipment
- 141 Step 1 Open the Thermoform container and place the SPA and each of the cable-management brackets into the appropriate cavities.
- 141 Step 2 Close the Thermoform container. Be sure to lock the snaps securely.
- 141 Step 3 Check that the Thermoform container is fully closed. Apply tape or a label closure over the opening to ensure the container stays closed during shipping.
- 141 Step 4 Place the Thermoform container into the carton.
- 141 Step 5 Close the carton.
- 141 Step 6 Apply tape over the carton flap to ensure the carton stays closed during shipping.