Cisco 7600 series Hardware Installation Manual

Cisco 7600 Series Router SIP, SSC, and
SPA Hardware Installation Guide
January 2008
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Text Part Number: OL-5052-08
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Cisco 7600 Series Router SIP, SSC, and SPA Hardware Installation Guide
Copyright © 2008 Cisco Systems, Inc.
All rights reserved.
C O N T E N T S
Preface
ix
Objectives
ix
Document Revision History
Organization
ix
x
Related Documentation
xi
Obtaining Documentation, Obtaining Support, and Security Guidelines
CHAPTER
1
SIP and SPA Product Overview
xii
1-1
Introduction to SIPs and SPAs 1-1
SPA Interface Processors 1-1
SPA Services Cards 1-2
Shared Port Adapters 1-2
SIP, SSC, and SPA Compatibility
Modular Optics Compatibility
Power Management
CHAPTER
2
1-3
1-6
1-8
Overview: Cisco 7600 Series SIPs
2-1
SIP Summary 2-1
Checking Hardware and Software Compatibility
2-2
Identifying Slots and Subslots for SIPs and SPAs 2-2
Specifying the Slot Location for a SIP or SSC 2-2
Specifying the SIP or SSC Subslot Location for a SPA
Cisco 7600 SIP-200 Overview 2-5
Cisco 7600 SIP-200 Processor 2-6
Cisco 7600 SIP-200 LEDs 2-6
Cisco 7600 SIP-200 Physical Specifications 2-6
Cisco 7600 SIP-200 Memory Options 2-7
Cisco 7600 SIP-200 Memory Installation and Removal
Cisco 7600 SIP-200 Default DIP Switch Settings 2-8
2-4
2-7
Cisco 7600 SIP-400 Overview 2-8
Cisco 7600 SIP-400 Processor 2-9
Cisco 7600 SIP-400 LEDs 2-9
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Contents
Cisco 7600 SIP-400 Physical Specifications
Cisco 7600 SIP-600 Overview 2-10
Cisco 7600 SIP-600 Processor 2-10
Cisco 7600 SIP-600 LEDs 2-10
Cisco 7600 SIP-600 Physical Specifications
Cisco 7600 SSC-400 Overview 2-12
Cisco 7600 SSC-400 Processor 2-12
Cisco 7600 SSC-400 LED 2-12
Cisco 7600 SSC-400 Physical Specifications
CHAPTER
3
2-9
2-10
2-13
Overview: Cisco 7600 Series Router Shared Port Adapters
Checking Hardware and Software Compatibility
3-1
3-2
Bandwidth Oversubscription 3-2
Cisco 7600 SIP-400 Oversubscription Guidelines
3-4
2-Port and 4-Port Channelized T3 SPA Overview 3-4
2-Port and 4-Port Channelized T3 SPA LEDs 3-4
2-Port and 4-Port Channelized T3 SPA Interface Specifications 3-5
2-Port and 4-Port Channelized T3 SPA Cables and Connectors 3-5
2-Port and 4-Port Clear Channel T3/E3 SPA Overview 3-6
2-Port and 4-Port Clear Channel T3/E3 SPA LEDs 3-6
2-Port and 4-Port Clear Channel T3/E3 SPA Interface Specifications 3-7
2-Port and 4-Port Clear Channel T3/E3 SPA Cables and Connectors 3-7
8-Port Channelized T1/E1 SPA Overview 3-8
8-Port Channelized T1/E1 SPA LEDs 3-8
8-Port Channelized T1/E1 SPA Interface Specifications 3-9
8-Port Channelized T1/E1 SPA Cables, Connectors, and Pinouts
3-9
1-Port Channelized STM-1/OC-3 SPA Overview 3-10
1-Port Channelized STM-1/OC-3 SPA LEDs 3-10
1-Port Channelized STM-1/OC-3 SPA Interface Specifications 3-11
1-Port Channelized STM-1/OC-3 SPA Cables and Connectors 3-11
2-Port and 4-Port OC-3c/STM-1 ATM SPA Overview 3-12
2-Port and 4-Port OC-3c/STM-1 ATM SPA LEDs 3-13
2-Port and 4-Port OC-3c/STM-1 ATM SPA Interface Specifications 3-14
2-Port and 4-Port OC-3c/STM-1 ATM SPA Cables and Connectors 3-14
2-Port and 4-Port OC-3c/STM-1 POS SPA Overview 3-14
OC-3c/STM-1 POS SPA LEDs 3-15
OC-3c/STM-1 POS SPA Interface Specifications 3-15
OC-3c/STM-1 POS SPA SFP Optical Transceiver Modules and Cables
3-16
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1-Port OC-12c/STM-4 ATM SPA Overview 3-17
1-Port OC-12c/STM-4 ATM SPA LEDs 3-17
1-Port OC-12c/STM-4 ATM SPA Interface Specifications 3-18
1-Port OC-12c/STM-4 ATM SPA Cables and Connectors 3-18
1-Port OC-12c/STM-4 POS SPA Overview 3-19
1-Port OC-12c/STM-4 POS SPA LEDs 3-19
1-Port OC-12c/STM-4 POS SPA Interface Specifications 3-20
1-Port OC-12c/STM-4 POS SPA SFP Optical Transceiver Modules and Cables
3-20
1-Port OC-48c/STM-16 ATM SPA Overview 3-22
1-Port OC-48c/STM-16 ATM SPA LEDs 3-22
1-Port OC-48c/STM-16 ATM SPA Interface Specifications 3-23
1-Port OC-48c/STM-16 ATM SPA Cables and Connectors 3-23
1-Port OC-48c/STM-16 POS SPA Overview 3-23
1-Port OC-48c/STM-16 POS SPA LEDs 3-24
1-Port OC-48c/STM-16 POS SPA Interface Specifications 3-25
1-Port OC-48c/STM-16 POS SPA Optical Transceiver Modules, Connectors, and Cables
3-25
2-Port and 4-Port OC-48c/STM-16 POS SPA 3-26
2-Port and 4-Port OC-48c/STM-16 POS SPA LEDs 3-26
2-Port and 4-Port OC-48c/STM-16 POS SPA Interface Specifications 3-27
2-Port and 4-Port OC-48c/STM-16 POS SPA Cables, Optical Transceiver Modules, and
Connectors 3-27
1-Port OC-192c/STM-64 POS/RPR SPA Overview 3-28
1-Port OC-192c/STM-64 POS/RPR SPA LEDs 3-29
1-Port OC-192c/STM-64 POS/RPR SPA Interface Specifications 3-30
1-Port OC-192c/STM-64 POS/RPR SPA Fixed Optical Transceiver, 40-Pin Connector, and
Cables 3-30
Mate Interface Cables 3-31
1-Port OC-192c/STM-64 POS/RPR XFP SPA Overview 3-32
1-Port OC-192c/STM-64 POS/RPR XFP SPA LEDs 3-32
1-Port OC-192c/STM-64 POS/RPR XFP SPA Interface Specifications 3-33
1-Port OC-192c/STM-64 POS/RPR XFP SPA Optical Transceiver Modules, Connectors, and
Cables 3-34
OC-192 Module Connections 3-34
Mate Interface Cables 3-35
1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA Overview 3-36
1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA POS SPA LEDs 3-37
1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA Interface Specifications 3-38
1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA Fixed Optical Transceiver, 40-pin Connector, and
Cables 3-38
4-Port and 8-Port Fast Ethernet SPA Overview
3-39
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Contents
4-Port and 8-Port Fast Ethernet SPA LEDs
Cables, Connectors, and Pinouts 3-40
3-39
1-Port 10-Gigabit Ethernet SPA Overview 3-41
1-Port 10-Gigabit Ethernet SPA LEDs 3-42
1-Port 10-Gigabit Ethernet SPA Cables and Connectors 3-42
XFP Connections 3-43
XFP Port Cabling Specifications 3-43
XFP Optical Transmit and Receive Specifications 3-44
XFP Module Ordering Information 3-44
2-Port Gigabit Ethernet SPA Overview 3-45
2-Port Gigabit Ethernet SPA LEDs 3-45
2-Port Gigabit Ethernet SPA Cables and Connectors
SFP Module Connections 3-46
SFP Module Cabling and Connection Equipment 3-48
3-46
5-Port Gigabit Ethernet SPA Overview 3-49
5-Port Gigabit Ethernet SPA LEDs 3-49
5-Port Gigabit Ethernet SPA Cables, Connectors, and Pinouts
SFP Connections 3-50
SFP-GE-S Modules 3-51
SFP-GE-L Modules 3-51
SFP-GE-Z Modules 3-52
SFP-GE-T Modules 3-52
SFP Module Cabling and Connection Equipment 3-52
3-50
10-Port Gigabit Ethernet SPA Overview 3-54
10-Port Gigabit Ethernet SPA LEDs 3-54
10-Port Gigabit Ethernet SPA Cables, Connectors, and Pinouts
SFP Connections 3-55
SFP-GE-S Modules 3-56
SFP-GE-L Modules 3-56
SFP-GE-Z Modules 3-56
SFP-GE-T Modules 3-57
SFP Module Cabling and Connection Equipment 3-57
IPSec VPN SPA Overview
IPSec VPN SPA LEDs
3-55
3-58
3-58
1-Port Channelized OC-3 STM-1 ATM CEoP SPA Overview 3-59
1-Port Channelized OC-3 STM-1 ATM CEoP SPA LEDs 3-59
1-Port Channelized OC-3 STM-1 ATM CEoP SPA Interface Specifications 3-60
1-Port Channelized OC-3 STM-1 ATM CEoP SPA Optical Transeiver Modules and Cables
3-60
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24-Port Channelized T1/E1 ATM CEoP SPA Overview 3-60
24-Port Channelized T1/E1 ATM CEoP SPA LEDs 3-61
24-Port Channelized T1/E1 ATM CEoP SPA Interface Specifications 3-61
24-Port Channelized T1/E1 ATM CEoP SPA Cables and Connectors 3-61
Cable Installation 3-62
SPA Cable Pinouts 3-62
RJ-45 Cable Pinouts 3-65
Patch Panel Cabling 3-65
24-Port Channelized T1/E1 ATM CEoP SPA Patch Panel 3-66
2-Port Channelized T3/E3 ATM CEoP SPA 3-66
2-Port Channelized T3/E3 ATM CEoP SPA LEDs 3-66
2-Port Channelized T3/E3 ATM CEoP SPA Interface Specifications 3-68
2-Port Channelized T3/E3 ATM CEoP SPA Cables and Connectors 3-68
CHAPTER
4
Preparing to Install a SIP or a Shared Port Adapter
Required Tools and Equipment
4-1
Safety Guidelines 4-1
Safety Warnings 4-2
Warning Definition 4-2
Electrical Equipment Guidelines 4-6
Telephone Wiring Guidelines 4-7
Preventing Electrostatic Discharge Damage
Laser/LED Safety
CHAPTER
5
4-7
4-8
Installing and Removing a SIP
Handling SIPs
4-1
5-1
5-1
Online Insertion and Removal 5-2
Preparing for Online Removal of a SIP or SSC 5-2
Deactivating a SIP or SSC 5-3
Reactivating a SIP or SSC 5-3
Verifying Deactivation and Activation of a SIP or SSC 5-3
Preparing for Online Removal of a SPA 5-4
Deactivating a SPA 5-4
Reactivating a SPA 5-5
Verifying Deactivation and Activation of a SPA 5-6
Deactivation and Activation Configuration Examples 5-6
Deactivation of a SIP Configuration Example 5-7
Activation of a SIP Configuration Example 5-7
Deactivation of a SPA Configuration Example 5-7
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Contents
Activation of a SPA Configuration Example
SIP Installation and Removal
CHAPTER
6
5-8
Installing and Removing a Shared Port Adapter
Handling SPAs
5-7
6-1
6-1
SPA Installation and Removal 6-2
Installing a SPA in a SIP 6-3
Removing a SPA from a SIP 6-3
Online Insertion and Removal
6-3
Optical Device Maintenance 6-3
Cleaning Optical Devices 6-3
Checking the Installation 6-4
Verifying the Installation 6-4
Using show Commands to Verify SIP and SPA Status 6-5
Using show Commands to Display SPA Information 6-6
SPA Blank Filler Plates
6-6
SPA Cable-Management Brackets
CHAPTER
7
Troubleshooting the Installation
Troubleshooting
6-7
7-1
7-1
Using debug Commands
7-2
Packing a SPA for Shipment
Packing a SIP for Shipment
7-3
7-4
INDEX
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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:
•
Objectives, page ix
•
Document Revision History, page ix
•
Organization, page x
•
Related Documentation, page xi
•
Obtaining Documentation, Obtaining Support, and Security Guidelines, page xii
Objectives
This document describes the SPA interface processors (SIPs) and shared port adapters (SPAs) that are
supported on the Cisco 7600 series routers. This document also describes how to install the supported
SIPs and SPAs and how to troubleshoot the installation.
Document Revision History
Table 1 records technical changes to this document. The table shows the Cisco IOS software release
number and document revision number for the change, the date of the change, and a brief summary of
the change.
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Preface
Organization
Table 1
Document Revision History
Release No.
Revision
Date
12.2(33)SRC
Change Summary
•
Added SFP-GE-T support
•
Added the following SPA support to the
SIP-400:
– SPA-1X10GE-L-V2
– SPA-2XCT3/DS0
– SPA-4XCT3/DS0
– SPA-2XT3/E3
– SPA-4XT3/E3
– SPA-8XCHT1/E1
– SPA-2CHT3-CE-ATM
– SPA-1XCHSTM1/OC3
—
OL-5052-07A
June 2007
Added cabling information for the 24-Port
Channelized T1/E1 ATM CEoP SPA.
12.2(33)SRB1 OL-5052-07
June 2007
Added support for XFP-10GZR-OC192LR.
12.2(33)SRB
OL-5052-06
February 2006
Added support for the 1-Port Channelized
OC-3 STM1 ATM CEoP SPA and 24-Port
Channelized T1/E1 ATM CEoP SPA.
12.2(33)SRA
OL-5052-05
June 2006
Added support for 1-Port OC-48c/STM-16
POS SPA, 1-Port Channelized STM-1/OC-3
SPA , 4-Port and 8-Port Fast Ethernet SPA, and
2-Port and 4-Port OC-48c/STM-16 POS SPA.
12.2(18)SXF2 OL-5052-04
January 2006
Added support for 1-Port OC-192c/STM-64
POS/RPR VSR Optics SPA.
12.2(18)SXF
September 2005
Added support for Cisco 7600 SIP-600, 1-Port
OC-192c/STM-64 POS/RPR SPA, 1-Port
OC-48c/STM-16 ATM SPA, 1-Port 10-Gigabit
Ethernet SPA, 5-Port Gigabit Ethernet SPA,
2-Port Gigabit Ethernet SPA and 1-Port
OC-48c/STM-16 ATM SPA, and 1-Port
OC-192c/STM-64 POS/RPR XFP SPA.
12.2(18)SXE2 OL-5052-02
June 2005
Added support for IPSec VPN SPA, and
Cisco 7600 SSC-400.
12.2(18)SXE
April 2005
First release.
OL-5052-03
OL-5052-01
Organization
This document contains the following chapters:
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Preface
Related Documentation
Section
Title
Description
Chapter 1
SIP and SPA Product Overview
Provides an introduction to SPA interface
processors (SIPs) and shared port adapters
(SPAs).
Chapter 2
Overview: Cisco 7600 Series SIPs
Provides a SIP/SPA compatibility summary. For
each supported SIP, provides a summary of SIP
characteristics and a SIP overview.
Chapter 3
Overview: Cisco 7600 Series Router For each supported SPA, provides a summary of
Shared Port Adapters
SPA characteristics and a SPA overview.
Chapter 4
Preparing to Install a SIP or a Shared Describes the required tools, equipment, and
Port Adapter
safety guidelines for installing SIPs and SPAs.
Chapter 5
Installing and Removing a SIP
Describes the procedures for installing and
removing a SIP on a Cisco 7600 series router.
Chapter 6
Installing and Removing a Shared
Port Adapter
Describes the procedures for installing and
removing a SPA on a Cisco 7600 series router. It
also describes how to verify the SIP and SPA
installation.
Chapter 7
Troubleshooting the Installation
Provides information for troubleshooting the
installation of SIPs and SPAs. It also describes
helpful debug commands and error messages.
Related Documentation
The documentation listed below is available online and on the Documentation DVD.
Your router, switch, or gateway and the Cisco IOS software running on it contain extensive features,
which are documented in the following resources:
•
Cisco 7600 Series Router SIP, SSC, and SPA Software Configuration Guide
•
Cisco IOS software:
– For Cisco IOS configuration information and support, refer to the configuration guide or
command reference for a Cisco IOS mainline release. You can also refer to the specific Cisco
IOS software document for a particular feature.
– To see if a feature is supported by a Cisco IOS release, to locate the software document for that
feature, or to check the minimum software requirements of Cisco IOS software with the
hardware installed on your router, Cisco maintains the Software Advisor tool on Cisco.com.
You must be a registered user on Cisco.com to access this tool. To access Software Advisor,
click Login at Cisco.com, type “Software Advisor” in the SEARCH box, and click GO. Click
the link for the Software Advisor tool.
Note
•
You can access Cisco IOS software configuration and hardware installation and maintenance
documentation on the World Wide Web at http://www.cisco.com. Translated documentation is
available at the following URL: http://www.cisco.com/public/countries_languages.shtml.
For international agency compliance, safety, and statutory information for WAN interfaces:
– Regulatory Compliance and Safety Information for the Cisco 7600 Series Routers
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Preface
Obtaining Documentation, Obtaining Support, and Security Guidelines
– Site Preparation and Safety Guide
Obtaining Documentation, Obtaining Support, and Security
Guidelines
For information on obtaining documentation, obtaining support, providing documentation feedback,
security guidelines, and also recommended aliases and general Cisco documents, see the monthly What's
New in Cisco Product Documentation, which also lists all new and revised Cisco technical
documentation at:
http://www.cisco.com/en/US/docs/general/whatsnew/whatsnew.html
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CH A P T E R
1
SIP and SPA Product Overview
This chapter provides an introduction to SPA interface processors (SIPs) and shared port adapters
(SPAs). It includes the following sections:
•
Introduction to SIPs and SPAs, page 1-1
•
SIP, SSC, and SPA Compatibility, page 1-3
•
Modular Optics Compatibility, page 1-6
•
Power Management, page 1-8
For software details for the specific SIPs and SPAs that are supported on the Cisco 7600 series routers,
refer to the companion publication, Cisco 7600 Series Router SIP, SSC, and SPA Software Configuration
Guide.
Introduction to SIPs and SPAs
SIPs, SSCs, and SPAs are a new carrier card and port adapter architecture to increase modularity,
flexibility, and density across Cisco Systems routers for network connectivity. This section describes the
SIPs, SSCs, and SPAs and provides some guidelines for their use.
SPA Interface Processors
The following list describes some of the general characteristics of a SIP:
•
A SIP is a carrier card that inserts into a router slot like a line card. It provides no network
connectivity on its own.
•
A SIP contains one or more subslots, which are used to house one or more SPAs. The SPA provides
interface ports for network connectivity.
•
During normal operation the SIP should reside in the router fully populated either with functional
SPAs in all subslots, or with a blank filler plate (SPA-BLANK=) inserted in all empty subslots.
•
SIPs support online insertion and removal (OIR) with SPAs inserted in their subslots. SPAs also
support OIR and can be inserted or removed independently from the SIP.
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1-1
Chapter 1
SIP and SPA Product Overview
Introduction to SIPs and SPAs
SPA Services Cards
The following list describes some of the general charateristics of an SSC:
•
An SSC is a carrier card that inserts into a router slot like a line card. It provides no network
connectivity.
•
An SSC provides one or more subslots, which are used to house one or more SPAs. The supported
SPAs do not provide interface ports for network connectivity, but provide certain services.
•
During normal operation the SSC should reside in the router fully populated either with functional
SPAs in all subslots, or with a blank filler plate (SPA-BLANK=) inserted in all empty subslots.
•
SSCs support online insertion and removal (OIR) with SPAs inserted in their subslots. SPAs also
support OIR and can be inserted or removed independently from the SSC.
Shared Port Adapters
The following list describes some of the general characteristics of a SPA:
•
A SPA is a modular type of port adapter that inserts into a subslot of a compatible SIP carrier card
to provide network connectivity and increased interface port density. A SIP can hold one or more
SPAs, depending on the SIP type.
•
Some SPAs provide services rather than network connectivity, and insert into subslots of compatible
SSCs. For example, the IPSec VPN SPA provides services such as IP Security (IPSec)
encryption/decryption, generic routing encapsulation (GRE ), and Internet Key Exchange (IKE) key
generation.
•
SPAs are available in the following sizes, as shown in Figure 1-1 and Figure 1-2:
– Single-height SPA—Inserts into one SIP subslot.
– Double-height SPA—Inserts into two single, vertically aligned SIP subslots.
Figure 1-1
Single-Height and Double-Height SPA Sizes
Front of SIP
Single-height SPA
116886
Double-height SPA
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Chapter 1
SIP and SPA Product Overview
SIP, SSC, and SPA Compatibility
Figure 1-2
Horizontal and Vertical Chassis Slot Orientation for SPAs
Front of SIP, horizontal chassis slots
SPA 2
SPA 3
SPA 0
SPA 1
Double-height SPA
SPA 3
116887
SPA 1
SPA 1
SPA 2
SPA 3
SPA 0
SPA 0
SPA 1
SPA 2
SPA 0
Vertical slot orientation
Double-height SPA
•
Each SPA provides a certain number of connectors, or ports, that are the interfaces to one or more
networks. These interfaces can be individually configured using the Cisco IOS command-line
interface (CLI).
•
Either a blank filler plate or a functional SPA should reside in every subslot of an SIP during normal
operation to maintain cooling integrity. Blank filler plates are available in single-height form only.
•
SPAs support online insertion and removal (OIR). They can be inserted or removed independently
from the SIP. SIPs also support online insertion and removal (OIR) with SPAs inserted in their
subslots.
SIP, SSC, and SPA Compatibility
The following tables show SIP and SPA compatibility by SPA technology area on the Cisco 7600 series
router.
Note
Table 1-1
For more information about the introduction of support for different SIPs and SPAs, refer to the “Release
History” sections in the overview chapters of the Cisco 7600 Series Router SIP, SSC, and SPA Software
Configuration Guide.
SIP and SPA Compatibility Table for ATM SPAs
SPA
Product ID
SIP Type
Cisco 7600
SIP-200
Cisco 7600
SIP-400
Cisco 7600
SIP-600
Cisco 7600
SSC-400
2-Port and 4-Port OC-3c/STM-1 ATM SPA-2XOC3-ATM
SPA
SPA-4XOC3-ATM
Yes
Yes
No
No
1-Port OC-12c/STM-4 ATM SPA
SPA-1XOC12-ATM
No
Yes
No
No
1-Port OC-48c/STM-16 ATM SPA
SPA-1XOC48-ATM
No
Yes
No
No
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Chapter 1
SIP and SPA Product Overview
SIP, SSC, and SPA Compatibility
Table 1-2
SIP and SPA Compatibility Table for Ethernet SPAs
SPA
Product ID
SIP Type
Cisco 7600
SIP-200
Cisco 7600
SIP-400
Cisco 7600
SIP-600
Cisco 7600
SSC-400
SPA-1XTENGE-XENPK
SPA-1XTENGE-XFP
No
No
Yes
No
SPA-1X10GE-L-V2
No
Yes
Yes
No
2-Port Gigabit Ethernet SPA
SPA-2X1GE,
SPA-2X1GE-V2
No
Yes
No
No
5-Port Gigabit Ethernet SPA
SPA-5X1GE
No
No
Yes
No
SPA-5X1GE-V2
No
Yes
Yes
No
10-Port Gigabit Ethernet SPA
SPA-10X1GE
SPA-10X1GE-V2
No
No
Yes
No
4-Port and 8-Port Fast Ethernet
SPA
SPA-4X1FE-TX-V2
SPA-8X1FE-TX-V2
Yes
No
No
No
1-Port 10-Gigabit Ethernet SPA
Table 1-3
SIP and SPA Compatibility Table for the IPSec VPN SPA
SPA
Product ID
IPSec VPN SPA
Table 1-4
SPA-IPSEC-2G
SIP Type
Cisco 7600
SIP-200
Cisco 7600
SIP-400
Cisco 7600
SIP-600
Cisco 7600
SSC-400
No
No
No
Yes
SIP and SPA Compatibility Table for POS SPAs
SPA
Product ID
SIP Type
Cisco 7600
SIP-200
Cisco 7600
SIP-400
Cisco 7600
SIP-600
Cisco 7600
SSC-400
2-Port and 4-Port OC-3c/STM-1
POS SPA
SPA-2XOC3-POS
SPA-4XOC3-POS
Yes
Yes
No
No
1-Port OC-12c/STM-4 POS SPA
SPA-1XOC12-POS
No
Yes
No
No
1-Port OC-48c/STM-16 POS SPA
SPA-1XOC48-POS/RPR
No
Yes
No
No
2-Port and 4-Port OC-48c/STM-16
POS SPA
SPA-2XOC48-POS/RPR
SPA-4XOC48-POS/RPR
No
No
Yes
No
1-Port OC-192c/STM-64 POS/RPR
SPA
SPA-OC192POS-LR
SPA-OC192POS-VSR
SPA-OC192POS-XFP
No
No
Yes
No
Cisco 7600 Series Router SIP, SSC, and SPA Hardware Installation Guide
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Chapter 1
SIP and SPA Product Overview
SIP, SSC, and SPA Compatibility
Table 1-5
SIP and SPA Compatibility Table for Serial SPAs
SPA
Product ID
SIP Type
Cisco 7600
SIP-200
Cisco 7600
SIP-400
Cisco 7600
SIP-600
Cisco 7600
SSC-400
Yes
Yes
No
No
2-Port and 4-Port Channelized T3 SPA SPA-2XCT3/DS0
SPA-4XCT3/DS0
Yes
Yes
No
No
2-Port and 4-Port Clear Channel T3/E3 SPA-2XT3/E3
SPA
SPA-4XT3/E3
Yes
Yes
No
No
8-Port Channelized T1/E1 SPA
Yes
Yes
No
No
1-Port Channelized OC-3/STM-1 SPA
Table 1-6
SPA-1XCHSTM1/OC3
SPA-8XCHT1/E1
SIP and SPA Compatibility Table for CEoP SPAs
SPA
Product ID
SIP Type
Cisco 7600
SIP-200
Cisco 7600
SIP-400
Cisco 7600
SIP-600
Cisco 7600
SSC-400
SPA-1CHOC3-CE-ATM
No
Yes
No
No
24-Port Channelized T1/E1 ATM CEoP SPA-24CHT1-CE-ATM
SPA
No
Yes
No
No
2-Port Channelized T3/E3 ATM CEoP SPA-2CHT3-CE-ATM
SPA
No
Yes
No
No
1-Port Channelized OC-3 STM1 ATM
CEoP SPA
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1-5
Chapter 1
SIP and SPA Product Overview
Modular Optics Compatibility
Modular Optics Compatibility
Some SPAs implement small form-factor pluggable (SFP) optical transceivers to provide network
connectivity. An SFP module is a transceiver device that mounts into the front panel to provide network
connectivity.
Cisco Systems qualifies the SFP modules that can be used with SPAs.
Note
The SPAs will only accept the SFP modules listed as supported in this document. An SFP check is run
every time an SFP module is inserted into a SPA and only SFP modules that pass this check will be usable.
Table 1-7 shows the types of optics modules that have been qualified for use with a SPA:
Table 1-7
SPA Optics Compatibility
SPA
2-Port and 4-Port OC-3c/STM-1 ATM SPA
1-Port OC-12c/STM-4 ATM SPA
1-Port OC-48c/STM-16 ATM SPA
1-Port 10-Gigabit Ethernet SPA
2-Port Gigabit Ethernet SPA
5-Port Gigabit Ethernet SPA
Qualified Optics Modules (Cisco Part Numbers)
•
SFP-OC3-MM
•
SFP-OC3-SR
•
SFP-OC3-IR1
•
SFP-OC3-LR1
•
SFP-OC3-LR2
•
SFP-OC12-MM
•
SFP-OC12-SR
•
SFP-OC12-IR1
•
SFP-OC12-LR1
•
SFP-OC12-LR2
•
SFP-OC48-IR1
•
SFP-OC48-SR
•
XFP-10GLR-OC192SR
•
XFP-10GER-OC192IR
•
XFP-10GZR-OC192LR
•
SFP-GE-S
•
SFP-GE-L
•
SFP-GE-Z
•
SFP-GE-T
•
SFP-GE-S
•
SFP-GE-L
•
SFP-GE-Z
•
SFP-GE-T
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Chapter 1
SIP and SPA Product Overview
Modular Optics Compatibility
Table 1-7
SPA Optics Compatibility (continued)
SPA
Qualified Optics Modules (Cisco Part Numbers)
10-Port Gigabit Ethernet SPA
2-Port and 4-Port OC-3c/STM-1 POS SPA
1-Port OC-12c/STM-4 POS SPA
1-Port OC-48c/STM-16 POS SPA
2-Port and 4-Port OC-48c/STM-16 POS SPA
1-Port OC-192c/STM-64 POS/RPR XFP SPA
1-Port Channelized OC-3/STM-1 SPA
1-Port Channelized OC-3 STM1 ATM CEoP SPA
•
SFP-GE-S
•
SFP-GE-L
•
SFP-GE-Z
•
SFP-GE-T
•
SFP-OC3-MM
•
SFP-OC3-SR
•
SFP-OC3-IR1
•
SFP-OC3-LR1
•
SFP-OC3-LR2
•
SFP-OC12-MM
•
SFP-OC12-SR
•
SFP-OC12-IR1
•
SFP-OC12-LR1
•
SFP-OC12-LR2
•
SFP-OC48-SR
•
SFP-OC48-IR1
•
SFP-OC48-LR2
•
SFP-OC48-SR
•
SFP-OC48-IR1
•
SFP-OC48-LR2
•
XFP-10GLR-OC192SR
•
XFP-10GER-OC192IR
•
XFP-10GZR-OC192LR
•
SFP-OC3-MM
•
SFP-OC3-SR
•
SFP-OC3-IR1
•
SFP-OC3-LR1
•
SFP-OC3-LR2
•
SFP-OC3-MM
•
SFP-OC3-SR
•
SFP-OC3-IR1
•
SFP-OC3-LR1
•
SFP-OC3-LR2
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1-7
Chapter 1
SIP and SPA Product Overview
Power Management
Power Management
SPAs and SIPs consume chassis power, and, you must make sure the chassis is within the power budget
on Cisco 7600 series routers.
Table 1-8
SIP and SPA Power Consumption
SIP
Power Consumption (Maximum in Watts)
Cisco 7600 SIP-200
2401
Cisco 7600 SIP-400
2651
SPA
1-Port Channelized STM-1/OC-3 SPA
15.14
2-Port Channelized T3 SPA
11.24
4-Port Channelized T3 SPA
13.14
8-Port Channelized T1/E1 SPA
9.4
2-Port OC-3c/STM-1 ATM SPA
24.6
4-Port OC-3c/STM-1 ATM SPA
24.8
1-Port OC-12c/STM-4 ATM SPA
25.1
1-Port OC-192c/STM-64 POS/RPR SPA 23.82
1-Port OC-192c/STM-64 POS/RPR XFP 113
SPA
1-Port OC-192c/STM-64 POS/RPR VSR 11
Optics SPA
2-Port OC-3c/STM-1 POS SPA
13.07
4-Port OC-3c/STM-1 POS SPA
13.82
1-Port OC-12c/STM-4 POS SPA
12.75
1-Port OC-48c/STM-16 ATM SPA
38
1-Port OC-48c/STM-16 POS SPA
10.5
2-Port OC-48c/STM-16 POS SPA
13.21
4-Port OC-48c/STM-16 POS SPA
15.19
2-Port Clear Channel T3/E3 SPA
7.8
4-Port Clear Channel T3/E3 SPA
8.5
IPSec VPN SPA
40
1-Port 10-Gigabit Ethernet SPA
17.43
2-Port Gigabit Ethernet SPA
12.9
5-Port Gigabit Ethernet SPA
13.13
10-Port Gigabit Ethernet SPA
153
4-Port and 8-Port Fast Ethernet SPA
16.2
1-Port Channelized OC-3 STM1 ATM
CEoP SPA
194
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Chapter 1
SIP and SPA Product Overview
Power Management
SIP
Power Consumption (Maximum in Watts)
24-Port Channelized T1/E1 ATM CEoP
SPA
20
2-Port Channelized T3/E3 ATM CEoP
SPA
20
1. Maximum with four SPAs installed
2. Includes LR optics as they are fixed on the board
3. In addition to SFP or XFP optics power
4. SFP consumes 1 Watt
If the power limit is exceeded, the SIP and SPA is not powered up and an error message is displayed.
Router#%C7KPWR-SP-4-POWERDENIED:insufficient power, module in slot 3 power denied.
On a Cisco 7600 series router, use the show power command on the Route Processor to determine how
much power you have available in the chassis and how much is being used or reserved by line cards,
supervisor engines, and fan trays.
The following example shows the show power command on a Cisco 7600 series router:
Router# show power
system power redundancy mode = combined
system power redundancy operationally = non-redundant
system power total = 1869.42 Watts (44.51 Amps @ 42V)
system power used = 1302.42 Watts (31.01 Amps @ 42V)
system power available = 567.00 Watts (13.50 Amps @ 42V)
Power-Capacity PS-Fan Output Oper
PS Type Watts A @42V Status Status State
---- ------------------ ------- ------ ------ ------ ----1 PWR-1900-AC/6 1869.42 44.51 OK OK on
2 none
Pwr-Allocated Oper
Fan Type Watts A @42V State
---- ------------------ ------- ------ ----1 FAN-MOD-6HS 180.18 4.29 OK
Pwr-Requested Pwr-Allocated Admin Oper
Slot Card-Type Watts A @42V Watts A @42V State State
---- ------------------ ------- ------ ------- ------ ----- ----3 7600-SIP-400 265.02 6.31 265.02 6.31 on on
4 7600-SIP-200 200.34 4.77 200.34 4.77 on on
5 unknown 328.44 7.82 328.44 7.82 on on
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Chapter 1
SIP and SPA Product Overview
Power Management
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CH A P T E R
2
Overview: Cisco 7600 Series SIPs
This chapter describes the SPA interface processors (SIPs) that are supported on the Cisco 7600 series
routers and contains the following sections:
•
SIP Summary, page 2-1
•
Identifying Slots and Subslots for SIPs and SPAs, page 2-2
•
Cisco 7600 SIP-200 Overview, page 2-5
•
Cisco 7600 SIP-400 Overview, page 2-8
•
Cisco 7600 SIP-600 Overview, page 2-10
•
Cisco 7600 SSC-400 Overview, page 2-12
SIP Summary
Summary descriptions of the SIPs that are supported on the Cisco 7600 series routers are shown in
Table 2-1.
Note
Table 2-1
SIP
The Description column indicates the aggregate bandwidth supported by the SIP across all subslots—not
per SPA subslot.
SIP Summary
Product Number
Description
Maximum
Number of
SPAs
Minimum Cisco
IOS Release
Cisco 7600 SIP-200 7600-SIP-200
622-Mbps SPA interface
processor
4
12.2(18)SXE
Cisco 7600 SIP-400 7600-SIP-400
2.5-Gbps SPA interface
processor
4
12.2(18)SXE
Cisco 7600 SIP-600 7600-SIP-600
1 x 10-Gbps SPA Interface
Processor
1
12.2(18)SXF
Cisco 7600 SSC-400 7600-SSC-400
SPA services carrier
2
12.2(18)SXE2
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Chapter 2
Overview: Cisco 7600 Series SIPs
Identifying Slots and Subslots for SIPs and SPAs
Checking Hardware and Software Compatibility
To check the minimum software requirements of Cisco IOS software with the hardware installed on your
router, Cisco maintains the Software Advisor tool on Cisco.com. This tool does not verify whether SIPs
or SPAs within a system are compatible, but it does provide the minimum Cisco IOS 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.
Identifying Slots and Subslots for SIPs and SPAs
This section describes how to specify the physical locations of a SIP and SPA on the Cisco 7600 series
routers within the command-line interface (CLI) to configure or monitor those devices.
Note
For simplicity, any reference to “SIP” in this section also applies to the SSC.
Specifying the Slot Location for a SIP or SSC
The Cisco 7600 series router supports different chassis models, each of which supports a certain number
of chassis slots.
Note
The Cisco 7600 series router SIPs are not supported with a Supervisor Engine 1, Supervisor Engine 1A,
Supervisor Engine 2, or Supervisor Engine 720-3A.
Cisco 7600 Series Router SIP, SSC, and SPA Hardware Installation Guide
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OL-5052-08
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WS-X6K-SUP2-2GE
ST
SUPERVISOR2
WS-X6K-SUP2-2GE
ST
SUPERVISOR2
OSM-40C12-POS-MM
US
AT
ST
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US
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ST
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2
AT
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US
AT
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ST
ST
AT
2
OSM-40C12-POS-MM
SPA INTERFACE
PROCESSOR
US
AT
ST
OC12 POS MM
OSM-8OC3-POS MM
8 PORT OC3 POS MM
ST
OSM-8OC3-POS MM
8 PORT OC3 POS MM
SIP and SPA Installed in a Catalyst 6509 Switch
Figure 2-2
OUTPUT
FAIL
FAN
OK
INPUT
OK
AC
TIV
E
2
4
SE
LE
CT
NE
XT
1
ST
AT
US
3
SIP and SPA Installed in a Cisco 7609 Router
Figure 2-1
2-3
OL-5052-08
Overview: Cisco 7600 Series SIPs
Chapter 2
Identifying Slots and Subslots for SIPs and SPAs
Figure 2-1 shows an example of a SIP installed in slot 6 on a Cisco 7609 router. The Cisco 7609 router
has nine vertically-oriented chassis slots, which are numbered 1 to 9 from right to left.
5
o
o
Figure 2-2 shows an example of a SIP installed in slot 6 on a Catalyst 6509 switch. The Catalyst 6509
switch has nine horizontally-oriented chassis slots, which are numbered 1 to 9 from right to left.
Cisco 7600 Series Router SIP, SSC, and SPA Hardware Installation Guide
Chapter 2
Overview: Cisco 7600 Series SIPs
Identifying Slots and Subslots for SIPs and SPAs
WS-X6K-SUP2-2GE
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7600-SIP-200
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3
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NK
LI
15
NK
LI
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NK
LI
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AT
US
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NK
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ST
AT
US
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NK
LI
24 PORT 100FX
3
NK
LI
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WS-X6224
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NK
LI
WS-X6224
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FAN
STATUS
2
1
TX
US
AT
SPA INTERFACE
PROCESSOR
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LI
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NK
LI
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o
FAN
OK
OUTPUT
FAIL
INPUT
OK
FAN
OK
OUTPUT
FAIL
138980
o
INPUT
OK
1
SIP subslot 0
4
SIP subslot 3
2
SIP subslot 1
5
Chassis slots 1–9 (numbered from right to
left)(numbered from top to bottom)
3
SIP subslot 2
Some commands allow you to display information about the SIP itself, such as show module, show
sip-disk, show idprom module, show hw-module slot, and show diagbus. These commands require
you to specify the chassis slot location where the SIP that you want information about is installed.
For example, to display status and information about the SIP installed in slot 6 as shown in Figure 2-1,
enter the following command:
Router# show module 6
For more information about SIP commands, refer to the Cisco IOS Software Releases 12.2SR Command
References and to the Cisco IOS Software Releases 12.2SX Command References.
Specifying the SIP or SSC Subslot Location for a SPA
SIP subslots begin their numbering with “0” and have a horizontal or vertical orientation depending on
the orientation of the SIP in the router chassis slot, as shown in the “SIP, SSC, and SPA Product
Overview” chapter of the Cisco 7600 Series Router SIP, SSC, and SPA Software Configuration Guide .
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Chapter 2
Overview: Cisco 7600 Series SIPs
Cisco 7600 SIP-200 Overview
Figure 2-1 shows an example of a Cisco 7600 SIP-200 installed with a vertical orientation on a
Cisco 7609 router. The Cisco 7600 SIP-200 supports four subslots for the installation of SPAs. In this
example, the subslot locations are vertically oriented as follows:
•
SIP subslot 0—Top–right subslot
•
SIP subslot 1—Bottom–right subslot
•
SIP subslot 2—Top–left subslot
•
SIP subslot 3—Bottom–left subslot
Figure 2-3 shows the faceplate for the Cisco 7600 SIP-200 in a horizontal orientation.
1
3
SPA INTERFACE
PROCESSOR
2
ST
116849
AT
US
7600-SIP-200
Cisco 7600 SIP-200 Faceplate
0
Figure 2-3
In this view, the subslot locations in a horizontal orientation are as follows:
•
SIP subslot 0—Top–left subslot
•
SIP subslot 1—Top–right subslot
•
SIP subslot 2—Bottom–left subslot
•
SIP subslot 3—Bottom–right subslot
The SIP subslot numbering is indicated by a small numeric label beside the subslot on the faceplate.
Just as with the SIPs, some commands allow you to display information about the SPA itself, such as
show idprom module and show hw-module subslot. These commands require you to specify both the
physical location of the SIP and SPA in the format, slot/subslot, where:
•
slot—Specifies the chassis slot number in the Cisco 7600 series router where the SIP is installed.
•
subslot—Specifies the secondary slot of the SIP where the SPA is installed.
For example, to display the operational status for the SPA installed in the first subslot of the SIP in
chassis slot 6 shown in Figure 2-1, enter the following command:
Router# show hw-module subslot 6/0 oir
For more information about SIP commands, refer to the Cisco IOS Software Releases 12.2SR Command
References and to the Cisco IOS Software Releases 12.2SX Command References.
Cisco 7600 SIP-200 Overview
The following sections describe the Cisco 7600 SIP-200 (Cisco part number 7600-SIP-200):
•
Cisco 7600 SIP-200 Processor, page 2-6
•
Cisco 7600 SIP-200 LEDs, page 2-6
•
Cisco 7600 SIP-200 Physical Specifications, page 2-6
•
Cisco 7600 SIP-200 Memory Options, page 2-7
•
Cisco 7600 SIP-200 Default DIP Switch Settings, page 2-8
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Chapter 2
Overview: Cisco 7600 Series SIPs
Cisco 7600 SIP-200 Overview
Cisco 7600 SIP-200 Processor
The processor on a Cisco 7600 SIP-200 is described in Table 2-2.
Table 2-2
Cisco 7600 SIP-200 Processor
Type
Speed
Description
CPU
800 megahertz (MHz) internal operating Broadcom 1125 MIPS-based design
frequency
Cisco 7600 SIP-200 LEDs
The Cisco 7600 SIP-200 has one LED, as shown in Figure 2-4.
The Cisco 7600 SIP-200 LED is described in Table 2-3.
Table 2-3
Cisco 7600 SIP-200 LED
LED Label
Color
State
Meaning
STATUS
Red
On
The SIP has encountered an error.
Green
On
The SIP is online.
Yellow
On
The SIP is loading.
Off
Off
The SIP is powered off.
Cisco 7600 SIP-200 Physical Specifications
The Cisco 7600 SIP-200 physical specifications are shown in Table 2-4.
Table 2-4
Cisco 7600 SIP-200 Physical Specifications
Description
Specifications
Physical dimensions
The SIP occupies one module slot and can be operated in Cisco 7600
series routers.
Shipping weight
8 lb (3.64 kg)
Operating temperature
32 to 104°F (0 to 40°C)
Relative humidity
10 to 90 percent, noncondensing
Storage temperature
–4 to 149°F (–20 to 65°C)
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1
3
SPA INTERFACE
PROCESSOR
2
ST
AT
US
7600-SIP-200
Cisco 7600 SIP-200 Faceplate
0
Figure 2-4
Chapter 2
Overview: Cisco 7600 Series SIPs
Cisco 7600 SIP-200 Overview
Cisco 7600 SIP-200 Memory Options
The following table lists the memory available for the Cisco 7600 SIP-200:
Table 2-5
Note
SIP Memory Options
SIP
Memory Options
Cisco 7600 SIP-200
512 MB and 1 GB (2 x 256-MB or 2 x 512-MB DIMMs)
The SIP DIMMs must be a matched set. A warning message appears on the console if the DIMMs on the
SIP are different sizes. If the sizes are not the same, the following message appears at bootup/OIR:
C7600_SIP200-3-MEM_MODULE_MISMATCH: Memory modules are not identical
Cisco 7600 SIP-200 Memory Installation and Removal
Figure 2-5 shows the location of the DIMMs on a Cisco 7600 SIP-200. Perform the following procedure
to install and remove a DIMM:
To install a DIMM, slide the DIMM into the slot. The retaining clips secure the DIMM in place.
Step 1
To remove a DIMM, separate the two retaining clips.
Step 2
Pull the DIMM from the slot.
Figure 2-5
T
0
122390
7600
-MSC
-200
SIP DIMM Location
US
AT
MODU S
SERV LAR
ICES
CARD
2
1
1
DIMMs
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Chapter 2
Overview: Cisco 7600 Series SIPs
Cisco 7600 SIP-400 Overview
Cisco 7600 SIP-200 Default DIP Switch Settings
If SW3 and SW10 switches are present on the board, make sure they are set to the default settings, as
shown in Table 2-6. See Figure 2-6 for the location of the switches.
The switches are set to their defaults during manufacture. However, the switch settings may get
inadvertently changed during handling.
If the switches are not set to their default settings, there may be momentary packet drops during OIR of
the board.
Note
Table 2-6
Cisco 7600 SIP-200 Default DIP Settings
Switch
Default Position
SW3
Up
SW10
Down
Figure 2-6
Cisco 7600 SIP-200 DIP Switch Locations
\
1
TA
0
129724
7600
-MSC
-200
S
TU
MODU S
SERV LAR
ICES
CARD
2
2
1 SW3
2 SW10
Cisco 7600 SIP-400 Overview
The following sections describe the Cisco 7600 SIP-400 (Cisco part number 7600-SIP-400):
•
Cisco 7600 SIP-400 Processor, page 2-9
•
Cisco 7600 SIP-400 LEDs, page 2-9
•
Cisco 7600 SIP-400 Physical Specifications, page 2-9
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Chapter 2
Overview: Cisco 7600 Series SIPs
Cisco 7600 SIP-400 Overview
Cisco 7600 SIP-400 Processor
The processor on a Cisco 7600 SIP-400 is described in Table 2-7.
Table 2-7
7600-SIP-400 Processor
Type
Speed
Description
CPU
400 megahertz (MHz) internal operating
frequency
Broadcom 1125 MIPS-based design
Cisco 7600 SIP-400 LEDs
The Cisco 7600 SIP-400 has one LED, as shown in Figure 2-7.
1
3
SPA INTERFACE
PROCESSOR
2
ST
101313
AT
US
7600-SIP-400
Cisco 7600 SIP-400 Faceplate
0
Figure 2-7
The Cisco 7600 SIP-400 LED is described in Table 2-8.
Table 2-8
Cisco 7600 SIP-400 LED
LED Label
Color
State
Meaning
STATUS
Red
On
The SIP has encountered an error.
Green
On
The SIP is online.
Yellow
On
The SIP is loading.
Off
Off
The SIP is powered off.
Cisco 7600 SIP-400 Physical Specifications
The Cisco 7600 SIP-400 physical specifications are shown in Table 2-9.
Table 2-9
Cisco 7600 SIP-400 Physical Specifications
Description
Specifications
Physical dimensions
The SIP occupies one module slot and can be operated in Cisco 7600
series routers.
Shipping weight
8 lb (3.64 kg)
Operating temperature
32 to 104°F (0 to 40°C)
Relative humidity
10 to 90 percent, noncondensing
Storage temperature
–4 to 149°F (–20 to 65°C)
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Chapter 2
Overview: Cisco 7600 Series SIPs
Cisco 7600 SIP-600 Overview
Cisco 7600 SIP-600 Overview
The following sections describe the Cisco 7600 SIP-600 (Cisco part number 7600-SIP-600):
•
Cisco 7600 SIP-600 Processor, page 2-10
•
Cisco 7600 SIP-600 LEDs, page 2-10
•
Cisco 7600 SIP-600 Physical Specifications, page 2-10
Cisco 7600 SIP-600 Processor
The processor on a Cisco 7600 SIP-600 is described in Table 2-10.
Table 2-10
Cisco 7600 SIP-600 Processor
Type
Speed
Description
CPU
400 megahertz (MHz) internal operating
frequency
Broadcom 1125 MIPS-based design
Cisco 7600 SIP-600 LEDs
The Cisco 7600 SIP-600 has one LED, as shown in Figure 2-8.
The Cisco 7600 SIP-600 LED is described in Table 2-11.
Table 2-11
Cisco 7600 SIP-600 LED
LED Label
Color
State
Meaning
STATUS
Red
On
The SIP has encountered an error.
Green
On
The SIP is online.
Yellow
On
The SIP is loading.
—
Off
The SIP is powered off.
Cisco 7600 SIP-600 Physical Specifications
The Cisco 7600 SIP-600 physical specifications are shown in Table 2-12.
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1
3
SPA INTERFACE
PROCESSOR
2
ST
AT
US
7600-SIP-600
Cisco 7600 SIP-600 Faceplate
0
Figure 2-8
Chapter 2
Overview: Cisco 7600 Series SIPs
Cisco 7600 SIP-600 Overview
Table 2-12
Cisco 7600 SIP-600 Physical Specifications
Description
Specifications
Physical dimensions
The SIP occupies one module slot and can be operated in Cisco 7600
series routers. The Cisco 7600-SIP-600 supports installation of only a
single SPA in the first subslot.
Shipping weight
8 lb (3.64 kg)
Operating temperature
32 to 104°F (0 to 40°C)
Relative humidity
10 to 90 percent, noncondensing
Storage temperature
–4 to 149°F (–20 to 65°C)
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Chapter 2
Overview: Cisco 7600 Series SIPs
Cisco 7600 SSC-400 Overview
Cisco 7600 SSC-400 Overview
The following sections describe the SPA services carrier (Cisco part number 7600-SSC-400):
•
Cisco 7600 SSC-400 Processor, page 2-12
•
Cisco 7600 SSC-400 LED, page 2-12
•
Cisco 7600 SSC-400 Physical Specifications, page 2-13
Cisco 7600 SSC-400 Processor
The processor on a Cisco 7600 SSC-400 is described in Table 2-13.
Table 2-13
7600-SSC-400 Processor
Type
Speed
Description
CPU
400 megahertz (MHz) internal operating
frequency
Broadcom 1125 MIPS-based design
Cisco 7600 SSC-400 LED
The Cisco 7600 SSC-400 has one LED, as shown in Figure 2-9.
The Cisco 7600 SSC-400 LED is described in Table 2-14.
Table 2-14
Cisco 7600 SSC-400 LED
LED Label
Color
State
Meaning
STATUS
Red
On
The Cisco 7600 SSC-400 has encountered an error.
Green
On
The Cisco 7600 SSC-400 is online.
Yellow
On
The Cisco 7600 SSC-400 is loading.
Off
Off
The Cisco 7600 SSC-400 is powered off.
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1
3
SERVICES
SPA CARRIER
2
ST
AT
US
7600-SSC-400
Cisco 7600 SSC-400 Faceplate
0
Figure 2-9
Chapter 2
Overview: Cisco 7600 Series SIPs
Cisco 7600 SSC-400 Overview
Cisco 7600 SSC-400 Physical Specifications
The Cisco 7600 SSC-400 physical specifications are shown in Table 2-15.
Table 2-15
Cisco 7600 SSC-400 Physical Specifications
Description
Specifications
Physical dimensions
The Cisco 7600 SSC-400 occupies one module slot and can be
operated in Cisco 7600 series routers.
Shipping weight
8 lb (3.64 kg)
Operating temperature
32 to 104°F (0 to 40°C)
Relative humidity
10 to 90 percent, noncondensing
Storage temperature
–4 to 149°F (–20 to 65°C)
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Chapter 2
Overview: Cisco 7600 Series SIPs
Cisco 7600 SSC-400 Overview
Cisco 7600 Series Router SIP, SSC, and SPA Hardware Installation Guide
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CH A P T E R
3
Overview: Cisco 7600 Series Router Shared Port
Adapters
This chapter describes the shared port adapters (SPAs) that are supported on the Cisco 7600 series
routers and contains the following sections:
•
Bandwidth Oversubscription, page 3-2
•
2-Port and 4-Port Channelized T3 SPA Overview, page 3-4
•
2-Port and 4-Port Clear Channel T3/E3 SPA Overview, page 3-6
•
8-Port Channelized T1/E1 SPA Overview, page 3-8
•
1-Port Channelized STM-1/OC-3 SPA Overview, page 3-10
•
2-Port and 4-Port OC-3c/STM-1 ATM SPA Overview, page 3-12
•
2-Port and 4-Port OC-3c/STM-1 POS SPA Overview, page 3-14
•
1-Port OC-12c/STM-4 ATM SPA Overview, page 3-17
•
1-Port OC-12c/STM-4 POS SPA Overview, page 3-19
•
1-Port OC-48c/STM-16 ATM SPA Overview, page 3-22
•
1-Port OC-48c/STM-16 POS SPA Overview, page 3-23
•
2-Port and 4-Port OC-48c/STM-16 POS SPA, page 3-26
•
1-Port OC-192c/STM-64 POS/RPR SPA Overview, page 3-28
•
1-Port OC-192c/STM-64 POS/RPR XFP SPA Overview, page 3-32
•
1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA Overview, page 3-36
•
4-Port and 8-Port Fast Ethernet SPA Overview, page 3-39
•
1-Port 10-Gigabit Ethernet SPA Overview, page 3-41
•
2-Port Gigabit Ethernet SPA Overview, page 3-45
•
5-Port Gigabit Ethernet SPA Overview, page 3-49
•
10-Port Gigabit Ethernet SPA Overview, page 3-54
•
IPSec VPN SPA Overview, page 3-58
•
1-Port Channelized OC-3 STM-1 ATM CEoP SPA Overview, page 3-59
•
24-Port Channelized T1/E1 ATM CEoP SPA Overview, page 3-60
•
2-Port Channelized T3/E3 ATM CEoP SPA, page 3-66
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Chapter 3
Overview: Cisco 7600 Series Router Shared Port Adapters
Checking Hardware and Software Compatibility
Checking Hardware and Software Compatibility
To check the minimum software requirements of Cisco IOS software with the hardware installed on your
router, Cisco maintains the Software Advisor tool on Cisco.com. This tool does not verify whether SPA
interface processors (SIPs) or SPAs within a system are compatible, but it does provide the minimum
Cisco IOS 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. It is also important not to exceed the bandwidth of the SIP. For information
on SIP bandwidth, see Chapter 2, “SIP Summary.”
Table 3-1 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.
Table 3-1
SPA Bandwidth Capacity
SPA
Per-Port Bandwidth
Number of
Ports
Total Bandwidth
2-Port Channelized T3 SPA
44.736 Mbps
2
89.47 Mbps
4-Port Channelized T3 SPA
44.736 Mbps
4
178.94 Mbps
8-Port Channelized T1/E1 SPA
1.544 Mbps (T1)
8
12.35 Mbps (T1)
2.048 Mbps (E1)
16.38 Mbps (E1)
2-Port OC-3c/STM-1 ATM SPA
155.52 Mbps
2
311.04 Mbps
4-Port OC-3c/STM-1 ATM SPA
155.52 Mbps
4
622.08 Mbps
1-Port Channelized STM-1/OC-3 SPA 155.52 Mbps
1
155.52 Mbps
1-Port OC-48c/STM-16 ATM SPA
2488 Mbps
1
2488 Mbps
1-Port OC-48c/STM-16 POS SPA
2488 Mbps
1
2488 Mbps
2-Port OC-48c/STM-16 POS SPA
2488 Mbps
2
4976 Mbps
4-Port OC-48c/STM-16 POS SPA
2488 Mbps
4
9952 Mbps
2-Port OC-3c/STM-1 POS SPA
155.52 Mbps
2
311.04 Mbps
4-Port OC-3c/STM-1 POS SPA
155.52 Mbps
4
622.08 Mbps
1-Port OC-12c/STM-4 POS SPA
622.08 Mbps
1
622.08 Mbps
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Chapter 3
Overview: Cisco 7600 Series Router Shared Port Adapters
Bandwidth Oversubscription
Table 3-1
SPA Bandwidth Capacity (continued)
SPA
Per-Port Bandwidth
Number of
Ports
Total Bandwidth
1-Port OC-192c/STM-64 POS/RPR
SPA
9.95 Gbps
1
9.95 Gbps
1-Port OC-192c/STM-64 POS/RPR
XFP SPA
9.95 Gbps
1
9.95 Gbps
1-Port OC-192c/STM-64 POS/RPR
VSR Optics SPA
9.95 Gbps
1
9.95 Gbps
2-Port Clear Channel T3/E3 SPA
44.736 Mbps (T3)
2
89.47 Mbps (T3)
34.368 Mbps (E3)
4-Port Clear Channel T3/E3 SPA
44.736 Mbps (T3)
68.74 Mbps (E3)
4
34.368 Mbps (E3)
178.94 Mbps (T3)
137.47 Mbps (E3)
4-Port FastEthernet SPA
100 Mbps
4
400 Mbps
8-Port Fast Ethernet SPA
100 Mbps
8
800 Mbps
1-Port 10-Gigabit Ethernet SPA
10 Gbps
1
10 Gbps
2-Port Gigabit Ethernet SPA
10 Gbps
2
20 Gbps
2-Port Gigabit Ethernet SPA
1000 Mbps
2
2000 Mbps
5-Port Gigabit Ethernet SPA
1000 Mbps
5
5000 Mbps
10-Port Gigabit Ethernet SPA
1000 Mbps
10
10,000 Mbps
1-Port Channelized OC-3 STM-1 ATM 155.52 Mbps
CEoP SPA
1
155.52 Mbps
24-Port Channelized T1/E1 ATM
CEoP SPA
24
37.06 Mbps (T1)
1.544 Mbps (T1)
2.048 Mbps (E1)
2-Port Channelized T3/E3 ATM CEoP 44.736 Mbps (T3)
SPA
34.368 Mbps (E3)
49.15 Mbps (E1)
2
89.47 Mbps (T3)
68.74 Mbps (E3)
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Chapter 3
Overview: Cisco 7600 Series Router Shared Port Adapters
2-Port and 4-Port Channelized T3 SPA Overview
Cisco 7600 SIP-400 Oversubscription Guidelines
As of Cisco IOS Release 12.2(18)SXF, when using the Cisco 7600 SIP-400 with the 2-Port Gigabit
Ethernet SPA or the 1-Port OC-48c/STM-16 ATM SPA, consider the following oversubscription
guidelines:
Note
•
The 7600-SIP-400 only supports installation of one 1-Port OC-48c/STM-16 ATM SPA without any
other SPAs installed in the SIP.
•
The 7600-SIP-400 supports installation of up to two 2-Port Gigabit Ethernet SPAs without any other
SPAs installed in the SIP.
•
The 7600-SIP-400 supports installation of any combination of a OC-3, OC-12 POS, CEoP, or ATM
SPAs, up to a combined ingress bandwidth of OC-48 rates.
•
The 7600-SIP-400 supports installation of any combination of OC-3, OC-12 POS, CEoP, or ATM
SPAs up to a combined ingress bandwidth of OC-24 rates, when installed with a single 2-Port
Gigabit Ethernet SPA.
•
The 7600-SIP-400 supports installation of a single 1-Port 10-Gigabit Ethernet SPA without any
other SPAs installed in the 7600-SIP-400.
A 1-Port 10-Gigabit Ethernet SPA on a 7600-SIP-400 provides 4 Gbps of bandwidth.
2-Port and 4-Port Channelized T3 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 3-4
•
2-Port and 4-Port Channelized T3 SPA Interface Specifications, page 3-5
•
2-Port and 4-Port Channelized T3 SPA Cables and Connectors, page 3-5
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 3-1 shows an example of these LEDs on a 4-Port Channelized
T3 SPA:
Figure 3-1
4-Port Channelized T3 SPA Faceplate
2
ST
AT
US
3
L
RX
A/
SPA-4XCT3/DS0
116854
C/
RX
TX
A
2
L
A/
C/
RX
4
TX
A
1
L
A
C/
TX
RX
3
A/
L
A/
TX
C/
A
0
1
5
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Overview: Cisco 7600 Series Router Shared Port Adapters
2-Port and 4-Port Channelized T3 SPA Overview
1
C/A (Carrier/Alarm) LED
4
RX (Receive) connector
2
A/L (Active Loopback) LED
5
STATUS LED
3
TX (Transmit) connector
The 2-Port and 4-Port Channelized T3 SPA LEDs are described in Table 3-2.
Table 3-2
2-Port and 4-Port Channelized T3 SPA LEDs
LED Label
Color
State
Meaning
C/A
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, and there is a valid T3 signal
without any alarms.
Amber
On
Port is enabled by software, and there is at least one alarm.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, loopback is off.
Amber
On
Port is enabled by software, loopback is on.
Off
Off
SPA power is off.
Amber
On
SPA power is on and good, and SPA is being configured.
Green
On
SPA is ready and operational.
A/L
STATUS
2-Port and 4-Port Channelized T3 SPA Interface Specifications
The framer processes incoming and outgoing T3 frames (cbit, m13/m23, and unframe). The framer
operates at T3 line rates (44.2 Mbps).
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 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 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 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
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 )
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Note
The Cisco cable part numbers are 72-4124-01 ( with Male BNC end) and 72-4131-01 (with Female BNC
end).
Figure 3-1 shows the Siemax connectors on the 2-Port and 4-Port Channelized T3 SPA, and Table 3-3
provides the signal descriptions for these connectors.
Table 3-3
2-Port and 4-Port Channelized T3 SPA Connectors
Connector Label
Meaning
TX
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.
RX
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.
2-Port and 4-Port Clear Channel T3/E3 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 3-6
•
2-Port and 4-Port Clear Channel T3/E3 SPA Interface Specifications, page 3-7
•
2-Port and 4-Port Clear Channel T3/E3 SPA Cables and Connectors, page 3-7
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. There are two LEDs for each
port on the SPA, and one STATUS LED. Figure 3-2 shows an example of these LEDs on a 4-Port Clear
Channel T3/E3 SPA.
Figure 3-2
4-Port Clear Channel T3/E3 SPA Faceplate
2
ST
AT
US
SPA-4XT3/E3
116851
3
L
4
RX
C/
A/
TX
A
2
L
RX
C/
TX
RX
A/
A
1
L
A
C/
TX
RX
3
A/
L
A/
TX
C/
A
0
1
5
1
C/A (Carrier/Alarm) LED
4
RX (Receive) connector
2
A/L (Active Loopback) LED
5
STATUS LED
3
TX (Transmit) connector
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2-Port and 4-Port Clear Channel T3/E3 SPA Overview
The 2-Port and 4-Port Clear Channel T3/E3 SPA LEDs are described in Table 3-4.
Table 3-4
2-Port and 4-Port Clear Channel T3/E3 SPA LEDs
LED Label
Color
State
Meaning
C/A
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, and there is a valid E3 or T3 signal
without any alarms.
Amber
On
Port is enabled by software, and there is at least one alarm.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, loopback is off.
Amber
On
Port is enabled by software, loopback is on.
Off
Off
SPA power is off.
Amber
On
SPA power is on and good, and the SPA is being configured.
Green
On
SPA is ready and operational.
A/L
STATUS
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 (44.2/34.0 Mbps) depending on which mode
it is configured in.
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 on one end and the Siemax connectors on the other.
Note
•
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 )
The Cisco cable part numbers are 72-4124-01 ( with male BNC end) and 72-4131-01 (with female BNC
end).
Figure 3-2 shows the connectors on the 4-Port Clear Channel T3/E3 SPA, and Table 3-5 describes the
signal descriptions for these connectors.
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8-Port Channelized T1/E1 SPA Overview
Table 3-5
2-Port and 4-Port Clear Channel T3/E3 SPA Connectors
Connector Label
Meaning
TX
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.
RX
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.
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 3-8
•
8-Port Channelized T1/E1 SPA Interface Specifications, page 3-9
•
8-Port Channelized T1/E1 SPA Cables, Connectors, and Pinouts, page 3-9
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 3-3.
Figure 3-3
8-Port Channelized T1/E1 SPA Faceplate
2
A/L C/A
A/L
116852
ST
AT
US
A/L C/A
7
A/L C/A
6
C/A
5
A/L
4
A/L C/A
3
A/L C/A
2
A/L C/A
1
C/A
0
SPA-8XCHT1/E1
1
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 3-6.
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Table 3-6
8-Port Channelized T1/E1 SPA LEDs
LED Label
Color
State
Meaning
C/A
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, and there is a valid T1 or E1 signal
without any alarms.
Amber
On
Port is enabled by software, and there is at least one alarm.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, loopback is off.
Amber
On
Port is enabled by software, loopback is on.
Off
Off
SPA power is off.
Amber
On
SPA power is on and good, and SPA is being configured.
Green
On
SPA is ready and operational.
A/L
STATUS
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 unshielded twisted pair (UTP) cables.
8-Port Channelized T1/E1 SPA Cables, Connectors, and Pinouts
Figure 3-4 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 3-4
RJ-45 Connector
RJ-45
RJ-48c
32770
Pin 1
Pin 8
Table 3-7 describes the signals and connector pinouts for RJ-45 cable connectors.
Table 3-7
RJ-45 Connector Pinouts
Pin
Signal
Description
1
RX–
Receive ring –
2
RX+
Receive tip +
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1-Port Channelized STM-1/OC-3 SPA Overview
Table 3-7
RJ-45 Connector Pinouts
Pin
Signal
Description
3
NC
No connection
4
TX–
Transmit ring –
5
TX+
Transmit tip +
6
NC
No connection
7
NC
No connection
8
NC
No connection
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 3-10
•
1-Port Channelized STM-1/OC-3 SPA Interface Specifications, page 3-11
•
1-Port Channelized STM-1/OC-3 SPA Cables and Connectors, page 3-11
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 3-5.
Figure 3-5
1-Port Channelized STM-1/OC-3 SPA Faceplate
138847
ST
AT
US
A/ C/
L A
1
0
SPA-1XCHSTM1/OC3
2
1
C/A (Carrier/Alarm) LED
2
A/L (Active Loopback) LED
3
3
STATUS LED
The 1-Port Channelized STM-1/OC-3 SPA LEDs are described in Table 3-2.
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1-Port Channelized STM-1/OC-3 SPA Overview
Table 3-8
1-Port Channelized STM-1/OC-3 SPA LEDs
LED Label
Color
State
Meaning
C/A
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, and there is a valid T3 signal
without any alarms.
Amber
On
Port is enabled by software, and there is at least one alarm.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, loopback is off.
Amber
On
Port is enabled by software, loopback is on.
Off
Off
SPA power is off.
Green
On
SPA is ready and operational.
Amber
On
SPA power is on and good, and SPA is being configured.
A/L
STATUS
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-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 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).
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 Figure 3-6).
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2-Port and 4-Port OC-3c/STM-1 ATM SPA Overview
SFP Optics Module
127158
Figure 3-6
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-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 3-12) 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 3-7
LC Type Cables
//
RX
//
TX
84929
//
2-Port and 4-Port OC-3c/STM-1 ATM SPA Overview
The following sections describe the 2-Port and 4-Port OC-3c/STM-1 ATM SPA:
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2-Port and 4-Port OC-3c/STM-1 ATM SPA Overview
•
2-Port and 4-Port OC-3c/STM-1 ATM SPA LEDs, page 3-13
•
2-Port and 4-Port OC-3c/STM-1 ATM SPA Interface Specifications, page 3-14
•
2-Port and 4-Port OC-3c/STM-1 ATM SPA Cables and Connectors, page 3-14
2-Port and 4-Port OC-3c/STM-1 ATM SPA LEDs
The 2-Port and 4-Port OC-3c/STM-1 ATM SPA has three types of LEDs. There are two LEDs for each
port on the SPA, and one STATUS LED. Figure 3-8 shows an example of these LEDs on a 4-Port
OC-3c/STM-1 ATM SPA:
4-Port OC-3c/STM-1 ATM SPA Faceplate
117102
ST
AT
US
A/
L
0
A/
L
C/
A
0
0
3
A/
L
C/
A
2
0
C/
A
1
A/
L
C/
A
Figure 3-8
SPA-4XOC3-ATM
1
C/A (Carrier/Alarm) LED
3
2
A/L (Active Loopback) LED
STATUS LED
The 2-Port and 4-Port OC-3c/STM-1 ATM SPA LEDs are described in Table 3-9.
Table 3-9
2-Port and 4-Port OC-3c/STM-1 ATM SPA LEDs
LED Label
Color
State
Meaning
C/A
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, and there is a valid SONET signal
without any alarms.
Amber
On
Port is enabled by software, and there is at least one alarm.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, loopback is off.
Amber
On
Port is enabled by software, loopback is on.
Off
Off
SPA power is off.
Amber
On
SPA power is on and good, and SPA is being configured.
Green
On
SPA is ready and operational.
A/L
STATUS
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2-Port and 4-Port OC-3c/STM-1 POS SPA Overview
2-Port and 4-Port OC-3c/STM-1 ATM SPA Interface Specifications
The physical layer interface for the 2-Port and 4-Port OC-3c/STM-1 ATM SPA is Optical Carrier-3
(OC-3), and the data link layer is designed to comply with ATM specifications. The 2-Port and 4-Port
OC-3c/STM-1 ATM SPA provides up to four 155-Mbps OC-3 network interfaces 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.
2-Port and 4-Port OC-3c/STM-1 ATM SPA Cables and Connectors
The 2-Port and 4-Port OC-3c/STM-1 ATM SPAs 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.
•
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
Figure 3-9) or two simplex LC-type cables, one for transmit (TX) and one for receive (RX).
Figure 3-9
Duplex Patch Cable with LC-Type Connectors
//
RX
//
TX
84929
//
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 OC-3-equipped routers back-to-back.
Long-range SFP optics modules (for long-reach configurations) cannot be connected back-to-back
without using an attenuator between the two of them.
2-Port and 4-Port OC-3c/STM-1 POS SPA Overview
The 2-Port and 4-Port OC-3c/STM-1 POS SPAs are single-height SPAs that install into one SIP subslot.
The OC-3c/STM-1 POS SPAs with small form-factor pluggable (SFP) optical transceiver modules
provide SONET and SDH network connectivity with a per-port bandwidth of 155.52 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 “Carrier Card and
SPA Product Overview” chapter in this guide.
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2-Port and 4-Port OC-3c/STM-1 POS SPA Overview
The following sections describe the 2-Port and 4-Port OC-3c/STM-1 POS SPA:
•
OC-3c/STM-1 POS SPA LEDs, page 3-15
•
OC-3c/STM-1 POS SPA Interface Specifications, page 3-15
•
OC-3c/STM-1 POS SPA SFP Optical Transceiver Modules and Cables, page 3-16
OC-3c/STM-1 POS SPA LEDs
The 2-Port and 4-Port OC-3c/STM-1 POS SPAs have three types of LEDs. There are two LEDs for each
port on the SPA, and one Status LED. Figure 3-10 shows an example of these LEDs on a 4-Port
OC-3c/STM-1 POS SPA.
Figure 3-10
4-Port OC-3c/STM-1 POS SPA Faceplate
S
2
122938
2
3
ST
AT
U
L
A/
L
A/
L
A/
1
C/
A
C/
A
C/
A
C/
L
A/
0
A
1
3
1
C/A (Carrier/Alarm) LED
3
2
A/L (Active Loopback) LED
STATUS LED
The 2-Port and 4-Port OC-3c/STM-1 POS SPA LEDs are described in Table 3-10.
Table 3-10
2-Port and 4-Port OC-3c/STM-1 POS SPA LEDs
LED Label
Color
State
Meaning
C/A
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, and there is a valid SONET signal
without any alarms.
Amber
On
Port is enabled by software, and there is at least one alarm.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, loopback is off.
Amber
On
Port is enabled by software, loopback is on.
Off
Off
SPA power is off.
Amber
On
SPA power is on and good, and SPA is being configured.
Green
On
SPA is ready and operational.
A/L
STATUS
OC-3c/STM-1 POS SPA Interface Specifications
The framer processes incoming and outgoing SONET or SDH frames. The framer operates at
OC-3c/STM-1 (155.52 Mbps) line rates.
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2-Port and 4-Port OC-3c/STM-1 POS SPA Overview
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 OC-3c/STM-1 POS SPA interface is compliant with RFC 1619, PPP over SONET/SDH, and RFC
1662, PPP in HDLC-like Framing. The OC-3c/STM-1 POS SPA also provides support for SNMP agent
v1 (RFC 1155-1157), and Management Information Base (MIB) II (RFC 1213).
OC-3c/STM-1 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.
SFP Optics Module
127158
Figure 3-11
The SFP optical transceiver modules used with the POS SPAs 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 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 OC-3c/STM-1-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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1-Port OC-12c/STM-4 ATM SPA Overview
Figure 3-12
LC Type Cables
//
RX
//
84929
//
TX
1-Port OC-12c/STM-4 ATM SPA Overview
The following sections describe the 1-Port OC-12c/STM-4 ATM SPA:
•
1-Port OC-12c/STM-4 ATM SPA LEDs, page 3-17
•
1-Port OC-12c/STM-4 ATM SPA Interface Specifications, page 3-18
•
1-Port OC-12c/STM-4 ATM SPA Cables and Connectors, page 3-18
1-Port OC-12c/STM-4 ATM SPA LEDs
The 1-Port OC-12c/STM-4 ATM SPA has three types of LEDs. There are two LEDs for the port on the
SPA, and one STATUS LED as shown in Figure 3-13.
1-Port OC-12c/STM-4 ATM SPA Faceplate
3
L
2
SPA-1XOC12-ATM
1
C/A (Carrier/Alarm) LED
3
2
A/L (Active Loopback) LED
117100
ST
AT
US
0
C/
A
1
A/
Figure 3-13
STATUS LED
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1-Port OC-12c/STM-4 ATM SPA Overview
The 1-Port OC-12c/STM-4 ATM SPA LEDs are described in Table 3-11.
Table 3-11
1-Port OC-12c/STM-4 ATM SPA LEDs
LED Label
Color
State
Meaning
C/A
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, and there is a valid ATM signal
without any alarms.
Amber
On
Port is enabled by software, and there is at least one alarm.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, loopback is off.
Amber
On
Port is enabled by software, loopback is on.
Off
Off
SPA power is off.
Amber
On
SPA power is on and good, and SPA is being configured.
Green
On
SPA is ready and operational.
A/L
STATUS
1-Port OC-12c/STM-4 ATM SPA Interface Specifications
The physical layer interface for the 1-Port OC-12c/STM-4 ATM SPA is Optical Carrier-12 (OC-12), and
the 1-Port OC-12c/STM-4 ATM SPA is designed to comply with ATM specifications. The 1-Port
OC-12c/STM-4 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.
1-Port OC-12c/STM-4 ATM SPA Cables and Connectors
The 1-Port OC-12c/STM-4 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
Figure 3-9) or two simplex LC-type cables, one for transmit (TX) and one for receive (RX).
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1-Port OC-12c/STM-4 POS SPA Overview
1-Port OC-12c/STM-4 POS SPA Overview
The 1-Port OC-12c/STM-4 POS SPA is single-height SPA that installs into one SIP subslot. The 1-Port
OC-12c/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-12c/STM-4 POS SPA:
•
1-Port OC-12c/STM-4 POS SPA LEDs, page 3-19
•
1-Port OC-12c/STM-4 POS SPA Interface Specifications, page 3-20
•
1-Port OC-12c/STM-4 POS SPA SFP Optical Transceiver Modules and Cables, page 3-20
1-Port OC-12c/STM-4 POS SPA LEDs
The 1-Port OC-12c/STM-4 POS SPA has three types of LEDs. There are two LEDs for each port on the
SPA, and one STATUS LED. Figure 3-14 shows an example of these LEDs on a 1-Port OC-12c/STM-4
POS SPA.
Figure 3-14
1-Port OC-12c/STM-4 POS SPA Faceplate
A/
L
ST
AT
U
S
C/
A
1
129137
0
SPA-1XOC12-POS
3
2
1
C/A (Carrier/Alarm) LED
3
2
A/L (Active Loopback) LED
STATUS LED
The 1-Port OC-12c/STM-4 POS SPA LEDs are described in Table 3-12.
Table 3-12 1-Port OC-12c/STM-4 POS SPA LEDs
LED Label
Color
State
Meaning
C/A
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, and there is a valid SONET signal
without any alarms.
Amber
On
Port is enabled by software, and there is at least one alarm.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, loopback is off.
Amber
On
Port is enabled by software, loopback is on.
A/L
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1-Port OC-12c/STM-4 POS SPA Overview
Table 3-12 1-Port OC-12c/STM-4 POS SPA LEDs (continued)
LED Label
Color
State
Meaning
STATUS
Off
Off
SPA power is off.
Green
On
SPA is ready and operational.
Amber
On
SPA power is on and good; SPA is being configured.
1-Port OC-12c/STM-4 POS SPA Interface Specifications
The framer processes incoming and outgoing SONET or SDH frames. The framer operates at
OC-12c/STM-4 line rates (622.08 Mbps).
Packet data is transported with a user-configured encapsulation (such as Point-to-Point Protocol [PPP])
and is mapped into the STS-12c/STM-4 frame.
The 1-Port OC-12c/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-12c/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-12c/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 Figure 3-15).
Cisco Systems qualifies the optics that are approved for use with its SPAs. The 1-Port OC-12c/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
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1-Port OC-12c/STM-4 POS SPA Overview
SFP Optics Module
127158
Figure 3-15
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-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 3-16) 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-12c/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.
Figure 3-16
LC-Type Cable
//
RX
//
84929
//
TX
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1-Port OC-48c/STM-16 ATM SPA Overview
1-Port OC-48c/STM-16 ATM SPA Overview
The following sections describe the 1-Port OC-48c/STM-16 ATM SPA:
•
1-Port OC-48c/STM-16 ATM SPA LEDs, page 3-22
•
1-Port OC-48c/STM-16 ATM SPA Interface Specifications, page 3-23
•
1-Port OC-48c/STM-16 ATM SPA Cables and Connectors, page 3-23
1-Port OC-48c/STM-16 ATM SPA LEDs
The 1-Port OC-48c/STM-16 ATM SPA has three LEDs, as shown in Figure 3-17.
1-Port OC-48c/STM-16 ATM SPA Faceplate
3
L
A
SPA-1XOC48-ATM
1
C/A (Carrier Alarm) LED
2
A/L (Active Loopback) LED
3
117101
ST
AT
US
C/
2
0
1
A/
Figure 3-17
STATUS LED
The 1-Port OC-48c/STM-16 ATM SPA LEDs are described in Table 3-13.
Table 3-13
1-Port OC-48c/STM-16 ATM SPA LEDs
LED Label
Color
State
Meaning
A/L
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, loopback is off.
Amber
On
Port is enabled by software, loopback is on.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, and there is a valid
ATM signal without any alarms.
Amber
On
Port is enabled by software, and there is at least
one alarm.
Off
Off
SPA power is off.
Amber
On
SPA power is on and good, and SPA is being
configured.
Green
On
SPA is ready and operational.
C/A
STATUS
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1-Port OC-48c/STM-16 POS SPA Overview
1-Port OC-48c/STM-16 ATM SPA Interface Specifications
The physical layer interface for the 1-port OC-48 ATM SPA is Optical Carrier-48 (OC-48), and the
1-port OC-48 ATM SPA is designed to comply with ATM specifications. The 1-port OC-48 ATM SPA
provides one 2.488-Gbps ATM network interface for all supported platforms.
Each 1-port OC-48 ATM SPA has one duplex LC-type receptacle that allows connection to single-mode
optical fiber.
1-Port OC-48c/STM-16 ATM SPA Cables 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 SPA-OC48 accepts an SFP module with a duplex LC-type receptacle that allows connection to
single-mode optical fiber. For single-mode optical fiber connections, you can use either a duplex
LC-type cable (see Figure 3-18) or two simplex LC-type cables, one for transmit (TX) and one for
receive (RX).
Figure 3-18
Duplex Patch Cable with LC-Type Connectors
//
RX
//
84929
//
TX
1-Port OC-48c/STM-16 POS SPA Overview
The 1-Port OC-48c/STM-16 POS SPA is a single-height SPA that is installed in a SIP subslot. The
1-Port OC-48c/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-48c/STM-16 POS SPA:
•
OC-3c/STM-1 POS SPA LEDs, page 3-15
•
OC-3c/STM-1 POS SPA Interface Specifications, page 3-15
•
OC-3c/STM-1 POS SPA SFP Optical Transceiver Modules and Cables, page 3-16
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1-Port OC-48c/STM-16 POS SPA Overview
1-Port OC-48c/STM-16 POS SPA LEDs
The 1-Port OC-48c/STM-16 POS SPA has six LEDs, as shown in Figure 3-26.
1-Port OC-48c/STM-16 POS SPA Faceplate
3
4
5
6
A
2
A/
L
ST
AT
U
C/
SPA-1XOC48POS/RPR
IER IVE
RR ACT
CA
0
AP RU NC
WR STH ESY
T
S
PA MA
SPA-1XOC12-POS
8
7
Note
149965
1
S
Figure 3-19
1
WRAP LED
5
CARRIER LED
2
PASSTHRU LED
6
ACTIVE LED
3
MATESYNC LED
7
A/L (Active Loopback) LED
4
C/A (Carrier/Alarm) LED
8
STATUS LED
The WRAP, PASSTHRU, and MATESYNC LEDs apply to the SPA in RPR/SRP mode only.
The 1-Port OC-48c/STM-16 POS SPA LEDs are described in Table 3-17.
Table 3-14
1-Port OC-48c/STM-16 POS SPA LEDs
LED Label
Color
State
Meaning
WRAP
Off
Off
Port is not in wrap mode.
Green
On
Port is in wrap mode somewhere on the ring.
Amber
On
Port is in wrap mode locally.
Off
Off
Port is not in pass-thru mode.
Amber
On
Port is in pass-thru mode.
Off
Off
Mate port is not synchronized.
Green
On
Mate port is synchronized.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software.
Amber
On
Port is enabled by software, and there is at least one alarm.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, loopback is off.
Amber
On
Port is enabled by software, loopback is on.
Off
Off
Port is not enabled by software.
PASSTHRU
MATESYNC
C/A
A/L
CARRIER
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1-Port OC-48c/STM-16 POS SPA Overview
Table 3-14
1-Port OC-48c/STM-16 POS SPA LEDs (continued)
LED Label
Color
State
Meaning
Green
On
Port is enabled by software; there is a valid SONET signal
without alarms.
Amber
On
Port is enabled by software; there is at least one alarm (LOS,
LOF, RDI, and so on).
Blinking
Indicates SRP mode mismatch alarm.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software; loopback is off.
Amber
On
Port is enabled by software; loopback is on.
Off
Off
SPA power off.
Green
On
SPA is ready and operational.
Amber
On
SPA power is on and good; SPA is being configured.
ACTIVE
STATUS
1-Port OC-48c/STM-16 POS SPA Interface Specifications
The framer processes incoming and outgoing SONET or SDH frames. The framer operates at
OC-48c/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-48c/STM-16 POS SPA interface is compliant with the following RFCs:
•
RFC 2615, PPP over SONET/SDH
•
RFC 1662, PPP in HDLC-like Framing
•
RFC 2615, PPP over SONET/SDH
1-Port OC-48c/STM-16 POS SPA Optical Transceiver Modules, Connectors, and
Cables
The 1-Port OC-48c/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-48c/STM-16 POS SPA supports the following type of optical transceiver module:
•
Single-mode short reach (SR) SFP module—SFP-OC48-SROC-48c/STM-16c
•
Single-mode intermediate reach (IR) SFP module—SFP-OC48-IR1OC-48c/STM-16c
•
Single-mode long reach (LR) SFP module—SFP-OC48-LR2OC-48c/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 3-27 shows the cable type for use with the XFP optical transceiver module on the
1-Port OC-48c/STM-16 POS SPA.
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2-Port and 4-Port OC-48c/STM-16 POS SPA
Figure 3-20
LC-Type Cable for the SFP Optical Transceiver Modules
//
RX
Note
//
84929
//
TX
The 40-pin connector on the 1-Port OC-48c/STM-16 POS SPA is used for resilient packet ring (RPR)
connections.
2-Port and 4-Port OC-48c/STM-16 POS SPA
The following sections describe the 2-Port and 4-Port OC-48c/STM-16 POS SPA:
•
1-Port OC-48c/STM-16 ATM SPA LEDs, page 3-22
•
1-Port OC-48c/STM-16 ATM SPA Interface Specifications, page 3-23
•
1-Port OC-48c/STM-16 ATM SPA Cables and Connectors, page 3-23
2-Port and 4-Port OC-48c/STM-16 POS SPA LEDs
The 2-Port and 4-Port OC-48c/STM-16 POS SPA has five unique LEDs, as shown in Figure 3-17.
Figure 3-21
2-Port OC-48c/STM-16 POS SPA Faceplate
1 2
S
PR
T
AC
T
ST
AT
U
SPA-2XOC48-POS/RPR
0
3 4
138086
PT
H
CA
R
PR
T
AC
T
1
PT
H
CA
R
5
1
PTH (Pass Through) LED
4
ACT (Active Loopback) LED
2
PRT (Protect) LED
5
STATUS LED
3
CAR (Carrier Alarm) LED
The 2-Port and 4-Port OC-48c/STM-16 POS SPA LEDs are described in Table 3-13.
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2-Port and 4-Port OC-48c/STM-16 POS SPA
Table 3-15
2-Port and 4-Port OC-48c/STM-16 POS SPA LEDs
LED Label
Color
State
Meaning
PTH
Off
Off
Port is not in pass-through mode.
Amber
On
Port is in pass-through mode.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, and there is a valid
SONET signal without any alarms.
Amber
On
Port is enabled by software, and there is at least
one alarm.
Amber
Flashing
Port is enabled by software, and there is a side
mismatch.
Off
Off
Port is not in wrap mode or steer.
Green
On
A node on the ring is wrapped.
Green
Flashing
A node on the ring is steering pass-through
Amber
On
Port is locally wrapped
Amber
Flashing
Port is locally steering
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, loopback is off.
Amber
On
Port is enabled by software, loopback is on.
Off
Off
SPA power is off.
Amber
On
SPA power is on and good, and SPA is being
configured.
Green
On
SPA is ready and operational.
CAR
PRT
ACT
STATUS
2-Port and 4-Port OC-48c/STM-16 POS SPA Interface Specifications
The physical layer interface for the 2-Port and 4-Port OC-48c/STM-16 POS SPA is Optical Carrier-48
(OC-48), and the 2-Port and 4-Port OC-48c/STM-16 POS SPA is designed to comply with ATM
specifications. The 2-Port and 4-Port OC-48c/STM-16 POS SPA provides one 2.488-Gbps ATM
network interface for all supported platforms.
Each port on the 2-Port and 4-Port OC-48c/STM-16 POS SPA has one duplex LC-type receptacle that
allows connection to single-mode optical fiber.
2-Port and 4-Port OC-48c/STM-16 POS 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 and 4-Port OC-48c/STM-16 POS SPA supports the following types of optical transceiver
modules:
•
Single-mode short reach (SR) SFP module—SFP-OC48-SR OC48/STM16c
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1-Port OC-192c/STM-64 POS/RPR SPA Overview
•
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-48c/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 Figure 3-18) or
two simplex LC-type cables, one for transmit (TX) and one for receive (RX).
Figure 3-22
Duplex Patch Cable with LC-Type Connectors
//
RX
//
TX
84929
//
1-Port OC-192c/STM-64 POS/RPR SPA Overview
The 1-Port OC-192c/STM-64 POS/RPR SPA is a double-height SPA that is installed in two SIP subslots.
The 1-Port OC-192c/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-192c/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 “OC-3c/STM-1 POS SPA SFP Optical Transceiver Modules and Cables” section on
page 3-16.
The following sections describe the 1-Port OC-192c/STM-64 POS/RPR SPA:
•
1-Port OC-12c/STM-4 POS SPA LEDs, page 3-19
•
OC-3c/STM-1 POS SPA Interface Specifications, page 3-15
•
OC-3c/STM-1 POS SPA SFP Optical Transceiver Modules and Cables, page 3-16
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1-Port OC-192c/STM-64 POS/RPR SPA Overview
1-Port OC-192c/STM-64 POS/RPR SPA LEDs
The 1-Port OC-192c/STM-64 POS/RPR SPA has six LEDs, as shown in Figure 3-23.
Figure 3-23 1-Port OC-192c/STM-64 POS/RPR SPA Faceplate
6
ST
AT
US
W
PA RA
SS P
T
M HRU
AT
ES
YN
C
TX
5
4
RX
0
SPA-OC192POS LR
Note
1
WRAP LED
4
CARRIER LED
2
PASSTHRU LED
5
ACTIVE LED
3
MATESYNC LED
6
STATUS LED
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.
The 1-Port OC-192c/STM-64 POS/RPR SPA LEDs are described in Table 3-16.
Table 3-16 1-Port OC-192c/STM-64 POS/RPR SPA LEDs
LED Label
Color
State
Meaning
WRAP
Off
Off
Port is not in wrap mode.
Green
On
Port is in wrap mode somewhere on the ring.
Amber
On
Port is in wrap mode locally.
Off
Off
Port is not in pass-thru mode.
Amber
On
Port is in pass-thru mode.
Off
Off
Mate port is not synchronized.
Green
On
Mate port is synchronized.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software; there is a valid SONET signal
without alarms.
Amber
On
Port is enabled by software; there is at least one alarm (LOS,
LOF, RDI, and so on).
Blinking
Indicates SRP mode mismatch alarm.
Off
Port is not enabled by software.
PASSTHRU
MATESYNC
CARRIER
ACTIVE
Off
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R
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1-Port OC-192c/STM-64 POS/RPR SPA Overview
Table 3-16 1-Port OC-192c/STM-64 POS/RPR SPA LEDs (continued)
LED Label
STATUS
Color
State
Meaning
Green
On
Port is enabled by software; loopback is off.
Amber
On
Port is enabled by software; loopback is on.
Off
Off
SPA power off.
Green
On
SPA is ready and operational.
Amber
On
SPA power is on and good; SPA is being configured.
1-Port OC-192c/STM-64 POS/RPR SPA Interface Specifications
The 1-Port OC-192c/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-192c/STM-64 frame.
The 1-Port OC-192c/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-192c/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)
•
RFC 1213, Management Information Base (MIB) for Network Management of TCP/IP-Based
Internets:MIB II
1-Port OC-192c/STM-64 POS/RPR SPA Fixed Optical Transceiver, 40-Pin
Connector, and Cables
The 1-Port OC-192c/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 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-192c/STM-64 POS/RPR SPA uses single-mode SC-type connectors:
•
Single-mode—9.95 Gbps, OC-192 optical fiber (SONET STS-192c 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.
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1-Port OC-192c/STM-64 POS/RPR SPA Overview
Note
The 40-pin connector on the 1-Port OC-192c/STM-64 POS/RPR SPA is used for resilient packet ring
(RPR) connections. This feature is not supported in Cisco IOS Release 12.0(31)S.
Figure 3-24 shows the cable type for use with the fixed optical transceiver module on the 1-Port
OC-192c/STM-64 POS/RPR SPA.
SC-Type Connectors for the Fixed Optical Transceivers
38547
Figure 3-24
Mate Interface Cables
The 1-Port OC-192c/STM-64 POS/RPR SPA supports two mate interface configurations:
•
Mate between two OC-192c SPAs in the same SIP
•
Mate between two OC-192c SPAs in adjacent SIPs
Two 1-Port OC-192c/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 vertical. This assumes that the chassis is mounted vertically. Figure 3-25 shows the mate cables
used to connect the SPAs.
Figure 3-25
SPA Mate Cables
129198
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)
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1-Port OC-192c/STM-64 POS/RPR XFP SPA Overview
1-Port OC-192c/STM-64 POS/RPR XFP SPA Overview
The 1-Port OC-192c/STM-64 POS/RPR XFP SPA is a single-height SPA that is installed in one SIP
subslot. The 1-Port OC-192c/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-192c/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 “OC-3c/STM-1 POS SPA SFP Optical Transceiver
Modules and Cables” section on page 3-16.
The following sections describe the 1-Port OC-192c/STM-64 POS/RPR XFP SPA:
•
OC-3c/STM-1 POS SPA LEDs, page 3-15
•
OC-3c/STM-1 POS SPA Interface Specifications, page 3-15
•
OC-3c/STM-1 POS SPA SFP Optical Transceiver Modules and Cables, page 3-16
1-Port OC-192c/STM-64 POS/RPR XFP SPA LEDs
The 1-Port OC-192c/STM-64 POS/RPR XFP SPA has six LEDs, as shown in Figure 3-26.
Figure 3-26
1-Port OC-192c/STM-64 POS/RPR XFP SPA Faceplate
1
3
4
2
5
ST
AT
U
S
SPA-0C192POS-XFP
IER V E
RR C T I
A
CA
129432
0
AP RU N C
WR S T H E S Y
T
S
PA M A
6
Note
1
WRAP LED
4
CARRIER LED
2
PASSTHRU LED
5
ACTIVE LED
3
MATESYNC LED
6
STATUS LED
The WRAP, PASSTHRU, and MATESYNC LEDs apply to the SPA in RPR/SRP mode only. As of ,
RPR/SRP mode is not supported.
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1-Port OC-192c/STM-64 POS/RPR XFP SPA Overview
Table 3-17 describes the 1-Port OC-192c/STM-64 POS/RPR XFP SPA LEDs.
Table 3-17
1-Port OC-192c/STM-64 POS/RPR XFP SPA LEDs
LED Label
Color
State
Meaning
WRAP
Off
Off
Port is not in wrap mode.
Green
On
Port is in wrap mode somewhere on the ring.
Amber
On
Port is in wrap mode locally.
Off
Off
Port is not in pass-thru mode.
Amber
On
Port is in pass-thru mode.
Off
Off
Mate port is not synchronized.
Green
On
Mate port is synchronized.
Off
Off
Port is not enabled by software.
Green
On
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).
PASSTHRU
MATESYNC
CARRIER
Blinking SRP mode mismatch alarm is indicated.
ACTIVE
STATUS
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, and loopback is off.
Amber
On
Port is enabled by software, and loopback is on.
Off
Off
SPA power off.
Green
On
SPA is ready and operational.
Amber
On
SPA power is on and good, and the SPA is being configured.
1-Port OC-192c/STM-64 POS/RPR XFP SPA Interface Specifications
The framer processes incoming and outgoing SONET or SDH frames. The framer operates at
OC-192c/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-192c/STM-64 frame.
The 1-Port OC-192c/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.
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1-Port OC-192c/STM-64 POS/RPR XFP SPA Overview
1-Port OC-192c/STM-64 POS/RPR XFP SPA Optical Transceiver Modules,
Connectors, and Cables
The 1-Port OC-192c/STM-64 POS/RPR XFP SPA uses a single-mode, 9.95 Gbps, OC-192c optical fiber
(SONET STS-192c or SDH STM-64) optical transceiver module for SONET and SDH connection to the
network.
The 1-Port OC-192c/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 , 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.
Figure 3-27 shows the cable type for use with the XFP optical transceiver module on the 1-Port
OC-192c/STM-64 POS/RPR XFP SPA.
Figure 3-27
LC-Type Cable for the XFP Optical Transceiver Modules
//
RX
Note
//
84929
//
TX
The 40-pin connector on the 1-Port OC-192c/STM-64 POS/RPR XFP SPA is used for resilient packet
ring (RPR) connections. This feature is not supported in .
OC-192 Module Connections
Table 3-18 shows the OC-192 specifications for use with the 1-Port OC-192c/STM-64 POS/RPR XFP
SPA.
Table 3-18 OC-192 Specifications
Specification
Description
Wavelength
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
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1-Port OC-192c/STM-64 POS/RPR XFP SPA Overview
Table 3-18 OC-192 Specifications (continued)
Specification
Description
Cabling distance (maximum)
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)
Operating case temperature range
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)
Tx Power
OC-192 SR-1: –6 dBm –1 dBm
OC-192 IR-2: –1 dBm +2 dBm
OC-192 LR-2: 0 to +4 dBm
Receiver Sensitivity (maximum)
OC-192 SR-1: –11 dBm
OC-192 IR-2: –14 dBm
OC-192 LR-2: –24 dBm
RX Overload
OC-192 SR-1: –1 dBm
OC-192 IR-2: +2 dBm
OC-192 LR-2: –7.0 dBm
Maximum Receiver Power Damage
OC-192 SR-1: +5 dBm
OC-192 IR-2: +5 dBm
OC-192 LR-2: +5 dBm
Mate Interface Cables
The 1-Port OC-192c/STM-64 POS/RPR XFP SPA supports two mate interface configurations:
•
Mate between two OC-192c SPAs in the same SIP
•
Mate between two OC-192c SPAs in adjacent SIPs
Two 1-Port OC-192c/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
same slot vertical. This assumes that the chassis is mounted vertically. Figure 3-25 shows the mate cables
used to connect the SPAs.
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1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA Overview
Figure 3-28
SPA Mate Cables
129198
1
2
1
Note
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)
The RPR mate cable is only necessary 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.
1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA Overview
The 1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA is a double-height SPA that is installed in a
SIP subslot. The 1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA provides SONET and SDH
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 1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA uses a single,10-Gbps fixed optic receptacle
allowing a connection to single-mode optical fiber. For more information on the optical fiber cables used
with this SPA, see the “OC-3c/STM-1 POS SPA SFP Optical Transceiver Modules and Cables” section
on page 3-16.
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1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA Overview
The following sections describe the 1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA:
•
OC-3c/STM-1 POS SPA LEDs, page 3-15
•
OC-3c/STM-1 POS SPA Interface Specifications, page 3-15
•
OC-3c/STM-1 POS SPA SFP Optical Transceiver Modules and Cables, page 3-16
1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA POS SPA LEDs
The 1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA has six LEDs. Figure 3-23 shows an example
of these LEDs on a 1-Port OC-192c/STM-64 POS/RPR SPA.
Figure 3-29 1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA Faceplate
1
3
5
4
W
PA RA
SS P
T
M HRU
AT
ES
YN
C
RX
SPA-OC192POS VSR
Note
1
WRAP LED
4
CARRIER LED
2
PASSTHRU LED
5
ACTIVE LED
3
MATESYNC LED
6
STATUS LED
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.
The 1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA LEDs are described in Table 3-16.
Table 3-19 1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA LEDs
LED Label
Color
State
Meaning
WRAP
Off
Off
Port is not in wrap mode.
Green
On
Port is in wrap mode somewhere on the ring.
Amber
On
Port is in wrap mode locally.
Off
Off
Port is not in pass thru mode.
Amber
On
Port is in pass thru mode.
Off
Off
Mate port is not synchronized.
Green
On
Mate port is synchronized.
Off
Off
Port is not enabled by software.
PASSTHRU
MATESYNC
CARRIER
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CA
RR
IE
R
AC
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1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA Overview
Table 3-19 1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA LEDs (continued)
LED Label
ACTIVE
STATUS
Color
State
Meaning
Green
On
Port is enabled by software; there is a valid SONET signal
without alarms.
Amber
On
Port is enabled by software; there is at least one alarm (LOS,
LOF, RDI, and so on).
Blinking
Indicates SRP mode mismatch alarm.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software; loopback is off.
Amber
On
Port is enabled by software; loopback is on.
Off
Off
SPA power off.
Green
On
SPA is ready and operational.
Amber
On
SPA power is on and good; SPA is being configured.
1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA Interface Specifications
The 1-Port OC-192c/STM-64 POS/RPR VSR Optics 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-192c/STM-64 frame.
The 1-Port OC-192c/STM-64 POS/RPR VSR Optics 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-192c/STM-64 POS/RPR VSR Optics 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-192c/STM-64 POS/RPR VSR Optics SPA Fixed Optical Transceiver,
40-pin Connector, and Cables
The 1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA uses fixed optical transceivers, one for receive
(RX) and one for transmit (TX), for SONET and SDH connection to the network. Very Short Reach
(VSR) optics only are supported.
The 1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA uses single mode SC-type connectors:
•
Single-mode—9.95 Gbps, OC-192 optical fiber (SONET STS-192c or SDH STM-64c)
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4-Port and 8-Port Fast Ethernet SPA Overview
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
40-pin connector on the 1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA is used for resilient packet
ring (RPR) connections.
Figure 3-24 shows a picture of the cable type for use with the fixed optic transceiver module on the
1-Port OC-192c/STM-64 POS/RPR VSR Optics SPA.
SC-Type Connectors for the Fixed Optic Transceivers
38547
Figure 3-30
4-Port and 8-Port Fast Ethernet SPA Overview
The following sections describe the 4-Port and 8-Port Fast Ethernet SPA:
•
4-Port and 8-Port Fast Ethernet SPA LEDs, page 3-39
•
Cables, Connectors, and Pinouts, page 3-40
4-Port and 8-Port Fast Ethernet SPA LEDs
The 4-Port and 8-Port Fast Ethernet SPA has two types of LEDs. There is a Port Number LED for each
individual port and one Status LED. The 8-Port FastEthernet SPA is shown in Figure 3-3.
8-Port FastEthernet SPA Faceplate
1
Active/Link LED
A/L
A/L
ST
AT
U
S
A/L
7
A/L
6
A/L
5
A/L
4
A/L
3
A/L
2
2
1
0
SPA-8X1FE-TX-V2
1
2
138712
Figure 3-31
STATUS LED
The 8-Port FastEthernet SPA LEDs are described in Table 3-6.
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4-Port and 8-Port Fast Ethernet SPA Overview
Table 3-20
8-Port FastEthernet SPA LEDs
LED Label
Color
State
Meaning
Port Number
Green
Active/Link
Amber
(0, 1, 2, 3, 4, 5, 6
Off
or 7)1
On
The port is enabled and the link is up.
On
The port is enabled and the link is down.
Off
The port is disabled.
STATUS
Green
On
The SPA is online.
Amber
On
The SPA is receiving power and bootstrapping.
Off
Off
The SPA is offline and deactivated.
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.
Cables, Connectors, and Pinouts
The interface connectors on the 4-Port and 8-Port Fast Ethernet SPA are four or eight individual RJ-45
receptacles. You can use all 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 3-32 shows the RJ-45 connector. Table 3-21 lists the pinouts and signals for the RJ-45 connector.
RJ-45 Connections, Plug, and Receptacle
H2936
Figure 3-32
87654321
RJ-45 connector
Table 3-21
Note
RJ-45 Connector Pinout
Pin
Description
1
Transmit data + (TxD+)
2
TxD–
3
Receive data + (RxD+)
6
RxD–
Referring to the RJ-45 pinout in Table 3-21, 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 4-Port and 8-Port Fast Ethernet
SPA.
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1-Port 10-Gigabit Ethernet SPA Overview
The 4-Port and 8-Port Fast Ethernet 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 Figure 3-33 and Figure 3-34.
Figure 3-33
Straight-Through Cable Pinout, RJ-45 Connection to a Hub or Repeater
Ethernet port
3 TxD+
3 RxD+
6 TxD–
6 RxD–
1 RxD+
1 TxD+
2 RxD–
2 TxD–
Crossover Cable Pinout, RJ-45 Connections Between Routers
Router
Router
3 TxD+
3 TxD+
6 TxD–
6 TxD–
1 RxD+
1 RxD+
2 RxD–
2 RxD–
101929
Figure 3-34
H7101
Hub or LAN switch
1-Port 10-Gigabit Ethernet SPA Overview
The following sections describe the 1-Port 10-Gigabit Ethernet SPA:
•
1-Port 10-Gigabit Ethernet SPA LEDs, page 3-42
•
1-Port 10-Gigabit Ethernet SPA Cables and Connectors, page 3-42
•
XFP Connections, page 3-43
•
XFP Port Cabling Specifications, page 3-43
•
XFP Optical Transmit and Receive Specifications, page 3-44
•
XFP Module Ordering Information, page 3-44
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1-Port 10-Gigabit Ethernet SPA Overview
1-Port 10-Gigabit Ethernet SPA LEDs
The 1-Port 10-Gigabit Ethernet SPA has two types of LEDs. There is an ACTIVE/LINK LED for the
port and the Status LED as shown in Figure 3-35.
1-Port 10-Gigabit Ethernet SPA Faceplate
INK
E/L
TIV
AC
SPA-1X10GE-L-V2
1
1
122151
ST
AT
U
S
Figure 3-35
2
2
Active/Link LED
STATUS LED
The 1-Port 10-Gigabit Ethernet SPA LEDs are described in Table 3-22.
Table 3-22
1-Port 10-Gigabit Ethernet SPA LEDs
LED Label
Color
State
Meaning
Active/Link
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software and the link is up.
Amber
On
Port is enabled by software and the link is down.
Off
Off
SPA power is off.
Amber
On
SPA power is on and good, and SPA is being configured.
Green
On
SPA is ready and operational.
STATUS
1-Port 10-Gigabit Ethernet SPA Cables and Connectors
The XFP module is an I/O device that provide a hot-swappable optical interface to the 1-Port 10-Gigabit
Ethernet SPA. The following XFP modules are supported:
•
Cisco Multirate 10GBASE-LR and OC-192/STM-64 SR-1 XFP Module for SMF—This multirate
XFP supports both 10GBASE-LR Ethernet applications and OC-192/STM-64 short-reach (SR-1)
POS applications.
•
Cisco Multirate 10GBASE-ER and OC-192/STM-64 IR-2 XFP Module for SMF—This multirate
XFP supports both 10GBASE-ER Ethernet applications and OC-192/STM-64 intermediate reach
(IR-2) POS applications.
•
Cisco Multirate 10GBASE-ZR and OC-192/STM-64 LR-2 XFP Module for SMF—This multirate
XFP supports both 10GBASE-ZR Ethernet applications and OC-192/STM-64 long-reach long reach
(LR-2) POS applications.
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XFP Connections
XFP modules (see Figure 3-36) provide one dual LC/PC fiber connector. Only connectors having PC or
UPC connectors are supported. Patch cords with APC connectors are not supported.
Cisco Multirate 10GE XFP modules do not support Digital Optical Monitoring (DOM).
The operating temperature range for the XFP modules is 0 to 70°C (32 to 158°F); storage temperature
range is -40°C to +85°C (-40°F to +185°F).
The maximum power consumption per Cisco XFP module is 3.5W.
See the label on the XFP for technology type and model.
XFP dimensions are:
•
Height 12.5 mm
•
Width 18.35 mm
•
Length 71.1mm
XFP Illustration
129499
Figure 3-36
Note
The 1-Port 10-Gigabit Ethernet SPA only accepts the XFP modules listed as supported in this document.
An XFP check is run every time an XFP module is inserted into the 1-Port 10-Gigabit Ethernet SPA and
only XFP modules that pass this check are usable by the 1-Port 10-Gigabit Ethernet SPA. The
information in this document pertains only to XFP modules that plug into the 1-Port 10-Gigabit Ethernet
SPA ports.
XFP Port Cabling Specifications
Table 3-23 provides XFP port cabling specifications.
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Table 3-23
XFP Port Cabling Specifications
Cable Type
Core Size
(micron)
Cable Distance1
Cisco Multirate 10GBASE-LR
1310 nm
and OC-192/STM-64 SR-1 XFP
Module for SMF
SMF
G652
10 km (10 Gigabit Ethernet)
Cisco Multirate 10GBASE-ER
and OC-192/STM-64 IR-2 XFP
Module for SMF2
1550 nm
SMF
G652
40 km3 (10 Gigabit Ethernet)
Cisco Multirate 10GBASE-ZR
and OC-192/STM-64 IR-2 XFP
Module for SMF
1550 nm
SMF
G652
80 km3 (10 Gigabit Ethernet)
XFP
Wavelength
1. Minimum cabling distance for optical XFP module is 2 meters, according to the IEEE 802.3ae standard.
2. Requires 5 dB 1550 nm fixed loss attenuator for < 20 km. Attenuator is available as a spare. The part number is 15216-ATT-LC-5=. You must
use a 5 to 10dB of attenuation when connecting a fiber loopback to the XFP optical port. Connection of a direct fiber loopback to the XFP can
permanently damage the port's optics.
3. Links longer than 30 km are considered engineered links.
XFP Optical Transmit and Receive Specifications
Table 3-24 provides XFP optical transmit and receive specifications.
Table 3-24
XFP
XFP Optical Transmit and Receive Specifications
Type
Transmit Power (dBm)
Receive Power (dBm)
Maximum
Minimum
Maximum
Minimum
Receive
Wavelength (nm)
Cisco Multirate
10GBASE-LR and
OC-192/STM-64 SR-1 XFP
Module for SMF
10GBASE-LR
1310-nm SMF
+0.5
-8.2
+0.5
-14.4
1260 to 1565
Cisco Multirate
10GBASE-ER and
OC-192/STM-64 IR-2 XFP
Module for SMF
10GBASE-ER
1550-nm SMF
+4.0
-4.7
-1.0
-15.8
1260 to 1565
Cisco Multirate
10GBASE-ZR and
OC-192/STM-64 IR-2 XFP
Module for SMF
10GBASE-ZR
1550-nm SMF
+4.0
0
-7
-24
1260 to 1565
XFP Module Ordering Information
Table 3- 25 provides ordering information.
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Table 3- 25
XFP Module Ordering Information
Description
Product Number
Cisco Multirate 10GBASE-LR and OC-192/STM-64 SR-1 XFP Module for SMF
XFP-10GLR-OC192SR
Cisco Multirate 10GBASE-ER and OC-192/STM-64 IR-2 XFP Module for SMF
XFP-10GER-OC192IR
Cisco Multirate 10GBASE-ZR and OC-192/STM-64 IR-2 XFP Module for SMF
XFP-10GZR-OC192LR
2-Port Gigabit Ethernet SPA Overview
The following sections describe the 2-Port Gigabit Ethernet SPA:
•
2-Port Gigabit Ethernet SPA LEDs, page 3-45
•
SFP Module Cabling and Connection Equipment, page 3-48
2-Port Gigabit Ethernet SPA LEDs
The 2-Port Gigabit Ethernet SPA has two types of LEDs. There is an A/L LED for each port and one
STATUS LED as shown in Figure 3-37.
2-Port Gigabit Ethernet SPA Faceplate
0
2
1
2
A/L LED (for each interface)
138041
L
A/
ST
AT
U
SPA-2X1GE
1
L
A/
S
Figure 3-37
STATUS LED (for entire SPA)
The 2-Port Gigabit Ethernet SPA LEDs are described in Table 3-26.
Table 3-26
2-Port Gigabit Ethernet SPA LEDs
LED Label
Color
State
Meaning
A/L
Off
Off
Port is not enabled.
Green
On
The port is enabled and the link is up.
Amber
On
The port is enabled and the link is down.
Off
Off
SPA power is off.
Green
On
SPA is ready and operational.
Amber
On
SPA power is on and good, and SPA is being configured.
STATUS
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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 optical slots on the 2-Port Gigabit Ethernet SPA, linking the port with a 1000BASE-X
fiber-optic network.
Note
The 2-Port Gigabit Ethernet SPA will only accept the SFP modules listed as supported in this document.
An SFP check is run every time an SFP module is inserted into the 2-Port Gigabit Ethernet SPA and only
SFP modules that pass this check will be usable by the 2-Port Gigabit Ethernet SPA.
SFP modules exist for technologies other than Gigabit Ethernet and for products other than the 2-Port
Gigabit Ethernet SPA. However, the information in this document pertains only to SFP modules that plug
into the 2-Port Gigabit Ethernet SPA ports.
The SFP module has a receiver port (RX) and a transmitter port (TX) that compose one optical interface.
Table 3-27 and Table 3-28 provide SFP module information and specifications.
Note
Because the SPA-2X1GE-V2 has two native copper connectors, it does not support the SFP-GE-T.
Table 3-27
SFP Module Options
SFP Module
Product Number
SFP Module
Description
SFP-GE-S
Short wavelength
(1000BASE-SX)
Contains a Class 1 laser of 850 nm for
1000BASE-SX (short wavelength) applications.
SFP-GE-L
Long wavelength/long haul
(1000BASE-LX/LH)
Contains a Class 1 laser of 1310 nm for
1000BASE-LX/LH (long wavelength)
applications.
SFP-GE-Z
Extended distance
(1000BASE-ZX)
Contains a Class 1 laser of 1550 nm for
1000BASE-ZX (extended wavelength)
applications.
SFP-GE-T
Gigabit Ethernet SFP
module—1000BASE-T
1000BASE-T SFP Transceiver Module for
Category 5 copper wire
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Table 3-28
SFP Module Specifications
Specification
Description
Wavelength
SFP-GE-S: 770–860 nm
SFP-GE-L: 1270–1355 nm
SFP-GE-Z: 1500–1580 nm
SFP-GE-T: N/A
Cabling distance
(maximum)
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)
Operating temperature range
SFP-GE-S:–5 to 85 degrees C
SFP-GE-L:–5 to 85 degrees C
SFP-GE-Z: –5 to 85 degrees C
SFP-GE-T: 0 to 70 degrees C
Storage temperature range
SFP-GE-S: –40 to 85 degrees C
SFP-GE-L: –40 to 85 degrees C
SFP-GE-Z: –40 to 85 degrees C
SFP-GE-T: –40 to 85 degrees C
Supply Voltage range
SFP-GE-S: 3.1 to 3.5 V
SFP-GE-L: 3.1 to 3.5 V
SFP-GE-Z: 3.1 to 3.5 V
SFP-GE-T: 3.1 to 3.5 V
SFP-GE-S Modules
The 1000BASE-SX (short wavelength) module operates on standard multimode fiber-optic link spans of
up to 500 m on 50/125um 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.
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.
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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 (1000BASET 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).
Note
Only full-duplex mode is supported. Because autonegotiation of full-duplex is not supported, you must
manually configure the remote port for full-duplex.
SFP Module Cabling and Connection Equipment
Table 3-29 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 3-29
SFP Module Port Cabling Specifications
SFP Modules
Wavelength
(nm)
SFP-GE-S
850
SFP-GE-L
SFP-GE-Z
SFP-GE-T
1300
1550
N/A
Fiber Type
Core Size
(micron)
Modal
Bandwidth
(MHz/km)
Maximum
Cable Distance
MMF1
62.5
160
722 ft (220 m)
62.5
200
984 ft (300 m)
50.0
400
1640 ft (500 m)
50.0
500
1804 ft (550 m)
62.5
500
1804 ft (550 m)
50.0
400
1804 ft (550 m)
50.0
500
1804 ft (550 m)
9/10
—
6.2 miles (10 km)
SMF
9/10
—
49.7 miles
(80 km)
SMF 3
8
—
62.1 miles
(100 km)
Copper
N/A
N/A
328 ft. (100 m)
2
MMF and
SMF
1. Multimode fiber (MMF) only.
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2. A mode-conditioning patch cord is required.
When using the SFP-GE-L with 62.5-micron diameter MMF, you must install a mode-conditioning patch cord between the
SFP module and the MMF cable on both the transmit and the receive ends of the link when link distances are greater than
984 ft (300 m).
We do not recommend using the SFP-GE-L and MMF with no patch cord for very short link distance (tens of meters). The
result could be an elevated bit error rate (BER).
3. Dispersion-shifted single-mode fiber-optic cable.
Note
The 1000BASE-ZX SFP modules provide an optical power budget of 21.5 dB. You should measure your
cable plant with an optical loss test set to verify that the optical loss of the cable plant (including
connectors and splices) is less than or equal to 21.5 dB. The optical loss measurement must be performed
with a 1550-nm light source.
5-Port Gigabit Ethernet SPA Overview
The following sections describe the 5-Port Gigabit Ethernet SPA:
•
5-Port Gigabit Ethernet SPA LEDs, page 3-49
•
5-Port Gigabit Ethernet SPA Cables, Connectors, and Pinouts, page 3-50
•
SFP-GE-S Modules, page 3-51
•
SFP-GE-L Modules, page 3-51
•
SFP-GE-Z Modules, page 3-52
•
SFP-GE-T Modules, page 3-52
•
SFP Module Cabling and Connection Equipment, page 3-52
5-Port Gigabit Ethernet SPA LEDs
The 5-Port Gigabit Ethernet SPA has two types of LEDs. There is an A/L LED for the port and one Status
LED as shown in Figure 3-38.
Figure 3-38
5-Port Gigabit Ethernet SPA Faceplate
1
A/L LED
2
129106
ST
AT
U
A/
L
A/
L
A/
L
S
2
A/
L
A/
L
SPA-5X1GE-V2
1
STATUS LED
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The 5-Port Gigabit Ethernet SPA LEDs are described in Table 3-30.
Table 3-30
5-Port Gigabit Ethernet SPA LEDs
LED Label
Color
State
Meaning
Active/Link
Off
Off
Port is not enabled.
Green
On
The port is enabled and the link is up.
Amber
On
The port is enabled and the link is down.
Off
Off
SPA power is off.
Amber
On
SPA power is on and good, and SPA is being configured.
Green
On
SPA is ready and operational.
STATUS
5-Port Gigabit Ethernet SPA Cables, Connectors, and Pinouts
The interface connectors on the 5-Port Gigabit Ethernet SPA are five individual fiber optic receivers that
support SFPs. Each port can send and receive traffic using the optical fiber connections.
The interface connectors on the 5-Port Gigabit Ethernet SPA are five individual fiber optic receivers that
support SFPs. Each port can send and receive traffic using the optical fiber connections.
SFP 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 5-Port Gigabit Ethernet SPA, linking the port with a 1000BASE-X
fiber-optic network.
Note
The 5-Port Gigabit Ethernet SPA will only accept the SFP modules listed as supported in this document.
An SFP check is run every time an SFP is inserted into the 5-Port Gigabit Ethernet SPA and only SFP
modules that pass this check will be usable by the 5-Port Gigabit Ethernet SPA.
SFP modules exist for technologies other than Gigabit Ethernet and for products other than the 5-Port
Gigabit Ethernet SPA. However, the information in this document pertains only to SFP modules that plug
into the 5-Port Gigabit Ethernet SPA ports.
The SFP module has a receiver port (RX) and a transmitter port (TX) that compose one optical interface.
Table 3-31 and Table 3-32 provide SFP information and specifications.
Table 3-31
SFP Module Options
SFP Module
Product Number
SFP Module
Description
SFP-GE-S
Short wavelength
(1000BASE-SX)
Contains a Class 1 laser of 850 nm for
1000BASE-SX (short wavelength) applications.
SFP-GE-L
Long wavelength/long haul
(1000BASE-LX/LH)
Contains a Class 1 laser of 1310 nm for
1000BASE-LX/LH (long wavelength)
applications.
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Table 3-31
SFP Module
Product Number
SFP Module Options
SFP Module
Description
SFP-GE-Z
Extended distance
(1000BASE-ZX)
Contains a Class 1 laser of 1550 nm for
1000BASE-ZX (extended wavelength)
applications.
SFP-GE-T
Gigabit Ethernet SFP
module—1000BASE-T
1000BASE-T SFP Transceiver Module for
Category 5 copper wire
Table 3-32
SFP Module Specifications
Specification
Description
Connectors
LC-type connector
Wavelength
SFP-GE-S: 830-860 nm
SFP-GE-L: 1270-1360 nm
SFP-GE-Z: 1540-1570 nm
SFP-GE-T: N/A
Cabling distance
(maximum)
SFP-GE-S: 500m on 50/125um MMF. 300m 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)
Operating temperature range
SFP-GE-S:-20 to 90 degrees C
SFP-GE-L:-40 to 85 degrees C
SFP-GE-Z: 0 to 85 degrees C
SFP-GE-T: 0 to 70 degrees C
Storage temperature range
SFP-GE-S: -40 to 100 degrees C
SFP-GE-L: -40 to 100 degrees C
SFP-GE-Z: -40 to 85 degrees C
SFP-GE-T: -40 to 85 degrees C
Supply Voltage range
SFP-GE-S: 3.0 to 3.6 V
SFP-GE-L: 3.0 to 3.6 V
SFP-GE-Z: 0 to 4.0 V
SFP-GE-T: 3.1 to 3.5 V
SFP-GE-S Modules
The 1000BASE-SX (short wavelength) module operates on standard multimode fiber-optic link spans of
up to 500m on 50/125um MMF and 300 m on 62.5/125um MMF.
SFP-GE-L Modules
The 1000BASE-LX/LH (long wavelength/long haul) module interfaces fully comply with the IEEE
802.3z 1000BASE-LX standard. However, their higher optical quality allows them to reach 6.2 miles (10
km) over single-mode fiber (SMF) versus the 3.1 miles (5 km) specified in the standard.
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SFP-GE-Z Modules
The 1000BASE-ZX (extended wavelength) module operates on ordinary single-mode fiber-optic link
spans of up to 49.7 miles (80 km). Link spans of up to 62.1 miles (100 km) are possible using premium
single-mode fiber or dispersion-shifted single-mode fiber (premium single-mode fiber has a lower
attenuation per unit length than ordinary single-mode fiber; dispersion-shifted single-mode fiber has
both lower attenuation and less dispersion).
The 1000BASE-ZX module must be coupled to single-mode fiber-optic cable, which is the type of cable
typically used in long-haul telecommunications applications. The 1000BASE-ZX module will not
operate correctly when coupled to multimode fiber, and it is not intended to be used in environments
where multimode fiber is frequently used (for example, building backbones, or horizontal cabling).
The 1000BASE-ZX module is intended to be used as a Physical Medium Dependent (PMD) component
for Gigabit Ethernet interfaces found on various switch and router products. It operates at a signaling
rate of 1250 Mbaud, transmitting and receiving 8B/10B encoded data.
When shorter lengths of single-mode fiber are used, it may be necessary to insert an in-line optical
attenuator in the link to avoid overloading the receiver.
•
Insert a 10-dB in-line optical attenuator between the fiber-optic cable plant and the receiving port
on the 1000BASE-ZX module at each end of the link whenever the fiber-optic cable span is less than
15.5 miles (25 km).
•
Insert a 5-dB in-line optical attenuator between the fiber-optic cable plant and the receiving port on
the 1000BASE-ZX module at each end of the link whenever the fiber-optic cable span is equal to or
greater than 15.5 miles (25 km) but less than 31 miles (50 km).
SFP-GE-T Modules
The SFP-GE-T (1000BASET 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).
Note
Only full-duplex mode is supported.
SFP Module Cabling and Connection Equipment
Table 3-33provides 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).
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Table 3-33
SFP Module Port Cabling Specifications
SFP Modules
Wavelength
(nm)
SFP-GE-S
850
SFP-GE-L
1300
SFP-GE-Z
1550
SFP-GE-T
N/A
Fiber Type
Core Size
(micron)
Modal
Bandwidth
(MHz/km)
Maximum
Cable Distance
MMF1
62.5
160
722 ft (220 m)
62.5
200
984 ft (300m)
50.0
400
1640 ft (500 m)
50.0
500
1804 ft (550 m)
62.5
500
1804 ft (550 m)
50.0
400
1804 ft (550 m)
50.0
500
1804 ft (550 m)
9/10
—
6.2 miles (10 km)
SMF
9/10
—
49.7 miles
(80 km)
SMF 3
8
—
62.1 miles
(100 km)
Copper
N/A
N/A
328 ft. (100 m)
MMF2 and
SMF
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.
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10-Port Gigabit Ethernet SPA Overview
10-Port Gigabit Ethernet SPA Overview
The following sections describe the 10-Port Gigabit Ethernet SPA:
•
10-Port Gigabit Ethernet SPA LEDs, page 3-54
•
SFP-GE-S Modules, page 3-56
•
SFP-GE-L Modules, page 3-56
•
SFP-GE-Z Modules, page 3-56
•
SFP-GE-T Modules, page 3-57
•
SFP Module Cabling and Connection Equipment, page 3-52
10-Port Gigabit Ethernet SPA LEDs
The 10-Port Gigabit Ethernet SPA has two types of LEDs. There is an A/L LED for the port and one
Status LED as shown in Figure 3-39.
Figure 3-39
1
10-Port Gigabit Ethernet SPA Faceplate
2
A/L LED
STATUS LED
The 10-Port Gigabit Ethernet SPA LEDs are described in Table 3-34.
Table 3-34
10-Port Gigabit Ethernet SPA LEDs
LED Label
Color
State
Meaning
Active/Link
Off
Off
Port is not enabled.
Green
On
The port is enabled and the link is up.
Amber
On
The port is enabled and the link is down.
Off
Off
SPA power is off.
Amber
On
SPA power is on and good, and SPA is being configured.
Green
On
SPA is ready and operational.
STATUS
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10-Port Gigabit Ethernet SPA Overview
10-Port Gigabit Ethernet SPA Cables, Connectors, and Pinouts
The interface connectors on the 10-Port Gigabit Ethernet SPA are ten individual fiber optic receivers that
support SFPs. Each port can send and receive traffic using the optical fiber connections.
SFP 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.
Note
The 10-Port Gigabit Ethernet SPA will only accept the SFP modules listed as supported in this document.
An SFP check is run every time an SFP is inserted into the 10-Port Gigabit Ethernet SPA and only SFP
modules that pass this check will be usable 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.
Table 3-35 and Table 3-36 provide SFP information and specifications.
Table 3-35
SFP Module
Product Number
SFP Module Options
SFP Module
Description
SFP-GE-S
Short wavelength
(1000BASE-SX)
Contains a Class 1 laser of 850 nm for
1000BASE-SX (short wavelength) applications.
SFP-GE-L
Long wavelength/long haul
(1000BASE-LX/LH)
Contains a Class 1 laser of 1310 nm for
1000BASE-LX/LH (long wavelength)
applications.
SFP-GE-Z
Extended distance
(1000BASE-ZX)
Contains a Class 1 laser of 1550 nm for
1000BASE-ZX (extended wavelength)
applications.
SFP-GE-T
Gigabit Ethernet SFP
module—1000BASE-T
1000BASE-T SFP Transceiver Module for
Category 5 copper wire
Table 3-36
SFP Module Specifications
Specification
Description
Connectors
LC-type connector
Wavelength
SFP-GE-S: 830-860 nm
SFP-GE-L: 1270-1360 nm
SFP-GE-Z: 1540-1570 nm
SFP-GE-T: N/A
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Table 3-36
SFP Module Specifications (continued)
Specification
Description
Cabling distance
(maximum)
SFP-GE-S: 500m on 50/125um MMF. 300m 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)
Operating temperature range
SFP-GE-S:-20 to 90 degrees C
SFP-GE-L:-40 to 85 degrees C
SFP-GE-Z: 0 to 85 degrees C
SFP-GE-T: 0 to 70 degrees C
Storage temperature range
SFP-GE-S: -40 to 100 degrees C
SFP-GE-L: -40 to 100 degrees C
SFP-GE-Z: -40 to 85 degrees C
SFP-GE-T: -40 to 85 degrees C
Supply Voltage range
SFP-GE-S: 3.0 to 3.6 V
SFP-GE-L: 3.0 to 3.6 V
SFP-GE-Z: 0 to 4.0 V
SFP-GE-T: 3.1 to 3.5 V
SFP-GE-S Modules
The 1000BASE-SX (short wavelength) module operates on standard multimode fiber-optic link spans of
up to 500m 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.
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.
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10-Port Gigabit Ethernet SPA Overview
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 (1000BASET 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).
Only full-duplex mode is supported.
SFP Module Cabling and Connection Equipment
Table 3-37 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 3-37
SFP Module Port Cabling Specifications
SFP Modules
Wavelength
(nm)
SFP-GE-S
850
SFP-GE-L
SFP-GE-Z
SFP-GE-T
1300
1550
N/A
Fiber Type
Core Size
(micron)
Modal
Bandwidth
(MHz/km)
Maximum
Cable Distance
MMF1
62.5
160
722 ft (220 m)
62.5
200
984 ft (300m)
50.0
400
1640 ft (500 m)
50.0
500
1804 ft (550 m)
62.5
500
1804 ft (550 m)
50.0
400
1804 ft (550 m)
50.0
500
1804 ft (550 m)
9/10
—
6.2 miles (10 km)
SMF
9/10
—
49.7 miles
(80 km)
SMF 3
8
—
62.1 miles
(100 km)
Copper
N/A
N/A
328 ft. (100 m)
2
MMF and
SMF
1. Multimode fiber (MMF) only.
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IPSec VPN SPA Overview
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.
IPSec VPN SPA Overview
The following sections describe the IPSec VPN SPA:
•
IPSec VPN SPA LEDs, page 3-58
IPSec VPN SPA LEDs
The IPSec VPN SPA has one LED, as shown in Figure 3-40.
Figure 3-40
IPSec VPN SPA Faceplate
VPN SERVICES SPA
1
SPA-IPSEC-2G
129498
ST
AT
US
1
STATUS LED
The IPSec VPN SPA LED is described in Table 3-38.
Table 3-38
IPSec VPN SPA LED
LED Label
Color
State
Meaning
STATUS
Off
Off
SPA power is off.
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1-Port Channelized OC-3 STM-1 ATM CEoP SPA Overview
Table 3-38
LED Label
IPSec VPN SPA LED (continued)
Color
State
Meaning
Amber
On
SPA is on and good, and the SPA is being configured.
Green
On
SPA is ready and operational.
1-Port Channelized OC-3 STM-1 ATM CEoP SPA Overview
The following sections describe the 1-Port Channelized OC-3 STM-1 ATM CEoP SPA:
•
1-Port Channelized OC-3 STM-1 ATM CEoP SPA LEDs
•
1-Port Channelized OC-3 STM-1 ATM CEoP SPA Interface Specifications
•
1-Port Channelized OC-3 STM-1 ATM CEoP SPA Optical Transceiver Modules and Cables
1-Port Channelized OC-3 STM-1 ATM CEoP SPA LEDs
The 1-Port Channelized OC-3 STM-1 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.
1-Port Channelized OC-3 STM-1 ATM CEoP SPA Faceplate
3
A/ C/
L A
1
ST
AT
US
CLASS 1 LASER
0
SPA-1CHOC3-CE-ATM
SPA-1CHOC3CE-ATM
47-18493-XX REVXX
VID: XXXXXXX
CSA: XXXXXXX
2
1
C/A (Carrier/Alarm) LED
3
2
A/L (Active Loopback) LED
STATUS LED
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Figure 3-41
Chapter 3
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24-Port Channelized T1/E1 ATM CEoP SPA Overview
The 1-Port Channelized OC-3 STM-1 ATM CEoP SPA LEDs are described in the following table.
Table 3-39
1-Port Channelized OC-3 STM-1 ATM CEoP SPA LEDs
LED Label
Color
State
Meaning
C/A
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software.
Amber
On
Port is enabled by software, and there is at least one alarm.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, loopback is off.
Amber
On
Port is enabled by software, loopback is on.
Off
Off
SPA power is off.
Amber
On
SPA power is on and good, and SPA is being configured.
Green
On
SPA is ready and operational.
A/L
STATUS
1-Port Channelized OC-3 STM-1 ATM CEoP SPA Interface Specifications
The physical layer interface for the 1-Port Channelized OC-3 STM-1 ATM CEoP SPA is Optical
Carrier-3 (OC-3). The 1-Port Channelized OC-3 STM-1 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 STM-1 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
STM-1 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
24-Port Channelized T1/E1 ATM CEoP SPA Overview
The following sections describe the 24-Port Channelized T1/E1 ATM CEoP SPA:
•
24-Port Channelized T1/E1 ATM CEoP SPA LEDs
•
24-Port Channelized T1/E1 ATM CEoP SPA Interface Specifications
•
24-Port Channelized T1/E1 ATM CEoP SPA Cables and Connectors
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•
24-Port Channelized T1/E1 ATM CEoP SPA Patch Panel
24-Port Channelized T1/E1 ATM CEoP SPA LEDs
The 24-Port Channelized T1/E1 ATM CEoP SPA has two types of LEDS, as shown in this figure:
Figure 3-42
24-Port Channelized T1/E1 ATM CEoP SPA Faceplate
0
1
2
3
4
5
6
7
8 9 10 11
12 13 14 15
16
17
18 19
20 21 22 23
230030
TX/RX
ST
AT
US
SPA-24CHT1
CE-ATM
1
2
1
2
A/C (Alarm/Carrier) LED
STATUS LED
The 24-Port Channelized T1/E1 ATM CEoP SPA LEDs are described in the following table.
Table 3-40
24-Port Channelized T1/E1 ATM CEoP SPA LEDs
LED Label
Color
State
Meaning
STATUS
Off
Off
SPA power is off.
Amber
On
SPA power is on and good, and SPA is being configured.
Green
On
SPA is ready and operational.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software.
Amber
On
Port is enabled by software, and there is at least one alarm.
A/C
24-Port Channelized T1/E1 ATM CEoP SPA Interface Specifications
The physical layer interface for the 24-Port Channelized T1/E1 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 ATM CEoP SPA Cables and Connectors
The 24-Port Channelized T1/E1 ATM CEoP SPA requires a Cisco cable (part number CABLE-24T1E1J1),
which is shown in the following figure.
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24-Port Channelized T1/E1 ATM CEoP SPA High-Density Cable
1
51
50
100
50
26
25
1
250106
Figure 3-43
Cable Installation
One end of the cable has a 100-pin connector that plugs into the front of the 24-Port Channelized T1/E1
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 ATM
CEoP SPA and the patch panel.
Figure 3-44
Cable Installation between SPA and Patch Panel
SPA-24
CHT1-C
E-ATM
24-Port Patch Panel
(rear view, rotated
180o for clarity)
TRANS
MIT
250107
RECEIV
E
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 ATM CEoP SPA and the rear of the patch panel.
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Table 3-41
24-Port Channelized T1/E1 ATM CEoP SPA Cable Connector Pinouts
Subscriber
Connector Pins
Line
Signal
SPA
TX Cable Lead
RX Cable Lead
Line 1
TX Tip
TX Ring
2
52
1
26
Not connected
RX Tip
RX Ring
26
76
Not connected
1
26
TX Tip
TX Ring
3
53
2
27
Not connected
RX Tip
RX Ring
27
77
Not connected
2
27
TX Tip
TX Ring
4
54
3
28
Not connected
RX Tip
RX Ring
28
78
Not connected
3
28
TX Tip
TX Ring
5
55
4
29
Not connected
RX Tip
RX Ring
29
79
Not connected
4
29
TX Tip
TX Ring
6
56
5
30
Not connected
RX Tip
RX Ring
30
80
Not connected
5
30
TX Tip
TX Ring
7
57
6
31
Not connected
RX Tip
RX Ring
31
81
Not connected
6
31
TX Tip
TX Ring
8
58
7
32
Not connected
RX Tip
RX Ring
32
82
Not connected
7
32
TX Tip
TX Ring
9
59
8
33
Not connected
RX Tip
RX Ring
33
83
Not connected
8
33
TX Tip
TX Ring
10
60
9
34
Not connected
RX Tip
RX Ring
34
84
Not connected
9
34
TX Tip
TX Ring
11
61
10
35
Not connected
RX Tip
RX Ring
35
85
Not connected
10
35
Line 2
Line 3
Line 4
Line 5
Line 6
Line 7
Line 8
Line 9
Line 10
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Table 3-41
24-Port Channelized T1/E1 ATM CEoP SPA Cable Connector Pinouts (continued)
Subscriber
Connector Pins
Line
Signal
SPA
TX Cable Lead
RX Cable Lead
Line 11
TX Tip
TX Ring
12
62
11
36
Not connected
RX Tip
RX Ring
36
86
Not connected
11
36
TX Tip
TX Ring
13
63
12
37
Not connected
RX Tip
RX Ring
37
87
Not connected
12
37
TX Tip
TX Ring
14
64
13
38
Not connected
RX Tip
RX Ring
38
88
Not connected
13
38
TX Tip
TX Ring
15
65
14
39
Not connected
RX Tip
RX Ring
39
89
Not connected
14
39
TX Tip
TX Ring
16
66
15
40
Not connected
RX Tip
RX Ring
40
90
Not connected
15
40
TX Tip
TX Ring
17
67
16
41
Not connected
RX Tip
RX Ring
41
91
Not connected
16
41
TX Tip
TX Ring
18
68
17
42
Not connected
RX Tip
RX Ring
42
92
Not connected
17
42
TX Tip
TX Ring
19
69
18
43
Not connected
RX Tip
RX Ring
43
93
Not connected
18
43
TX Tip
TX Ring
20
70
19
44
Not connected
RX Tip
RX Ring
44
94
Not connected
19
44
TX Tip
TX Ring
21
71
20
45
Not connected
RX Tip
RX Ring
45
95
Not connected
20
45
Line 12
Line 13
Line 14
Line 15
Line 16
Line 17
Line 18
Line 19
Line 20
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Table 3-41
24-Port Channelized T1/E1 ATM CEoP SPA Cable Connector Pinouts (continued)
Subscriber
Connector Pins
Line
Signal
SPA
TX Cable Lead
RX Cable Lead
Line 21
TX Tip
TX Ring
22
72
21
46
Not connected
RX Tip
RX Ring
46
96
Not connected
21
46
TX Tip
TX Ring
23
73
22
47
Not connected
RX Tip
RX Ring
47
97
Not connected
22
47
TX Tip
TX Ring
24
74
23
48
Not connected
RX Tip
RX Ring
48
98
Not connected
23
48
TX Tip
TX Ring
25
75
24
49
Not connected
RX Tip
RX Ring
49
99
Not connected
24
49
Line 22
Line 23
Line 24
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 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.
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•
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 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)
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)
2-Port Channelized T3/E3 ATM CEoP SPA
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, as shown in the following
figure. There are two LEDs for each port on the SPA, and a single STATUS LED for the SPA.
Figure 3-45
2-Port Channelized T3/E3 ATM CEoP SPA Faceplate
4
A
S
SPA-2CHT3-CE-ATM
5
250287
2
ST
AT
U
L
RX
A/
A/
TX
RX
TX
1
C/
1
L
0
C/
A
3
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1
TX (Transmit) connector
4
A/L (Active/Loopback)
2
RX (Receive) connector
5
STATUS LED
3
C/A (Carrier/Alarm) LED
The 2-Port Channelized T3/E3 ATM CEoP SPA LEDs are described in the following table.
Table 3-42
2-Port Channelized T3/E3 ATM CEoP SPA LEDs
LED Label
Color
State
Meaning
C/A
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software.
Amber
On
Port is enabled by software, and there is at least one alarm.
Off
Off
Port is not enabled by software.
Green
On
Port is enabled by software, loopback is off.
Amber
On
Port is enabled by software, loopback is on.
Off
Off
SPA power is off.
Amber
On
SPA power is on and good, and SPA is being configured.
Green
On
SPA is ready and operational.
A/L
STATUS
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2-Port Channelized T3/E3 ATM CEoP SPA
2-Port Channelized T3/E3 ATM CEoP SPA Interface Specifications
The framer processes incoming and outgoing T3 (cbit, m13/m23, and unframed) and E3 (g751, g832,
and unframed) 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 Release 12.2(33)SRC, 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 (CEM) 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.
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 cable will be Siemax.
Note
•
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)
•
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 3-2 shows the connectors on the 2-Port Channelized T3/E3 ATM CEoP SPA, and Table 3-5
describes the signal descriptions for these connectors.
Table 3-43
2-Port Channelized T3/E3 ATM CEoP SPA Connectors
Connector Label
Meaning
TX
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.
RX
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.
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4
Preparing to Install a SIP or a Shared Port
Adapter
This chapter describes the general equipment, safety, and site preparation requirements for installing
SIPs and SPAs. This chapter contains the following sections:
•
Required Tools and Equipment, page 4-1
•
Safety Guidelines, page 4-1
•
Laser/LED Safety, page 4-8
Required Tools and Equipment
You need the following tools and parts to install SIPs and SPAs. If you need additional equipment,
contact a service representative for ordering information.
•
Shared port adapter interface processor (SIP)
•
Shared port adapter (SPA)
•
SPA Services Card (SSC)
•
Number 1 Phillips and a 3/16-inch flat-blade screwdriver
•
Number 2 Phillips screwdriver
•
Your own electrostatic discharge (ESD)-prevention equipment or the disposable grounding wrist
strap supplied with the SIP or SPA
•
Antistatic mat
•
Antistatic container
Safety Guidelines
This section provides safety guidelines that you should follow when working with any equipment that
connects to electrical power or telephone wiring.
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Safety Warnings
Safety warnings appear throughout this publication in procedures that, if performed incorrectly, might
harm you. A warning symbol precedes each warning statement.
Warning Definition
Warning
IMPORTANT SAFETY INSTRUCTIONS
This warning symbol means danger. You are in a situation that could cause bodily injury. Before you
work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar
with standard practices for preventing accidents. Use the statement number provided at the end of
each warning to locate its translation in the translated safety warnings that accompanied this
device. Statement 1071
SAVE THESE INSTRUCTIONS
Waarschuwing
BELANGRIJKE VEILIGHEIDSINSTRUCTIES
Dit waarschuwingssymbool betekent gevaar. U verkeert in een situatie die lichamelijk letsel kan
veroorzaken. Voordat u aan enige apparatuur gaat werken, dient u zich bewust te zijn van de bij
elektrische schakelingen betrokken risico's en dient u op de hoogte te zijn van de standaard
praktijken om ongelukken te voorkomen. Gebruik het nummer van de verklaring onderaan de
waarschuwing als u een vertaling van de waarschuwing die bij het apparaat wordt geleverd, wilt
raadplegen.
BEWAAR DEZE INSTRUCTIES
Varoitus
TÄRKEITÄ TURVALLISUUSOHJEITA
Tämä varoitusmerkki merkitsee vaaraa. Tilanne voi aiheuttaa ruumiillisia vammoja. Ennen kuin
käsittelet laitteistoa, huomioi sähköpiirien käsittelemiseen liittyvät riskit ja tutustu
onnettomuuksien yleisiin ehkäisytapoihin. Turvallisuusvaroitusten käännökset löytyvät laitteen
mukana toimitettujen käännettyjen turvallisuusvaroitusten joukosta varoitusten lopussa näkyvien
lausuntonumeroiden avulla.
SÄILYTÄ NÄMÄ OHJEET
Attention
IMPORTANTES INFORMATIONS DE SÉCURITÉ
Ce symbole d'avertissement indique un danger. Vous vous trouvez dans une situation pouvant
entraîner des blessures ou des dommages corporels. Avant de travailler sur un équipement, soyez
conscient des dangers liés aux circuits électriques et familiarisez-vous avec les procédures
couramment utilisées pour éviter les accidents. Pour prendre connaissance des traductions des
avertissements figurant dans les consignes de sécurité traduites qui accompagnent cet appareil,
référez-vous au numéro de l'instruction situé à la fin de chaque avertissement.
CONSERVEZ CES INFORMATIONS
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Warnung
WICHTIGE SICHERHEITSHINWEISE
Dieses Warnsymbol bedeutet Gefahr. Sie befinden sich in einer Situation, die zu Verletzungen führen
kann. Machen Sie sich vor der Arbeit mit Geräten mit den Gefahren elektrischer Schaltungen und
den üblichen Verfahren zur Vorbeugung vor Unfällen vertraut. Suchen Sie mit der am Ende jeder
Warnung angegebenen Anweisungsnummer nach der jeweiligen Übersetzung in den übersetzten
Sicherheitshinweisen, die zusammen mit diesem Gerät ausgeliefert wurden.
BEWAHREN SIE DIESE HINWEISE GUT AUF.
Avvertenza
IMPORTANTI ISTRUZIONI SULLA SICUREZZA
Questo simbolo di avvertenza indica un pericolo. La situazione potrebbe causare infortuni alle
persone. Prima di intervenire su qualsiasi apparecchiatura, occorre essere al corrente dei pericoli
relativi ai circuiti elettrici e conoscere le procedure standard per la prevenzione di incidenti.
Utilizzare il numero di istruzione presente alla fine di ciascuna avvertenza per individuare le
traduzioni delle avvertenze riportate in questo documento.
CONSERVARE QUESTE ISTRUZIONI
Advarsel
VIKTIGE SIKKERHETSINSTRUKSJONER
Dette advarselssymbolet betyr fare. Du er i en situasjon som kan føre til skade på person. Før du
begynner å arbeide med noe av utstyret, må du være oppmerksom på farene forbundet med
elektriske kretser, og kjenne til standardprosedyrer for å forhindre ulykker. Bruk nummeret i slutten
av hver advarsel for å finne oversettelsen i de oversatte sikkerhetsadvarslene som fulgte med denne
enheten.
TA VARE PÅ DISSE INSTRUKSJONENE
Aviso
INSTRUÇÕES IMPORTANTES DE SEGURANÇA
Este símbolo de aviso significa perigo. Você está em uma situação que poderá ser causadora de
lesões corporais. Antes de iniciar a utilização de qualquer equipamento, tenha conhecimento dos
perigos envolvidos no manuseio de circuitos elétricos e familiarize-se com as práticas habituais de
prevenção de acidentes. Utilize o número da instrução fornecido ao final de cada aviso para
localizar sua tradução nos avisos de segurança traduzidos que acompanham este dispositivo.
GUARDE ESTAS INSTRUÇÕES
¡Advertencia!
INSTRUCCIONES IMPORTANTES DE SEGURIDAD
Este símbolo de aviso indica peligro. Existe riesgo para su integridad física. Antes de manipular
cualquier equipo, considere los riesgos de la corriente eléctrica y familiarícese con los
procedimientos estándar de prevención de accidentes. Al final de cada advertencia encontrará el
número que le ayudará a encontrar el texto traducido en el apartado de traducciones que acompaña
a este dispositivo.
GUARDE ESTAS INSTRUCCIONES
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Varning!
VIKTIGA SÄKERHETSANVISNINGAR
Denna varningssignal signalerar fara. Du befinner dig i en situation som kan leda till personskada.
Innan du utför arbete på någon utrustning måste du vara medveten om farorna med elkretsar och
känna till vanliga förfaranden för att förebygga olyckor. Använd det nummer som finns i slutet av
varje varning för att hitta dess översättning i de översatta säkerhetsvarningar som medföljer denna
anordning.
SPARA DESSA ANVISNINGAR
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Electrical Equipment Guidelines
Follow these basic guidelines when working with any electrical equipment:
Caution
•
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.
This equipment is suitable for intrabuilding wiring only.
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Safety Guidelines
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.
Preventing Electrostatic Discharge Damage
Electrostatic discharge (ESD) damage, which can occur when electronic cards or components are
improperly handled, results in complete or intermittent failures. SIPs, SPAs, and processor modules
comprise printed circuit boards that are fixed in metal carriers. Electromagnetic interference (EMI)
shielding and connectors are integral components of the carrier. Although the metal carrier helps to
protect the board from ESD, use a preventive antistatic strap during handling.
Following are guidelines for preventing ESD damage:
Caution
•
Always use an ESD wrist or ankle strap and ensure that it makes good skin contact.
•
Connect the equipment end of the strap to an unfinished chassis surface.
•
When installing a component, use any available ejector levers or captive installation screws to
properly seat the bus connectors in the backplane or midplane. These devices prevent accidental
removal, provide proper grounding for the system, and help to ensure that bus connectors are
properly seated.
•
When removing a component, use any available ejector levers or captive installation screws to
release the bus connectors from the backplane or midplane.
•
Handle carriers by available handles or edges only; avoid touching the printed circuit boards or
connectors.
•
Place a removed board component-side-up on an antistatic surface or in a static shielding container.
If you plan to return the component to the factory, immediately place it in a static shielding
container.
•
Avoid contact between the printed circuit boards and clothing. The wrist strap only protects
components from ESD voltages on the body; ESD voltages on clothing can still cause damage.
•
Never attempt to remove the printed circuit board from the metal carrier.
For safety, periodically check the resistance value of the antistatic strap. The measurement should be
between 1 and 10 megohms (Mohms).
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Laser/LED Safety
Laser/LED Safety
An optical single-mode transmitter uses a small laser to transmit the light signal to the network ring.
Keep the transmit port covered whenever a cable is not connected to it. Although multimode transceivers
typically use LEDs for transmission, it is good practice to keep open ports covered and avoid staring into
open ports or apertures. The single-mode aperture port contains a laser warning label, as shown in
Figure 4-1. The multimode aperture contains a Class 1 LED warning label, as shown in Figure 4-1.
These warnings apply to SPAs and SFP modules that transmit signals via an optical carrier signal.
Figure 4-1
Class 1 Laser Warning Labels for Single-Mode Port
PRODUIT LASER DE CLASSE 1
1
PRODUCTO LASER CLASE 1
H6655
CLASS 1 LASER PRODUCT
LASERPRODUKT DER KLASSE 1
Warning
Class 1 laser product. Statement 1008
Warning
Invisible laser radiation may be emitted from disconnected fibers or connectors. Do not stare into
beams or view directly with optical instruments. Statement 1051
Waarschuwing
Losgekoppelde of losgeraakte glasvezels of aansluitingen kunnen onzichtbare laserstraling
produceren. Kijk niet rechtstreeks in de straling en gebruik geen optische instrumenten rond deze
glasvezels of aansluitingen.
Varoitus
Irrotetuista kuiduista tai liittimistä voi tulla näkymätöntä lasersäteilyä. Älä tuijota säteitä tai katso
niitä suoraan optisilla välineillä.
Attention
Les fibres ou connecteurs débranchés risquent d'émettre des rayonnements laser invisibles à l'œil.
Ne regardez jamais directement les faisceaux laser à l'œil nu, ni d'ailleurs avec des instruments
optiques.
Warnung
Unterbrochene Fasern oder Steckerverbindungenkönnen unsichtbare Laserstrahlung abgeben.
Blicken Sie weder mit bloßem Auge noch mit optischen Instrumenten direkt in Laserstrahlen.
Avvertenza
Le fibre ottiche ed i relativi connettori possono emettere radiazioni laser. I fasci di luce non devono
mai essere osservati direttamente o attraverso strumenti ottici.
Advarsel
Det kan forekomme usynlig laserstråling fra fiber eller kontakter som er frakoblet. Stirr ikke direkte
inn i strålene eller se på dem direkte gjennom et optisk instrument.
Aviso
¡Advertencia!
Radiação laser invisível pode ser emitida de conectores ou fibras desconectadas. Não olhe
diretamente para os feixes ou com instrumentos ópticos.
Es posible que las fibras desconectadas emitan radiación láser invisible. No fije la vista en los
rayos ni examine éstos con instrumentos ópticos.
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Varning!
Aviso
Advarsel
Osynlig laserstrålning kan avges från frånkopplade fibrer eller kontaktdon. Rikta inte blicken in i
strålar och titta aldrig direkt på dem med hjälp av optiska instrument.
Radiação laser invisível pode ser emitida a partir de fibras ou conectores desconectados. Não fixe
o olhar nos feixes e nem olhe diretamente com instrumentos ópticos.
Usynlig laserstråling kan forekomme fra brugte fibre eller stik. Stir ikke ind i stråler eller direkte
med optiske instrumenter.
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Laser/LED Safety
T
Warning
Invisible laser radiation may be emitted from disconnected fibers or connectors. Do not stare into
beams or view directly with optical instruments. Statement 1051
Warning
Class 1 LED product. Statement 1027
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5
Installing and Removing a SIP
This chapter describes how to install or remove SIPs on the Cisco 7600 series routers. This chapter
contains the following sections:
•
Handling SIPs, page 5-1
•
Online Insertion and Removal, page 5-2
•
SIP Installation and Removal, page 5-8
Handling SIPs
Each SIP circuit board is mounted to a metal carrier and is sensitive to electrostatic discharge (ESD)
damage. Before you begin installation, read Chapter 4, “Preparing to Install a SIP or a Shared Port
Adapter,” 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 Figure 5-1.)
When a slot is not in use, a blank filler plate must be installed in 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 SIP in a slot that is not in use, you must first
remove the blank filler plate.
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Figure 5-1
Handling a SIP
70006
Printed circuit board
Metal carrier
GND
Online Insertion and Removal
The Cisco 7600 series router supports online insertion and removal (OIR) of the SPA interface processor
(SIP) or SPA services card (SSC), in addition to each of the shared port adapters (SPAs). Therefore, you
can remove a SIP or SSC with its SPAs still intact, or you can remove a SPA independently from the SIP
or SSC, leaving the SIP or SSC installed in the router.
This section includes the following topics on OIR support:
Note
•
Preparing for Online Removal of a SIP or SSC, page 5-2
•
Verifying Deactivation and Activation of a SIP or SSC, page 5-3
•
Preparing for Online Removal of a SPA, page 5-4
•
Verifying Deactivation and Activation of a SPA, page 5-6
•
Deactivation and Activation Configuration Examples, page 5-6
For simplicity, any reference to “SIP” in this section also applies to the SSC.
Preparing for Online Removal of a SIP or SSC
The Cisco 7600 series router supports OIR of the SIP and the SSC. To do this, you can power down a
SIP (which automatically deactivates any installed SPAs) and remove the SIP with the SPAs still intact.
Although graceful deactivation of a SIP is preferred using the no power enable module command, the
Cisco 7600 series router does support removal of the SIP without deactivating it first. If you plan to
remove a SIP, you can deactivate the SIP first, using the no power enable module global configuration
command. When you deactivate a SIP using this command, it automatically deactivates each of the SPAs
that are installed in that SIP. Therefore, it is not necessary to deactivate each of the SPAs prior to
deactivating the SIP.
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Either a blank filler plate or a functional SPA should reside in every subslot of a SIP during normal
operation.
For more information about the recommended procedures for physical removal of the SIP, refer to the
Cisco 7600 Series Router SIP, SSC, and SPA Hardware Installation Guide.
Deactivating a SIP or SSC
To deactivate a SIP or SSC and its installed SPAs prior to removal of the SIP, use the following command
in global configuration mode:
Command
Purpose
Router(config)# no power enable module
slot
Shuts down any installed interfaces, and deactivates the
SIP in the specified slot, where:
•
slot—Specifies the chassis slot number where the
SIP is installed.
For more information about chassis slot numbering, refer to the “Identifying Slots and Subslots for SIPs,
SSCs, and SPAs” section in this guide.
Reactivating a SIP or SSC
Once you deactivate a SIP or SSC, whether or not you have performed an OIR, you must use the power
enable module global configuration command to reactivate the SIP.
If you did not issue a command to deactivate the SPAs installed in a SIP, but you did deactivate the SIP
using the no power enable module command, then you do not need to reactivate the SPAs after an OIR
of the SIP. The installed SPAs automatically reactivate upon reactivation of the SIP in the router.
For example, consider the case where you remove a SIP from the router to replace it with another SIP.
You reinstall the same SPAs into the new SIP. When you enter the power enable module command on
the router, the SPAs will automatically reactivate with the new SIP.
To activate a SIP and its installed SPAs after the SIP has been deactivated, use the following command
in global configuration mode:
Command
Purpose
Router(config)# power enable module slot
Activates the SIP in the specified slot and its installed
SPAs, where:
•
slot—Specifies the chassis slot number where the
SIP is installed.
For more information about chassis slot numbering, refer to the “Identifying Slots and Subslots for SIPs,
SSCs, and SPAs” section in this guide.
Verifying Deactivation and Activation of a SIP or SSC
To verify the deactivation of a SIP or SSC, enter the show module command in privileged EXEC
configuration mode. Observe the Status field associated with the SIP that you want to verify.
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The following example shows that the Cisco 7600 SIP-400 located in slot 13 is deactivated. This is
indicated by its “PwrDown” status.
Router# show module 13
Mod Ports Card Type
Model
Serial No.
--- ----- -------------------------------------- ------------------ ----------13
0
4-subslot SPA Interface Processor-400
7600-SIP-400
JAB0851042X
Mod MAC addresses
Hw
Fw
Sw
Status
--- ---------------------------------- ------ ------------ ------------ ------13 00e0.aabb.cc00 to 00e0.aabb.cc3f
0.525 12.2(PP_SPL_ 12.2(PP_SPL_ Ok
Mod Online Diag Status
--- ------------------13 PwrDown
To verify activation and proper operation of a SIP, enter the show module command and observe “Ok”
in the Status field as shown in the following example:
Router# show module 2
Mod Ports Card Type
Model
Serial No.
--- ----- -------------------------------------- ------------------ ----------2
0 4-subslot SPA Interface Processor-200
7600-SIP-200
JAB074905S1
Mod MAC addresses
Hw
Fw
Sw
Status
--- ---------------------------------- ------ ------------ ------------ ------2 0000.0000.0000 to 0000.0000.003f
0.232 12.2(2004082 12.2(2004082 Ok
Mod Online Diag Status
--- ------------------2 Pass
Preparing for Online Removal of a SPA
The Cisco 7600 series router supports OIR of a SPA independently of removing the SIP or SSC. This
means that a SIP can remain installed in the router with one SPA remaining active, while you remove
another SPA from one of the SIP subslots. If you are not planning to immediately replace a SPA into the
SIP, then be sure to install a blank filler plate in the subslot. The SIP should always be fully installed
with either functional SPAs or blank filler plates.
The interface configuration is retained (recalled) if a SIP or SPA is removed and then replaced with one
of the same type. This is not the case if you replace a Cisco 7600 SIP-200 with a Cisco 7600 SIP-400 or
vice versa.
If you are planning to remove a SIP along with its SPAs, then you do not need to follow the instructions
in this section. To remove a SIP, see the “Preparing for Online Removal of a SIP or SSC” section on
page 5-2.
Deactivating a SPA
Although graceful deactivation of a SPA is preferred using the hw-module subslot shutdown command,
the Cisco 7600 series router does support removal of the SPA without deactivating it first. Before
deactivating a SPA, ensure that the SIP is seated securely into the slot before pulling out the SPA itself.
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Note
If you are preparing for an OIR of a SPA, it is not necessary to independently shut down each of the
interfaces prior to deactivation of the SPA. The hw-module subslot shutdown command automatically
stops traffic on the interfaces and deactivates them along with the SPA in preparation for OIR. In similar
fashion, you do not need to independently restart any interfaces on a SPA after OIR of a SPA or SIP.
To deactivate a SPA and all of its interfaces prior to removal of the SPA, use the following command in
global configuration mode:
Command
Purpose
Router(config)# hw-module subslot
slot/subslot shutdown [powered |
unpowered]
Deactivates the SPA in the specified slot and subslot of
the SIP, where:
•
slot—Specifies the chassis slot number where the
SIP is installed.
•
subslot—Specifies subslot number on a SIP where
a SPA is installed.
•
powered—(Optional) Shuts down the SPA and all
of its interfaces, and leaves them in an
administratively down state with power enabled.
This is the default state.
•
unpowered—(Optional) Shuts down the SPA and
all of its interfaces, and leaves them in an
administratively down state without power.
For more information about chassis slot and SIP subslot numbering, refer to the “Identifying Slots and
Subslots for SIPs, SSCs, and SPAs” section in this guide.
Reactivating a SPA
Note
You do not need to reactivate a SPA after an OIR of either the SIP or a SPA if you did not deactivate the
SPA prior to removal. If the router is running, then the SPAs automatically start upon insertion into the
SIP or with insertion of a SIP into the router.
If you deactivate a SPA using the hw-module subslot shutdown global configuration command and
need to reactivate it without performing an OIR, you need to use the no hw-module subslot shutdown
global configuration command to reactivate the SPA and its interfaces.
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Online Insertion and Removal
To activate a SPA and its interfaces after the SPA has been deactivated, use the following command in
global configuration mode:
Command
Purpose
Router(config)# no hw-module subslot
slot/subslot shutdown
Activates the SPA and its interfaces in the specified slot
and subslot of the SIP, where:
•
slot—Specifies the chassis slot number where the
SIP is installed.
•
subslot—Specifies subslot number on a SIP where
a SPA is installed.
Verifying Deactivation and Activation of a SPA
When you deactivate a SPA, the corresponding interfaces are also deactivated. This means that these
interfaces will no longer appear in the output of the show interface command.
To verify the deactivation of a SPA, enter the show hw-module subslot all oir command in privileged
EXEC configuration mode. Observe the Operational Status field associated with the SPA that you want
to verify.
In the following example, the SPA located in subslot 1 of the SIP in slot 2 of the router is administratively
down from the hw-module subslot shutdown command:
Router# show hw-module subslot all oir
Module
Model
Operational Status
-------------- ------------------ ------------------------subslot 2/0
SPA-4XOC3-POS
ok
subslot 2/1
SPA-4XOC3-ATM
admin down
To verify activation and proper operation of a SPA, enter the show hw-module subslot all oir command
and observe “ok” in the Operational Status field as shown in the following example:
Router# show hw-module subslot all oir
Module
Model
Operational Status
-------------- ------------------ ------------------------subslot 2/0
SPA-4XOC3-POS
ok
subslot 2/1
SPA-4XOC3-ATM
ok
Deactivation and Activation Configuration Examples
This section provides the following examples of deactivating and activating SIPs and SPAs:
•
Deactivation of a SIP Configuration Example, page 5-7
•
Activation of a SIP Configuration Example, page 5-7
•
Deactivation of a SPA Configuration Example, page 5-7
•
Activation of a SPA Configuration Example, page 5-7
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Online Insertion and Removal
Deactivation of a SIP Configuration Example
Deactivate a SIP when you want to perform OIR of the SIP. The following example deactivates the SIP
that is installed in slot 5 of the router, its SPAs, and all of the interfaces. The corresponding console
messages are shown:
Router# configure terminal
Router(config)# no power enable module 5
1w4d: %OIR-6-REMCARD: Card removed from slot 5, interfaces disabled
1w4d: %C6KPWR-SP-4-DISABLED: power to module in slot 5 set off (admin request)
Activation of a SIP Configuration Example
Activate a SIP if you have previously deactivated it. If you did not deactivate the SPAs, the SPAs
automatically reactivate with reactivation of the SIP.
The following example activates the SIP that is installed in slot 5 of the router, its SPA, and all of the
interfaces (as long as the hw-module subslot shutdown command was not issued to also deactivate the
SPA):
Router# configure terminal
Router(config)# power enable module 5
Notice that there are no corresponding console messages shown with activation. If you re-enter the
power enable module command, a message is displayed indicating that the module is already
enabled:
Router(config)# power enable module 5
% module is already enabled
Deactivation of a SPA Configuration Example
Deactivate a SPA when you want to perform OIR of that SPA. The following example deactivates the
SPA (and its interfaces) that is installed in subslot 0 of the SIP located in slot 2 of the router and removes
power to the SPA. Notice that no corresponding console messages are shown:
Router# configure terminal
Router(config)# hw-module subslot 2/0 shutdown unpowered
Activation of a SPA Configuration Example
Activate a SPA if you have previously deactivated it. If you have not deactivated a SPA and its interfaces
during OIR of a SIP, then the SPA is automatically reactivated upon reactivation of the SIP.
The following example activates the SPA that is installed in slot 2 of the router and all of its interfaces.
Router# configure terminal
Router(config)# no hw-module subslot 2/0 shutdown
Router#
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SIP Installation and Removal
SIP Installation and Removal
This section provides step-by-step instructions for installing and removing a SIP.
Note
Warning
To ensure compliance with electromagnetic interference (EMI) approvals by providing a tight
EMI-preventive seal for the Cisco 7600 series routers, we recommend that you first install SIPs in the
slots closest to the supervisor engine slots, and then work out to the slots furthest from the supervisor
engine slots.
During this procedure, wear grounding wrist straps to avoid ESD damage to the card. Do not directly
touch the backplane with your hand or any metal tool, or you could shock yourself. Statement 94
To install and remove a SIP, refer to Figure 5-2 and do the following:
Step 1
To insert the SIP, carefully align the edges of the SIP between the upper and lower edges of the module
slot, as shown in C of Figure 5-2.
Step 2
Carefully slide the SIP halfway into the module slot and connect all cables to the SPA.
Step 3
With the cables connected, carefully slide the SIP into the module slot until the SIP makes contact with
the backplane.
Note
Step 4
The SIP ejector levers must be positioned at a 45-degree angle before the SIP makes contact with
the backplane.
Push the SIP ejector levers in until the SIP is fully seated in the router backplane.
Note
Caution
When the router chassis is fully populated, seating a SIP can be difficult. To properly seat the
SIP and avoid physical damage, loosen the locking thumbscrews on the neighboring SIPs or line
cards.
Use of excessive force can damage the router or SIP.
Step 5
Tighten the locking thumbscrews on both sides of the SIP.
Step 6
To remove the SIP, loosen the locking thumbscrews on both sides of the SIP, as shown in A of Figure 5-2.
Step 7
Pull out the SIP ejector levers, as shown in B of Figure 5-2, and carefully slide the SIP halfway out of
the module slot. If you are removing a blank filler plate, pull the blank filler plate completely out of the
module slot.
Step 8
With the SIP halfway out of the module slot, disconnect all cables from the SPA. After disconnecting
the cables, pull the SIP out of the module slot.
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SIP Installation and Removal
Figure 5-2 illustrates how to install and remove a SIP in a Cisco 7600 series router.
Figure 5-2
SIP Installation and Removal
OSM-4OC12 POS-SI
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SIP Installation and Removal
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6
Installing and Removing a Shared Port Adapter
This chapter describes how to install or remove SPAs on the Cisco 7600 series routers. This chapter
contains the following sections:
•
Handling SPAs, page 6-1
•
SPA Installation and Removal, page 6-2
•
Online Insertion and Removal, page 6-3
•
Optical Device Maintenance, page 6-3
•
Checking the Installation, page 6-4
•
SPA Blank Filler Plates, page 6-6
•
SPA Cable-Management Brackets, page 6-7
Handling SPAs
Each SPA circuit board is mounted to a metal carrier and is sensitive to electrostatic discharge (ESD)
damage. Before you begin installation, read the “Preparing to Install a SIP or a Shared Port Adapter,”
chapter for a list of parts and tools required for installation.
Caution
Always handle the SPA by the carrier edges and handle; never touch the SPA components or connector
pins. (See Figure 6-1.)
When a subslot is not in use, a SPA blank filler plate must fill the empty subslot to allow the router or
switch to conform to electromagnetic interference (EMI) emissions requirements and to allow proper
airflow across the installed modules. If you plan to install a SPA in a subslot that is not in use, you must
first remove the SPA blank filler plate.
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SPA Installation and Removal
Figure 6-1
Handling a SPA
Metal carrier
H6420
Printed circuit board
SPA Installation and Removal
This section provides step-by-step instructions for installing and removing a SPA in a SIP.
Warning
During this procedure, wear grounding wrist straps to avoid ESD damage to the card. Do not directly
touch the backplane with your hand or any metal tool, or you could shock yourself. Statement 94
Figure 6-2 illustrates how to install and remove a SPA in a SIP.
Figure 6-2
SPA Installation and Removal
7600-S
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Online Insertion and Removal
Installing a SPA in a SIP
To install a SPA in a SIP, refer to Figure 6-2 and do the following:
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 Figure 6-2.
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.
Step 3
After the SPA is properly seated, fasten the SPA in place with the captive installation screws.
Removing a SPA from a SIP
To remove a SPA from a SIP, refer to Figure 6-2 and do the following:
Step 1
If attached, remove any cables from the SPA.
Step 2
To remove the SPA from the SIP, unfasten the captive installation screws on the SPA.
Step 3
Grasp the handles of the SPA and pull the SPA from the SIP. (You have already disconnected the cables
from the SPA when removing the SIP).
Online Insertion and Removal
Cisco 7600 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.
For more information about performing OIR, refer to the “Preparing for Online Removal of a SPA”
section on page 5-4.
Optical Device Maintenance
Any contamination of the fiber connection can cause failure of the component or failure of the whole
system. A particle that partially or completely blocks the core generates strong back reflections, which
can cause instability in the laser system. Inspection, cleaning, and reinspection are critical steps to take
before making fiber-optic connections.
Cleaning Optical Devices
See Inspection and Cleaning Procedures for Fiber-Optic Connections for information on cleaning
optical devices.
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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 6-4
•
Using show Commands to Verify SIP and SPA Status, page 6-5
•
Using show Commands to Display SPA Information, page 6-6
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:
Step 1
Observe the console display messages and verify that the system discovers the SIP, while the system
reinitializes each interface, as follows:
•
As a SIP is initialized, the STATUS LED will first be amber, 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 amber, turning to green when the SPAs become active.
•
When the SIP and SPA STATUS LEDs are green, all associated interfaces are configurable.
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Checking the Installation
Refer to the Cisco 7600 Series Router SIP, SSC, and SPA Software Configuration Guide for
configuration instructions.
•
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
Step 2
New interfaces are not available until you configure them.
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 upgrade
fpd progress command to obtain information about the FPD process. SIPs or SPAs that undergo an
FPD upgrade will automatically be rebooted. Return to Step 1.
•
If there is no indication that an FPD upgrade is under way, see Chapter 7, “Troubleshooting the
Installation.”
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
Use the show running-config command to display the system configuration. Verify that the
configuration includes the new SPA interfaces.
Step 2
Display all of the current SPAs and a summary of their status using the show hw-module subslot all oir
command.
Step 3
Display information about the installed SIPs using the show diag command.
Step 4
Use the show hw-module subslot all fpd command to verify the FPD version information of the SPAs
installed in the system.
Note
If a SPA does not meet the minimum FPD version required, it will be updated automatically. If
the update fails, the failing SPA will be powered down and an error message will be reported on
the system console.
For more information about FPD upgrades, refer to the “Upgrading Field-Programmable
Devices” chapter of the Cisco 7600 Series Router SIP, SSC, and SPA Software Configuration Guide.
Step 5
Use the show version command to obtain a few details on the installed SIPs and interfaces available.
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SPA Blank Filler Plates
Using show Commands to Display SPA Information
Table 6-1 describes the show commands you can use to display SPA information.
Table 6-1
show Commands to Display SPA Information
Command
Type of Information Provided
show running-config
The router’s running configuration and interfaces available in
the system.
show hw-module subslot all oir
The operational status of all SPAs in the system.
show diag
SPA type in that slot, number of ports, hardware revision,
part number, and EEPROM contents.
show hw-module subslot all fpd
FPD version information of SPAs in the system.
show version
Cisco IOS software version, names and sources of
configuration files, and boot images.
SPA Blank Filler Plates
SPA blank filler plates are available to fill an unused SPA subslot.
When a SPA subslot is not in use, a SPA blank filler plate must be installed in the empty subslot to allow
the router or switch to conform to electromagnetic interference (EMI) emissions requirements and to
allow proper airflow across the SPAs. If you plan to install a new SPA in a subslot that is not in use, you
must first remove the SPA blank filler plate.
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SPA Cable-Management Brackets
SPA Cable-Management Brackets
SPAs are shipped with an accessory kit that includes cable-management brackets. Figure 6-3 shows
cable-management brackets installed in a SPA, as well as cable routing.
Figure 6-3
SPA Cable-Management Brackets
FAN
STATUS
WS-X6K-SUP2-2GE
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To install cable-management brackets on a SPA, perform the following steps:
Step 1
Screw the two pull assemblies into both sides of the SPA.
Step 2
Insert the cable-management clip into the slot.
Step 3
To remove the cable-management clip, depress the button on the clip and pull it out.
Note
Blank filler plugs are provided if no cable-management clips are installed.
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SPA Cable-Management Brackets
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7
Troubleshooting the Installation
This chapter describes how to troubleshoot the installation of SIPs and SPAs on the Cisco 7600 series
routers. This chapter contains the following sections:
•
Troubleshooting, page 7-1
•
Using debug Commands, page 7-2
•
Packing a SPA for Shipment, page 7-3
•
Packing a SIP for Shipment, page 7-4
Troubleshooting
This section describes troubleshooting the installation of the SIPs and SPAs. Possible problems,
observations and comments, and solutions are indicated for the following troubleshooting symptoms:
•
SIP transitions repeatedly from on to off
•
SIP is deactivated
•
SPA is down and the line protocol is down
SIP Transitions Repeatedly From On to Off
Possible Problem
Observations and Comments
Solutions
SIP is booting up; this is
normal operation
SIP STATUS LED alternates
green, amber, or off
Wait 30 seconds until the boot process completes and the
STATUS LED stays on.
SIP does not go beyond the
bootup stage
SIP STATUS LED transitions
continue and alternates green,
amber, or off
Follow the recommended action for the displayed error
message.
SIP FPGA is not up to date
During SIP initalization, the
need to update the FPGA is
automatically detected
Follow the system prompts to update the FPGA image.
If the SIP is cycling because of an FPD problem, the most
likely cause is a FPD failure or that the FPD package file is
not present.
For more information about performing FPD upgrades,
refer to the “Upgrading Field-Programmable Devices”
chapter in the Cisco 7600 Series Router SIP, SSC, and SPA
Software Configuration Guide.
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Chapter 7
Troubleshooting the Installation
Using debug Commands
SIP Is Deactivated
Possible Problem
Observations and Comments
SPA is not fully seated in the Output of the show diag slot
SIP
command
SPA STATUS LED is off
SPA is not supported on the
SIP
Error message indicating the
SPA is not supported
Solutions
Follow this procedure:
•
Remove the SPA from the SIP.
•
Inspect the SIP and the SPA. Verify there are no bent
pins or parts and that there is nothing lodged in the two
devices that could prevent a good connection.
•
Insert the SPA in the SIP by sliding the SPA all the
way into the SIP until the SPA is firmly seated in the
SPA interface connector. When fully seated in the SIP,
the SPA might be slightly behind the SIP faceplate.
Install a SPA supported on the SIP.
Output of the show diag slot
command
SIP STATUS LED is off
SPA is not at the minimum
hardware revision level
Error message indicating the
SPA is not at the minimum
FPGA revision level
Output of the show hw-module
subslot fpd command
Follow the FPD upgrade process to update the FPGA.
For more information about performing FPD upgrades,
refer to the “Upgrading Field-Programmable Devices”
chapter in the Cisco 7600 Series Router SIP, SSC, and SPA
Software Configuration Guide.
Output of the show diag slot
command
SPA STATUS LED is off
SPA is misconfigured
Refer to the configuration section of the specific SPA
installation and configuration guide, or use the Cisco IOS
software configuration documentation listed in the
“Obtaining Documentation, Obtaining Support, and
Security Guidelines” section on page xii.
Using debug Commands
The debug hw-module subslot command is intended for use by Cisco Systems technical support
personnel. For more information about the debug hw-module subslot command, see the Cisco 7600
Series Router SIP, SSC, and SPA Software Configuration Guide.
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 staff. 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.
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Chapter 7
Troubleshooting the Installation
Packing a SPA for Shipment
For information about other debug commands supported on the To view the explanations and
recommended actions for the Cisco 7600 series router error messages, including messages related to
Cisco 7600 SIPs and SPAs, refer to the following documents:
•
Cisco 7600 Series Cisco IOS System Message Guide, 12.2SX (for error messages on Early
Deployment trains)
•
System Error Messages for Cisco IOS Release 12.2S (for error messages in Release 12.2S)
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:
Caution
Warning
Note
•
Thermoform container (transparent plastic-molded clamshell)
•
Carton
Use Cisco Systems original packaging for the shipment of all SPAs and cable-management brackets.
Failure to properly use Cisco Systems packaging can result in damage or loss of product.
During this procedure, wear grounding wrist straps to avoid ESD damage to the card. Do not directly
touch the backplane with your hand or any metal tool, or you could shock yourself. Statement 94
These instructions assume that the SPA and cable-management brackets have been removed from the
router according to the recommended procedures specified in this guide.
To pack a SPA and the cable-management brackets for shipment, follow these steps:
Step 1
Open the thermoform container and place the SPA and each of the cable-management brackets into the
appropriate cavities.
Caution
Always handle the SPA by the carrier edges and handle; never touch the SPA components or connector
pins.
Step 2
Close the thermoform container. Be sure to lock the snaps securely.
Step 3
Check that the thermoform container is fully closed. Apply tape or a label closure over the opening to
ensure that the container stays closed during shipping.
Step 4
Place the thermoform container into the carton.
Step 5
Close the carton.
Step 6
Apply tape over the carton flap to ensure that the carton stays closed during shipping.
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Chapter 7
Troubleshooting the Installation
Packing a SIP for Shipment
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:
Caution
•
Static shielding bag
•
Smaller inner carton
•
Larger exterior carton
•
Two foam packing cushions
Use Cisco Systems original packaging for the shipment of all SIPs. Failure to properly use Cisco
Systems packaging can result in damage or loss of product.
Warning
During this procedure, wear grounding wrist straps to avoid ESD damage to the card. Do not directly
touch the backplane with your hand or any metal tool, or you could shock yourself. Statement 94
Note
These instructions assume that the SIP has been removed from the router according to the recommended
procedures specified in this guide.
To pack a SIP for shipment, follow these steps:
Step 1
Insert the SIP into the static shielding bag.
Step 2
Insert the bagged SIP into the smaller inner carton. Be careful to position the SIP so that the bottom
motherboard lip is held by the packaging cutout.
Step 3
Close the smaller inner carton and tape the sides closed.
Step 4
Place the sealed smaller inner carton containing the SIP into the two foam packing cushions (they only
fit one way).
Step 5
Place the sealed smaller inner carton and packing cushions into the larger exterior carton, and seal the
larger exterior carton with tape for shipment.
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I N D EX
LEDs
Numerics
3-45
8-Port Channelized T1/E1 Serial SPA
1-Port OC-12c/STM-4c ATM SPA
Cables and Connectors
Interface Specifications
LEDs
Cables, Connectors, and Pinouts
3-18
Interface Specifications
3-18
LEDs
3-17
Cables and Connectors
Interface Specifications
LEDs
LEDs
3-22, 3-27
LEDs
3-40
3-39
24-Port Channelized T1/E1 ATM CEoP SPA
cables, connectors, and pinouts
2-Port and 4-Port Channelized T3 Serial SPA
Interface Specifications
3-39
cables, connectors, and pinouts
3-23, 3-27
3-22, 3-26
Cables and Connectors
3-9
3-8
8-Port FastEthernet SPA
1-Port OC-48c/STM-16c ATM SPA
3-9
LEDs
3-5
3-61
patch panel
3-5
3-61, 3-62
3-66
RJ-45 cable pinouts
3-65
3-4
2-Port and 4-Port Clear Channel T3/E3 SPA
Cables and Connectors
Interface Specifications
LEDs
A
3-7
3-7
activation
3-6
verifying for SIPs
2-Port and 4-Port OC-3c/STM-1 ATM SPA
Cables and Connectors
Interface Specifications
LEDs
verifying for SPAs
3-14
B
2-port and 4-port OC-3 POS SPA
LEDs
5-6
3-14
3-13
Interface Specifications
5-3
blank filler plate
3-15
for empty subslots in an SSC
3-15
for empty subslots in a SIP
Optical Transceiver Modules and Cables
3-16
single-height size
1-2
1-1
1-3
2-Port Channelized T3/E3 ATM CEoP SPA
cables, connectors, and pinouts
LEDs
C
3-66, 3-67
2-Port Gigabit Ethernet SPA
Cables and Connectors
3-68
Cable management brackets
6-7
3-46
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Index
cables
I
LC-type
(figure)
interface processor
3-26, 3-34
LC-type (figure)
tools and parts required for installation
3-21
Catalyst 6509 switch (figure)
intermediate reach
2-3
SFP module
Cisco 7600 SIP-200
DIP Switch Settings
faceplate (figure)
2-8
2-5
Memory Installation and Removal
Memory Options
2-7
subslot numbering
SFP optical transceiver module
3-20
XFP optical transceiver module
3-25
XFP optical transceiver module
1-3, 1-4, 1-5
IPSec
3-34
3-58
IPSec VPN SPA
2-5
LEDS
Cisco 7600 SIP-400
faceplate (figure)
3-28
intermediate-reach
2-7
SPA compatibility (table)
4-1
3-58
2-9
SPA compatibility (table)
1-3, 1-4, 1-5
Cisco 7600 SIP-600
SPA compatibility (table)
Cisco 7609 router (figure)
1-3, 1-4, 1-5
L
LC-type cable
(figure)
2-3
configure terminal command
3-26, 3-34
LC-type cable (figure)
5-7
connectors
3-21
long reach
SC type (figure)
optical transceiver module
3-31, 3-39
SFP module
3-20
3-28
D
M
deactivation
verifying for SIPs
verifying for SPAs
multimode
5-3
SFP optical transceiver module
5-6
G
3-20
N
GBIC-SX
no hw-module subslot shutdown command
3-34, 3-47, 3-51, 3-55
no power enable module command
5-6, 5-7
5-2, 5-3, 5-7
H
hw-module subslot shutdown command
5-5, 5-7
O
OC-12c/STM-4 POS SPA
bandwidth
cables
3-19
3-20, 3-21
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Index
faceplate (figure)
3-19
interface specifications
LEDs
P
3-20
Packing
3-19
(figure)
A SIP for shipment
3-19
descriptions (table)
A SPA for shipment
3-19
optical transceiver modules
bandwidth
cables
Power Management
SIP and SPA power consumption
3-31, 3-39
3-30, 3-38
1-8
R
3-30, 3-38
faceplate (figure)
resilient packet ring
3-29, 3-37
interface specifications
see RPR
3-30, 3-38
LEDs
(figure)
RFC 1155, Structure and Identification of Management
Information for TCP/IP-based Internets 3-20, 3-30, 3-38
3-29, 3-37
descriptions (table)
RFC 1156, Management Information Base for Network
Management of TCP/IP-Based Internets 3-20, 3-30, 3-38
3-29, 3-37
optical transceiver modules
3-30, 3-38
RFC 1157, Simple Network Management Protocol
(SNMP) 3-20, 3-30, 3-38
OC-192c/STM-64 POS/RPR XFP SPA
40-pin mate connector
bandwidth
3-26, 3-34
RFC 1213, Management Information Base (MIB) for
Network Management of TCP/IP-Based Internets
3-23, 3-32
MIB II
3-25, 3-34
connectors
3-20, 3-30, 3-38
RFC 1662, PPP in HDLC-like Framing
3-24, 3-32
interface specifications
3-20, 3-30, 3-38
RFC 1619, PPP over SONET/SDH
3-25, 3-34
faceplate (figure)
RFC 2615, PPP over SONET/SDH
3-25, 3-33
3-20, 3-30, 3-33, 3-38
3-30, 3-33, 3-38
RPR
LEDs
(figure)
LEDs
3-24, 3-32
descriptions (table)
LEDs
for SSCs
1-2
3-24, 3-29, 3-37
mate connector interface
1-1, 5-2
1-3, 5-4, 6-3
3-34
RPR (resilient packet ring)
3-25, 3-34
OIR (online insertion and removal)
for SPAs
3-32
mate connector interface
3-24, 3-33
optical transceiver modules
for SIPs
5-3, 5-7
3-28, 3-36
connectors
cables
7-3
power enable module command
3-20
OC-192c/STM-64 POS/RPR SPA
40-pin mate connector
7-4
3-26, 3-31, 3-39
S
optical transceivers
for OC-192c/STM-64 POS/RPR SPA
SC-type connector
(figure)
optics modules
qualified for SPAs (table)
3-30, 3-38
1-6
3-31, 3-39
SFP (small form-factor pluggable) optical transceiver
modules
(figure)
3-21
for OC-12c/STM-4 POS SPA
3-19, 3-20
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Index
SFP (small form-factor pluggable) optics
2-Port Gigabit Ethernet SPA
SFP-OC12-IR1
3-20
SFP-OC12-MM
3-20
SFP-OC12-SR
3-20
SFP-OC3-LR2
3-20
SFP-OC48-IR1
3-28
SFP-OC48-LR2
SFP-OC48-SR
1-6
1-6
description
1-1
numbering
2-4
specifying location in CLI
3-20
SFP-OC12-LR1
supervisor engine support
2-2
see XFP or SFP
SPA (shared port adapter)
activation (example)
5-7
Cable management brackets
Shipment
deactivating
definition
7-3
short reach
5-7
1-2
double-height description
SFP optical transceiver module
3-20
XFP optical transceiver module
3-25, 3-27
(figure)
1-2
description
show diagbus command
interfaces
3-34
show hw-module slot command
reactivating
2-4
show hw-module subslot command
2-5
show hw-module subslot oir command
show idprom module command
show ip interface command
2-4, 5-3
show sip-disk command
2-4
5-6
single-height description
1-2
SIP compatibility (table)
1-3, 1-4, 1-5
blank filler plates
definition
2-3
2-1
1-2
1-2
general characteristics
5-7
1-2
subslots
chassis slot installation (figure)
reactivating
5-5
SSC (SPA services card)
1-1
2-3
5-3
description
1-1
numbering
2-4
specifying location in CLI
5-7
2-4
supervisor engines
1-1
general characteristics
1-6
SPA interface processors (SIPs)
SIP (SPA interface processor)
definition
1-3
subslot numbering (figure)
2-4, 2-5
5-6
show module command
deactivation (example)
1-2
optics compatibility (table)
2-4
activation (example)
1-2
heights supported
short-reach
XFP optical transceiver module
1-3
5-4
deactivation (example)
7-4
Packing a SPA for
deactivating
6-7
chassis slot orientation (figure)
3-27
blank filler plates
2-4
small form-factor pluggable
3-28
Packing a SIP for
1-3, 1-4, 1-5
subslots
3-46
Cisco Systems qualification check
qualified for SPAs (table)
SPA compatiblity (table)
1-1
supported by SIPs
2-2
5-3
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Index
T
Troubleshooting the installation
7-1
U
Using debug commands
7-2
Using show commands
to Display Interface Information
to Verify SIP and SPA Status
6-6
6-5
V
Verifying the Installation
6-4
X
XFP (small form-factor pluggable) optical transceiver
modules
for OC-192c/STM-64 POS/RPR XFP SPA
XFP-10GER-OC192IR
3-25, 3-34
XFP-10GLR-OC192SR
3-25, 3-34
XFP-10GZR-OC192LR
3-34
3-25
XFP module
for OC-192c/STM-64 POS/RPR XFP SPA
intermediate reach
3-32, 3-34
3-34
XFP optical transceiver modules
for OC-192c/STM-64 POS/RPR XFP SPA
3-27
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Index
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