Asr 9 K HIGbook
Asr 9 K HIGbook
Asr 9 K HIGbook
Americas Headquarters
Cisco Systems, Inc.
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USA
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Tel: 408 526-4000
800 553-NETS (6387)
Fax: 408 527-0883
THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO CHANGE WITHOUT NOTICE. ALL
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to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial
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harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference, in which case users will be required
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The following information is for FCC compliance of Class B devices: The equipment described in this manual generates and may radiate radio-frequency energy. If it is not
installed in accordance with Ciscos installation instructions, it may cause interference with radio and television reception. This equipment has been tested and found to
comply with the limits for a Class B digital device in accordance with the specifications in part 15 of the FCC rules. These specifications are designed to provide reasonable
protection against such interference in a residential installation. However, there is no guarantee that interference will not occur in a particular installation.
Modifying the equipment without Ciscos written authorization may result in the equipment no longer complying with FCC requirements for Class A or Class B digital
devices. In that event, your right to use the equipment may be limited by FCC regulations, and you may be required to correct any interference to radio or television
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You can determine whether your equipment is causing interference by turning it off. If the interference stops, it was probably caused by the Cisco equipment or one of its
peripheral devices. If the equipment causes interference to radio or television reception, try to correct the interference by using one or more of the following measures:
Turn the television or radio antenna until the interference stops.
Move the equipment to one side or the other of the television or radio.
Move the equipment farther away from the television or radio.
Plug the equipment into an outlet that is on a different circuit from the television or radio. (That is, make certain the equipment and the television or radio are on circuits
controlled by different circuit breakers or fuses.)
Modifications to this product not authorized by Cisco Systems, Inc. could void the FCC approval and negate your authority to operate the product.
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Cisco ASR 9000 Series Aggregation Services Router Hardware Installation Guide
2012 Cisco Systems, Inc. All rights reserved.
CONTENTS
Preface
CHAPTER
xxv
1-1
1-2
1-38
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Contents
CHAPTER
2-1
2-1
2-3
2-20
2-25
2-29
2-33
CHAPTER
3-1
3-2
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Contents
Prerequisites 3-2
Required Tools and Equipment
Steps 3-2
Installing DC Power Modules 3-3
Prerequisites 3-3
Required Tools and Equipment
Steps 3-3
Installing the Fan Trays 3-4
Prerequisites 3-4
Required Tools and Equipment
Steps 3-4
3-2
3-3
3-4
3-14
3-20
3-21
CHAPTER
3-27
4-1
4-2
4-11
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4-12
CHAPTER
5-1
5-4
vi
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5-19
5-21
5-22
5-23
APPENDIX
Technical Specifications
APPENDIX
Site Log
APPENDIX
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
A-1
B-1
C-1
C-4
C-5
C-9
C-11
C-11
C-11
C-12
C-12
C-12
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Contents
C-13
C-14
Electrostatic Discharge and Grounding Procedure for the Cisco ASR 9000v Satellite Shelf
Prerequisites C-15
Preparing Your Location C-15
Preparing the Rack Room C-16
Preparing Yourself C-17
Locating and Grounding the Chassis C-19
Locating and Grounding the Cisco ASR 9000v Satellite Shelf
C-14
C-20
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Contents
Procedure C-41
Power Module C-41
Cisco ASR 9000v Satellite Shelf with an AC Power Module C-42
Cisco ASR 9000v Satellite Shelf with a DC Power Module C-42
Fan-Tray Assembly C-42
Fan Speed C-43
Fan Failure C-43
NPT-J57 Replacing the Fan-Tray Assembly in the Cisco ASR 9000v Satellite Shelf
Procedure C-44
NPT-J58 Replacing the Air Filter in the Cisco ASR 9000v Satellite Shelf C-45
Procedure C-45
C-43
C-71
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Contents
Procedure C-71
NTP-J62 Clean Fiber Connectors C-73
DLP-J186 Clean Multi Fiber-Optic Cable Connectors C-73
DLP-J187 Clean Fiber Connectors with CLETOP C-74
DLP-J188 Clean the Fiber Adapters C-75
NTP-J63 Perform the Cisco ASR 9000v Satellite Shelf Installation Acceptance Test
Procedure C-75
DLP-J188 Inspect the Cisco ASR 9000v Satellite Shelf Installation and Connections
Procedure C-76
DLP-J189 Measure DC Voltage on the Cisco ASR 9000v Satellite Shelf C-76
Procedure C-77
Hardware Specifications C-78
Product Names C-78
Cisco ASR 9000v Satellite Shelf Product IDs C-78
C-75
C-76
C-83
Installing the Cisco ASR 901 Mobile Wireless Router as a Satellite Shelf
Safety Guidelines C-83
Safety with Equipment C-84
Safety with Electricity C-84
Preventing Electrostatic Discharge Damage
Prerequisites
C-83
C-86
C-87
C-89
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Network Modules
C-92
C-99
C-105
C-105
C-106
C-106
C-110
C-110
C-111
C-111
C-113
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Contents
C-114
C-114
C-116
C-125
C-134
C-137
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C-138
C-139
C-142
xiii
Contents
C-170
C-170
C-171
C-176
INDEX
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F I G U R E S
Figure 1-1
Figure 1-2
Connecting an ESD-Preventive Wrist Strap to the Cisco ASR 9010 Router Chassis
1-3
Figure 1-3
Connecting an ESD-Preventive Wrist Strap to the Cisco ASR 9006 Router Chassis
1-4
Figure 1-4
Connecting an ESD-Preventive Wrist Strap to the Cisco ASR 9922 Router Chassis
1-5
Figure 1-5
Cisco ASR 9010 Router Chassis Footprint and DimensionsTop Down View
1-8
Figure 1-6
Cisco ASR 9006 Router Chassis Footprint and DimensionsTop Down View
1-9
Figure 1-7
Cisco ASR 9922 Router Chassis Footprint and DimensionsTop Down View
1-10
Figure 1-8
Air Flow Path through the Cisco ASR 9010 RouterSide View
Figure 1-9
Figure 1-10
Air Flow Path through the Cisco ASR 9922 RouterSide View
Figure 1-11
Figure 1-12
1-15
Figure 1-13
1-16
Figure 1-14
1-17
Figure 1-15
1-19
Figure 1-16
1-20
Figure 1-17
Figure 1-18
Figure 1-19
Figure 1-20
Figure 1-21
Figure 1-22
Figure 1-23
Figure 1-24
Figure 1-25
Figure 1-26
Figure 1-27
Figure 1-28
Figure 1-29
Figure 1-30
1-3
1-12
1-12
1-13
1-14
1-21
1-24
1-24
1-25
1-25
1-25
1-26
1-26
1-26
1-27
1-27
1-27
1-28
1-28
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Figures
Figure 1-31
Figure 1-32
Figure 1-33
1-29
Figure 1-34
1-29
Figure 1-35
1-30
Figure 1-36
Figure 1-37
Figure 1-38
1-31
Figure 1-39
1-31
Figure 1-40
1-31
Figure 1-41
1-32
Figure 1-42
Figure 1-43
Typical Source DC Power Cabling Scheme for a Single DC Power Module - Version 1 Power System
1-34
Figure 1-44
Typical Source DC Power Cabling Scheme for a Single DC Power Module - Version 2 Power System
1-35
Figure 1-45
Typical Plastic Safety Cover over the Power Tray Connection Terminals - Version 2 Power System
Figure 1-46
NEBS Bonding and Grounding Points on the Cisco ASR 9010 Router
Figure 1-47
NEBS Bonding and Grounding Point on the Cisco ASR 9006 Router
1-37
Figure 1-48
NEBS Bonding and Grounding Point on the Cisco ASR 9922 Router
1-37
Figure 1-49
Figure 1-50
Figure 1-51
Figure 1-52
Figure 1-53
Figure 1-54
Figure 1-55
Figure 1-56
Figure 1-57
Figure 2-1
Figure 2-2
Unpacking the Cisco ASR 9010 Router from the Shipping Container and Pallet
2-4
Figure 2-3
Unpacking the Cisco ASR 9006 Router from the Shipping Container and Pallet
2-6
Figure 2-4
Unpacking the Cisco ASR 9922 Router from the Shipping Container
Figure 2-5
Figure 2-6
Figure 2-7
Rack Mount Installation Kit for the Cisco ASR 9922 Router
Figure 2-8
Removing or Installing the Fan Tray on the Cisco ASR 9010 Router Chassis
1-28
1-29
1-30
1-30
1-33
1-35
1-36
1-38
1-39
1-41
1-42
1-42
1-43
1-43
1-44
1-45
2-2
2-7
2-8
2-9
2-10
2-12
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Figures
Figure 2-9
Removing or Installing the Fan Tray on the Cisco ASR 9922 Router Chassis
2-13
Figure 2-10
Removing or Installing the Fan Tray on the Cisco ASR 9006 Router Chassis
2-15
Figure 2-11
Cisco ASR 9010 Router Components and Slot Numbering with Version 1 Power System
2-16
Figure 2-12
Cisco ASR 9010 Router Components and Slot Numbering with Version 2 Power System
2-17
Figure 2-13
Cisco ASR 9006 Router Components and Slot Numbering with Version 1 Power System
2-17
Figure 2-14
Cisco ASR 9006 Router Components and Slot Numbering with Version 2 Power System
2-18
Figure 2-15
Removing a Line Card from the Cisco ASR 9010 Router Chassis
2-19
Figure 2-16
Removing a Line Card from the Cisco ASR 9006 Router Chassis
2-20
Figure 2-17
Cisco ASR 9922 Router Components and Slot Numbering with Version 2 Power System
Figure 2-18
Figure 2-19
Removing a Line Card from the Cisco ASR 9922 Router Top Card Cage
Figure 2-20
Figure 2-21
2-25
Figure 2-22
2-26
Figure 2-23
Figure 2-24
Figure 2-25
2-30
Figure 2-26
2-31
Figure 2-27
Rack Mount Installation Kit for the Cisco ASR 9922 Router
Figure 2-28
Figure 2-29
NEBS Bonding and Grounding for the Cisco ASR 9010 Router
2-34
Figure 2-30
NEBS Bonding and Grounding for the Cisco ASR 9006 Router
2-34
Figure 2-31
NEBS Bonding and Grounding for the Cisco ASR 9922 Router
2-35
Figure 2-32
Installing Ball Studs - Version 1 Power, Cisco ASR 9010 Router Shown (Base Accessories installation)
2-36
Figure 2-33
Installing Ball Studs - Version 2 Power, Cisco ASR 9010 Router Shown (Base Accessories installation)
2-37
Figure 2-34
Figure 2-35
Figure 2-36
Installing the Hinge Brackets and L-Shaped Brackets on the Cisco ASR 9010 Router
Figure 2-37
Installing Optional Chassis Accessory Doors on the Cisco ASR 9010 Router
Figure 2-38
Installing Plastic Fan Tray Door Accessory and Metal Mounting Brackets on the Cisco ASR 9006 Router
Figure 2-39
Figure 2-40
Installing Plastic Chassis Corners on the Cisco ASR 9006 Router (Base Accessories Installation)
Figure 2-41
Installing Ball Stud Assemblies on the Cisco ASR 9006 Router (Shown with Version 1 Power System)
Figure 2-42
Installing the Optional Accessory Door on the Cisco ASR 9006 Router
Figure 2-43
Installing Plastic Chassis Corners on the Cisco ASR 9006 Router (Optional Accessories Installation)
2-21
2-22
2-23
2-24
2-27
2-28
2-32
2-33
2-38
2-40
2-41
2-42
2-44
2-45
2-46
2-47
2-48
2-49
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Figures
Figure 2-44
Optional Fan Tray Covers for the Cisco ASR 9922 Router
Figure 2-45
Optional Card Cage Doors for the Cisco ASR 9922 Router
Figure 3-1
3-2
Figure 3-2
3-3
Figure 3-3
Figure 3-4
Figure 3-5
Installing a Line Card into the Cisco ASR 9010 Router Chassis
3-11
Figure 3-6
Installing a Line Card into the Cisco ASR 9006 Router Chassis
3-12
Figure 3-7
Installing a Line Card into the Cisco ASR 9922 Router Chassis
3-13
Figure 3-8
3-14
Figure 3-9
Figure 3-10
Example of Interface Cable Routing Using Line Card Cable Management Bracket
Figure 3-11
Example of Interface Cable Routing Using Line Card and Chassis Cable Management Bracket on the
Cisco ASR 9006 Router 3-17
Figure 3-12
Figure 3-13
Figure 3-14
Figure 3-15
3-23
Figure 3-16
3-23
Figure 3-17
Typical Power Connections to a Power Tray for a Single DC Power Module - Version 1 Power System
Figure 3-18
Figure 3-19
Typical Power Connections to a Power Tray for a Single DC Power Module - Version 2 Power System
Figure 3-20
Figure 3-21
Typical Plastic Safety Cover over the Power Tray Connection Terminals - Version 2 Power System
Figure 4-1
4-7
Figure 4-2
4-8
Figure 4-3
Figure 4-4
Figure 4-5
Figure 4-6
Figure 5-1
Figure 5-2
Figure 5-3
Figure 5-4
Removing the Cisco ASR 9922 Router Chassis Center Air Filter
Figure 5-5
Removing the Cisco ASR 9922 Router Chassis Side Air Filter
5-7
Figure 5-6
5-10
2-50
2-51
3-7
3-8
3-15
3-16
3-18
3-19
3-21
3-25
3-25
3-26
3-26
3-27
4-16
4-17
4-18
4-22
5-4
5-5
5-6
5-6
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Figures
Figure 5-7
Figure 5-8
Figure 5-9
Removing the Front Power Tray Bezel on the Cisco ASR 9922 Router
Figure 5-10
Removing a Power Tray - Version 1 Power Tray - Cisco ASR 9010 Router Shown
5-17
Figure 5-11
Removing a Power Tray - Version 2 Power Tray - Cisco ASR 9010 Router Shown
5-17
Figure 5-12
Rotating the Ejector Levers Inward to Seat the Version 1 Power Tray
5-18
Figure 5-13
Rotating the Ejector Levers Inward to Seat the Version 2 Power Tray
5-19
Figure C-1
Figure C-2
Figure C-3
Figure C-4
Figure C-5
Figure C-6
Figure C-7
Figure C-8
Figure C-9
Figure C-10
Figure C-11
Figure C-12
Cisco ASR 9000v Satellite Shelf Dimensions for a 19-inch ANSI Rack Configuration
Figure C-13
Cisco ASR 9000v Satellite Shelf Dimensions for an ETSI Rack Configuration
Figure C-14
Figure C-15
Mounting the Brackets on the Cisco ASR 9000v Satellite Shelf for the ANSI Rack Configuration
Figure C-16
Mounting the Brackets on the Cisco ASR 9000v Satellite Shelf for a 23-inch (584.2-mm) ANSI Rack
Configuration C-33
Figure C-17
Mounting the Cable Guide on the Cisco ASR 9000v Satellite Shelf 23-inch (584.2-mm) Mounting Bracket
Figure C-18
Mounting the Brackets on the Cisco ASR 9000v Satellite Shelf for the ANSI Rack Configuration
Figure C-19
Mounting the Cable Guide on the Cisco ASR 9000v Satellite Shelf ETSI Mounting Bracket
Figure C-20
C-37
Figure C-21
C-39
Figure C-22
Figure C-23
Figure C-24
Figure C-25
Figure C-26
Figure C-27
Removing the Air Filter in the Cisco ASR 9000v Satellite Shelf
C-46
Figure C-28
Extracting the Air Filter in the Cisco ASR 9000v Satellite Shelf
C-46
5-11
5-16
5-16
C-4
C-4
C-4
C-6
C-7
C-13
C-16
C-17
C-18
C-19
C-21
C-25
C-27
C-28
C-32
C-34
C-35
C-36
C-40
C-41
C-43
C-44
C-45
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Figures
Figure C-29
Figure C-30
Figure C-31
Figure C-32
Figure C-33
Connecting Office Power to the Cisco ASR 9000v Satellite Shelf AC Power
Figure C-34
Closing the Cable Clip to Secure the Power Cable to the Cisco ASR 9000v Satellite Shelf
Figure C-35
Removing the Terminal Block Protective Cover on the Cisco ASR 9000v Satellite Shelf
Figure C-36
Loosening the Terminal Block Screws on the Cisco ASR 9000v Satellite Shelf
Figure C-37
Figure C-38
Replacing the Terminal Block Protective Cover on the Cisco ASR 9000v Satellite Shelf
Figure C-39
Connecting DC ETSI Power Cables to the DSUB Power Connectors on the Cisco ASR 9000v Satellite
Shelf C-60
Figure C-40
Securing the DC Power Cables to the Cisco ASR 9000v Satellite Shelf
Figure C-41
Figure C-42
Figure C-43
Figure C-44
Figure C-45
Removing the Air Filter in the Cisco ASR 9000v Satellite Shelf
C-71
Figure C-46
Extracting the Air Filter in the Cisco ASR 9000v Satellite Shelf
C-72
Figure C-47
Figure C-48
Figure C-49
Figure C-50
Figure C-51
Grounding Point
Figure C-52
Figure C-53
Figure C-54
Figure 3-55
Figure 3-56
Figure 3-57
Figure C-58
Figure C-59
RJ-48C Connector
Figure C-60
C-107
Figure C-61
C-108
Figure C-62
Figure C-63
C-46
C-47
C-48
C-49
C-54
C-54
C-56
C-57
C-57
C-58
C-60
C-65
C-67
C-69
C-70
C-72
C-72
C-93
C-95
C-96
C-97
C-97
C-98
C-99
C-100
C-101
C-105
C-106
C-110
C-124
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Figures
Figure C-64
Figure C-65
Figure C-66
Figure C-67
Figure C-68
Figure C-69
Figure C-70
Figure C-71
Figure C-72
Figure C-73
Figure C-74
Figure C-75
Figure C-76
Figure C-77
Figure C-78
Figure C-79
Figure C-80
Figure C-81
Figure C-82
Figure C-83
Inserting the DC Power Supply Terminal Block Plug in the Block Header
Figure C-84
Figure C-85
Figure C-86
Figure C-87
Figure C-88
Cisco ASR 903 Router Satellite Shelf Flash Token Memory Stick
C-132
C-136
C-136
C-137
C-137
C-138
C-138
C-139
C-139
C-140
C-141
C-142
C-143
C-144
C-145
C-147
C-152
C-153
C-154
C-154
C-155
C-157
C-161
C-166
C-168
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Figures
Cisco ASR 9000 Series Aggregation Services Router Hardware Installation Guide
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T A B L E S
Table 1-1
AC-Input Power Cord Options for ASR 9010 Routers and ASR 9006 Routers with Version 1 Power System
Table 1-2
AC-Input Power Cord Options for ASR 9010, ASR 9006, and ASR 9922 Routers with Version 2 Power
System 1-23
Table 1-3
Table 1-4
Table 1-5
Table 1-6
Table 1-7
Table 4-2
Table 4-3
Table 4-4
4-20
Table 4-5
4-23
Table 4-6
Table A-1
A-2
Table A-2
A-2
Table A-3
A-3
Table A-4
Table A-5
A-5
Table A-6
A-5
Table A-7
A-7
Table A-8
A-7
Table A-9
A-8
Table A-10
A-9
Table A-11
A-9
Table A-12
A-9
Table A-13
A-10
Table A-14
A-10
Table A-15
Table A-16
Table C-3
SFP LEDs
Table C-4
1-23
1-39
1-40
1-40
1-44
1-45
4-11
4-19
4-24
A-4
A-11
A-11
C-9
C-9
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Tables
Table C-5
Table C-6
Table C-7
Table C-9
Table C-10
Table C-11
GPS (Global Positioning System) Interface (1PPS and 10Mhz) of the Cisco ASR 9000v Satellite Shelf
System C-79
Table C-12
TOD/1PPS RS422 Interface RJ45 Pinout of the Cisco ASR 9000v Satellite Shelf System
Table C-14
Table C-16
Table C-17
GBIC, SFP, SFP+, and XFP Cisco ASR 9000v Satellite Shelf System Compatibility
Table C-18
Table C-20
Table C-21
Table C-22
Table C-23
Table C-24
Table C-25
Table C-26
Table C-27
Table C-30
Table C-31
Table C-32
Table C-33
Table C-34
Table C-35
RSP LEDs
Table C-36
Table C-37
C-174
Table C-38
C-175
Table C-39
C-10
C-10
C-11
C-75
C-78
C-79
C-80
C-81
C-82
C-106
C-108
C-108
C-109
C-110
C-110
C-111
C-112
C-112
C-170
C-171
C-171
C-171
C-172
C-173
C-174
C-175
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Preface
This Cisco ASR 9000 Series Aggregation Services Router Hardware Installation Guide preface contains
the following sections:
Revision
Date
Change Summary
OL-17499-07
December 2012
OL-17499-06
September 2012 Information added about the new 1-port 40-GE Modular Port
Adapter (MPA), the new 36-Port 10-Gigabit Ethernet Line Card
and the new 1-Port 100-Gigabit Ethernet Line Card, about the new
Cisco ASR 9922 Router, RP card, and FC card, and about the Cisco
ASR 9000v satellite shelf adding support for the
A9K-36X10GE-TR (36-Port 10-Gigabit Ethernet Line Card,
Packet Transport Optimized) and the A9K-36X10GE-SE (36-Port
10-Gigabit Ethernet Line Card, Service Edge Optimized).
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Preface
Table 1
Revision
Date
Change Summary
OL-17499-05
May 2012
OL-17499-04
December 2011
OL-17499-03
May 2010
OL-17499-02
December 2009
OL-17499-01
March 2009
Audience
This Cisco ASR 9000 Series Aggregation Services Router Hardware Installation Guide is written for
hardware installers and system administrators of Cisco routers.
This publication assumes that the user has a substantial background in installing and configuring router
and switch-based hardware. The reader should also be familiar with electronic circuitry and wiring
practices, and have experience as an electronic or electromechanical technician.
Purpose
This installation guide contains procedures for installing the router hardware, creating a basic startup
configuration file, and powering on the router for the first time.
Document Organization
This installation guide is organized into the following chapters and appendixes:
Chapter 1, Preparing for Installation, describes safety considerations, required tools and
equipment, an overview of the installation, and procedures to perform before the installation.
Chapter 2, Unpacking and Installing the Chassis, provides instructions for installing the chassis
into a rack.
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Chapter 3, Installing Cards and Modules in the Chassis, provides instructions for installing the
cards and modules into the chassis after it has been mounted in a rack, and connecting external
network interface cables.
Chapter 4, Troubleshooting the Installation, provides guidelines for troubleshooting the router
hardware installation.
Chapter 5, Replacing Cisco ASR 9000 Series Router Components, provides removal and
replacement procedures for primary router components and field-replaceable units (FRUs).
Appendix B, Site Log, provides a sample site log that can be used to record actions relevant to the
operation and maintenance of the router.
Appendix C, Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901), provides
instructions for installing the Cisco ASR 9000v (a satellite system with the Cisco ASR 9000).
Document Conventions
This publication uses the following conventions:
Ctrl represents the key labeled Control. For example, the key combination Ctrl-Z means hold down
the Control key while you press the Z key.
Examples that contain system prompts denote interactive sessions, indicating the commands that
you should enter at the prompt. For example:
RP/0/RSP0/CPU0:router#
Caution
Note
Timesaver
Alternative but required keywords are grouped in braces ({ }) and separated by vertical bars (|).
Means be careful. You are capable of doing something that might result in equipment damage or loss of
data.
Means take note. Notes contain helpful suggestions or references to materials not contained in this
manual.
Means the described action saves time. You can save time by performing the action described in the
paragraph.
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Warning
This warning symbol means danger. You are in a situation that could cause bodily injury. Before you
work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar
with standard practices for preventing accidents. To see translations of the warnings that appear in
this publication, see the Regulatory Compliance and Safety Information document that accompanied
this device.
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Router should always be transported or stored in its shipping package in the upright position.
Keep the router in the shipping container until you have determined the installation site.
Inspect all items for shipping damage. If an item appears damaged, contact a Cisco customer service
representative immediately.
This chapter contains the following installation topics:
Safety Guidelines
Before you perform any procedure in this publication, you must review the safety guidelines in this
section to avoid injuring yourself or damaging the equipment.
Note that this section contains guidelines and do not include every potentially hazardous situation. When
you install a router, always use common sense and caution.
Never attempt to lift an object that might be too heavy for you to lift by yourself.
Always disconnect the power source and unplug all power cables before lifting, moving, or working
on the router.
Keep the work area clear and dust free during and after installation.
Keep tools and router components away from walkways and equipment rack aisles.
Do not wear loose clothing, jewelry (including rings and chains), or other items that could get caught
in the router.
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Safety Guidelines
Operate Cisco equipment safely by using it in accordance with its electrical ratings and product
usage instructions.
Always unplug the power cables when performing maintenance or working on the router, unless the
replacement part is hot swappable and designed for online insertion and removal (OIR).
Ensure that the installation of the router is in compliance with national and local electrical codes: in
the United States, National Fire Protection Association (NFPA) 70, United States National
Electrical Code; in Canada, Canadian Electrical Code, part I, CSA C22.1; in other countries,
International Electrotechnical Commission (IEC) 364, part 1 through part 7.
Laser Safety
Single-mode Cisco ASR 9000 Series line cards are equipped with lasers. The lasers emit invisible
radiation. Do not stare into open line card ports. Observe the following warning to prevent eye injury:
Warning
Because invisible laser radiation may be emitted from the aperture of the port when no cable is
connected, avoid exposure to laser radiation and do not stare into open apertures. Statement 70
Energy Hazard
The Cisco ASR 9000 Series can be configured for a DC power source. Do not touch terminals while they
are live. Observe the following warning to prevent injury.
Warning
Hazardous voltage or energy may be present on power terminals. Always replace cover when
terminals are not in service. Be sure uninsulated conductors are not accessible when cover is in
place. Statement 1086
Note
Check the resistance value of the ESD-preventive strap periodically. The measurement should be
between 1 and 10 megohms.
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Before you perform any of the procedures in this guide, attach an ESD-preventive strap to your wrist and
connect the leash to the chassis as shown in the figures below.
ESD Label Information on Router Chassis
Figure 1-2
Connecting an ESD-Preventive Wrist Strap to the Cisco ASR 9010 Router Chassis
333558
Figure 1-1
ACO
ACO
LAMP
TEST
LAMP
TEST
FAIL
SYNC
CRIT
HDD
FAIL
CRIT
IMPORTANT
- CARDS
ARE PROPE
RLY INSTAL
LED WHEN
MAJ
CF
MIN
ACO
SYNC
HDD
MAJ
CF
MIN
ACO
SCREWS ARE
TIGHTE
243184
Location of chassis socket for ESD strap on the Cisco ASR 9010 Router
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Safety Guidelines
Figure 1-3
Connecting an ESD-Preventive Wrist Strap to the Cisco ASR 9006 Router Chassis
243408
Location of chassis socket for ESD strap on the Cisco ASR 9006 Router
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Figure 1-4
Connecting an ESD-Preventive Wrist Strap to the Cisco ASR 9922 Router Chassis
302358
Location of chassis socket for ESD strap on the Cisco ASR 9922 Router
Lifting Guidelines
Fully configured Cisco ASR 9000 Series Routers can weigh as much as 1038 pounds (470.28 kg), and
an empty chassis weighs up to 300 pounds (136 kg). These systems are not intended to be moved
frequently. Before you install the router, ensure that your site is properly prepared so you can avoid
having to move the router later to accommodate power sources and network connections.
Use the following lifting guidelines to avoid injury to yourself or damage to the equipment:
Warning
Do not lift equipment alone; have another person help you to lift heavy equipment.
Ensure that your footing is solid; balance the weight of the object between your feet.
Lift the equipment slowly; never move suddenly or twist your body as you lift.
Keep your back straight and lift with your legs, not your back. When bending down to lift
equipment, bend at the knees (not at the waist), to reduce the strain on your lower back muscles.
To prevent injury and equipment damage, never attempt to lift or tilt the router chassis using the
handles on the fan tray or on line cards. These handles do not support the weight of the chassis.
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Install the system in a restrictive access location with means for a permanent ground.
Ensure the site of the rack includes provisions for source AC or DC power, grounding, and network
interface cables.
Allow sufficient space to work around the rack during the installation. You need:
At least 3 feet (91.44 cm) adjacent to the rack to move, align, and insert the chassis.
At least 2 feet (60.96 cm) in front of the power tray to insert power modules.
Maintain at least 24 inches (61 cm) of clearance in front of and behind the chassis for maintenance
after installation.
To mount the router between two posts or rails, the usable aperture (the width between the inner
edges of the two mounting flanges) must be at least 17.50 inches (44.45 cm) for the
Cisco ASR 9010 Router and at least 17.75 inches (45.09 cm) for the Cisco ASR 9006 Router.
To mount the Cisco ASR 9922 Router in a 4-post rack, the usable aperture (the width between the
inner edges of the two mounting flanges) must be at least 17.75 inches (45.09 cm).
Height of the Cisco ASR 9010 Router is 37.00 inches (93.98 cm). Most racks accommodate two
Cisco ASR 9010 Routers.
Height of the Cisco ASR 9006 Router is 17.50 inches (44.45 cm). Most racks accommodate four
Cisco ASR 9006 Routers.
Height of the Cisco ASR 9922 Router is 77.00 inches (195.58 cm). Most racks accommodate one
Cisco ASR 9922 Router.
When fully populated with cards, the router can weigh up to 1038 pounds (470.28 kg). To maintain
equipment rack stability and to ensure your safety, the rack is provided with stabilizing devices.
Make sure you install the stabilizers before installing the router.
If you use a telco-style rack, the weight of the chassis is cantilevered off of the two rack posts. Make
sure that:
Weight of the router does not make the frame unstable.
Frame is bolted to the floor and is secured to the building structure using either wall brackets or
overhead brackets.
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When mounting the router in a telco-style rack or 4-post rack, be sure to use all of the screws
provided to secure the chassis to the rack posts.
Install the cable-management brackets included with the router to keep cables organized. Be sure to:
Use appropriate strain-relief methods to protect cables and equipment connections.
Make sure that cables from other equipment installed in the rack do not restrict access to the
card cages.
To avoid noise interference in network interface cables, do not route them directly across or along
power cables.
Figure 1-5 shows the top-down view chassis dimensions of the Cisco ASR 9010 Router.
Figure 1-6 shows the top-down view chassis dimensions of the Cisco ASR 9006 Router.
Figure 1-7 shows the top-down view chassis dimensions of the Cisco ASR 9922 Router.
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Figure 1-5
Cisco ASR 9010 Router Chassis Footprint and DimensionsTop Down View
Rear of chassis
17.38 in
(44.15 cm)
23.21 in
(58.95 cm)
28.93 in
(73.48 cm)
18.92 in
(48.06 cm)
243432
5.04 in
(12.80 cm)
Front of chassis
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Figure 1-6
Cisco ASR 9006 Router Chassis Footprint and DimensionsTop Down View
Rear of chassis
17.38 in
(44.15 cm)
28.93 in
(73.48 cm)
Rack
mounting
surface
243430
5.73 in
(14.55 cm)
Front of chassis
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Figure 1-7
Cisco ASR 9922 Router Chassis Footprint and DimensionsTop Down View
Rear of chassis
30.11 in
(76.48 cm)
22 in
(55.88 cm)
17.60 in
(44.70 cm)
Front of chassis
343945
5.05 in
(13.97 cm)
Strong EMI, especially when caused by lightning or radio transmitters. EMI can destroy the signal
drivers and receivers in the router, and can even create an electrical hazard by conducting power
surges through lines and into equipment.
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Note
To predict and remedy strong EMI, you may need to consult with experts in radio frequency
interference (RFI).
Site wiring is unlikely to emit radio interference if you use twisted-pair cable with a good distribution
of grounding conductors. Use a high-quality twisted-pair cable with one ground conductor for each data
signal, when applicable.
Give special consideration to the effect of a lightning strike in your vicinity, especially if the wiring
exceeds the recommended distances, or if it passes between buildings. The electromagnetic pulse (EMP)
caused by lightning or other high-energy phenomena can easily induce enough energy into unshielded
conductors to destroy electronic devices. If you have experienced EMP problems in the past, you may
want to consult experts in electrical surge suppression and shielding.
Most data centers cannot resolve infrequent but potentially catastrophic problems without pulse meters
and other special equipment. In addition, these problems can take a great deal of time to identify and
resolve. We recommend that you take the necessary precautions to avoid these problems by providing a
properly grounded and shielded environment, with special attention to issues of electrical surge
suppression.
Note
See the Rack-Mounting and Air Flow Clearance Guidelines section on page 1-14 section for details
on air flow clearance requirements for installation in an enclosed 4-post rack.
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Figure 1-8
Air Flow Path through the Cisco ASR 9010 RouterSide View
Air exhaust
Rear air
exhaust plenum
Fan trays
Room air
Figure 1-9
Power modules
242696
Power modules
Front air
intake
Air exhaust
Fan trays
Power modules
243379
Room air
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Figure 1-10
Air Flow Path through the Cisco ASR 9922 RouterSide View
Power modules
Air exhaust
Rear Air
exhaust plenum
Line cards
Fan trays
Fan trays
Rear Air
exhaust plenum
Air exhaust
343957
Line cards
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When selecting a site to install the router, observe the following guidelines:
Dust free areaSite should be as dust free as possible. Dusty environments can clog the air filter or
power supply intake vents, reducing the cooling air flow through the router. Clogged filters and
vents can cause an overtemperature condition in the router.
Unrestricted air flowAllow sufficient air flow by maintaining a minimum of 6 inches (15.24 cm)
of clearance at both the inlet and exhaust openings on the chassis and the power modules. If the air
flow is blocked or restricted, or if the inlet air is too warm, an overtemperature condition can occur
within the router. Under extreme conditions, the environmental monitoring system powers off the
router to protect the components.
See Rack-Mounting and Air Flow Clearance Guidelines for details on air flow clearance requirements
for installation in an enclosed 4-post rack.
243453
Figure 1-11
Telco-style rack
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Note
The mounting brackets on the Cisco ASR 9006 Router chassis have a pair of holes at the top and bottom
of each bracket; the remaining openings in the brackets are slots. If the Cisco ASR 9006 Router is to be
mounted in a 2-post 19-inch rack, you must first use the holes to locate and position the brackets on the
rack. Insert screws through the bracket holes into the rack before inserting screws through the bracket
slots.
Cisco ASR 9010 Router Mounted in a 2-Post Rack
243186
Figure 1-12
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243496
Figure 1-13
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302352
Figure 1-14
Caution
Do not install the Cisco ASR 9000 Series Router in any type of fully enclosed rack that does not have
the required perforated sides or doors; the router requires an unobstructed flow of cooling air to maintain
acceptable operating temperatures for its internal components. Installing the router in any type of fully
enclosed rack without proper perforation could disrupt the air flow, trap heat next to the chassis, and
cause an overtemperature condition inside the router.
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Sides: Minimum of 2.87 inches (7.28 cm) of clearance on each side of the chassis.
Figure 1-15 shows the side and rear chassis air flow clearance requirements for mounting the
Cisco ASR 9010 Router in a 4-post enclosed rack.
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Figure 1-15
2.87 in
(7.28 cm)
Rear of chassis
3.15 in
(8.00 cm)
2.87 in
(7.28 cm)
ASR9010
Rack
mounting
surface
Front of chassis
245629
5.04 in
(12.80 cm)
Sides: Minimum of 6 inches (15.24 cm) of clearance on the right side of the chassis (as viewed from
the front). There is no clearance requirement for the left side of the chassis.
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Figure 1-16 shows the side and rear chassis air flow clearance requirements for mounting the
Cisco ASR 9006 Router in a 4-post enclosed rack.
Figure 1-16
Rear of chassis
2.50 in
(6.40 cm)
No minimum clearance
requirement for left
side of chassis.
6.00 in
(15.20 cm)
ASR9006
Rack
mounting
surface
Front of chassis
245630
5.73 in
(14.55 cm)
Sides: Minimum of 2.87 inches (7.28 cm) of clearance on each side of the chassis.
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Figure 1-17 shows the side and rear chassis air flow clearance requirements for mounting the
Cisco ASR 9922 Router in a 4-post enclosed rack.
Figure 1-17
10 in
(25.40 cm)
Rear of chassis
2.87 in
(7.28 cm)
2.87 in
(7.28 cm)
Rack
mounting
surface
Front of chassis
302422
4.50 in
(11.43 cm)
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Caution
Each Cisco ASR 9000 Series Router is powered by only one type of input: AC or DC. A hybrid
(AC+DC) power configuration is not supported.
Caution
Proper grounding is necessary to avoid damage from lightning and power surges. See the NEBS
Supplemental Unit Bonding and Grounding Guidelines section on page 1-36 for grounding
requirements.
AC Powered Routers
AC power modules operate in the input range of 180 VAC to 264 VAC, 47 to 63 Hz (nominal input level
of 200 to 240 VAC). Refer to Table 1-1 and Table 1-2 for the minimum required AC service for version
1 and version 2 power modules.
Power redundancy requirements vary based on the system configuration (number and type of line cards,
etc.). AC powered systems are 2N protected. A minimum of two power supplies are required for
redundant operation. Refer to the ASR 9000 Power Calculator at the following URL to determine actual
redundancy requirements for any given configuration: http://tools.cisco.com/cpc/launch.jsp.
Each of the AC power inputs requires a separate dedicated branch circuit. For a list of the nominal and
acceptable value ranges for source AC power, see Table A-11.
Table 1-1 lists the AC-input power cord options, specifications, and Cisco product numbers for the
AC-input version 1 power supply modules. Table 1-2 lists the AC-input power cord options,
specifications, and Cisco product numbers for the AC-input version 2 power supply modules.
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Table 1-1
AC-Input Power Cord Options for ASR 9010 Routers and ASR 9006 Routers with
Version 1 Power System
Power Cord
Reference
Illustration
Locale
Part Number
Length
Plug Rating
Australia,
New Zealand
CAB-7513ACA=
Figure 1-18
Australia,
New Zealand
CAB-AC-16A-AUS=
Figure 1-19
China
CAB-AC16A-CH=
Figure 1-20
Continental Europe
CAB-7513ACE=
Figure 1-21
CAB-2500W-EU=
16 A, 250 VAC
Figure 1-22
CAB-AC-2500W-EU=
16 A, 250 VAC
Figure 1-23
International
CAB-AC-2500W-INT=
Figure 1-24
Israel
CAB-AC-2500W-ISRL=
Figure 1-25
Italy
CAB-7513ACI=
Figure 1-26
Japan, North
America
(nonlocking plug)
200240VAC
operation
CAB-AC-2500W-US1=
Figure 1-27
Japan, North
America (locking
plug)
200240VAC
operation
CAB-AC-C6K-TWLK=
Figure 1-28
South Africa
CAB-7513ACSA=
Figure 1-29
Switzerland
CAB-ACS-16=
Figure 1-30
Table 1-2
AC-Input Power Cord Options for ASR 9010, ASR 9006, and ASR 9922 Routers with
Version 2 Power System
Locale
Part Number
Length
Plug Rating
Reference
Illustration
China
PWR-CAB-AC-CHN=
16 A, 250 V
Figure 1-31
Europe
PWR-CAB-AC-EU=
16 A, 250 V
Figure 1-32
Israel
PWR-CAB-AC-ISRL=
16 A, 250 V
Figure 1-33
USA
PWR-CAB-AC-USA=
20 A, 250 V
Figure 1-34
Australia
PWR-CAB-AC-AUS=
16 A, 250 V
Figure 1-35
Italy
PWR-CAB-AC-ITA=
16 A, 250 V
Figure 1-36
Brazil
PWR-CAB-AC-BRA=
16 A, 250 V
Figure 1-37
South Africa
PWR-CAB-AC-SA=
16 A, 250 V
Figure 1-38
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Table 1-2
AC-Input Power Cord Options for ASR 9010, ASR 9006, and ASR 9922 Routers with
Version 2 Power System (continued)
Locale
Part Number
Length
Plug Rating
Reference
Illustration
UK
PWR-CAB-AC-UK=
16 A, 250 V
Figure 1-39
Switzerland
PWR-CAB-AC-SUI=
16 A, 250 V
Figure 1-40
Japan
PWR-CAB-AC-JPN=
20 A, 250 V
Figure 1-41
113353
Plug: AU20S3
140586
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Connector: IEC
60320-1 C19
126792
Plug: GB16C
113354
113360
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113360
113361
Plug: SI16S3
130113
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113355
113362
113363
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113357
331430
Connector: IEC-320-C21
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331426
Connector: IEC-320-C21
Plug: SI 32
331429
Connector: IEC-320-C21
331422
Connector: IEC-320-C21
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Plug: AS 3112
331423
Connector: IEC-320-C21
Plug: CEI-23-50
331425
Connector: IEC-320-C21
331431
Connector: IEC-320-C21
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331428
Connector: IEC-320-C21
Connector: IEC-320-C21
331431
Plug: EN-60309-2
331427
Connector: IEC-320-C21
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331424
Connector: IEC-320-C21
DC Powered Router
Connections to DC power modules are rated at 60 A maximum. The system accepts a nominal input voltage
of 48 VDC with an operational tolerance range of 40 VDC to 72 VDC. One dedicated, commensurately
rated DC power source is required for each power module connection.
Power redundancy requirements vary based on the system configuration (number and type of line cards,
etc.). DC powered systems are N+1 protected. A minimum of two power supplies are required for
redundant operation. Refer to the ASR 9000 Power Calculator at the following URL to determine actual
redundancy requirements for any given configuration: http://tools.cisco.com/cpc/launch.jsp.
Power connections to the power tray for each DC power module requires four cables: two source cables
and two return cables. In addition, each DC power tray requires one earth ground, so the minimum
number of cables for connecting a single DC power module in a power tray is five (two source, two
return, one ground).
For DC power cables, we recommend that you use 60-A-rated, high-strand-count copper wire cables.
The length of the cables depends on your router location from the source power.
Note
DC power cables are not available from Cisco, but they are available from any commercial cable vendor.
You must terminate DC power cables using cable lugs at the power tray end. Ensure that the lugs are
dual-hole and that they fit over M6 terminal studs at 0.625-inch (15.88-mm) centers. For #4 AWG cable,
use Panduit part number LCD4-14AF-L; for #6 AWG, use Panduit part number LCD6-14AF-L.
Warning
Hazardous voltage or energy may be present on power terminals. Always replace cover when
terminals are not in service. Be sure uninsulated conductors are not accessible when cover is in
place. Statement 1086
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
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Figure 1-42 shows the type of lug required for DC-input cable connections.
Figure 1-42
0.22 in
(5.588 mm)
0.31 in
(7.874 mm)
243275
1.66 in (42.164 mm )
Figure 1-43 shows typical DC power source cable connections for a version 1 single DC power module,
in this case, a module installed in slot M2 of the power tray. Figure 1-44 shows typical DC power source
cable connections for a version 2 single DC power module, in this case, a module installed in slot M2 of
the power tray.
The DC power trays and power modules for the Cisco ASR 9010 Router, Cisco ASR 9006 Router, and
Cisco ASR 9922 Router are identical, so the examples shown in Figure 1-43 and Figure 1-44 apply to
all of these routers.
Warning
To avoid shock hazard, be sure to apply shrink wrap tubing around the wire entry area of the lug.
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Typical Source DC Power Cabling Scheme for a Single DC Power Module - Version 1 Power System
243183
Figure 1-43
PWR A
48/60V PWR
RTN A+
48/60V RTN
Feed A, Slot M2
PWR B
48/60V PWR
RTN B+
48/60V RTN
Ground
Feed B, Slot M2
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Figure 1-44
Typical Source DC Power Cabling Scheme for a Single DC Power Module - Version 2 Power System
M3
M2
M1
M3
M2
344255
M1
PWR A
48/60V PWR RTN A+
48/60V RTN
Feed A, Slot M3
PWR B
48/60V PWR RTN B+
48/60V RTN
Feed B, Slot M3
Note
A separate ground connection is not required for the version 2 power system.
Typical Plastic Safety Cover over the Power Tray Connection Terminals - Version 2
Power System
344357
Figure 1-45
The color coding of source DC power cable leads depends on the color coding of the site DC power
source. Because there is no color code standard for source DC wiring, be sure that power source cables
are connected to the power modules using the proper positive (+) and negative () polarity:
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Caution
In some cases, the source DC cable leads might have a positive (+) or a negative () label. This is a
relatively safe indication of the polarity, but you must verify the polarity by measuring the voltage
between the DC cable leads. Be sure that the positive (+) and negative () cable leads match the
positive (+) and negative () labels on the power module when making the measurement.
Green (or green and yellow) cable typically indicates that it is a ground cable.
DC power modules contain reverse voltage protection circuitry to prevent damage to the power module
if it detects a reverse polarity condition. No damage should occur from reverse polarity, but you should
correct a reverse polarity condition immediately.
For a list of the nominal and acceptable value ranges for source DC power, see Appendix A.
Note
NEBS Bonding and Grounding Points on the Cisco ASR 9010 Router
243182
Figure 1-46
These bonding and grounding connections satisfy the Telcordia NEBS requirements for supplemental
bonding and grounding connections. If you are not installing the router in a NEBS environment, you can
choose to bypass these guidelines and rely on the safety earth ground connections to the AC or DC power
modules.
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Figure 1-47
NEBS Bonding and Grounding Point on the Cisco ASR 9006 Router
243373
NEBS Bonding and Grounding Point on the Cisco ASR 9922 Router
344078
Figure 1-48
1
1
To ensure a satisfactory supplemental ground connection to the router, use the following parts:
Note
One grounding lug, which has two M6 bolt holes with 0.625- to 0.75-inch (15.86- to 19.05-mm)
spacing between them, and a wire receptacle large enough to accept a #6 AWG or larger, multistrand
copper wire. This lug is similar to those used for the DC-input power supply leads (see Figure 1-42).
Two 10-32 round-head screws and two locking washers (nickel-plated brass is ideal).
One grounding wire. Although we recommend at least #6 AWG multistrand copper wire, the wire
diameter and length depend on your router location and site environment.
These parts are not available from Cisco, but they are available from commercial vendors.
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Caution
Ports labeled Ethernet, SYNC, CONSOLE, and AUX are safety extra-low voltage (SELV) circuits. SELV
circuits should only be connected to other SELV circuits.
Console portRJ45 interface for connecting a data terminal device to the router, which you need to
perform the initial configuration of the router.
The console and auxiliary ports are asynchronous serial ports. Ensure that devices connected to
these ports are capable of asynchronous transmission.
Figure 1-49
ACT
ACT
MGT LAN 1
LINK
CONSOLE
AUX
2
J.211
SYNC 0
BITS
J.211
SYNC 1
BITS
MGT LAN 0
LINK
Console Port
243207
Note
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Figure 1-50
344247
Console Port
Signal
Input/Output
Description
DTR
Output
TxD
Output
Transmit data
GND
Signal ground
GND
Signal ground
RxD
Input
Receive data
DSR
Input
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Signal
Input/Output
Description
RTS
Output
Request to send
DTR
Output
TxD
Output
Transmit data
GND
Signal ground
GND
Signal ground
RxD
Input
Receive data
DSR
Input
CTS
Input
Clear to send
Input unicast packets with an unknown destination address are filtered and dropped.
Table 1-5 lists the signals used on the Management LAN ports.
Table 1-5
100BAse-TX Signal
1000Base-T Signal
Transmit+
BI_DA+
Transmit
BI_DA
Receive+
BI_DB+
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Table 1-5
100BAse-TX Signal
1000Base-T Signal
Unused
BI_DC+
Unused
BI_DC
Receive
BI_DB
Unused
BI_DD+
Unused
BI_DD
Figure 1-51
ACT
ACT
MGT LAN 1
LINK
MGT LAN 0
LINK
CONSOLE
AUX
J.211
SYNC 1
BITS
243084
J.211
SYNC 0
BITS
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Figure 1-52
344248
243165
Figure 1-53
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To comply with the intrabuilding lightning surge requirements of Telecordia GR-1089-CORE, Issue II,
Revision 01, February 1999, you must use a shielded cable when connecting to the management LAN
ports on the RSP/RP card. The shielded cable is terminated by shielded connectors on both ends, with
the cable shield material tied to both connectors.
Figure 1-54
MDI wiring
MDI-X wiring
1 TxD+
1 RxD+
2 TxD
2 RxD
3 RxD+
3 TxD+
6 RxD
6 TxD
H11007
Note
When connecting to a router, use the crossover cable pinout shown in Figure 1-55.
Crossover Cable Pinout Between RSPs/RPs
PRP
PRP
1 TxD+
1 TxD+
2 TxD
2 TxD
3 RxD+
3 RxD+
6 RxD
6 RxD
75431
Figure 1-55
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Chapter 1
Figure 1-56
243085
The alarm relay contacts on the RSP/RP card consist of standard common, normally open, and normally
closed relay contacts that are wired to the pins on the connectors.
Caution
Only safety extra-low voltage (SELV) circuits can be connected to the alarm connector. Maximum rating
for the alarm circuit is 100 mA, 50 V.
Note
To comply with the intrabuilding lightning surge requirements of Telecordia GR-1089-CORE, Issue II,
Revision 01, February 1999, you must use a shielded cable when connecting to the external alarm port
on the RSP/RP card. The shielded cable is terminated by shielded connectors on both ends, with the cable
shield material tied to both connectors.
Table 1-6 lists the pin-to-signal correspondence between the cable connector pins and the alarm
connector relay contacts.
Table 1-6
Pin
Signal
Note
Critical alarm NC
Critical alarm CM
Common
Critical alarm NO
Major alarm NC
Major alarm CM
Common
Major alarm NO
Minor alarm NC
Minor alarm CM
Common
Minor alarm NO
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Note
Both ports must be configured to be the same mode. It is not possible to use external BITS and J.211
sources at the same time.
When configured as BITS ports, they provide connections for an external synchronization source for
establishing precise frequency control at multiple network nodes, if required for your application. The
RSP/RP card contains a synchronous equipment timing source (SETS) that can receive a frequency
reference from an external BITS timing interface or from a clock signal recovered from any incoming
Gigabit Ethernet or 10-Gigabit Ethernet interface. The RSP/RP SETS circuit filters the received timing
signal and uses it to drive outgoing Ethernet interfaces.
The BITS input can be T1, E1 or 64K 4/. The BITS output can be T1, E1 or 6.312M 5/.
When configured as J.211 ports, they can be used as Universal Timing Interface (UTI) ports to
synchronize timing across multiple routers by connecting to an external timing source.
When lit, these LEDs indicate for BITS:
Figure 1-57
243166
12345678
Table 1-7
Pin
Signal
Note
DTI_P/BITS_RX_P
DTI_P/BITS_RX_N
BITS_TX_P*
T1/E1/6.321M Output
BITS_TX_N*
T1/E1/6.321M Output
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Table 1-7
Pin
Signal
Note
RP USB Port
The Cisco ASR 9922 Router RP card has a single external Universal Serial Bus (USB) port. A USB flash
memory device can be inserted to load and transfer software images and files. This memory device can
be used to turboboot the system or as the installation source for Package Information Envelopes (PIE)
and Software Maintenance Upgrades (SMU). This memory device can also be used for users' data files,
core files, and configuration backups.
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In particular, observe the guidelines for preventing electrostatic discharge (ESD) damage described in
the Preventing Electrostatic Discharge Damage section on page 1-2. Use Figure 1-2 or Figure 1-3 as
a reference in locating and using the ESD sockets on the front of the router chassis.
For additional safety and compliance information, see the Regulatory Compliance and Safety
Information for the Cisco ASR 9000 Series Aggregation Services Routers document that accompanied
your router.
Warning
This router is not designed to be installed as a shelf-mounted or a free-standing router. The router
must be installed in a rack that is secured to the building structure. You must install the router in
either a telco-style frame or a 4-post equipment rack.
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Installation Overview
Installation Overview
Figure 2-1 shows how the Cisco ASR 9010 Router is shipped strapped to a shipping pallet.
Cisco ASR 9010 Router Packaged on Shipping Pallet
243355
Figure 2-1
A fully equipped router with six power modules can weigh as much as 375 lbs (170.5 kg); an empty
chassis weighs 150 lbs (67.8 kg). The chassis is designed to be lifted by two persons after you remove
some of the components, such as line cards, power supplies, and the fan tray, to reduce the weight before
lifting the chassis. See the Removing Components Before Installing the Chassis section on page 2-11
for procedures to remove these components.
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Tape measure
Level (optional)
Minimum of 10 slotted binderhead screws (usually provided with the rack) to secure the chassis to
the mounting flanges (also called rails) in the rack. Five screws should be installed on each side of
the chassis.
11/16-inch (17.46-mm) wrench (for chassis hold-down bolts and pallet hold-down bracket bolts)
Step 2
Step 3
a.
Remove the foam packaging material from the top of the router.
b.
Remove all screws that secure the four hold-down brackets to the router chassis. The forward
hold-down brackets are secured to the router mounting brackets by two screws. The rear hold-down
brackets are secured to the chassis by four screws. Save these four screws used to hold the rear
bracket to the chassis to use later to attach the ground strap.
Remove two bolts per hold-down bracket that secure the brackets to the pallet.
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Figure 2-2
Unpacking the Cisco ASR 9010 Router from the Shipping Container and Pallet
MGT LAN 0
MGT LAN 0
ACT
ACT
MGT LAN 1
MGT LAN 1
LINK
LINK
CONSOLE
CONSOLE
BITS
BITS
0
J.211
J.211
BITS
BITS
1
J.211
J.211
ALARM OUT
ALARM OUT
ACO
ACO
LAMP
TEST
FAIL
LAMP
TEST
SYNC
FAIL
CRIT
SYNC
HDD
CRIT
CF
MIN
ACO
HDD
MAJ
CF
MIN
ACO
243356
MAJ
2
2
Step 4
Remove components, such as line cards and the fan tray, to reduce the weight before lifting or moving
the chassis. See the Removing Components Before Installing the Chassis section on page 2-11 for
procedures to remove these components.
Step 5
Save the packaging materials in case the router needs repackaging or shipping.
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Cut the straps that secure the cardboard shipping container to the pallet.
Step 2
Step 3
Remove the foam packaging material from the top of the router.
b.
Remove all screws that secure the four hold-down brackets to the router chassis. The forward
hold-down brackets are secured to the router mounting brackets by two screws. The rear hold-down
brackets are secured to the chassis by four screws.
c.
Remove two bolts per hold-down bracket that secure the brackets to the pallet.
Step 4
Remove components, such as line cards, power supplies, and the fan tray, to reduce the weight before
lifting or moving the chassis. See the Removing Components Before Installing the Chassis section on
page 2-11 for procedures to remove these components.
Step 5
Save the packaging materials in case the router needs repackaging or shipping.
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Figure 2-3
Unpacking the Cisco ASR 9006 Router from the Shipping Container and Pallet
4
7
243454
Cardboard packaging
container
Chassis accessories
Cardboard packaging
dividers
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Step 2
Step 2: Remove the crate cap door. Disengage the twist locks along the bottom first, then the sides
working your way up from bottom to the top. Refer to the right and middle figures in Figure 2-4.
Step 3
Remove the crate cap. Disengage the twist locks located around the bottom of the crate cap. (see
Figure 2-4).
Note
Step 4
Remove the foam packaging material from the top of the router.
Unpacking the Cisco ASR 9922 Router from the Shipping Container
302353
Figure 2-4
Two people are required to evenly slide the crate cap back off of the plastic pallet base.
Step 5
Using a a 5/16" wrench or ratchet, remove the four attachment bolts and cross-brace from the shipping
rack (see Figure 2-5).
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Figure 2-5
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Step 6
Using the Phillips screwdriver, unscrew the rear mounting flange from the system and rack.
Step 7
Using the Phillips screwdriver, unscrew the front mounting flange from the rack.
Step 8
Remove two bolts per hold-down bracket that secure the brackets to the pallet (see Figure 2-6).
Holddown Brackets on the Cisco ASR 9922 Router Shipping Pallet
302355
Figure 2-6
Note
Step 9
Save the rear brackets and screws from the shipping packaging for reuse in rack mounting of the chassis
(see Figure 2-7).
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Rack Mount Installation Kit for the Cisco ASR 9922 Router
344377
Figure 2-7
Step 10
Remove components, such as line cards and fan trays, to reduce the weight before lifting or moving the
chassis. See the Removing Components Before Installing the Chassis section on page 2-11 for
procedures to remove these components.
Step 11
Save the packaging materials in case the router needs to be repackaged for shipping.
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Removing the Fan Tray from the Cisco ASR 9010 Router or the
Cisco ASR 9922 Router
Use the following procedure to remove a fan tray from the Cisco ASR 9010 Router (see Figure 2-8) and
the Cisco ASR 9922 Router chassis (see Figure 2-9):
Note
If an accessory grill has been installed on the front of the Cisco ASR 9010 Router, you must remove the
accessory grill before you can remove any fan tray behind it. Remove the accessory grill by simply
pulling it towards you until it comes loose. See the Installing Base Chassis Accessories on the
Cisco ASR 9010 Router section on page 2-36 and Figure 2-34 for information about the accessory
grill.
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Note
If a fan tray cover has been installed on the front of the Cisco ASR 9922 Router, you must remove it
before you can remove the fan tray. Remove the fan tray cover by simply pulling on the cover until it
comes loose. See the Installing Optional Chassis Accessories on the Cisco ASR 9922 Router section
on page 2-50 for more information.
Note
In the Cisco ASR 9922 Router, the third and fourth fan trays (under the middle cage) are installed upside
down compared to the first and second fan trays (above the middle cage).
Step 1
Step 2
Using the handle on the front panel, pull the fan tray halfway out of the chassis.
Step 3
Slide out the fan tray completely from the chassis while supporting it with your other hand.
Warning
Use two hands when handling the fan tray. Each Cisco ASR 9010 Router version 1 fan tray weighs
about 16 pounds (7.27 kg). Each Cisco ASR 9922 Router fan tray or Cisco ASR 9010 Router version 2 fan
tray weighs about 18 pounds (8.18 kg).
Removing or Installing the Fan Tray on the Cisco ASR 9010 Router Chassis
243179
Figure 2-8
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Removing or Installing the Fan Tray on the Cisco ASR 9922 Router Chassis
344040
Figure 2-9
Replacing a Version 1 Fan Tray in the Cisco ASR 9010 Router With a Version 2
Fan Tray
Cisco IOS XR software release 4.3.0 introduces support for the version 2 fan tray in the
Cisco ASR 9010 Router chassis. The version 2 fan tray allows the Cisco ASR 9010 Router chassis to
support currently available ZR/DWDM SFP+ optics, or other high power optics that operate at 1.5W.
Note
The replacement procedure should be completed as quickly as possible. Cisco Systems does not support
long-term operation of the Cisco ASR 9010 Router with a mixture of version 1 and version 2 fan trays.
Use the following procedure to replace version 1 fan trays in the Cisco ASR 9010 Router with version
2 fan trays.
Step 1
Remove the first version 1 fan tray as shown in Figure 2-8 by completing the following sub-steps:
a.
b.
Using the handle on the front panel, pull the fan tray halfway out of the chassis.
Note
c.
Wait a few seconds for all the fans to stop rotating before lifting the fan tray from the chassis.
Slide out the fan tray completely from the chassis while supporting it with your other hand.
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Warning
Use two hands when handling the fan tray. Each Cisco ASR 9010 Router version 1 fan tray weighs
about 16 pounds (7.27 kg). Each Cisco ASR 9010 Router version 2 fan tray weighs about
18 pounds (8.18 kg).
At this point the fans in the remaining version 1 fan tray will go to full speed. The
Cisco IOS XR software will transmit a syslog message indicating that a fan tray OIR has begun.
Step 2
Step 3
Remove the remaining version 1 fan tray as shown in Figure 2-8 by completing the following sub-steps:
a.
b.
Using the handle on the front panel, pull the fan tray halfway out of the chassis.
Note
c.
Warning
Wait a few seconds for all the fans to stop rotating before lifting the fan tray from the chassis.
Slide out the fan tray completely from the chassis while supporting it with your other hand.
Use two hands when handling the fan tray. Each Cisco ASR 9010 Router version 1 fan tray weighs
about 16 pounds (7.27 kg). Each Cisco ASR 9010 Router version 2 fan tray weighs about
18 pounds (8.18 kg).
At this point the fans in the currently installed version 2 fan tray will go to full speed. The
Cisco IOS XR software will transmit a syslog message indicating that a fan tray OIR has begun.
Step 4
Removing the Fan Tray from the Cisco ASR 9006 Router
Use the following procedure to remove a fan tray from the Cisco ASR 9006 Router (see Figure 2-10):
Step 1
Loosen the captive screw that secures the fan tray door to the chassis and open the door.
Step 2
Loosen the captive installation screw on the front of the fan tray you wish to remove.
Step 3
Using the handle on the front panel, pull the fan tray halfway out of the chassis.
Note
Step 4
Wait a few seconds for all the fans to stop rotating before lifting the fan tray from the chassis.
Slide out the fan tray completely from the chassis while supporting it with your other hand.
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Warning
Use two hands when handling the fan tray. The fan tray weighs about 7.6 pounds (3.45 kg).
Removing or Installing the Fan Tray on the Cisco ASR 9006 Router Chassis
243374
Figure 2-10
Caution
Handle all cards by the metal card carrier edges only; avoid touching the board or any connector pins.
After removing a card, carefully place it in an antistatic bag or similar environment to protect it from
ESD and dust in the optic ports (fiber-optic line cards).
Caution
Be careful to avoid damaging the electromagnetic interference (EMI) gasket that runs along the full
height of the card front panel edge. Damage to the EMI gasket can affect the ability of your system to
meet EMI requirements.
Caution
To avoid damaging card mechanical components, never carry a card by the captive installation screws or
ejector levers. Doing so can damage these components and cause card insertion problems.
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Chapter 2
Cisco ASR 9010 Router Components and Slot Numbering with Version 1 Power
System
RSP cards
Line cards 0-3
Line card
Line card
Line card
Line card
RSP0
RSP1
Line card
Line card
Line card
Line card
Slot 1
Slot 2
Slot 3
Slot 4
Slot 5
Slot 6
Slot 7
Slot 8
Slot 9
4 5 6 7
Slot 0
0 1 2 3
FT0
Fan trays
FT1
Power shelves
PS0
M0
M1
M2
PS1
M0
M1
M2
242689
Power modules
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Figure 2-12
Cisco ASR 9010 Router Components and Slot Numbering with Version 2 Power
System
RSP cards
Line cards 0-3
Line card
Line card
Slot 9
Line card
Slot 8
Slot 7
RSP0
Slot 4
RSP1
Line card
Slot 3
Line card
Line card
Slot 2
Slot 6
Line card
Slot 1
Slot 5
Line card
4 5 6 7
Slot 0
0 1 2 3
FT0
Fan trays
FT1
Power shelves
PS0
M0
M1
M2
M3
PS1
M0
M1
M2
M3
284401
Power modules
Figure 2-13
Cisco ASR 9006 Router Components and Slot Numbering with Version 1 Power
System
Fan trays
Line cards
RSP cards
Power shelf
FT1
Slot 5
Slot 4
Slot 3
Slot 2
Slot 1
Slot 0
M0
Line card 3
Line card 2
Line card 1
Line card 0
RSP1
RSP0
M1
243377
FT0
M2
Power modules
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Figure 2-14
Cisco ASR 9006 Router Components and Slot Numbering with Version 2 Power
System
Fan trays
Slot 5
Slot 4
Slot 3
Slot 2
Slot 1
Slot 0
Line cards
RSP cards
Power shelf
M0
M1
Line card 3
Line card 2
Line card 1
Line card 0
RSP1
RSP0
M2
284273
FT0 FT1
M3
Power modules
Use the following procedure to remove RSP and line cards from the chassis.
Step 1
Use Figure 2-12 or Figure 2-14 to identify each card and then write down the card type and slot number
on a piece of paper. You will need this information when you reinstall the cards in the chassis to be sure
you reinstall each card in its original slot.
Step 2
To remove a card (see Figure 2-15 or Figure 2-16), starting at the lowest numbered slot:
a.
Use a screwdriver to loosen the captive screws at the ends of the line card front panel.
b.
Pivot the ejector levers to unseat the card from the backplane connector.
c.
Slide the card out of the slot and place it directly into an antistatic bag or other ESD-preventive
container.
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Figure 2-15
Removing a Line Card from the Cisco ASR 9010 Router Chassis
MGT LAN 0
MGT LAN 0
MGT LAN 1
ACT
ACT
MGT LAN 1
LINK
LINK
CONSOLE
CONSOLE
BITS
BITS
0
J.211
J.211
BITS
BITS
1
J.211
J.211
ALARM OUT
ALARM OUT
ACO
ACO
LAMP
TEST
LAMP
TEST
FAIL
SYNC
CRIT
HDD
MAJ
CF
FAIL
CRIT
MIN
ARE PROPE
RLY INSTAL
LED WHEN
SCREWS ARE
TIGHTENED
HDD
CF
MIN
ACO
ACO
TO10 IN/LB
243205
IMPORTANT
- CARDS
SYNC
MAJ
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Figure 2-16
Removing a Line Card from the Cisco ASR 9006 Router Chassis
243405
Step 3
Removing RP, FC, and Line Cards from the Cisco ASR 9922 Router
The Cisco ASR 9922 Router chassis contains 22 slots (see Figure 2-17 for the chassis with version 2
power system). Up to seven FC cards are installed between the two RP cards in the middle cage of the
chassis. Ten line cards are installed in slots 0 through 9 in the top card cage, and ten line cards are
installed upside down in slots 10 through 19 in the bottom card cage.
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Figure 2-17
Cisco ASR 9922 Router Components and Slot Numbering with Version 2 Power
System
Power modules
PS3
PM12
PM13
PM14
PM15
Slot 9
Slot 8
Slot 7
Slot 6
FC5
FC6
RP1
Slot 16
Slot 17
Slot 18
Slot 19
LC14
LC15
LC16
LC17
LC18
LC19
FC4
Slot 15
LC13
FC2
Slot 14
LC12
FC1
Slot 13
FC0
Slot 12
LC10
LC11
RP0
Slot 10
Slot 11
FT2
FT3
Fan trays
302423
Line cards
Slot 5
FT0
FT1
Fan trays
FC3
Line cards
LC9
PM11
LC8
PM10
LC7
PM9
LC6
PM8
LC5
PS2
LC4
PM7
LC3
PM6
Slot 4
PM5
LC2
PM4
Slot 3
PS1
Slot 2
PM3
LC1
PM2
LC0
PM1
Slot 1
PM0
Slot 0
Power shelves/trays
PS0
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Use the following procedure to remove FC, RP, and line cards from the Cisco ASR 9922 Router chassis.
Step 1
Use Figure 2-17 to identify each card and then write down the card type and slot number on a piece of
paper. You will need this information when you reinstall the cards in the chassis to be sure you reinstall
each card in its original slot.
Step 2
To remove a FC card (see Figure 2-18), starting at the lowest numbered slot:
a.
Remove the air filter covering the front of the middle cage.
b.
Use a screwdriver to loosen the captive screws at the ends of the FC card front panel.
c.
Note
Once any ejector lever release button is pushed in, the FC card must by physically removed and
reinserted (OIR) to restart the FC card.
d.
Pivot the ejector levers to unseat the FC card from the backplane connector.
e.
Slide the FC card out of the slot and place it directly into an antistatic bag or other ESD-preventive
container.
Removing a FC Card from the Cisco ASR 9922 Router Chassis
302424
Figure 2-18
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Step 3
To remove a RP or line card (see Figure 2-19), starting at the lowest numbered slot:
a.
Use a screwdriver to loosen the captive screws at the ends of the line card front panel.
b.
Pivot the ejector levers to unseat the card from the backplane connector.
c.
Slide the card out of the slot and place it directly into an antistatic bag or other ESD-preventive
container.
Figure 2-19
Removing a Line Card from the Cisco ASR 9922 Router Top Card Cage
344076
Step 4
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Chapter 2
Note
The Cisco ASR 9922 Router is designed to mount in only a 4-post rack.
Mark and measure the distance between two holes on the left and right mounting rails.
The distance should measure 18.31 inches 0.06 inches (46.5 cm 0.15 cm).
Note
Step 2
Measure for pairs of holes near the bottom, middle and top of the equipment rack to ensure that
the rack posts are parallel.
Measure the space between the inner edges of the left front and right front mounting flanges on the
equipment rack.
The space must be at least 17.7 inches (45 cm) to accommodate the chassis, which is approximately
17.50 in. (44.45 cm) wide and fits between the mounting posts on the rack.
Figure 2-20
Mounting flanges
Hole centerline
to hole centerline
18.31 inches 0.06 inches
(46.5 cm 0.15 cm)
247170
Minimum usable
aperture 17.7 inches
(45.0 cm)
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3
4
243187
2 Four screws
(minimum) to attach
the rear mounting
bracket to the rack
Rear mounting
bracket
4 Five screws to
attach the rear
mounting bracket to
the router chassis
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Warning
An empty chassis weighs approximately 150 pounds (68 kg). You need two people to slide the chassis
into the equipment rack safely.
Figure 2-22
243466
Four screws per side (minimum) to attach the router chassis to the rack
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Use the following procedure to install the chassis in the equipment rack:
Step 1
Using two people, lift the chassis into the rack using the side handles and grasping underneath the power
supply bays (see Figure 2-23).
Correct Lifting Positions
243343
Figure 2-23
Caution
Do not grasp the card cage or the air inlet grill when lifting the router chassis (see Figure 2-24).
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243342
Figure 2-24
Step 2
Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
Step 3
Hold the chassis in position against the mounting rails while the second person finger-tightens a screw
to the rack rails on each side of the chassis.
Step 4
Finger-tighten four more screws to the rack rails on each side of the chassis. Space the screws evenly
between the top and bottom of the chassis.
Step 5
Attach the side brackets to the left and right side of the chassis by finger-tightening five screws through
each bracket into the chassis.
Step 6
Attach the side bracket front flanges to the rack by finger-tightening four screws through each bracket
flange into the front mounting rails of the rack.
Step 7
Fully tighten all five screws on the chassis mounting flanges on each side to secure the chassis to the
rack rails.
Step 8
Fully tighten the five screws on each side bracket to secure the brackets to the chassis.
Step 9
Fully tighten the four screws on each side bracket flange to secure the brackets to the rack rails.
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Figure 2-25
1
3
243256
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Figure 2-26
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Rack Mount Installation Kit for the Cisco ASR 9922 Router
344377
Figure 2-27
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302352
Figure 2-28
Insert the grounding screws through the locking washers and into the threaded grounding receptacle. The
grounding receptacle for the Cisco ASR 9010 Router chassis is near the bottom and rear of the right side,
as shown in Figure 2-29. The grounding receptacle for the Cisco ASR 9006 Router is near the top and
rear of the right side, as shown in Figure 2-30. The grounding receptacle for the Cisco ASR 9922 Router
is near the bottom and rear of the right side, as shown in Figure 2-31.
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Step 2
Step 3
Prepare the other end of the grounding wire and connect it to the appropriate grounding point at your
site to ensure an adequate earth ground.
NEBS Bonding and Grounding for the Cisco ASR 9010 Router
Figure 2-30
NEBS Bonding and Grounding for the Cisco ASR 9006 Router
243440
243204
Figure 2-29
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NEBS Bonding and Grounding for the Cisco ASR 9922 Router
344039
Figure 2-31
For Cisco ASR 9010 Routers, see the Installing Base Chassis Accessories on the
Cisco ASR 9010 Router section on page 2-36.
For Cisco ASR 9006 Routers, see the Installing Base Chassis Accessories on the
Cisco ASR 9006 Router section on page 2-43.
Optional chassis accessories are also available. If you ordered the optional chassis accessories, use the
appropriate installation procedure below for your router:
For Cisco ASR 9010 Routers, see the Installing Optional Chassis Accessories on the
Cisco ASR 9010 Router section on page 2-39.
For Cisco ASR 9006 Routers, see the Installing Optional Chassis Accessories on the
Cisco ASR 9006 Router section on page 2-46.
For Cisco ASR 9922 Routers, see the Installing Optional Chassis Accessories on the
Cisco ASR 9922 Router section on page 2-50.
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Chapter 2
Note
If you ordered the optional accessories set, use the procedure at Installing Optional Chassis Accessories
on the Cisco ASR 9010 Router section on page 2-39 to install both the base and optional accessories.
If you did not order the optional accessory set, use the following procedure to install the supplied base
chassis accessories on the Cisco ASR 9010 Router:
Step 1
Install and tighten two ball studs (one per side) into the chassis front edge near the top of the chassis grill
(see Figure 2-32 for the version 1 power trays and Figure 2-33 for the version 2 power trays). Tighten
the ball studs to a torque of 8 in-lb (0.90 N-m).
Installing Ball Studs - Version 1 Power, Cisco ASR 9010 Router Shown (Base
Accessories installation)
243457
Figure 2-32
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Figure 2-33
Installing Ball Studs - Version 2 Power, Cisco ASR 9010 Router Shown (Base
Accessories installation)
284407
Step 2
Attach two plastic strips (one per side) along the chassis front edge. The bottom tab of each strip attaches
to the hole about 2 inches above the ball stud locations (see Figure 2-34).
Step 3
Attach the accessory grill to the chassis in front of the chassis grill. The top of the accessory grill attaches
to the ball studs.
Note
You must install the lower fan tray before attaching the accessory grill. The lower fan tray slot is located
behind the accessory grill. See the Installing the Fan Trays section on page 3-4.
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Figure 2-34
243457
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Note
Eight screws (plus one extra) for attaching the hinge brackets
Installation of the optional accessory pieces also includes the base accessory ball studs and front grill.
The base accessory side strips are not used when installing the optional chassis accessories.
If you ordered the optional accessories set, use the following procedure to install both the base and
optional accessories (see Figure 2-35):
Step 1
Attach the left hand L-shaped bracket (item 3 in Figure 2-35) to the left hinge bracket (item 2 in
Figure 2-35) with two screws. Tighten the screws to a torque of 5 in-lb (0.55 N-m).
Step 2
Repeat Step 1 for the right hinge bracket and right hand L-shaped bracket.
Step 3
Remove the two screws that secure the bottom edge of the cable management tray to the chassis.
Step 4
Install three ball studs into the chassis on each side (item 7 in Figure 2-35). Tighten the ball studs to a
torque of 8 in-lb (0.90 N-m).
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Figure 2-35
2
3
5
4
6
7
248659
Front grill
Step 5
Attach the left and right hinge brackets to the chassis using four screws for each bracket. Tighten the
screws to a torque of 11 in-lb (1.20 N-m). The L-shaped brackets should align with the holes in the cable
management tray from which you removed the screws.
Step 6
Secure the L-shaped brackets to the chassis and cable management tray by re-inserting and tightening
the cable management tray screws you removed (see Figure 2-36).
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Figure 2-36
Installing the Hinge Brackets and L-Shaped Brackets on the Cisco ASR 9010 Router
249244
Step 7
Install the mid-cover with door lock (item 6 in Figure 2-35) by engaging it to the upper four ball studs
and lining up the grooves in the top outside edges of the mid-cover with ridges at the bottom of the hinge
brackets.
Step 8
Attach two doors to the hinge brackets (one per side). For each door:
a.
Align the door hinge hole with the bracket hinge hole (see Figure 2-37).
b.
Insert the captive pin in the door hinge through the hole in the bracket hinge.
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Note
You must install the lower fan tray before attaching the accessory grill. The lower fan tray slot is located
behind the accessory grill. See the Installing the Fan Trays section on page 3-4.
Installing Optional Chassis Accessory Doors on the Cisco ASR 9010 Router
248660
Figure 2-37
Step 9
Install the front grill (item 8 in Figure 2-35) by aligning and engaging it to the bottom two ball studs and
pressing it in.
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Note
Two screws for attaching the plastic fan tray door accessory piece
If you ordered the optional accessories set, use the procedure at Installing Optional Chassis Accessories
on the Cisco ASR 9006 Router section on page 2-46 to install both the base and optional accessories.
If you did not order the optional accessory set, use the following procedure to install the supplied base
chassis accessories on the Cisco ASR 9006 Router:
Step 1
Attach the plastic accessory piece to the fan tray door using two supplied screws. Insert the screws
through the fan tray door from the inside of the door into the accessory piece (see Figure 2-38).
Step 2
Attach the left hand metal mounting bracket to the front upper left corner of the chassis with three
screws.
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Figure 2-38
Installing Plastic Fan Tray Door Accessory and Metal Mounting Brackets on the Cisco ASR 9006 Router
243540
Step 3
Attach the right hand metal mounting bracket to the front upper right corner of the chassis with three
screws.
Step 4
Attach the left and right side brackets to the chassis front edge on each side (see Figure 2-39). Attach
each bracket to the chassis using three screws per bracket inserted from the inside of the chassis, through
the three chassis tabs into the plastic brackets. Tighten the screws to a torque of 7 in-lb (0.80 N-m).
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Figure 2-39
243542
Step 5
Attach the left hand plastic corner piece to the mounting bracket at the front upper left corner of the
chassis (see Figure 2-40).
Step 6
Attach the right hand plastic corner piece to the mounting bracket at the front upper right corner of the
chassis.
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Chapter 2
Installing Plastic Chassis Corners on the Cisco ASR 9006 Router (Base Accessories
Installation)
243541
Figure 2-40
After the chassis has been installed in the rack and all chassis accessories have been attached, you can
install the fan trays, power supply modules, and RSP and line cards. See Chapter 3, Installing Cards
and Modules in the Chassis for detailed installation instructions.
Four ball stud assembly pieces (one set of two pieces per side)
Four screws for assembling and attaching the ball stud assemblies
Installation of the optional accessory pieces also includes all base accessory pieces. If you ordered the
optional accessories set, use the following procedure to install both the base and optional accessories:
Step 1
Perform Step 1 through Step 4 of the Installing Base Chassis Accessories on the
Cisco ASR 9006 Router section on page 2-43.
Step 2
Assemble and attach the two ball stud assemblies (see Figure 2-41) to each chassis side bracket. For each
assembly:
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a.
Align the two halves of the assembly to each other and to the screw holes in the chassis side bracket.
b.
Insert and tighten two screws to secure the assembly to the side bracket.
Installing Ball Stud Assemblies on the Cisco ASR 9006 Router (Shown with Version 1
Power System)
248669
Figure 2-41
Step 3
Caution
Attach the door to the upper chassis panel (see Figure 2-42) using two hex nuts per side to secure the
door hinges to the panel. Tighten the hex nuts to a torque of 4 in-lb (0.45 N-m).
Do not overtighten the hex nuts. They can be broken through overtightening.
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Caution
When opening the door, be sure to grasp the center of the door to pull it open. Do not open the door by
pulling on a corner or side of the door frame.
Installing the Optional Accessory Door on the Cisco ASR 9006 Router
248670
Figure 2-42
Step 4
Attach the left hand plastic corner piece to the mounting bracket at the front upper left corner of the
chassis (see Figure 2-43).
Step 5
Attach the right hand plastic corner piece to the mounting bracket at the front upper right corner of the
chassis.
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Figure 2-43
Installing Plastic Chassis Corners on the Cisco ASR 9006 Router (Optional
Accessories Installation)
249226
1
2
After the chassis has been installed in the rack and all chassis accessories have been attached, you can
install the fan trays, power supply modules, and RSP and line cards. See Chapter 3, Installing Cards
and Modules in the Chassis for detailed installation instructions.
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If you ordered the optional accessories set, use the following procedure to install the accessories:
Step 1
Note
Remove the two screws that secure the bottom edge of the cable management tray to the chassis.
Four ball studs are pre installed on the Cisco ASR 9922 Router chassis.
Optional Fan Tray Covers for the Cisco ASR 9922 Router
302403
Figure 2-44
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Figure 2-45
Optional Card Cage Doors for the Cisco ASR 9922 Router
302407
Hinge bracket
Step 2
Attach the left and right hinge brackets to the chassis using three screws (M4 thread) for each bracket.
Tighten the screws to a torque of 11 in-lb (1.20 N-m). The L-shaped brackets should align with the holes
in the cable management tray from which you removed the screws.
Step 3
Secure the L-shaped brackets to the chassis and cable management tray by re-inserting and tightening
the cable management tray screws you removed.
After the chassis has been installed in the rack and all chassis accessories have been attached, you can
install the fan trays, power supply modules, FC, RP, and line cards. See Chapter 3, Installing Cards and
Modules in the Chassis for detailed installation instructions.
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Caution
Never force a power module into the power tray if you feel any resistance! The power modules are keyed
to prevent AC modules from being plugged into a DC power tray or a DC module into an AC power tray.
Forcing a module into the incorrect tray can cause damage to the module and the tray.
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Steps
Use the following procedure to reinstall the AC power modules back into the chassis (see Figure 3-1 for
the version 1 power module or Figure 3-2 for the version 2 power module).
Step 1
Slide the power module into the power tray until it mates with its backplane connector.
Step 2
Caution
a.
Version 1 power module: Pivot the power module door fully to the left until it locks to securely seat
the power module to its backplane connector.
b.
Version 2 power module: move the handle up and tighten the screw using the 7/16 Hex socket and
torque wrench with the torque set to 50 in-lbs. to secure.
To prevent damage to the power tray backplane connector, do not use excessive force when inserting the
power module into the power tray.
Step 3
Step 4
Go to the Installing the Fan Trays section on page 3-4 to install the fan tray.
Installing a Version 1 Power Module
243181
Figure 3-1
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331400
Figure 3-2
Steps
Use the following procedure to reinstall the DC power modules back into the chassis (see Figure 3-1 for
the version 1 power module or Figure 3-2 for the version 2 power module.
Step 1
Slide the power module into the power tray until it mates with its backplane connector.
Step 2
Caution
Step 3
a.
Version 1 power module: Pivot the power module door fully to the left until it locks to securely seat
the power module to its backplane connector.
b.
Version 2 power module: move the handle up and tighten the screw using the 7/16 Hex socket and
torque wrench with the torque set to 50 inch-pounds to secure.
To prevent damage to the power tray backplane connector, do not use excessive force when inserting the
power module into the power tray.
Repeat Step 1 and Step 2 for the other DC power modules.
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Step 4
Go to the Installing the Fan Trays section on page 3-4 to install the fan trays.
Steps
Use the following procedure to install the fan trays in the chassis (refer to Figure 2-8, Figure 2-9, and
Figure 2-10):
Note
You must install the lower fan tray before attaching the accessory grill. The lower fan tray slot is located
behind the accessory grill. See the Installing Chassis Accessories section on page 2-35.
Step 1
Lift the fan tray (with two hands) and slide it halfway into the module bay.
Step 2
Slowly push the fan tray into the chassis until it mates with the backplane connector at the back of the
chassis bay.
Caution
To prevent damage to the connectors, do not use excessive force when inserting the fan tray into the
chassis.
Step 3
Tighten the captive screw(s) on the fan tray using the 6-in. long number 2 Phillips screwdriver to a torque
of 10 +/1 in-lb to secure it to the chassis.
Step 4
Note
Step 5
In the Cisco ASR 9922 Router, the third and fourth fan trays (under the middle cage) are
installed upside down compared to the first and second fan trays (above the middle cage).
Go to the Installing Cards in the Chassis section on page 3-5 to reinstall the RSP, RP, FC, and line
cards.
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Caution
Be sure to verify that you are inserting a card into its correct slot. RSP/RP cards must only be inserted
in the two slots reserved for RSP/RP cards (RSP0, RSP1, RP0, RP1). FC cards must only be inserted in
the FC slots of the Cisco ASR 9922 Router. All other slots are for line cards.
Caution
Unoccupied card slots must have a blank filler card installed for electromagnetic compatibility (EMC)
and to ensure proper air flow through the chassis.
Caution
Be careful to avoid damaging the electromagnetic interference (EMI) gasket that runs along the full
height of the card front panel edges. Damage to the EMI gasket can affect the ability of your system to
meet EMC requirements.
Caution
Handle all cards by the metal card carrier edges only; avoid touching the board or any connector pins.
After removing a card, carefully place it in an antistatic bag or similar environment to protect it from
ESD and dust in the optic ports (fiber-optic line cards).
Caution
To avoid damaging card mechanical components, never carry an RSP, RP, FC, or line card by the captive
installation screws or ejector levers. Doing so can damage these components and cause card insertion
problems.
Caution
Be sure to always tighten the captive installation screws on RSP, RP, FC, and line cards. Failure to tighten
the screws can cause boot failure or prevent proper router operation.
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Step 2
Pivot the ejector levers to seat the card to the backplane connector.
Caution
Do not apply excessive force to the RSP card to seat it. When seated, the RSP card ejector levers are
angled slightly outward from the card faceplate (item 1 in Figure 3-3). When the captive installation
screws are fully tightened, the ejector levers are parallel to the card faceplate (item 2 in Figure 3-3).
Some flexing in the backplane is normal. When you push the ejector levers fully vertical, the card is
seated in the backplane connectors. However, when you release the levers, backplane flexing pushes the
levers out, so the levers may be slightly loose. Tightening the captive installation screws prevents any
additional movement from flexing of the backplane.
Step 3
Tighten the captive screws at the top and bottom of the front panel to a torque of 10 +/1 in-lbs.
Step 4
Repeat Step 1 through Step 3 to install the second RSP card into slot RSP1.
Note
Even when the RSP card is fully seated with installation screws fully tightened, there may be a slight
gap between the card and the chassis (item 3 in Figure 3-3).
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243400
Figure 3-3
Note: Vertical red lines in Figure 3-3 indicate a line fully parallel to the RSP card front panel.
1
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Step 2
Pivot the ejector levers to seat the card to the backplane connector.
Caution
Do not apply excessive force to the RP card to seat it. When seated, the RP card ejector levers are angled
slightly outward from the card faceplate (item 1 in Figure 3-3). When the captive installation screws are
fully tightened, the ejector levers are parallel to the card faceplate (item 2 in Figure 3-3). Some flexing
in the backplane is normal. When you push the ejector levers fully vertical, the card is seated in the
backplane connectors. However, when you release the levers, backplane flexing pushes the levers out,
so the levers may be slightly loose. Tightening the captive installation screws prevents any additional
movement from flexing of the backplane.
Step 3
Tighten the captive screws at the top and bottom of the front panel to a torque of 10 +/1 in-lbs.
Step 4
Repeat Step 1 through Step 3 to install the second RP card into slot RP1.
Note
Even when the RP card is fully seated with installation screws fully tightened, there may be a slight gap
between the card and the chassis (item 3 in Figure 3-3).
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Step 2
Pivot the ejector levers to seat the card to the backplane connector.
Caution
Do not apply excessive force to the FC card to seat it. When seated, the FC card ejector levers are angled
slightly outward from the card faceplate (item 1 in Figure 3-3). When the captive installation screws are
fully tightened, the ejector levers are parallel to the card faceplate (item 2 in Figure 3-3). Some flexing
in the backplane is normal. When you push the ejector levers fully vertical, the card is seated in the
backplane connectors. However, when you release the levers, backplane flexing pushes the levers out,
so the levers may be slightly loose. Tightening the captive installation screws prevents any additional
movement from flexing of the backplane.
Step 3
Tighten the captive screws at the top and bottom of the front panel to a torque of 10 +/1 in-lbs.
Step 4
Repeat Step 1 through Step 3 to install the remaining FC cards into slots FC1 to FC6.
Note
Even when the FC card is fully seated with installation screws fully tightened, there may be a slight gap
between the card and the chassis (item 3 in Figure 3-3).
Caution
Be careful to avoid damaging the EMI gasket that runs along the full height of the card front panel edges.
Damage to the EMI gasket can affect the ability of your system to meet EMI requirements.
Use the following procedure to reinstall line cards in the chassis card cage:
Step 1
Starting at the lowest numbered line card slot, slide the card into the slot (see Figure 3-5, Figure 3-6, or
Figure 3-7) until it mates with the backplane connector.
Step 2
Pivot the ejector levers to seat the card into the backplane connector.
Step 3
Tighten the captive screws at the top and bottom of the front panel to a torque of 10 +/1 in-lb.
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Figure 3-5
Installing a Line Card into the Cisco ASR 9010 Router Chassis
MGT LAN 0
MGT LAN 0
ACT
MGT LAN 1
LINK
ACT
MGT LAN 1
LINK
CONSOLE
CONSOLE
BITS
BITS
0
J.211
J.211
BITS
BITS
1
J.211
J.211
ALARM OUT
ALARM OUT
ACO
ACO
LAMP
TEST
LAMP
TEST
FAIL
SYNC
CRIT
HDD
MAJ
CF
FAIL
CRIT
MIN
ARE PROPE
RLY INSTAL
LED WHEN
SCREWS ARE
TIGHTENED
HDD
CF
MIN
ACO
ACO
TO10 IN/LB
243194
IMPORTANT
- CARDS
SYNC
MAJ
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Figure 3-6
Installing a Line Card into the Cisco ASR 9006 Router Chassis
248314
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Figure 3-7
Installing a Line Card into the Cisco ASR 9922 Router Chassis
344086
Step 4
Note
Step 5
In the Cisco ASR 9922 Router, up to ten line cards are installed in slots 0 through 9 in the top
card cage, and up to ten line cards are installed upside down in slots 10 through 19 in the bottom
card cage.
Go to the Connecting Line Card Network Interface Cables section on page 3-14 to connect the network
interface cables.
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Note
You can access the most current Cisco line card documentation online at: http://www.cisco.com.
Use the following procedure as an example to route the network interface cables through the
cable-management system and connect them to the line card:
Step 1
Note
Route an interface cable across the horizontal cable management tray (see Figure 3-8), and down
through the cable tray opening to connect it to the line card.
Each line card has its own cable routing slot in the cable management tray. For example, the cables
shown in Figure 3-8 are cables being routed to line card 3 in slot 3 in a Cisco ASR 9010 Router.
Figure 3-8
243259
1
Step 2
Attach a line card cable management bracket to the line card front panel (see Figure 3-9). This bracket
is shipped with the line card.
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Step 3
Route the cable through the cable-management bracket and carefully press the cable into the channel so
it is held in place by the cable clips, as shown in Figure 3-10. For an example of cable routing in the
Cisco ASR 9006 Router, see Figure 3-11.
Step 4
Step 5
Repeat Step 1 through Step 4 for each additional cable connection to that line card.
Attaching a Line Card Cable Management Bracket
243255
Figure 3-9
Caution
Make sure the interface cables do not have any kinks or sharp bends, which can destroy or degrade the
ability of the optical fiber to propagate the signal-encoded beam of light accurately from one end of the
cable to the other. Always allow adequate strain relief in the interface cable.
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Example of Interface Cable Routing Using Line Card Cable Management Bracket
243252
Figure 3-10
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Figure 3-11
Example of Interface Cable Routing Using Line Card and Chassis Cable Management
Bracket on the Cisco ASR 9006 Router
1
3
5
7
9
11
13
15
17
19
6
8
7
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10
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12
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AUX
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SYNC
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SYNC
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M OU
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T
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243406
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SYNC
FAIL
J.211
SYNC
ALAR
BITS
HDD
ACT
33
26
CF
LINK
31
24
ACO
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22
CRIT
BITS
CONS
OLE
MAJ
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M OU
MIN
LAN
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SYNC
1
HDD
ACT
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ACO
MGT
25
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CONS
OLE
LAMP
TEST
ACT
21
10
AUX
LINK
38
ACO
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TEST
LINK
ACT
LAN
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ACO
LINK
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MGT
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MGT
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12
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10
CRIT
MAJ
MIN
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Figure 3-12
3
4
5
243082
Console terminal
Modem
Console port
Figure 3-13 shows an example of an RP with data terminal and modem connections called out.
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Figure 3-13
3
4
5
302419
Console terminal
Modem
Console port
Caution
The ports labeled Ethernet, Console, and Auxiliary (AUX) are safety extra-low voltage (SELV) circuits.
SELV circuits should only be connected to other SELV circuits.
Note
RSP/RP cables are not available from Cisco, but they are available from any commercial cable vendor.
Note
To comply with the intra-building lightning surge requirements of Telecordia GR-1089-CORE, Issue II,
Revision 01, February 1999, you must use a shielded cable when connecting to the console, auxiliary,
and Ethernet ports. The shielded cable is terminated by shielded connectors on both ends, with the cable
shield material tied to both connectors.
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Set your terminal to these operational values: 9600 bps, 8 data bits, no parity, 2 stop bits (9600 8N2).
Step 2
Step 3
Attach the terminal end of the cable to the interface port on the data terminal.
Step 4
Attach the other end of the cable to the RSP/RP console port.
Step 5
Step 2
Attach the device end of the cable to the interface port on the asynchronous serial device.
Step 3
Attach the other end of the cable to the RSP/RP auxiliary port.
Step 4
Note
RJ45 cables are not available from Cisco Systems; they are available from outside commercial cable
vendors. Use cables that comply with EIA/TIA-568 standards.
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Caution
Ethernet management ports are primarily used as telnet ports into the Cisco ASR 9000 Series Router,
and for booting or accessing Cisco software images over a network to which an Ethernet port is directly
connected. We strongly caution you to consider the security implications of enabling routing functions
on these ports.
Note
The Ethernet interfaces on the RSP/RP are endstation devices only, not repeaters.
Use the following procedure to connect an Ethernet cable to the RSP/RP RJ45 Ethernet receptacle:
Step 1
Step 2
Connect the network end of your RJ45 cable to a switch, hub, repeater, or other external equipment.
J.211
SYNC 0
BITS
J.211
SYNC 1
BITS
243257
ALARM OUT
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The alarm subconnector can be used to connect the router to an external site alarm maintenance system.
Any critical, major, and minor alarms generated by the router also energize alarm relays on the alarm
card and activate the external site alarm. The alarm relay contacts on the RSP/RP card consist of standard
common, normally open, and normally closed relay contacts that are wired to the Alarm Out connector
pins.
Table 1-6 lists the pin-to-signal correspondence between the connector pins and the alarm relay contacts.
Because alarm contact cables are entirely dependent on installation site circumstances, alarm connector
cables are not available from Cisco. For information about alarm connector wiring requirements and the
pinouts for the alarm connector interface, see the Alarm Connection Guidelines section on page 1-43.
Caution
Only safety extra-low voltage (SELV) circuits can be connected to the Alarm Out connector. Maximum
rating for the alarm circuit is 100 mA, 50 V.
Note
To comply with the intra-building lightning surge requirements of GR-1089-CORE, Issue II,
Revision 01, February 1999, you must use a shielded cable when connecting to the external alarm port
on the RSP/RP card. The shielded cable is terminated by shielded connectors on both ends, with the cable
shield material tied to both connectors.
Caution
A router must be operated with all its power modules installed at all times for electromagnetic
compatibility (EMC).
Note
Connect each AC power supply to a dedicated power source (branch circuit). Each AC-input
power supply operates at a nominal input level of 200 to 240 VAC. For more information on AC
power input levels, see the Power Connection Guidelines section on page 1-22.
Step 1
Check that the power switch is set to the OFF (0) position. On version 1 power trays, this switch is at the
rear of the power tray. On version 2 power trays, this switch is at the front of the power tray.
Step 2
Check that the circuit breaker assigned to the AC power source you are connecting is set to OFF.
Step 3
Connect the permanent ground connection (central office grounding system) to the NEBS grounding
location on the router chassis.
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Warning
To ensure that power remains off while you are performing this procedure, tape the circuit breaker
switch in the off (0) position until you are ready to turn it on.
Step 4
Plug the AC power cord into the receptacle at the rear of the AC power tray (see Figure 3-15 for the
version 1 power tray and Figure 3-16 for the version 2 power tray).
Step 5
Close the retainer bracket to secure the AC power cord plug to the power tray receptacle.
Figure 3-16
284278
243302
Figure 3-15
Step 6
Plug the other end of the AC power cord into the AC source receptacle.
Step 7
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In some cases, the source DC cable leads might have a positive (+) or a negative () label. This is a
relatively safe indication of the polarity, but you must verify the polarity by measuring the voltage
between the DC cable leads. Be sure that the positive (+) and negative () cable leads match the
positive (+) and negative () labels on the power module when making the measurement.
Green (or green and yellow) cable typically indicates that it is a ground cable.
Caution
DC power modules contain circuitry to trip the breaker on the power module if the power module detects
a reverse polarity condition. No damage should occur from reverse polarity, but you should correct a
reverse-polarity condition immediately.
Note
The length of the cables depends on the location of your router in relation to the source of DC power.
These cables and the cable lugs used to attach the cables to the router chassis are not available from Cisco
Systems. They are available from any commercial cable vendor. For more information on site power and
source DC cable requirements, see the Power Connection Guidelines section on page 1-22.
Warning
To ensure that power remains off while you are performing this procedure, tape the DC circuit breaker
switch in the off (0) position.
Use the following procedure to connect the DC source power cables to a DC power tray:
Step 1
Verify that the power tray switch is set to the OFF (0) position.
Step 2
Remove the clear plastic safety covers that fit over the DC power connection terminal studs.
Step 3
Connect the DC power cables in the following order (see Figure 3-17 for version 1 power and
Figure 3-19 for version 2 power):
Step 4
a.
b.
c.
Repeat Step 3 for the other power modules installed in the tray.
Warning
To prevent injury and damage to the equipment, always attach the ground and source DC power cable
lugs to power tray terminals in the following order: (1) ground to ground, (2) positive (+) to positive (+),
(3) negative () to negative ().
Caution
Do not overtighten the nuts that secure the DC power cables to the power tray terminals. Using the 7/16
Hex socket and torque wrench the nuts should be tightened to a torque of 45 to 50 in-lb.
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Typical Power Connections to a Power Tray for a Single DC Power Module - Version 1 Power System
243183
Figure 3-17
PWR A
48/60V PWR
RTN A+
48/60V RTN
Feed A, Slot M2
PWR B
48/60V PWR
RTN B+
48/60V RTN
Ground
Feed B, Slot M2
Figure 3-18
242976
A feed connectors
Primary ground
B feed connectors
Power switch
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Figure 3-19
Typical Power Connections to a Power Tray for a Single DC Power Module - Version 2
Power System
M3
M2
M1
M3
M2
344255
M1
PWR A
48/60V PWR RTN A+
48/60V RTN
Feed A, Slot M3
PWR B
48/60V PWR RTN B+
48/60V RTN
Feed B, Slot M3
Figure 3-20
331402
Power switch
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Step 5
Replace the clear plastic safety covers over the connection terminal studs.
Typical Plastic Safety Cover over the Power Tray Connection Terminals - Version 2
Power System
344357
Figure 3-21
Step 6
Step 2
Verify that the Power Input LED on each power module in the tray is lit.
Note
On the DC power tray, the Power Input LED is lit solid green if both DC feeds are valid and
blinks green if only a single DC feed is valid.
Step 3
Set the power tray switch for Feed A Slots M0 - 3 to the ON (1) position. Refer to Figure 3-17 for Version
1 power systems, Figure 3-19 for Version 2 power systems for the feeds. Refer to Figure 3-18 for Version
1 power systems, Figure 3-20 for Version 2 power systems for the locations of the power switch.
Step 4
Verify that the Power Output LED on each power module in the tray is lit.
Step 5
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Troubleshooting Overview
This section describes the methods used in troubleshooting the router. The troubleshooting methods are
organized according to the major subsystems in the router.
If you are unable to solve a problem on your own, you can contact a Cisco customer service
representative for assistance. Cisco customer service and technical support can be reached at
http://www.cisco.com/en/US/support/tsd_cisco_worldwide_contacts.html
When you call, please have the following information ready:
Date you received the router and the chassis serial number (located on a label on the back of the
chassis).
Brief description of the symptoms and steps you have taken to isolate and solve the issue.
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Troubleshooting Overview
Power subsystemRouter chassis is shipped with up to six AC-input or DC-input power supply
modules installed in the Cisco ASR 9010 Router chassis, up to three AC-input or DC-input power
supply modules installed in the Cisco ASR 9006 Router chassis, or up to 16 AC-input or DC-input
power supply modules installed in the Cisco ASR 9922 Router chassis.
Chassis backplane power distributionSystem transfers 54 VDC power from the power modules
to the chassis backplane and distributes it to all the cards through the backplane connectors.
Processor subsystem in the Cisco ASR 9010 Router and Cisco ASR 9006 RouterIncludes the
active Route Switch Processor (RSP) card (and optional, redundant RSP card, if installed) and up to
eight line cards (in the Cisco ASR 9010 Router) or four line cards (in the Cisco ASR 9006 Router).
The RSP and line cards are equipped with onboard processors. The RSP downloads a copy of the
Cisco software image to each line card processor. The system uses an alphanumeric display on the
active RSP to display status and error messages, which can help in troubleshooting.
Note
There are two types of image files, -P PIE files, and x86-based -PX PIE files. The -P PIE
files are for use on Cisco ASR 9000 Series Aggregation Services Routers with RSP route
switch processors (RSP-4G and RSP-8G) while the -PX PIE files are for use on
Cisco ASR 9000 Series Aggregation Services Routers with RSP-440 route switch
processors and the ASR 9922 route processors.
Processor subsystem in the Cisco ASR 9922 RouterIncludes the active Route Processor (RP)
card, standby RP card, and up to 20 line cards. The RP and line cards are equipped with onboard
processors. The RP downloads a copy of the Cisco software image to each line card processor. The
system uses an alphanumeric display on the active RP to display status and error messages, which
can help in troubleshooting.
Cooling subsystem in the Cisco ASR 9010 Router and Cisco ASR 9006 RouterConsists of one or
two fan trays, which circulate air through the card cage to cool the cards, and two fans in each of the
power modules, which circulate cooling air through the power module.
Cooling subsystem in the Cisco ASR 9922 RouterConsists of four fan trays, which circulate air
through the top and bottom line card cages to cool the cards, and two fans in each of the power
modules, which circulate cooling air through the power module.
The fan in each power module receives power and begins drawing air through the power supply.
The power module input power and output power indicators are on.
2.
The fans in the fan tray receive power and begin drawing air through the chassis.
The fan tray OK indicator is on.
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3.
As the power-on and boot process progresses for the RSP/RP, the status of the RSP/RP appears on
the alphanumeric display on the front panel of the card.
Note
For the RSP/RP card to communicate properly to a power module in a power tray, the appropriate input
power should be present.
Table 4-1
Component
Type of Indicator
RSP card
Alphanumeric
display
Line Cards
Status LED
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Table 4-1
Component
Type of Indicator
RSP-440 card
Alphanumeric
display
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Table 4-1
Component
Type of Indicator
RP card
Alphanumeric
display
AC Power
Modules
DC Power
Modules
Fan Trays
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Note
For the RSP/RP card to communicate properly to a power module in a power tray, input power to at least
one of the three power modules in the power tray should be present.
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242986
Figure 4-1
ON continuously when the input voltage is present and within the correct range
BLINKING when the input voltage is out of acceptable range
On the DC power tray, the Power Input LED is lit solid green if both DC feeds are
valid and blinks green if only a single DC feed is valid.
OFF when no input voltage is present
2 Output power LED ON when the power module output voltage is present
BLINKING when the power module is in a power limit or overcurrent condition
3 Fault LED
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284405
Figure 4-2
1
2
3
ON continuously when the input voltage is present and within the correct range
BLINKING when the input voltage is out of acceptable range
On the DC power tray, the Power Input LED is lit solid green if both DC feeds are
valid and blinks green if only a single DC feed is valid.
OFF when no input voltage is present
2 Output power LED ON when the power module output voltage is present
BLINKING when the power module is in a power limit or overcurrent condition
3 Fault LED
Use the following procedure to troubleshoot the AC power module if it is not operating properly:
Step 1
Step 2
Make sure the power module is seated properly by ejecting and reseating the power module. Check that:
Make sure the router is powered on and that all power cords are connected properly. Check that the:
Power cords plugged into the power tray receptacles are secured in place with their retention clips.
Power cords at the power source end are securely plugged into their own AC power outlets.
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Step 3
Input power LED (green)Indicates that the AC power input is operating normally, and the source
AC input voltage of 200 to 240 VAC is within the nominal operating range.
If the input power LED is blinking, the input voltage is out of acceptable range. Verify that each AC
power source is operating in the nominal range of 200 to 240 VAC.
Note
On the DC power tray, the Power Input LED is lit solid green if both DC feeds are valid and
blinks green if only a single DC feed is valid.
Output power LED (green)Indicates that the DC power output is operating normally and the
54 VDC output voltage to the backplane are within the nominal operating range. This indicator
lights only when the power switch at the rear of the power tray is set to the ON (1) position.
If the Output power LED remains off after checking all the power sources, replace the power
supply with a spare. If the spare power module does not work, troubleshoot the power tray in
which the module is plugged.
If the output power LED is blinking, the power module is in a power limit or overcurrent
condition. Make sure that each power cord is connected to a dedicated AC power source. Verify
that each AC power source is operating in the nominal range of 200 to 240 VAC and is supplying
a minimum service of 20 A, North America (or 13 A, international).
Fault LED (red)Indicates that the system has detected a fault within the power supply. This
indicator remains off during normal operation. If the fault LED is on:
If your system has more than one power tray (Cisco ASR 9010 Router and
Cisco ASR 9922 Router) with power modules installed for redundancy, you can toggle the
power switch at the rear of the first power tray off and then on. If the fault LED remains on after
several attempts to power it on, replace the power module with a spare.
If the spare power module also fails, the problem could be a faulty power tray backplane
connector. Power off the router and contact a Cisco service representative for assistance.
Verify that the power module fans are operating properly.
Verify that the fan tray is operating properly.
If the power module fans and the fan trays are operating properly, replace the existing power module
with a spare.
Caution
Because the AC-input power subsystems use redundant power modules, a problem with the DC output
voltage to the backplane from only one power module should not affect router operation. When the router
is equipped with two AC power supplies, it powers on and operates even if one power supply fails.
However, complete router functionality may be affected depending on the system load.
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Figure 4-1 shows the status indicators for the version 1 power module and Figure 4-2 shows the status
indicators for the version 2 power module. The indicator definitions follow the two figures.
Step 2
Step 3
Make sure the power module is seated properly by ejecting and reseating the power module. Check that:
Make sure the router is powered on and that all power cords are connected properly. Check that the:
Power cables are securely attached to their power module terminal studs.
Input power LED (green)Indicates that the DC power input is operating normally, and the source
DC input voltage is within the nominal operating range of 40 to 72 VDC.
If the input power LED is blinking, input connections to the power module are loose or not
connected, or the input voltage is below the minimum. Verify that DC power from the source is
operating in the nominal range of 40 to 72 VDC.
Note
On the DC power tray, the Power Input LED is lit solid green if both DC feeds are valid
and blinks green if only a single DC feed is valid. Check the input connections to the
power module.
If the indicator is still flashing after you perform the above checks, replace the power module.
Output power LED (green)Indicates that the DC power output is operating normally, and the
54 VDC output voltage to the backplane is within the nominal operating range. This indicator
lights only when the power switch at the rear of the power tray is set to the ON (1) position.
If the output power LED remains off after checking all the power sources, replace the power
module with a spare. If the spare power module does not work, troubleshoot the power tray in
which the module is plugged.
If the output power LED is blinking, the power module is in a power limit or overcurrent
condition. Make sure that each power cable is connected to a dedicated DC power source. Verify
that each DC power source is operating in the nominal range of 40 to 72 VDC.
Fault LED (red)Indicates that the system has detected a fault within the power supply. This
indicator remains off during normal operation. If the fault LED is on, check the following:
If your system has more than one power tray (Cisco ASR 9010 Router and
Cisco ASR 9922 Router) with power modules installed for redundancy, you can toggle the
power switch at the rear of the first power tray off and then on. If the fault LED is still on, eject
and reseat the power module. If the fault LED remains on after several attempts to power it on,
replace the power module with a spare.
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If the spare power module also fails, the problem could be a faulty power tray backplane
connector. Power off the router and contact a Cisco service representative for assistance.
Verify that the power module fans are operating properly.
Verify that the fan tray is operating properly.
If the power module fans and the fan trays are operating properly, replace the faulty power
Caution
Because there are redundant power modules, a problem with the DC output voltage to the backplane
from only one power module should not affect router operation. When the router is equipped with two
DC power supplies, it powers on even if one power supply fails. However, complete router functionality
may be affected depending on the system load.
Hardware ID
Software ID
PS0 M0
PM0
PS0 M1
PM1
PS0 M2
PM2
PS0 M3
PM3
PS1 M0
PM4
PS1 M1
PM5
PS1 M2
PM6
PS1 M3
PM7
PS2 M0
PM8
PS2 M1
PM9
PS2 M2
PM10
PS2 M3
PM11
PS3 M0
PM12
PS3 M1
PM13
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Table 4-2
Hardware ID
Software ID
PS3 M2
PM14
PS3 M3
PM15
Modules
Inlet
Temperature
(deg C)
Hotspot
Temperature
(deg C)
0/RSP0/*
host
25.3
41.6
host
29.2
30.0
host
35.0
46.6
host
21.2
20.8
host
22.0
21.5
0/0/*
0/1/*
0/FT0/*
0/FT1/*
Voltage Information
--------------------------------------------R/S/I
Modules
0/RSP0/*
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
Sensor
(mV)
Margin
0.75VTT
0.9VTT_A
0.9VTT_B
IBV
5.0V
VP3P3_CAN
3.3V
2.5V
1.8VB
1.2VA
1.2VB
1.05V
1.2VD
1.8VA
1.5V
1.9V
749
909
900
10484
4998
3283
3297
2496
1798
1204
1204
1051
1206
1812
1495
1883
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
IBV
5.0V
10552
4939
n/a
n/a
0/0/*
host
host
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host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
VP3P3_CAN
3.3V
2.5V
1.8VB
1.2VB
1.8VA
0.9VB
1.2V_LDO_BRG0
1.2V_LDO_BRG1
1.8VC
1.5VB
1.5VA
1.1V(1.05V_CPU)
0.75VA
0.75VB_0.75VC
1.1VB
1.2V_TCAM0
1.2V_TCAM1
1.0V_Bridge_LDO
1.0VB
0.75VD_and_0.75VE
1.2V_TCAM2
1.2V_TCAM3
1.5VC
1.8VD
1.1VC
ZARLINK_3.3V
ZARLINK_1.8V
1.2V_DB
3.3V_DB
2.5V_DB
1.5V_DB
1.8V_DB
5.0V_XFP_DB
1.2VB_DB
3275
3303
2515
1803
1203
1795
881
1195
1196
1806
1504
1499
1051
749
754
1101
1203
1202
995
1046
755
1208
1203
1507
1793
1105
3284
1810
1200
3320
2498
1493
1827
5034
1226
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
host
IBV
5.0V
VP3P3_CAN
3.3V
2.5V
1.8VB
1.2VB
1.8VA
0.9VB
1.2V_LDO_BRG0
1.2V_LDO_BRG1
1.8VC
1.5VB
1.5VA
1.1V(1.05V_CPU)
0.75VA
0.75VB_0.75VC
1.1VB
1.2V_TCAM0
1.2V_TCAM1
1.0V_Bridge_LDO
1.0VB
0.75VD_and_0.75VE
1.2V_TCAM2
1.2V_TCAM3
1.5VC
1.8VD
10460
4920
3283
3294
2510
1804
1203
1794
882
1191
1194
1816
1508
1497
1054
749
755
1104
1205
1207
995
1047
753
1207
1199
1503
1805
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
0/1/*
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host
host
host
host
host
host
host
1.1VC
ZARLINK_3.3V
ZARLINK_1.8V
1.2V_DB
3.3V_DB
2.5V_DB
1.5V_DB
1102
3272
1811
1197
3318
2540
1511
n/a
n/a
n/a
n/a
n/a
n/a
n/a
LED Information
--------------------------------------------R/S/I
Modules
0/RSP0/*
host
host
host
host
LED
Status
Critical-Alarm
Major-Alarm
Minor-Alarm
ACO
Off
Off
Off
Off
Fan Information
--------------------------------------------Fan speed (rpm):
FAN0
FAN1
FAN2
FAN3
FAN4
FAN5
6990
7020
6960
6900
0/FT0/*
7080
7020
0/FT1/*
6900
6900
7110
6960
6900
Power Supply Information
---------------------------------------------
7020
R/S/I
Modules Sensor
Watts
Status
host
3000
Ok
0/PM0/*
PM
3000W
3000W
0W
1910W
Slot
---0/RSP0/CPU0
0/RSP1/CPU0
0/0/CPU0
0/1/CPU0
0/FT0/SP
0/FT1/SP
Worst Case Power Available:
Supply Protected Capacity Available:
Max Watts
--------250
250
375
375
330
330
(default)
(default)
(default)
1090W
Not Protected
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DC-to-DC converters, which convert 54 VDC from the backplane to the correct voltages required
by the line cards.
Power module door is fully closed and properly secured by its latch.
If the power modules meet the above criteria, then the correct source power is present and within
tolerance and output DC power is present. The power modules are functioning properly.
Step 2
If the fan trays are functioning, then the 54 VDC from the chassis backplane and the cables from
the backplane to the fan trays are functioning properly.
If one or both fan trays are not functioning, there may be a problem with either the fan trays
themselves, or the 54 VDC power supplied to the fan trays. Eject and reseat the fan trays.
If a fan tray is still not operating, there could be a problem with the fan tray controller card or cable.
Replace the fan tray.
Contact your Cisco representative if replacing a fan tray or both fan trays does not fix the problem.
Note
A minimally configured router must have an RSP/RP installed in RSP slot 0 or RP slot 0 of the card cage
to operate. If the router is equipped with a redundant RSP/RP, the redundant RSP/RP must be installed
in RSP slot 1 or RP slot 1 of the card cage.
This section contains information to troubleshoot the route processor subsystem, including:
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ACT
MGT LAN 0
LINK
ACT
MGT LAN 1
LINK
CONSOLE
2
AUX
J.211
SYNC 0
BITS
J.211
SYNC 1
BITS
ALARM OUT
KEEP CLOSED
ACO
6
7
LAMP
TEST
FAIL
SYNC
CRIT
HDD
MAJ
CF
MIN
ACO
8
243091
A9K-RSP-4G
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Figure 4-4
J211
SYNC 0
BITS
J211
SYNC 1
BITS
SFP + 0
ACT
IEEE 1588
LINK
SFP + 1
ICS0
GPS INTERFACE
ICS1/TOD
10MHz 1PPS
ALARM OUT
6
7
J.211
MGT LAN 0
BITS
J.211
MGT LAN 1
BITS
CONSOLE
9
AUX
10
A9K-RSP440-SE
330841
12
T
UL
FA PS
D
G
SS
FC
J
IT
MIN
CR
MA
O
NC
IL
SY
FA
AC
11
ACO
LAMP
TEST
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SFP/SFP+ ports
ToD port
10
11
12
Figure 4-5
1
2
3
4
5
6
7
8
9
10
11
12
344073
13
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SFP/SFP+ ports
10
Inter-chassis nv Sync0
11
12
13
Indicator (Label)
Color
Description
Power Fail
(FAIL)
Red
Standby Power Fail LED. The LED is turned off by the CAN bus controller
after it is up and running.
Off
Critical Alarm
(CRIT)
Red
Off
(Default after reset)
Major Alarm
(MAJ)
Red
Off
(Default after reset)
Minor Alarm
(MIN)
Amber
Off
(Default after reset)
Synchronization
(SYNC)
Green
Amber
Off
Internal Hard
Disk Drive
(HDD)
Green
Hard Disk Drive is busy/active. The LED is driven by the SAS controller.
Off
(Default after reset)
External
Compact Flash
(CF)
Green
Off
(Default after reset)
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Table 4-3
Indicator (Label)
Color
Description
Alarm Cutoff
(ACO)
Amber
Alarm Cutoff has been enabled. The ACO push button was pressed after at
least one alarm has occurred.
Off
(Default after reset)
Green
Off
(Default after reset)
External USB
2.0
[RSP-440]
Table 4-4 lists the display definitions of the nine discrete LEDs on the RP front panel.
Table 4-4
Indicator (Label)
Color
Description
Power Fail
(FAIL)
Red
(Default after power on)
Standby Power Fail LED. The LED is turned off by the CAN bus controller
after it is up and running.
Off
Critical Alarm
(CRIT)
Red
Off
(Default after reset)
Major Alarm
(MAJ)
Red
Off
(Default after reset)
Minor Alarm
(MIN)
Amber
Off
(Default after reset)
Alarm Cutoff
(ACO)
Amber
Alarm Cutoff has been enabled. The ACO push button was pressed after at
least one alarm has occurred.
Off
(Default after reset)
Green
Amber
Off
(Default after reset)
Synchronization
(SYNC)
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Table 4-4
Indicator (Label)
Color
Description
Internal Solid
State Hard Disk
Drive (SSD)
Green
Internal Solid State Hard Disk Drive (SSD0) is busy/active. The LED is
driven by the SSD controller.
Off
(Default after reset)
FC Fault
Amber
A fault has occurred on any or all of the FC cards installed. This LED will
be on during the boot phase of the FC.
Off
(Default after reset)
Green
GPS interface provisioned and ports are turned on. ToD, 1 PPS, 10 Mhz are
all valid.
Off
(Default after reset)
Either the interface is not provisioned, or the ports are not turned on. ToD, 1
PPS, 10 Mhz are not valid.
GPS
Note
The RSP only supports +5.2 VDC flash memory devices. It does not support +3.3 VDC PCMCIA
devices.
Note
Note
Because both ports are supported on the RSP/RP card, MGT LAN 0 is always on. MGT LAN 0
lights when it is selected.
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243165
Figure 4-6
Auxiliary portRJ45 interface that supports flow control and is often used to connect a modem, a
channel service unit (CSU), or other optional equipment for Telnet management.
Console portReceptacle (female) that provides a RJ45 interface for connecting a console terminal.
During the boot process, the message displays are controlled directly by the CAN microcontroller.
After the boot process, the message displays are controlled by Cisco IOS XR software (through the
CAN bus).
The alphanumeric message displays also provide information about different levels of system operation,
including the status of the RSP/RP, router error messages, and user-defined status and error messages.
Note
A list of all system and error messages appears in the Cisco IOS XR System Error Messages publication.
Flash Memory
You can use the flash memory on the RSP card to store multiple Cisco IOS XR software and microcode
images that you can use to operate the router. You can download new images to flash memory over the
network (or from a local server) to replace an existing image or to add it as an additional image. The
router can be booted (manually or automatically) from any of the stored images in flash memory.
Flash memory also functions as a Trivial File Transfer Protocol (TFTP) server to allow other servers to
boot remotely from the stored images, or to copy them into their own flash memory.
The system uses two types of flash memory:
Compact flash memory disks (or cards)Contains the Cisco IOS XR software images
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Note
Table 4-5 lists supported compact flash disk sizes and Cisco part numbers.
Table 4-5
Part Number
1 GB
16-3204-01
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You can use the alphanumeric display to isolate a problem with the RSP:
Alphanumeric display is powered directly from the CAN microcontroller on the RSP card through
the chassis backplane:
If the alphanumeric display is not operating, the CAN microcontroller may be malfunctioning.
If the CAN microcontroller is operating, the alphanumeric display could be on even if the RSP
If the alphanumeric display is not operating, but the power modules and the fan trays are operational,
the RSP may not be installed properly, or the +5 VDC output from the chassis backplane may be
faulty:
Make sure that the system is powered on.
Initialize the RSP card by ejecting it from the chassis backplane and then reseating it.
If the alphanumeric display is operating, check the meaning of the messages (see Table 4-6 for the
RSP).
When the DC-to-DC converters are powered on by the CAN microcontroller, the begins the RSP
boot process and displays various status messages. Some messages appear briefly; while others
appear for several seconds. If the messages appear to stop at a particular point, the boot process may
be halted:
Make a note of the message.
Turn off power to the router, then turn on the power again to reset the router and start the boot
process. If the router halts again, replace the RSP (see the Removing and Replacing Cards from
the Chassis section on page 5-19).
Table 4-6
Message
Description
PST1
PST2
PST3
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Insertion count for an RSP, RP, FC, or line card has reached a specified threshold. For more
information on OIR insertion counts, see OIR Monitoring section on page 5-3.
The alarm LEDs are controlled by the CAN microcontroller software, which sets the threshold levels for
triggering the different stages of alarms.
The RSP/RP card continuously polls the system for temperature, voltage, current, and fan speed values.
If a threshold value is exceeded, the RSP/RP sets the appropriate alarm severity level on the alarm card,
which lights the corresponding LED, and energizes the appropriate alarm display relays to activate any
external audible or visual alarms wired to the alarm display. The RSP/RP also logs a message about the
threshold violation on the system console.
Note
If one or more of the alarm LEDs is on, check the system console for messages describing the alarm.
Caution
When troubleshooting the fan trays, never unplug all the fan trays at the same time.
This section contains information to troubleshooting the cooling subsystem and includes:
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If the air temperature inside the chassis rises, blower speed increases to provide additional cooling air to
the internal components. If the internal air temperature continues to rise beyond the specified threshold,
the system environmental monitor shuts down all internal power to prevent equipment damage because
of excessive heat.
If the system detects that one or more of the fans in the fan tray has failed, it displays a warning message
on the system console. In addition, the remaining fans go to full speed to compensate for the loss of the
failed fan.
Note
Due to air leakage, the chassis should not be operated with any of the fan trays completely missing.
Replace any missing fan tray within five minutes. Any fan tray replacement should be performed when
the chassis is back to room temperature.
If the power source is within the required range, the power supply fan remains on.
If a fan fails:
Power module detects an internal overtemperature condition.
Fault and Temp indicators light.
Power module sends an overtemperature warning to the system and then shuts down the system.
For additional power supply troubleshooting information, see the Troubleshooting the Power
Subsystem section on page 4-6.
Note
For the RSP/RP to communicate properly to a power module in a power tray, input power to at least one
of the three power modules in the power tray should be present.
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Overtemperature Conditions
The following console error message indicates that the system has detected an overtemperature condition
or out-of-tolerance power value inside the system:
Queued messages:
%ENVM-1-SHUTDOWN: Environmental Monitor initiated shutdown
The preceding message could also indicate a faulty component or temperature sensor. Enter the show
environment command or the show environment all command at the user EXEC prompt to display
information about the internal system environment. The information generated by these commands
includes:
Temperature measurements received by two sensors on each card (one for inlet air temperature and
one for the cards hot-spot temperature) as well as temperature measurements from sensors located
in each power module
Heated exhaust air from other equipment in the immediate environment is not entering the chassis
card cage vents.
You allow sufficient air flow by maintaining a minimum of 6 inches (15.24 cm) of clearance at both
the inlet and exhaust openings on the chassis and the power modules to allow cool air to enter freely
and hot air to be expelled from the chassis.
Caution
Step 2
Make sure the fan trays are operating properly when you power on the system. To determine if a fan tray
is operating, check the LED indicator on each fan tray front panel:
OK (green)Fan tray is functioning properly and receiving 48 VDC power, indicating that the
cables from the chassis backplane to the fan tray are good.
Fail (red)Fault is detected in the fan tray. Replace the fan tray.
If neither indicator is on and the blower is not operating, there may be a problem with either the fan
tray or the 48 VDC power supplied to the fan tray. Go to Step 2.
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Step 3
Check for 48 VDC power by looking at the LED indicators on each power module:
If the Pwr OK indicator is on and the Fault indicator is off on each power module, it indicates that
the fan trays are receiving 48 VDC:
If a fan tray is still not functioning, there could be a problem with the fan tray controller card
or an undetected problem in the fan tray cable. Replace the fan tray.
If the new fan tray does not function, contact a Cisco customer service representative for
assistance.
If the Fault indicator is on, the power supply is faulty. Replace the power supply.
If the Temp and Fault indicators are on, an overtemperature condition exists:
Verify that the power supply fan is operating properly.
If the fan is not operating, replace the power supply.
Contact your Cisco representative if replacing the power supply does not fix the problem.
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Read the safety and ESD-prevention guidelines described in the Compliance and Safety
Information section on page 1-2.
Ensure that you have all the necessary tools and equipment before beginning the procedure.
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RSP cards
Power modules
Power trays
Only version 2 power trays are FRUs
Router must be powered down before power tray removal
Note
Fan trays
Air filters
RP cards
FC cards
Power modules
Power trays
The Cisco ASR 9922 Router uses only version 2 power trays
The Cisco ASR 9922 Router must be powered down before power tray removal
Note
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Caution
Note
Although the power trays are not a true FRU because they do not support OIR, a procedure for replacing
the power trays in Cisco ASR 9000 Series Router is included in this chapter in the event a replacement
becomes necessary.
OIR Monitoring
The BPID board monitors OIR by counting the number of card insertions for each slot and saving that
information in non-volatile memory. OIR monitoring is done for all fan trays, RSP, RP, FC, and line
cards. A card insertion is determined by the CAN Bus Controller (CBC) of the inserted card booting up
and sending a CBC message which is intercepted by the BPID board. Note that a CBC reset or power
cycle on a card will also be interpreted as a card insertion.
Note
A card with an OIR count that exceeds 175 will generate a minor alarm against that slot. If the card OIR
count exceeds 200, a major alarm is generated against that slot. Fan tray insertion counts are not checked
against a threshold. See the Release Notes for Cisco ASR 9000 Series Aggregation Services Routers for
Cisco IOS XR Software Release 3.9.1 for information about CLI commands for obtaining and resetting
card insertion data.
Do not turn off the switch on the power tray to remove individual power modules. Power modules
support OIR, so they can be removed and replaced with the power on and the system operating.
If it becomes necessary to turn all power off to the router, use the following procedure:
Step 1
Set the power switch on each power tray to the off (0) position.
Step 2
Power off all circuit breakers for the source power lines connected to the power trays.
Step 3
Step 4
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Chapter 5
Note
In the ASR 9010 Router and Cisco ASR 9006 Router, the chassis air filter is not serviceable. It should
be replaced on a regular maintenance interval. The interval may vary between 3 and 12 months
depending on the environment.
Note
In the Cisco ASR 9922 Router, the three air filters contain foam media which filters the air going into
the chassis. The three air filters can be removed from the chassis so that the foam media can be replaced
on a regular maintenance interval.The interval may vary between 3 and 12 months depending on the
environment.
Caution
Damage to the air filter can restrict the airflow, cause overheating in the router, and degrade
electromagnetic interference (EMI) compliance. Be careful when cleaning and replacing the filter.
In the ASR 9010 Router chassis, the air filter is located underneath the fan trays (see Figure 5-1). The
air filter in the Cisco ASR 9006 Router is located along the right side of the chassis and is accessible
from the rear (see Figure 5-2). The Cisco ASR 9922 Router has its three air filters on the front of the
middle card cage (see Figure 5-4).
Use the following procedure to replace an air filter:
Step 1
If the accessory grill has been installed on the front of the Cisco ASR 9010 Router, remove it from the
front of the chassis by simply pulling on the grill until it comes loose. See the Installing Base Chassis
Accessories on the Cisco ASR 9010 Router section on page 2-36 and Figure 2-34 for information about
the accessory grill.
Step 2
For the Cisco ASR 9010 Router, remove the air filter by simply sliding it out of the chassis (Figure 5-1).
Replacing the ASR 9010 Router Chassis Air Filter
243206
Figure 5-1
Step 3
For the Cisco ASR 9006 Router, loosen the thumb screw that secures the filter to the chassis, and then
slide the air filter out of the chassis (see Figure 5-2).
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243375
Figure 5-2
1
2
Air Filter
Thumb screw
Step 4
If any fan tray covers have been installed on the front of the Cisco ASR 9922 Router, remove them from
the front of the chassis by simply pulling on the covers until they come loose.
Step 5
For the Cisco ASR 9922 Router, remove the three air filters by pulling them off the front of the chassis
(see Figure 5-3). Then, for each filter, loosen the thumb screws, rotate the inner frame out, and replace
the foam media (see Figure 5-4 and Figure 5-5).
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Figure 5-4
Removing the Cisco ASR 9922 Router Chassis Center Air Filter
344069
Figure 5-3
1
3
302420
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Figure 5-5
Removing the Cisco ASR 9922 Router Chassis Side Air Filter
302421
Step 6
Visually check the condition of the air filter and/or its foam media to determine whether to install a new
replacement filter or foam media.
Step 7
For the Cisco ASR 9010 Router, slide the new air filter into the air filter door (honeycomb side up). For
the Cisco ASR 9006 Router, tighten the thumb screw to secure the filter to the chassis. For the
Cisco ASR 9922 Router, tighten the thumb screws and re-attach the three front air filters.
Caution
Align and seat the door carefully to avoid damaging the EMI-preventive gaskets on the door. The air
filter door must be closed and secured at all times to maintain correct EMI performance.
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Steps
Use the following procedures to remove and replace the fan trays:
Caution
Warning
Be sure that the fans have stopped running before removing the fan tray. The fans can take from 3 to
5 seconds to completely stop running after disengaging the fan tray latch. Handling the fan tray before
the fans have stopped running could cause fingertip injury.
Note
Due to air leakage, the chassis should not be operated with any of the fan trays completely missing.
Replace any missing fan tray within five minutes. Any fan tray replacement should be performed when
the chassis is back to room temperature.
Note
If the accessory grill has been installed on the front of the Cisco ASR 9010 Router, you must remove it
before you can remove the lower fan tray. You can remove the accessory grill by simply pulling on the
grill until it comes loose. See the Installing Base Chassis Accessories on the Cisco ASR 9010 Router
section on page 2-36 and Figure 2-34 for information about the accessory grill.
Note
If the fan tray cover has been installed on the front of the Cisco ASR 9922 Router, you must remove it
before you can remove the fan tray. Remove the fan tray cover by simply pulling on the cover until it
comes loose.
To remove a fan tray from the chassis (see Figure 2-8, Figure 2-9, or Figure 2-10):
Step 1
Use the 6-in. long number 2 Phillips screwdriver to a torque of 10 +/1 in-lb to loosen the captive
screw(s) that secure the fan tray.
Step 2
Use the handle on the fan tray front panel to pull the fan tray halfway out of the module bay.
Step 3
Slide out the fan tray completely from the chassis while supporting it with your other hand.
Warning
Use two hands when handling the fan tray. Each Cisco ASR 9010 Router version 1 fan tray weighs
about 16 pounds (7.27 kg). Each Cisco ASR 9922 Router fan tray or Cisco ASR 9010 Router version 2 fan
tray weighs about 18 pounds (8.18 kg).
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Step 1
Lift the fan tray (with two hands) and slide it halfway into the module bay.
Step 2
Slowly push the fan tray into the chassis until it mates with the backplane connector at the back of the
module bay.
Caution
To prevent damage to the connectors, do not use excessive force when inserting the fan tray into the
chassis.
Step 3
Tighten the captive screw(s) on the fan tray using the 6-in. long number 2 Phillips screwdriver to a torque
of 10 +/1 in-lb to secure it to the chassis.
Step 4
Verify that the (green) OK status indicator on the front of the fan tray goes on. If the OK indicator does
not light, see the Troubleshooting the Cooling Subsystem section on page 4-25.
Note
For the RSP/RP to communicate properly to a power module in a power tray, input power to at least one
of the three power modules in the power tray should be present.
Caution
Do not turn off the switch on the power tray to remove individual power modules. Power modules
support OIR, so they can be removed and replaced with the power on and the system operating.
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Step 2
Pivot the door to the right to eject the power module from its bay.
Step 3
Slide the power module out of its bay while supporting it with your other hand.
Warning
Use two hands to remove the power module. The power supply weighs about 6.5 pounds (2.95 kg).
Removing or Installing a Version 1 AC or DC Power Module
243181
Figure 5-6
Steps
To remove a version 2 AC or DC power module from the chassis (see Figure 5-7):
Step 1
Unscrew the Phillips screw that secures the power module using the 7/16 Hex socket and torque wrench
with the torque set to 50 inch-pounds.
Step 2
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Step 3
Warning
Slide the power module out of its bay while supporting it with your other hand.
Use two hands to remove the power module. The power supply weighs about 6.5 pounds (2.95 kg).
Removing or Installing a Version 2 AC or DC Power Module
331400
Figure 5-7
Slide the power module into the bay until it mates with its backplane connector.
Step 2
Pivot the door to the left until the door latch locks.
Caution
To prevent damage to the power tray backplane connector, do not use excessive force when inserting the
power module into the power tray.
Step 3
Verify that the (green) Power Input indicator on the front of the power module goes on. If the indicator
does not light, see the Troubleshooting the Power Subsystem section on page 4-6.
Slide the power module into the bay until it mates with its backplane connector.
Step 2
Step 3
Tighten the Phillips screw that secures the power module using the 7/16 Hex socket and torque wrench
with the torque set to 50 inch-pounds.
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Caution
To prevent damage to the power tray backplane connector, do not use excessive force when inserting the
power module into the power tray.
Step 4
Verify that the (green) Power Input indicator on the front of the power module goes on. If the indicator
does not light, see the Troubleshooting the Power Subsystem section on page 4-6.
Disconnecting AC Power
To disconnect an individual AC power cord, use the following procedure:
Step 1
Power OFF (0) the circuit breaker assigned to the AC power source you are disconnecting.
Step 2
Loosen the retainer bracket holding the AC power cord to the power tray receptacle.
Step 3
Caution
Do not turn off the switch on the power tray to remove AC power cords. An individual AC power cord
can be unplugged while the system is powered from other AC power sources.
If it becomes necessary to disconnect all AC power from the router, use the following procedure:
Caution
Do not disconnect all power from the router to replace components, including power modules. See the
Power Module Replacement Guidelines section on page 5-9.
Step 1
Set the power switch at the rear of the AC power tray to the OFF (0) position.
Step 2
Power OFF (0) the circuit breakers assigned to the AC power sources you are disconnecting.
Warning
To ensure that power remains off while you are performing this procedure, tape the circuit breaker
switch in the OFF (0) position.
Step 3
Loosen the retainer bracket holding the AC power cords to the power tray receptacle.
Step 4
Reconnecting AC Power
To reconnect an individual AC power cord to a power tray, simply plug in the AC power cord using the
following procedure:
Step 1
Power OFF (0) the circuit breaker assigned to the AC power source you are reconnecting.
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Step 2
Step 3
Close and tighten the retainer bracket holding the AC power cord to the power tray receptacle.
Step 4
Caution
Do not turn off the switch on the power tray to reconnect AC power cords. An individual AC power cord
can be plugged in while the system is powered from other AC power sources.
If power has been totally disconnected from the router, use the following procedure to reconnect AC
power to the AC power tray:
Caution
The following procedure is only to be used when reconnecting power to all power trays in a system that
has been powered down completely.
Step 1
Check that the power switch at the rear of the AC power tray is set to the OFF (0) position.
Step 2
Check that the circuit breaker assigned to the AC power source you are connecting is set to OFF (0).
Warning
To ensure that power remains off while you are performing this procedure, tape the circuit breaker
switch in the off (0) position until you are ready to turn it on.
Step 3
Plug the AC power cords into the power tray receptacle (see Figure 3-15).
Step 4
Close the retainer bracket to secure the AC power cord plug to the power tray receptacle.
Step 5
Step 6
Set the power switch at the rear of the AC power tray to the ON (1) position.
Disconnecting DC Power
Caution
It is not necessary to disconnect all power from the router to replace components, including power
modules. See the Power Module Replacement Guidelines section on page 5-9.
To disconnect an individual DC power source from a power tray, use the following procedure (see
Figure 3-17 for version 1 DC power, Figure 3-19 for version 2 DC power):
Step 1
Warning
Step 2
Power off the circuit breaker assigned to the DC power source you are disconnecting.
To ensure that power remains off while you are performing this procedure, tape the circuit breaker
switch in the off (0) position.
Remove the clear plastic safety covers that fit over the DC power connection terminal studs.
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Warning
Step 3
Step 4
To prevent injury and damage to the equipment, always remove the source DC power cables and
ground from the power tray terminals in the following order: (1) negative (), (2) positive (+),
(3) ground.
Disconnect the DC power cables from their terminals in the following order and note the color of each
cable (see Figure 3-17 for version 1 DC power, Figure 3-19 for version 2 DC power):
a.
b.
c.
Repeat Step 1 through Step 3 for the other power tray, if installed.
If it becomes necessary to disconnect all DC power from the router, use the following procedure (see
Figure 3-17 for version 1 DC power, Figure 3-19 for version 2 DC power):
Note
Caution
This procedure describes how to disconnect DC power from all power modules in a single DC power
tray. The procedure is the same for each DC power tray, if more than one is installed.
If only one power tray is installed, performing the following procedure turns off all power to the router.
Step 1
Step 2
Power OFF (0) the circuit breaker assigned to the DC power source you are disconnecting.
Warning
Step 3
Warning
Step 4
Step 5
To ensure that power remains off while you are performing this procedure, tape the circuit breaker
switch in the off (0) position.
Remove the clear plastic safety covers that fit over the DC power connection terminal studs.
To prevent injury and damage to the equipment, always remove the source DC power cables and
ground from the power tray terminals in the following order: (1) negative (), (2) positive (+),
(3) ground.
Disconnect the DC power cables from their terminals in the following order and note the color of each
cable (see Figure 3-17 for version 1 DC power, Figure 3-19 for version 2 DC power):
a.
b.
c.
Repeat Step 1 through Step 4 for the other power tray, if installed.
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Reconnecting DC Power
Caution
This procedure is only to be used when reconnecting power to all power modules in a system that has
been powered down completely.
Use the following procedure to reconnect DC power to a DC power tray:
Step 1
Step 2
Check that the circuit breaker assigned to the DC power source you are reconnecting is powered OFF (0).
Step 3
b.
c.
d.
Repeat Step 1 through Step 3 for the other power tray (Cisco ASR 9010 Router only)
Warning
To prevent injury and damage to the equipment, always attach the ground and source DC power cable
lugs to the power tray terminals in the following order: (1) ground to ground, (2) positive (+) to positive
(+), (3) negative () to negative ().
Caution
Do not overtighten the nuts that secure the DC power cables to the power tray terminals. The nuts should
be tightened using the 7/16 Hex socket and torque wrench to a torque of 45 to 50 in-lb.
Step 4
Replace the clear plastic safety covers over the DC power connection terminal studs and tighten the
screws.
Step 5
Step 6
Caution
Power tray removal and replacement procedures are to be performed by qualified service persons only.
Warning
All power to the node must be shut off at the branch circuit disconnect device before beginning power
tray replacement procedures. Removal of a tray requires disconnection of power cabling on the back
of the chassis that exposes service persons to exposed wiring from the unaffected tray.
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Caution
All terminal block covers should be replaced prior to energizing the power cabling to the system.
Use the following procedure to remove an AC or DC power tray from the chassis:
Step 1
Step 2
Step 3
For the ASR 9010 Router, remove the front grill by pulling it away from the chassis (see Figure 5-8).
Removing the Front Grill on the Cisco ASR 9010 Router
247895
Figure 5-8
Step 4
For the Cisco ASR 9922 Router, the front power tray bezel is a standard item that comes with ball studs
already installed. Simply install it by snapping it onto the chassis, or remove it by pulling it away from
the chassis (see Figure 5-9).
Removing the Front Power Tray Bezel on the Cisco ASR 9922 Router
302359
Figure 5-9
Step 5
Loosen and remove the two screws at each end of the power tray that attach the tray to the chassis.
Step 6
Loosen the two captive screws (one per ejector lever) to release the ejector levers. Figure 5-10 shows the
process for the version 1 power trays and Figure 5-11 shows the process for the version 2 power trays.
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Figure 5-10
Removing a Power Tray - Version 1 Power Tray - Cisco ASR 9010 Router Shown
247898
Figure 5-11
Removing a Power Tray - Version 2 Power Tray - Cisco ASR 9010 Router Shown
284407
Step 7
Rotate the ejector levers away from the tray to unseat the tray from its mating connector. Figure 5-10
shows the process for the version 1 power trays and Figure 5-11 shows the process for the version 2
power trays.
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Step 8
Slide the power tray into the bay until it engages its mating connector on the chassis. The ejector levers
will partly rotate inward as you do this.
Step 2
Fully rotate the ejector levers inward to fully seat the power tray into its mating connector and seat the
power tray mounting ears against the chassis mounting ears. Figure 5-12 shows the process for the
version 1 power trays and Figure 5-13 shows the process for the version 2 power trays.
When the power tray is fully seated, the captive screw in each ejector aligns with the screw hole in the
power tray frame.
Figure 5-12
Rotating the Ejector Levers Inward to Seat the Version 1 Power Tray
3
248319
1
2
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Rotating the Ejector Levers Inward to Seat the Version 2 Power Tray
331403
Figure 5-13
Step 3
Install the captive screw in each ejector lever into the screw hole in the power tray frame (see Figure 5-12
or Figure 5-13).
Step 4
Use the 6-in. long number 2 Phillips screwdriver to tighten the two ejector screws to a torque of 10 +/-1
in-lb to secure the ejectors and to secure the tray to its mating connector.
Step 5
Install and tighten two screws through the power tray mounting ears on each side into the screw holes in
the chassis mounting ears to secure the tray to the chassis.
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Caution
Handle all cards by the metal card carrier edges only; avoid touching the board or any connector pins.
After removing a card, carefully place it in an antistatic bag or similar environment to protect it from
ESD and dust in the optic ports (fiber-optic line cards).
Caution
Be careful to avoid damaging the EMI gasket that runs along the full height of the card front panel edges.
Damage to the EMI gasket can affect the ability of your system to meet EMI requirements.
Caution
To avoid damaging card mechanical components, never carry an RSP, RP, FC, or line card by the captive
installation screws or ejector levers. Doing so can damage these components and cause card insertion
problems.
Note
The BPID board monitors OIR by counting the number of card insertions for each slot and saving that
information in non-volatile memory. OIR monitoring is done for all line cards, the RSP, the RP, and the
fan trays. See the OIR Monitoring section on page 5-3 for more information.
Step 2
Identify the type of line card and its slot number. Write this information on a piece of paper before
you disconnect the cables. Youll need this information when you reinstall the line cards.
b.
Identify the line card cable and its port connection. Label the cable with this information.
c.
Starting with the port of the line card farthest from the cable management bracket, disconnect the
interface cable connectors from each of the line card ports.
d.
Carefully remove the cables from the cable-management bracket attached to the front panel of the
line card
e.
(Optional) Use the 6-in. long number 2 Phillips screwdriver to a torque of 10 +/1 in-lb to loosen
the captive screw that secures the cable-management bracket to the line card and remove the
cable-management bracket from the line card.
f.
Carefully remove the cables from the horizontal cable management tray at the top of the chassis
(Cisco ASR 9010 Router, Cisco ASR 9922 Router) or side cable management brackets
(Cisco ASR 9006 Router) and carefully place the cable bundle out of the way.
Remove the card (see Figure 2-15, Figure 2-16, or Figure 2-19):
a.
Use the 6-in. long number 2 Phillips screwdriver to a torque of 10 +/1 in-lb to loosen the captive
screws at each end of the card front panel.
b.
On the FC card (see Figure 2-18), push in both ejector lever release buttons.
c.
Pivot the ejector levers to unseat the card from the backplane connector.
d.
Slide the card out of the slot and place it directly into an antistatic bag or other ESD-preventive
container.
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Step 3
Step 2
Step 3
Install the card (see Figure 2-15, Figure 2-16, or Figure 2-19):
a.
Slide the card into the slot, being sure to install the card in the same slot you recorded when you
removed the card.
b.
Use the 6-in. long number 2 Phillips screwdriver to a torque of 10 +/1 in-lb to tighten the captive
screws at each end of the card front panel.
c.
Pivot the ejector levers to seat the card into the backplane connector.
If you previously disconnected the card cable management bracket, reattach it to the card and use
the 6-in. long number 2 Phillips screwdriver to a torque of 10 +/1 in-lb to tighten the captive screw
on the bracket to secure it to the card front panel.
b.
Carefully reroute the cables through the horizontal cable management tray at the top of the chassis
(the Cisco ASR 9922 Router has an additional tray at the bottom of the chassis) or side cable
management brackets (Cisco ASR 9006 Router).
c.
d.
Starting with the port of the card closest to the cable management bracket, reconnect the interface
cable connectors to each of the card ports using the cable and port connection information you
recorded when removing the cables.
Warning
You must use two people to remove the chassis from the equipment rack safely. An empty chassis can
weigh up to approximately 300 pounds (136 kg).
Step 1
Power off the router (see the Powering Off the Router section on page 5-3).
Step 2
Step 3
Disconnect the power from the power modules on the rear of the chassis:
For AC power modules, see the Disconnecting AC Power section on page 5-12.
For DC power modules, see the Disconnecting DC Power section on page 5-13.
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Step 4
Disconnect the supplemental bonding and grounding connection from the chassis (see the
Supplemental Bonding and Grounding Connections section on page 2-33).
Step 5
Remove the fan tray (see the Removing and Replacing the Fan Trays section on page 5-7).
Step 6
Disconnect RSP/RP cables connected to the console port, auxiliary port, or either of the management
Ethernet ports.
Be sure to label each of the RSP/RP cables before you disconnect the cables.
Step 7
Disconnect any cables connected to the external alarm port on the alarm display.
Label each of the alarm display cables before you disconnect the cables.
Step 8
Step 9
Remove RSP, RP, FC, and line cards from the chassis (see the Removing and Replacing Cards from the
Chassis section on page 5-19).
Step 10
Remove the chassis air filter (see the Replacing the Chassis Air Filter section on page 5-4).
Step 11
Using the side handles to support the weight of the chassis, remove the screws that attach the chassis
rack mount flanges and the side rack mount brackets to the rack posts.
b.
Carefully lift the chassis out of the rack and set it aside.
c.
Use the rear handle on the Cisco ASR 9922 Router to push the chassis out of the rack and onto an
adjacent pallet jack for transport.
Install the new chassis in the rack (see the Rack-Mounting the Router Chassis section on page 2-24).
Step 2
Install the power modules (see the Removing and Replacing an AC or DC Power Module section on
page 5-9).
Step 3
Install the fan tray (see the Removing and Replacing the Fan Trays section on page 5-7).
Step 4
Install RSP, RP, FC and line cards in the chassis (see the Removing and Replacing Cards from the
Chassis section on page 5-19).
Step 5
Install the chassis air filter (see the Replacing the Chassis Air Filter section on page 5-4).
Step 6
Connect all line card and interface cables (see the Connecting Line Card Network Interface Cables
section on page 3-14).
Step 7
Connect the supplemental bonding and grounding connection (if there is one) to the chassis (see the
Supplemental Bonding and Grounding Connections section on page 2-33).
Step 8
Step 9
For AC power modules, see the Reconnecting AC Power section on page 5-12.
For DC power modules, see the Reconnecting DC Power section on page 5-15.
To turn on power to the router, see the Powering on the Router section on page 3-27.
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A P P E N D I X
Technical Specifications
This appendix lists the specifications for the Cisco ASR 9000 Aggregation Services Routers.
The specifications are presented in the following tables:
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Technical Specifications
Table A-1 lists the physical specifications for the Cisco ASR 9010 Router.
Table A-1
Description
Value
Chassis height
Chassis width
Chassis depth
Chassis weight
Chassis only1
1. Chassis only does not include cards, power modules, fan trays, filter or chassis accessories.
Table A-2 lists the physical specifications for the Cisco ASR 9006 Router.
Table A-2
Description
Value
Chassis height
Chassis width
Chassis depth
Chassis weight
Chassis only1
1. Chassis only does not include cards, power modules, fan trays, filter or chassis accessories.
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Technical Specifications
Table A-3 lists the physical specifications for the Cisco ASR 9922 Router.
Table A-3
Description
Value
Chassis height
Chassis width
Chassis depth
Chassis weight
Chassis only1
Chassis: fully configured using all card slots 1038 pounds (470.28 kg)
and four power trays
1. Chassis only does not include any cards, power modules, fan trays, or chassis accessories.
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Technical Specifications
Table A-4 lists the environmental specifications for the Cisco ASR 9000 Series Router.
Table A-4
Description
Operating Temperature:
Value
1
41 to 104F
(5 to 40C)
Operating Temperature1,2
(Short term)3,4:
Non-operating Temperature
-40 to 158F
(-40 to 70C)
Humidity
Altitude
Power Dissipation
(Cisco ASR 9010 Router)
7600 W maximum
Power Dissipation
(Cisco ASR 9006 Router)
4556 W maximum
Power Dissipation
(Cisco ASR 9922 Router)
24,000 W maximum
Acoustic noise
Shock
Vibration
1. Operating temperature specifications for the router will differ from those listed in this table when 40-port Gigabit
Ethernet line cards using GLC-GE-100FX SFP transceiver modules are installed in the router. This is due to the lower
temperature specifications of the SFP module. Please contact a Cisco representative for more information.
2. Short term operating temperature specifications for the router will differ from those listed in this table when the
16-port 10-Gigabit Ethernet line card is installed in the router because of the lower temperature specifications of the
SFP+ modules that are used in this line card. When using this line card, the maximum operating temperature is 104F
(40C).
3. Short-term refers to a period of not more than 96 consecutive hours and a total of no more than 15 days in 1 year.
(This refers to a total of 360 hours in any given year, but no more than 15 occurrences during that 1-year period.).
4. The 24 port 10 Gigabit Ethernet linecard requires high temperature optics to run in the extended temperature range.
5. Operating altitude specifications for the router will differ from those listed in this table when the 16-port 10-Gigabit
Ethernet line card is installed in the router. When using the SFP-10G-SR module, the maximum altitude is 5905 ft.
(1800 m). When using the SFP-10G-LR or SFP-10G-ER modules, the maximum altitude is sea level.
6. G is a value of acceleration, where 1G equals 32.17 ft./sec2 (9.81 m/sec2).
7. Grms is the root mean square value of acceleration.
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Technical Specifications
Table A-5 lists the AC electrical specifications for the Cisco ASR 9010 Router.
Table A-5
Description
Value
3400 VA (volt-amps)
Source AC service
requirement1
Redundancy
At least four AC power modules (two per power tray) are required for
2N redundancy for a fully configured system (version 1 and version 2)
1. For each AC power supply module. Some power/chassis configurations may operate at lower current ratings than those
specified in this table. Contact your Cisco technical representative for more information.
Caution
Be sure that the chassis configuration complies with the required power budgets. Failure to properly
verify the configuration may result in an unpredictable state if one of the power units fails. Contact your
local sales representative for assistance.
Table A-6 lists the AC electrical specifications for the Cisco ASR 9006 Router.
Table A-6
Description
Value
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Table A-6
Technical Specifications
Description
Value
Source AC service
requirement1
Redundancy
1. For each AC power supply module. Some power/chassis configurations may operate at lower current ratings than
those specified in this table. Contact your Cisco technical representative for more information.
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Table A-7 lists the AC electrical specifications for the Cisco ASR 9922 Router.
Table A-7
Description
Value
3400 VA (volt-amps)
Source AC service
requirement1
Redundancy
1. For each AC power supply module. Some power/chassis configurations may operate at lower current ratings than those
specified in this table. Contact your Cisco technical representative for more information.
Note
Both the AC-powered and DC-powered versions of the the Cisco ASR 9922
Router only support Version 2 power systems.
Table A-8 lists the DC electrical specifications for the Cisco ASR 9010 Router.
Table A-8
Description
Value
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Table A-8
Technical Specifications
Description
Value
Source DC service
requirement1
Redundancy
At least four DC power modules (two per power tray) are required for
N+1 redundancy for a fully configured system (version 1 and version
2)
1. For each DC power supply module. Some power/chassis configurations may operate at lower current ratings than those
specified in this table. Contact your Cisco technical representative for more information.
Table A-9 lists the DC electrical specifications for the Cisco ASR 9006 Router.
Table A-9
Description
Value
Source DC service
requirement1
Redundancy
1. For each DC power supply module. Some power/chassis configurations may operate at lower current ratings than
those specified in this table. Contact your Cisco technical representative for more information.
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Table A-10 lists the DC electrical specifications for the Cisco ASR 9922 Router.
Table A-10
Description
Value
Version 2:
2300 W (2100 W output module)
Source DC service
requirement1
Redundancy
1. For each DC power supply module. Some power/chassis configurations may operate at lower current ratings than those
specified in this table. Contact your Cisco technical representative for more information.
Note
Table A-11 lists the AC input voltage range for the AC-powered Cisco ASR 9000 Series Router (single
phase power source).
Table A-11
Range
Minimum
Minimum
Nominal
Nominal
Maximum
Nominal
Maximum
Input Voltage
180 VAC
200 VAC
220 VAC
240 VAC
264 VAC
50 Hz
50/60 Hz
60 Hz
63 Hz
Line Frequency 47 Hz
Table A-12 lists the DC input voltage range for the DC-powered Cisco ASR 9000 Series Router.
Table A-12
Range
Minimum
Nominal
Maximum
Input Voltage
40 VDC
48 VDC
72 VDC
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Technical Specifications
Table A-13 lists the DC output tolerances for AC or DC power modules for the version 1 power system.
Table A-13
Parameter
Value
Voltage
Maximum
54.5 VDC
Nominal
54.0 VDC
Minimum
53.5 VDC
Power
1500 W
1. Maximum output power the power system is capable of supporting (not system power consumption).
Table A-14 lists the DC output tolerances for AC or DC power modules for the version 2 power system.
Table A-14
Parameter
Value
Voltage
Maximum
55.5 VDC
Nominal
54.0 VDC
Minimum
52.5 VDC
Power
2100 W
1
1. Maximum output power the power system is capable of supporting (not system power consumption).
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Appendix A
Technical Specifications
Description
Value
Console port
Auxiliary port
Table A-16 lists the power consumption specifications for the RSP card, RP card, FC card, line cards,
and fan tray.
Caution
Be sure that the chassis configuration complies with the required power budgets. Failure to properly
verify the configuration may result in an unpredictable state if one of the power units fails. Contact your
local sales representative for assistance.
Table A-16
Description
Value
RSP Card
Power consumption
Power consumption
Power consumption
Power consumption
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Appendix A
Table A-16
Technical Specifications
Description
Value
Power consumption
Power consumption
Power consumption
Power consumption
Power consumption
Power consumption
Power consumption
Power consumption
Power consumption
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Appendix A
Technical Specifications
Table A-16
Description
Value
Power consumption
Power consumption
Power consumption
Power consumption
Power consumption
Power consumption
Power consumption
Note
The fan tray power consumption numbers reflect the power budget for a single fan tray.
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Appendix A
Technical Specifications
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A P P E N D I X
Site Log
The site log provides a historical record of all actions relevant to the operation and maintenance of the
router. Keep your site log in a convenient place near the router where anyone who performs the
maintenance has access to it.
Site log entries might include the following:
Installation progressMake entries in the site log to record installation progress. Note any
difficulties and remedies during the installation process.
Upgrades or removal and replacement proceduresUse the site log as a record of router
maintenance and expansion history.
Each time a procedure is performed on the router, update the site log to show the following:
Any field replaceable unit (FRU) that is installed, removed, or replaced
Any router configuration changes
Software upgrades
Corrective or preventive maintenance procedures performed
Intermittent problems
Related comments
The following page shows a sample site log format. You can make copies of the sample or design your
own site log page to meet the needs of your site and equipment.
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Appendix B
Date
Site Log
Initials
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A P P E N D I X
Electrostatic Discharge and Grounding Procedure for the Cisco ASR 9000v Satellite Shelf section
on page C-14
Preparing to Install the Cisco ASR 9000v Satellite Shelf section on page C-21
NTP-J53 Unpack and Inspect the Cisco ASR 9000v Satellite Shelf section on page C-24
NTP-J54 Inspect the Cisco ASR 9000v Satellite Shelf section on page C-24
NTP-J55 Install the Cisco ASR 9000v Satellite Shelf section on page C-29
NTP-J56 Mounting the 19-inch Brackets on the Cisco ASR 9000v Satellite Shelf for the ANSI
Rack Configuration section on page C-31
NTP-J57 Mounting the 23-inch Brackets on the Cisco ASR 9000v Satellite Shelf for the ANSI
Rack Configuration section on page C-32
DLP-J175 Mounting the Brackets on the Cisco ASR 9000v Satellite Shelf for the ETSI Rack
Configuration section on page C-34
DLP-J176 Mounting the Cisco ASR 9000v Satellite Shelf on a Rack (One Person) section on
page C-36
DLP-J177 Mounting the Cisco ASR 9000v Satellite Shelf on the Wall section on page C-38
DLP-J178 Mounting the Cisco ASR 9000v Satellite Shelf on the Desktop section on page C-40
NPT-J57 Replacing the Fan-Tray Assembly in the Cisco ASR 9000v Satellite Shelf section on
page C-43
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
NPT-J58 Replacing the Air Filter in the Cisco ASR 9000v Satellite Shelf section on page C-45
NPT-J59 Installing the Power Feeds and Ground to the Cisco ASR 9000v Satellite Shelf section
on page C-50
DLP-J179 Connecting Office Power (AC) to the Cisco ASR 9000v Satellite Shelf section on
page C-53
DLP-J180 Connecting Office Power (DC) to the Cisco ASR 9000v Satellite Shelf (ANSI Only)
section on page C-55
DLP-J181 Connecting Office Power (DC) to the Cisco ASR 9000v Satellite Shelf (ETSI Only)
section on page C-59
DLP-J182 Turning on and Verifying Office Power (AC) on the Cisco ASR 9000v Satellite Shelf
section on page C-61
DLP-J183 Turning on and Verifying Office Power (DC) on the Cisco ASR 9000v Satellite Shelf
section on page C-62
NTP-J60 Connecting Cables to the EOBC, Timing, and Console Ports on the Cisco ASR 9000v
Satellite Shelf section on page C-63
DLP-J184 Connecting the Timing Cables to the PPS, 10MHz, and ToD/PPS Ports on the Cisco
ASR 9000v Satellite Shelf section on page C-64
DLP-J185 Connecting the Cables to the EOBC or Console Port on the Cisco ASR 9000v Satellite
Shelf section on page C-65
Maintaining the Cisco ASR 9000v Satellite Shelf section on page C-70
NTP-J63 Perform the Cisco ASR 9000v Satellite Shelf Installation Acceptance Test section on
page C-75
DLP-J188 Inspect the Cisco ASR 9000v Satellite Shelf Installation and Connections section on
page C-76
DLP-J189 Measure DC Voltage on the Cisco ASR 9000v Satellite Shelf section on page C-76
System Power for the Cisco ASR 9000v Satellite Shelf section on page C-79
Cisco ASR 9000v Satellite Shelf Physical Dimensions section on page C-81
Cisco ASR 9000v Satellite Shelf Operating Temperature and Humidity section on page C-81
Cisco ASR 9000v Satellite Shelf Switching Capacity section on page C-81
For more general Cisco ASR 9000 hardware information, refer to the Cisco ASR 9000 Hardware
Installation Guide online.
For Cisco IOS XR software Ethernet port configuration and command information, refer to the Cisco
ASR 9000 Series Aggregation Services Router Interface and Hardware Component Command Reference
and the Cisco ASR 9000 Series Aggregation Services Router Interfaces and Hardware Component
Configuration Guide online.
For information specific to Cisco IOS XR software, refer to the Release Notes for Cisco ASR 9000 Series
Aggregation Services Routers for Cisco IOS XR Software online.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Cisco ASR 9000v Satellite Shelf Overview
the 80 Gigabyte modular line card when populated with 4-port 10GE Modular Port Adapters (MPA)
or 2-port 10GE MPAs
the 160 Gigabyte modular line card when populated with 4-port 10GE MPAs or 2-port 10GE MPAs
the line cards that support 10 gigabit ethernet interfaces on the Cisco ASR 9922 Aggregation
Services Router
the line cards that support 10 gigabit ethernet interfaces on the Cisco ASR 9001 Aggregation
Services Router
For more information on the 10 Gigabit Ethernet line cards supported on the Cisco ASR 9000 Series
Aggregation Services Router family, including the Cisco ASR 9922 Aggregation Services Router, refer
to the Cisco ASR 9000 Series Aggregation Services Router Ethernet Line Card Installation Guide online.
For more information on the 10 Gigabit Ethernet line cards supported on the Cisco ASR 9001
Aggregation Services Router, refer to the Cisco ASR 9001 Aggregation Services Router Hardware
Installation Guide online.
The Cisco ASR 9000v satellite shelf is one rack unit high. The Cisco ASR 9000v satellite shelf is
typically connected to a fuse panel to provide distributed power for the Cisco ASR 9000v satellite shelf.
The fuse panel is a third-party equipment and is not described in this documentation. If you are unsure
about the requirements or specifications for a fuse, consult the user documentation for the related
equipment.
The Cisco ASR 9000v satellite shelf cannot operate independently. After connecting the Cisco ASR
9000v satellite shelf to the Cisco ASR 9000 router, the Cisco ASR 9000v satellite shelf is automatically
discovered and registered.
The four SFP+ ports on the Cisco ASR 9000v satellite shelf can be connected to only one card at a time.
The Cisco ASR 9000v satellite shelf supports Gigabit Ethernet and Fast Ethernet for ports numbered 0
to 43. These are SFP ports, The Cisco ASR 9000v satellite shelf supports 10 Gigabit Ethernet for ports
numbered 0 to 3. By default, the four 10GigE ports numbered 0 to 3 are in IC mode and cannot be
changed. The Cisco ASR 9000v satellite shelf also supports copper ports via Copper SFPs and Active
Cable Copper SFP+ pluggables. Refer to Table C-17 for more information.
The Cisco ASR 9000v satellite shelf has redundant DC feeds. The Cisco ASR 9000v satellite shelf DC
power supply can handle 48 V. The 48 V power supply has both ANSI and ETSI versions.
The Cisco ASR 9000v satellite shelf has a removable fan tray and a local console port for onsite access
and debugging.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Cisco ASR 9000v satellite shelf with AC power. See Figure C-1.
Cisco ASR 9000v satellite shelf with DC ETSI 48 V. See Figure C-2.
Cisco ASR 9000v satellite shelf with DC ANSI 48 V. See Figure C-3.
Figure C-1
Figure C-2
PWR
Figure C-3
FAN
CRIT
MAJ
MIN
B
-48V
PWR
5A
FAN
CRIT
MAJ
MIN
Card-Level LED
Description
PWR
Indicates the status of the power to the card. If there is a power failure, this LED
turns red.
FAN
Indicates the status of the fan to the card. If there is a fan failure, this LED turns
red.
CRIT
MAJ
MIN
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Cisco ASR 901 Router Hardware Description
Dual feed supply with redundant DC inputs plus built in redundant power supply (RPS)
Two management ports: RS-232 serial console and 10/100 Base-T Ethernet ports
Two miniature coaxial connectors for 10Mhz and 1PPS timing (input or output). You can use these
interfaces with an external GPS device to send or receive clocking from the router.
Eight RJ-45 jacks for copper Ethernet ports, labeled 100/1000 Ethernet.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
A single alarm
Figure C-4
2
3
24V - 60V
3A
A
TOD
ALARM
11
MGMNT
USB
1 PPS
10 MHz
BITS
NG-MRW
-E
CONSOL
E
10
300097
GE
COMBO
SFP
SYSTEM
ToD Port
BITS Port
Management Port
Power LED
8 SFP Ports
10 Alarm
8 GE Ports
11 Power Connector
Console Port
The Cisco ASR 901 router as a satellite shelf has 16 gigabit ethernet (8 RJ45, 8 SFP) ports and one 10
gigabit ethernet SFP+ port which can be connected to the following line cards that support 10 gigabit
ethernet interfaces:
the 80 Gigabyte modular line card when populated with 4-port 10GE Modular Port Adapters (MPA)
or 2-port 10GE MPAs
the 160 Gigabyte modular line card when populated with 4-port 10GE MPAs or 2-port 10GE MPAs
the line cards that support 10 gigabit ethernet interfaces on the Cisco ASR 9922 Aggregation
Services Router
the line cards that support 10 gigabit ethernet interfaces on the Cisco ASR 9001 Aggregation
Services Router
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Cisco ASR 901 Router Hardware Description
Mounting point for the 2-hole lug. For more information, see the Connecting the Chassis Ground
and Power, page C-95
282342
Figure C-5
2
1
Fan
LEDs
The Cisco ASR 901 chassis and interface modules contain LEDs to assist in troubleshooting. For more
detailed description of the LEDs, see the Reading the LEDs section on page C-8.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Chassis LEDs
Chassis LEDs
Table C-2 summarizes the LEDs on the chassis of the Cisco ASR 901 router. These LEDs are common
to the Cisco ASR 901 router used as a satellite shelf.
Table C-2
LED Summary
Copper GE ports (from GE/FE Quad PHY) contain will have Two LEDS each
RJ-45 Link
Solid Green
FLASH Green
Off
No link
RJ-45 Speed
Green
Off
PHY
PHY
Speed 1000
off
Copper GE (from Quad combo PHY) ports contain Two LEDS each.
RJ-45 Link
Solid Green
FLASH Green
Off
No link
RJ-45 Speed
Green
Off
PHY
PHY
Speed 1000
off
System LED
System
Off
HP
Alternating
Green/Off
POST in progress
Solid Green
Solid Red
System Faulty
SFP LED
SFP Link-Active
Orange
L-A
Off
HP
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Power Supply
Table C-3
SFP LEDs
LED
Color/State
Description
SFP Link/Active
(labeled LINK ACT)
Orange
Off
LED
Color/State
100/1000
RJ-45 link
(labeled L,
left LED)
Solid Green
Flash Green
Off
No link detected
100/1000
RJ-45 speed
(labeled S,
right LED)
Green
Speed 1000
Yellow
Speed 100
Off
Off
Power Supply
The Cisco ASR 901 router is equipped with an internal -27/-72 volts Direct Current (VDC).
Safety Precautions
Observe the following general safety precautions and recommendations in planning the source power
requirements for the Cisco ASR 901 router (for additional safety information, see the Safety
Guidelines section on page C-83:
Warning
Check the power at your site before router installation (and periodically after installation) to ensure
clean power (free of spikes and noise) is being received.
Always disconnect the power source and unplug the power cable before working on the router.
Install proper grounding for the site to avoid damage from lightning and power surges.
To avoid electric shock, do not connect safety extra-low voltage (SELV) circuits to telephone-network
voltage (TNV) circuits. LAN ports contain SELV circuits, and WAN ports contain TNV circuits. Some
LAN and WAN ports both use RJ-45 connectors. Use caution when connecting cables. Statement 1021
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Power Supply
Warning
There is the danger of explosion if the battery is replaced incorrectly. Replace the battery only with
the same or equivalent type recommended by the manufacturer. Dispose of used batteries according
to the manufacturers instructions. Statement 1015
Warning
This unit might have more than one power supply connection. All connections must be removed to
de-energize the unit. Statement 1028
Table C-5 lists the DC power supply specifications for the Cisco ASR 901 router.
Table C-5
Specification
Value
-24/-72 VDC
3A
16 AWG
Power dissipation
60 Watts
The Cisco ASR 901 router uses two 3 pin connectors (part number 27-2030-01) for input to the power
supply. The terminal block is part of the accessory kit (part number 53-3085-01/53-3295-0), which ships
with the Cisco ASR 901 router.
The ground wire connects to a 2-hole lug, which connects to the corresponding mounting point.
With the connector installed in the chassis, the pins numbered from top to bottom are 1, 2, and 3,
respectively.
Table C-6 lists the pinout configurations for the connector, based on the power source.
Table C-6
Pin
Connector A
RTN
Chassis Ground
Pin
Connector B
RTN
Chassis Ground
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Environmental Monitoring Temperature Sensor
System Specifications
Table C-7 lists the system specifications for the Cisco ASR 901 router.
Table C-7
Description
Specification
Dimensions (H x W x D)
1.7 x 17.4 x 8.25 in. (4.37 cm x 44.2 cm x 21.0 cm) 1 RU (rack unit)
in a 19-inch (48.3 cm) rack
Weight
RJ-45 connector
Operating Temperature
Non-Operational Temperature
Operating Humidity
10 to 90% RH (non-condensing)
Non-Operational Humidity
Upto 93% RH
Operating Altitude
Operating Vibration
Non-Operational Vibration
Operating Acoustics
60 db
Air Flow
Side to side
Logical slot numbers starts from 0 for all built-in interfaces. The numbering format is Interface
(port) numbers begin at logical 0 for each interface
type.
Logical interface numbering for the built-in ethernet ports runs from g0/0 through g0/3, the combo
ports run from g0/4 to g0/7 and the SFP ports run from g0/8 through g0/11. The GE ports are
numbered bottom to top, left to right.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Regulatory Compliance
Table C-8
Interface
Number
Location
Label
Onboard
100/1000 ETHERNET
Onboard
Fiber ETHERNET
Onboard
CON/AUX
Onboard
BITS
Onboard
TOD
Onboard
1PPS
Onboard
10MHZ
Power connector
Onboard
Power Connector
Regulatory Compliance
For regulatory compliance and safety information, see Cisco Regulatory Compliance and Safety
Information for Cisco ASR 901 Series Aggregation Services Router.
Where to Go Next
For more information on installing the Cisco ASR 901 Series Aggregation Services Router as a satellite
shelf, refer to the sections in this chapter starting with Installing the Cisco ASR 901 Mobile Wireless
Router as a Satellite Shelf section on page C-83.
Note
When configured as an ASR 903v satellite shelf, the Cisco ASR 903 Router supports
only one Route Switch Processor (RSP).
or
Up to two DC power supply units
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Cisco ASR 903 Router Front View
No mixing of AC and DC power supply units in the Cisco ASR 903 Router.
Note
Network frequency, phase, and time inputs and outputs for network interfaces (SyncE and TDM),
BITS, 1 PPS or 10 MHz and Timing over Packet (IEEE 1588-2008)
When configured as a satellite shelf, the Cisco ASR 903 Router does not support SyncE
and timing features.
Note
Front panel access to power supplies, fan tray, RSPs, and interface modules
Online insertion and removal (OIR) of power supplies and fan tray
Discrete status LEDs on power supply, interface module, RSP, and fan tray units
Four alarm dry contact inputs (either normally open or normally closed)
Temperature range of -40 to 149 degrees F (-40 to 65 degrees C) with DC power supply
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
PWR
FAN TEMP
STAT
CRIT MAJ MIN
PWR
STAT
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
PWR
RUDY RSP
STAT
SYNC
ACT
PWR
MEM
CONSOLE
1PPS
IN
1PPS
OUT
1OMHZ
IN
1OMHZ
OUT
STAT
L
7 S
7 S
7 S
PWR
TOD
BITS
MGMT
ENET
STAT
24V60V
28A
PWR
PWR
STAT
INPUT
OK
OUTPUT
FAIL
24V60V
INPUT
OK
OUTPUT
FAIL
28A
ALARM
281927
STAT
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Where to Go Next
Interface modules
RSP unit
Fan tray
The Cisco ASR 903 router as a satellite shelf supports the following Ethernet interface modules:
The Cisco ASR 903 router as a satellite shelf can support up to two 10 gigabit ethernet XFP ports
(restricted to slots 0 and 1) and up to 31 gigabit ethernet (either RJ45 or SFP) ports (eight port Interface
Modules in slots 2 through 5). In slot 5 only 7 ports can be activated. The two 10 gigabit ethernet XFP
ports can be used as ICL ports when they are connected to the following line cards that support 10 gigabit
ethernet interfaces:
the 80 Gigabyte modular line card when populated with 4-port 10GE Modular Port Adapters (MPA)
or 2-port 10GE MPAs
the 160 Gigabyte modular line card when populated with 4-port 10GE MPAs or 2-port 10GE MPAs
the line cards that support 10 gigabit ethernet interfaces on the Cisco ASR 9922 Aggregation
Services Router
the line cards that support 10 gigabit ethernet interfaces on the Cisco ASR 9001 Aggregation
Services Router
Where to Go Next
For more information on installing the Cisco ASR 903 Series Aggregation Services Router as a satellite
shelf, refer to the sections in this chapter starting with Installing the Cisco ASR 901 Mobile Wireless
Router as a Satellite Shelf section on page C-83.
Prerequisites
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Electrostatic Discharge and Grounding Procedure for the Cisco ASR 9000v Satellite Shelf
Prerequisites
Before locating and grounding any chassis, you must complete the following prerequisites:
Preparing Yourself
Warning
This product requires short-circuit (overcurrent) protection to be provided as part of the building
installation. Install only in accordance with national and local wiring regulations. Statement 1045.
Warning
A readily accessible two-poled disconnect device must be incorporated in the fixed wiring.
Statement 1022.
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Appendix C Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Electrostatic Discharge and Grounding Procedure for the Cisco ASR 9000v Satellite Shelf
274057
Figure C-7
Earth ground
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Electrostatic Discharge and Grounding Procedure for the Cisco ASR 9000v Satellite Shelf
274058
Figure C-8
Earth ground
Chassis protected
in antistatic bag
Preparing Yourself
This section illustrates how to prepare yourself before removing the chassis from the sealed antistatic
bag. Figure C-9 illustrates how to cuff the ESD strap around the wrist and the ground cord that connects
the cuff to the ground. ESD wrist straps are the primary means of controlling static charge on personnel.
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Appendix C Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Electrostatic Discharge and Grounding Procedure for the Cisco ASR 9000v Satellite Shelf
274056
Figure C-9
Earth ground
Figure C-10 illustrates how you must be properly grounded before handling the chassis.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Locating and Grounding the Chassis
273650
Figure C-10
Earth ground
Warning
This equipment is intended to be grounded. Ensure that the host is connected to earth ground during
normal use. Statement 39.
Warning
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Warning
When installing or replacing the unit, the ground connection must always be made first and
disconnected last. Statement 1046.
A #6 AWG cable or a 1 inch wide flat copper braid (with minimum total strands count of 1050 x 36 AWG
or 260 x 36 AWG) is mandatory to install the Cisco ASR 9000v satellite shelf.
Verify that the office ground cable is connected to the top of the bay and the office ground, according to
local site practice. (See Figure C-7 and Figure C-8.)
Note
The Cisco ASR 9000v satellite shelf installations are suitable for Network Telecommunication
facilities and locations where NEC applies.
Note
Additional ground cables may be added depending on local site practice. The Cisco ASR 9000v
satellite shelf is designated only for a Common Bonding Network (CBN), according to the
GR-1089-CORE Issue 5 (sec 9.3) definitions.
Note
The DC power battery return (BR) terminal or positive terminal must be grounded at the source
end (power feed or DC mains power end). The DC power BR input terminal is not connected to
the equipment frame (chassis), so it is configured as DC-1 according to the GR-1089-CORE,
Issue 5 (sec 9.8.3) definitions.
Step 2
Remove any paint and other nonconductive coatings from the surfaces between the shelf ground and bay
frame ground point. Clean the mating surfaces and apply appropriate antioxidant compound to the bare
conductors.
Step 3
Attach one end of the shelf ground cable (#8 AWG cable) to the ground point (rear or lateral) on the
chassis using the specified dual-hole lug connector. (See diagrams 1 and 2 in Figure C-11.)
Step 4
Tighten the lug using the M4 pan-head screw to torque value of 11.5 in-lbs (1.3 N-m).
Note
Step 5
Ground points are present on the rear and lateral sides of the Cisco ASR 9000v satellite shelf
(see diagram 1 in Figure C-11). You can connect the grounding cable to either the rear or the
lateral side. Diagrams 2 and 3 in Figure C-11 show the ground connection to the rear side of the
Cisco ASR 9000v satellite shelf.
Attach the other end of the shelf ground cable to the bay frame using a dual-hole lug connector according
to the equipment bay frame specifications. (See diagram 3 in Figure C-11.)
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Preparing to Install the Cisco ASR 9000v Satellite Shelf
Figure C-11
Chassis
Ground Points
(rear)
Screws
Grounding
lug
Chassis
Ground Points
(rear)
Chassis
Ground Points
(lateral)
281375
Grounding
cable
Earth
ground
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
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. To see translations of the warnings that appear in
this publication, refer to the Regulatory Compliance and Safety Information document for the
appropriate Cisco chassis. Statement 274
Warning
Installation of the equipment must comply with local and national electrical codes. Statement 1074
Warning
This equipment must be installed and maintained by service personnel as defined by AS/NZS 3260.
Incorrectly connecting this equipment to a general-purpose outlet could be hazardous. The
telecommunications lines must be disconnected 1) before unplugging the main power connector or 2)
while the housing is open, or both. Statement 1043
Warning
This unit is intended for installation in restricted access areas. A restricted access area can be
accessed only through the use of a special tool, lock and key, or other means of security. Statement
1017
Warning
Ultimate disposal of this product should be handled according to all national laws and regulations.
Statement 1040
Warning
A readily accessible two-poled disconnect device must be incorporated in the fixed wiring.
Statement 1022
Note
In this appendix, the term shelf refers to the steel enclosure that holds cards and connects power, and
the term node refers to the entire hardware and software system.
Note
Unless otherwise specified, the term Cisco ASR 9000v satellite shelf refers to both ANSI and ETSI
environments.
Note
The Cisco ASR 9000v satellite shelf is suitable for installation in network telecommunication facilities
where the National Electric Code (NEC) applies.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Preparing to Install the Cisco ASR 9000v Satellite Shelf
Note
Caution
Power cable (1). A DC power cable is present in the kit if you have ordered a DC power shelf.
Use only the power cables that are designed to be used with the Cisco ASR 9000v satellite shelf. These
are sold separately.
Caution
Equipment rack
Fuse panel
Wire cutters
Wire wrapper
Voltmeter
M3 Phillips screw driver only for the ASR-9000v-44GE-48E= and the ASR-9000v-48E-LIC=
shelves to secure the DC power cable to the shelf.
Use only the power cables that are designed to be used with the Cisco ASR 9000v satellite shelf. These
are sold separately.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
NTP-J53 Unpack and Inspect the Cisco ASR 9000v Satellite Shelf
Purpose
This procedure describes how to remove the Cisco ASR 9000v satellite
shelf from the package and verify the items.
Tools/Equipment
None
Required
Onsite/Remote
Onsite
Security Level
None
Procedure
Step 1
When you receive the Cisco ASR 9000v satellite shelf equipment at the installation site, open the top of
the box. The Cisco Systems logo indicates the top of the box.
Step 2
Remove the foam inserts from the box. The box contains the Cisco ASR 9000v satellite shelf (wrapped
in plastic) and other items needed for installation.
Step 3
To remove the Cisco ASR 9000v satellite shelf, grasp both rings of the shelf removal strap and slowly
lift the shelf out of the box.
Step 4
Verify that you have all items listed in the Required Tools and Equipment section.
Step 5
This procedure describes how to verify that all parts of the Cisco ASR
9000v satellite shelf assembly are in good condition.
Tools/Equipment
None
Prerequisite Procedures NTP-J53 Unpack and Inspect the Cisco ASR 9000v Satellite Shelf
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
Procedure
Step 1
The cable connectors, EOBC, timing connectors, and power connectors on the front panel of the
Cisco ASR 9000v satellite shelf are not damaged.
The SFP cages on the front panel of the Cisco ASR 9000v satellite shelf are not damaged.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Preparing to Install the Cisco ASR 9000v Satellite Shelf
Step 2
Remove the foam inserts from the box. The box contains the Cisco ASR 9000v satellite shelf (wrapped
in plastic) and other items needed for installation.
Step 3
If there is any damage, call your Cisco sales engineer for a replacement.
Step 4
The following figure shows the dimensions of the Cisco ASR 9000v satellite shelf in a 19-inch ANSI
rack configuration with brackets mounted in the front position.
Figure C-12
Cisco ASR 9000v Satellite Shelf Dimensions for a 19-inch ANSI Rack Configuration
Front view
1.25 inch
(31.75 mm)
18.3 inch (464.82 mm)
19.0 inch (482.6 mm)
Top view
Side view
9.0 inch
(228.6 mm)
281924
.9 inch
(22.8 mm)
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Mounting Brackets
Caution
Use only the fastening hardware provided with the Cisco ASR 9000v satellite shelf to prevent loosening,
deterioration, and electromechanical corrosion of the hardware and joined material.
Caution
When mounting the Cisco ASR 9000v satellite shelf in a frame with a nonconductive coating (such as
paint, lacquer, or enamel) either use the thread-forming screws provided with the Cisco ASR 9000v
satellite shelf shipping kit, or remove the coating from the threads to ensure electrical continuity.
The mounting brackets (19-inch or 23-inch) are used to mount the Cisco ASR 9000v satellite shelf on a
19-inch (482.6 mm) rack or a 23-inch (584.2 mm) rack.
Caution
When mounting a Cisco ASR 9000v satellite shelf in a partially filled rack, load the rack from the bottom
to the top with the heaviest component at the bottom of the rack. If the rack is provided with stabilizing
devices, install the stabilizers before mounting or servicing the unit in the rack.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Preparing to Install the Cisco ASR 9000v Satellite Shelf
Figure C-13
Cisco ASR 9000v Satellite Shelf Dimensions for an ETSI Rack Configuration
Top view
17.6 inch (447 mm)
17.4 inch (442. mm)
9.4 inch
(238.8 mm)
9.1 inch
(231.1 mm)
Cable Guide
Side view
1.7 inch
(43.1 mm)
3.0 inch
(76.2 mm)
1.0 inch
(25.4 mm)
Front view
281925
Wall Mounting and Desktop Mounting the Cisco ASR 9000v Satellite Shelf
This section provides information about mounting the Cisco ASR 9000v satellite shelf on the wall and
the desktop.
Wall Mounting
Desktop Mounting
Wall Mounting
The Cisco ASR 9000v satellite shelf can be mounted on the wall using the wall mount brackets. The type
of screws used to mount the brackets on the wall depends on the wall-type; wall mount brackets are not
provided by Cisco.
After the Cisco ASR 9000v satellite shelf is mounted on the wall, a fire protective tray is installed on the
wall mount bracket to support the shelf assembly.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Desktop Mounting
The Cisco ASR 9000v satellite shelf can be mounted on the desktop for easy access.
Laser Warning
The laser warning label is placed on top of the chassis. The following figure shows the label placed on
the Cisco ASR 9000v satellite shelf.
Figure C-14
P/N
S/N
Cisco Systems Inc.
170 West Tasman Drive
San Jose, CA 95134 U.S.A.
ELMECH P/N
CLASS 1
LASER PRODUCT
PID/VID
CLEI CODE
http://cisco-returns.com
Complies with
IDA Standards
DA00518
N906
COO
CISCO ONS 15454
T-C21-00-1434
Cisco Systems Inc.
MIC
ATTENTION
OBSERVE PRECAUTIONS
FOR HANDLING
ELECTROSTATIC
SENSITIVE DEVICES
! CAUTION:
281926
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Preparing to Install the Cisco ASR 9000v Satellite Shelf
This procedure describes how to install the Cisco ASR 9000v satellite
shelf.
Screws
Prerequisite Procedures NTP-J53 Unpack and Inspect the Cisco ASR 9000v Satellite Shelf.
Note
Required/As Needed
As needed
Onsite/Remote
Onsite
Security Level
None
In a CO (Central Office) or CPE (Customer Premises Equipment) installation, if the Cisco ASR 9000
routers and Cisco ASR 9000v satellite shelf units are connected through copper SFP+, place the units
less than 6 meters apart in the same lineup.
Warning
The intra-building ports of the equipment or subassembly is suitable for connection to intra-building
or unexposed wiring or cabling only. The intra-building port(s) of the equipment or subassembly must
not be metallically connected to interfaces that connect to the OSP or its wiring. These interfaces are
designed for use as intra-building interfaces only (Type 2 or Type 4 ports as described in
GR-1089-CORE, Issue 5) and require isolation from the exposed OSP cabling. The addition of Primary
Protectors is not sufficient protection in order to connect these interfaces metallically to OSP wiring.
Statement 7005
Warning
Stability hazard. The rack stabilizing mechanism must be in place, or the rack must be bolted to the
floor before you slide the unit out for servicing. Failure to stabilize the rack can cause the rack to tip
over. Statement 1048
Warning
This product requires short-circuit (overcurrent) protection, to be provided as part of the building
installation. Install only in accordance with national and local wiring regulations. Statement 1045
Warning
This product relies on the buildings installation for short-circuit (overcurrent) protection. Ensure that
the protective device is rated not greater than: 10A for Cisco ASR 9000v satellite shelf with 48 VDC
power supply. Statement 1005
Warning
This product relies on the building's installation for short-circuit (overcurrent) protection. Ensure that
the protective device is rated not greater than: 10A-15A, 100-240VAC~. Statement 1005
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Warning
To prevent the system from overheating, do not operate it in an area that exceeds the maximum
recommended ambient temperature of: 131F (55C) for Cisco ASR 9000v satellite shelf with AC power
module and 149F (65C) for Cisco ASR 9000v satellite shelf with DC power module. Statement 1047
Warning
Take care when connecting units to the supply circuit so that wiring is not overloaded. Statement 1018
Warning
To prevent bodily injury when mounting or servicing this unit in a rack, you must take special
precautions to ensure that the system remains stable. The following guidelines are provided to ensure
your safety:
This unit should be mounted at the bottom of the rack if it is the only unit in the rack.
When mounting this unit in a partially filled rack, load the rack from the bottom to the top with the
heaviest component at the bottom of the rack.
When mounting this unit in a partially filled rack, load the rack from the bottom to the top with the
heaviest component at the bottom of the rack.
If the rack is provided with stabilizing devices, install the stabilizers before mounting or servicing the
unit in the rack. Statement 1006
Warning
To prevent airflow restriction, allow clearance around the ventilation openings to be at least: 1 inch
(25.4 mm). Statement 1076
Note
The Cisco ASR 9000v satellite shelf installations are suitable for Network Telecommunication facilities
and locations where NEC applies.
Procedure
Step 1
Step 2
Step 3
NTP-J56 Mounting the 19-inch Brackets on the Cisco ASR 9000v Satellite Shelf for the ANSI Rack
Configuration
NTP-J57 Mounting the 23-inch Brackets on the Cisco ASR 9000v Satellite Shelf for the ANSI Rack
Configuration
DLP-J175 Mounting the Brackets on the Cisco ASR 9000v Satellite Shelf for the ETSI Rack
Configuration
DLP-J176 Mounting the Cisco ASR 9000v Satellite Shelf on a Rack (One Person)
DLP-J177 Mounting the Cisco ASR 9000v Satellite Shelf on the Wall
DLP-J178 Mounting the Cisco ASR 9000v Satellite Shelf on the Desktop
Connect the chassis to the office ground. For detailed instructions on how to ground the chassis, see the
Electrostatic Discharge and Grounding Procedure for the Cisco ASR 9000v Satellite Shelf section.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Preparing to Install the Cisco ASR 9000v Satellite Shelf
NTP-J56 Mounting the 19-inch Brackets on the Cisco ASR 9000v Satellite Shelf
for the ANSI Rack Configuration
Purpose
Tools/Equipment
Screws
Prerequisite Procedures NTP-J55 Install the Cisco ASR 9000v Satellite Shelf.
Required/As Needed
As needed
Onsite/Remote
Onsite
Security Level
None
Caution
Use only the fastening hardware provided with the Cisco ASR 9000v satellite shelf to prevent loosening,
deterioration, and electromechanical corrosion of the hardware and joined material.
Caution
When mounting the Cisco ASR 9000v satellite shelf in a frame with a nonconductive coating (such as
paint, lacquer, or enamel) either use the thread-forming screws provided with the Cisco ASR 9000v
satellite shelf ship kit, or remove the coating from the threads to ensure electrical continuity.
Note
The mounting brackets can be installed in the front or the middle position of the chassis.
Procedure
Step 1
Place the wider side of the 19-inch mounting bracket flush against the Cisco ASR 9000v satellite shelf,
as shown in Figure 1. The narrow side of the mounting bracket should be towards the front of the shelf.
Step 2
Align the mounting bracket screw holes against the shelf assembly screw holes.
Step 3
Insert the M4 flat screws and tighten them to a torque value of 11.5 in-lbs (1.3 N-m).
Step 4
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Figure C-15
Mounting the Brackets on the Cisco ASR 9000v Satellite Shelf for the ANSI Rack
Configuration
279826
Middle
Position Front
Position
Screws
19-inch
Mounting bracket
Step 5
NTP-J57 Mounting the 23-inch Brackets on the Cisco ASR 9000v Satellite Shelf
for the ANSI Rack Configuration
Purpose
Tools/Equipment
Screws
Prerequisite Procedures NTP-J53 Unpack and Inspect the Cisco ASR 9000v Satellite Shelf
Required/As Needed
As needed
Onsite/Remote
Onsite
Security Level
None
Caution
Use only the fastening hardware provided with the Cisco ASR 9000v satellite shelf to prevent loosening,
deterioration, and electromechanical corrosion of the hardware and joined material.
Caution
When mounting the Cisco ASR 9000v satellite shelf in a frame with a nonconductive coating (such as
paint, lacquer, or enamel) either use the thread-forming screws provided with the Cisco ASR 9000v
satellite shelf ship kit, or remove the coating from the threads to ensure electrical continuity.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Preparing to Install the Cisco ASR 9000v Satellite Shelf
Note
The mounting brackets can be installed in the front or the middle position of the chassis.
Procedure
Step 1
Place the wider side of the 23-inch mounting bracket flush against the Cisco ASR 9000v satellite shelf,
as shown in Figure C-16. The narrow side of the mounting bracket should be towards the front of the
shelf.
Step 2
Align the mounting bracket screw holes against the shelf assembly screw holes.
Step 3
Insert the M4 flat screws and tighten them to a torque value of 11.5 in-lbs (1.3 N-m).
Step 4
Mounting the Brackets on the Cisco ASR 9000v Satellite Shelf for a 23-inch
(584.2-mm) ANSI Rack Configuration
279827
Middle
Position Front
Position
Screws
Step 5
23-inch
Mounting bracket
Align the cable guide screw hole against the mount bracket screw hole, as shown in Figure C-17.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Figure C-17
Front
Position
279830
Middle
Position
Mounting the Cable Guide on the Cisco ASR 9000v Satellite Shelf 23-inch (584.2-mm)
Mounting Bracket
Cable Guide
Screw
23-inch
Mounting bracket
Step 6
Insert the M4 screw and tighten it to a torque value of 6.5 in-lbs (0.75 N-m).
Note
The cable guide is made of plastic. Therefore a lower torque value should be applied to tighten
the cable guide screws to avoid breakage.
Step 7
Repeat Step 5 and Step 6 to install the cable guide on the opposite side.
Step 8
DLP-J175 Mounting the Brackets on the Cisco ASR 9000v Satellite Shelf for the
ETSI Rack Configuration
Purpose
Tools/Equipment
This procedure describes how to install the mounting brackets on the Cisco
ASR 9000v satellite shelf for the ETSI rack configuration.
Screws
Prerequisite Procedures NTP-J53 Unpack and Inspect the Cisco ASR 9000v Satellite Shelf
Caution
Required/As Needed
As needed
Onsite/Remote
Onsite
Security Level
None
Use only the fastening hardware provided with the Cisco ASR 9000v satellite shelf to prevent loosening,
deterioration, and electromechanical corrosion of the hardware and joined material.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Preparing to Install the Cisco ASR 9000v Satellite Shelf
Caution
Note
When mounting the Cisco ASR 9000v satellite shelf in a frame with a nonconductive coating (such as
paint, lacquer, or enamel) either use the thread-forming screws provided with the Cisco ASR 9000v
satellite shelf ship kit, or remove the coating from the threads to ensure electrical continuity.
The mounting brackets can be installed in the front or the middle position of the chassis.
Procedure
Step 1
Place the mounting bracket flush against the Cisco ASR 9000v satellite shelf, as shown in Figure C-18.
Step 2
Align the mounting bracket screw holes against the shelf assembly screw holes.
Step 3
Insert the M4 flat screws and tighten them to a torque value of 11.5 in-lbs (1.3 N-m).
Step 4
Mounting the Brackets on the Cisco ASR 9000v Satellite Shelf for the ANSI Rack
Configuration
279828
Front
Position
Screws
ETSI
Mounting bracket
Step 5
Align the cable guide screw hole against the mount bracket screw hole, as shown in Figure C-19.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Figure C-19
Mounting the Cable Guide on the Cisco ASR 9000v Satellite Shelf ETSI Mounting
Bracket
279829
Front
Position
Cable Guide
Screw
ETSI
Mounting bracket
Step 6
Insert the M4 screw and tighten it to a torque value of 6.5 in-lbs (0.75 N-m).
Note
The cable guide is made of plastic. Therefore a lower torque value should be applied to tighten
the cable guide screws to avoid breakage.
Step 7
Repeat Step 5 and Step 6 to install the cable guide on the opposite side.
Step 8
DLP-J176 Mounting the Cisco ASR 9000v Satellite Shelf on a Rack (One Person)
Purpose
Tools/Equipment
This procedure describes how one person can mount the Cisco ASR 9000v
satellite shelf assembly in a rack.
Prerequisite Procedures NTP-J53 Unpack and Inspect the Cisco ASR 9000v Satellite Shelf.
Note
Required/As Needed
As needed
Onsite/Remote
Onsite
Security Level
None
The Cisco ASR 9000v satellite shelf requires a minimum of 1.75 inches (44.44 mm) of vertical rack
space. To ensure that the mounting is secure, use two M6 mounting screws on each side of the shelf for
ETSI rack installation, and two 12-24 x 3/4 pan-head Phillips mounting screws on each side of the shelf
for ANSI rack installation. A Cisco ASR 9000v satellite shelf assembly should be mounted at the bottom
of the rack if it is the only unit in the rack.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Preparing to Install the Cisco ASR 9000v Satellite Shelf
Note
In an ANSI rack, the Cisco ASR 9000v satellite shelf chassis can be installed in the front or the middle
position. In an ETSI rack, the Cisco ASR 9000v satellite shelf chassis can be installed only in the front
position.
Procedure
Step 1
Step 2
Verify that the proper fuse panel has been installed in the top mounting space. If a fuse panel is not
present, you must install one according to manufacturer instructions:
For an AC power supply, the fuse rating must not exceed 10 A or 15 A, depending on the standards
in various countries. The overcurrent and short circuit protection must be in accordance with local
and national electrical codes.
Ensure that the shelf assembly is mounted on the appropriate rack equipment:
600 x 600-mm (23.6 x 23.6-inch) or 600 x 300-mm (23.6 x 11.8-inch) for ETSI racks.
For an AC power supply, the fuse rating must not exceed 10 A or 15 A, depending on the standards
in various countries. The overcurrent and short circuit protection must be in accordance with local
and national electrical codes. Diagram 1 of Figure C-20 shows the Cisco ASR 9000v satellite shelf
mounted on an ANSI rack in the middle position using 19-inch mounting brackets. Diagram 2 of
Figure C-20 shows the Cisco ASR 9000v satellite shelf mounted on an ETSI rack in the front
position using mounting brackets.
Figure C-20
2
ETSI
Equipment
rack
281877
ANSI
Equipment
rack
Step 3
Step 4
Align the screw holes on the mounting brackets with the mounting holes in the rack.
Step 5
Using the Phillips Dynamometric screwdriver, install one mounting screw in each side of the assembly:
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
For an ANSI rack, use 12-24 x 3/4 pan-head Phillips mounting screws and tighten it to a torque value
of 22 in-lbs (2.5 Nm)
For an ETSI rack, use M6 mounting screws and tighten it to a torque value of 22 in-lbs (2.5 Nm)
Step 6
When the shelf assembly is secured to the rack, install the remaining two mounting screws on either sides
of the shelf assembly.
Step 7
DLP-J177 Mounting the Cisco ASR 9000v Satellite Shelf on the Wall
Purpose
Tools/Equipment
This procedure describes how to mount the Cisco ASR 9000v satellite shelf
on the wall.
Prerequisite Procedures NTP-J53 Unpack and Inspect the Cisco ASR 9000v Satellite Shelf.
Note
Required/As Needed
As needed
Onsite/Remote
Onsite
Security Level
None
The Cisco ASR 9000v satellite shelf requires a minimum of 23.65 inches (600-mm) vertical length and
a minimum of 15.75 inches (400-mm) horizontal width on the wall. Wall mount brackets are used to
mount the Cisco ASR 9000v satellite shelf on the wall. The type of screws used to mount the brackets
on the wall depends on the wall-type; wall mount brackets are not provided by Cisco. The screws used
must be able to sustain an overall weight of at least 10 kg (22 lb).
Procedure
Step 1
Verify that the proper fuse panel has been installed in the top mounting space. If a fuse panel is not
present, you must install one according to manufacturer instructions:
For an AC power supply, the fuse rating must not exceed 10 A or 15 A, depending on the standards
in various countries. The overcurrent and short circuit protection must be in accordance with local
and national electrical codes.
Step 2
Mount the bracket on the wall, as shown in Figure C-21. To mount the bracket on a non-concrete wall,
choose the bracket holes based on the wall structure. At least four screws must be used to mount the
bracket on the wall. Based on the wall material, apply the torque value provided by the screw vendor.
Step 3
Align the mounting bracket screw holes against the shelf screw holes, as shown in diagram 1 of
Figure C-21.
Step 4
Insert six M4 pan-head screws and tighten them to a torque value of 11.5 in-lbs (1.3 N-m), as shown in
diagram 2 of Figure C-21.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Preparing to Install the Cisco ASR 9000v Satellite Shelf
Figure C-21
Screws
Step 5
Wall mount
bracket
Wall mount
bracket
279884
Screws
Align the fire protective drip tray screw holes against the wall mounting bracket screw holes, as shown
in diagram 1 of Figure C-22. The fire protective drip tray is present in the wall mount accessory kit
provided by Cisco.
The part number of the fire protective drip tray is Cisco PN 700-31762-XX. The product identifier (PID)
of the wall mount accessory kit is CPT-50-BRKTWM= and the part number is Cisco PN 53-3513-XX.
Step 6
Insert two M4 pan-head screws and tighten them to a torque value of 11.5 in-lbs (1.3 N-m), as shown in
diagram 2 of Figure C-22.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Figure C-22
2
Wall mount
bracket
Wall mount
bracket
Fire protective
drip tray
Fire protective
drip tray
Step 7
279885
Screws
DLP-J178 Mounting the Cisco ASR 9000v Satellite Shelf on the Desktop
Purpose
Tools/Equipment
This procedure describes how to mount the Cisco ASR 9000v satellite shelf
on the desktop.
Prerequisite Procedures NTP-J53 Unpack and Inspect the Cisco ASR 9000v Satellite Shelf.
Required/As Needed
As needed
Onsite/Remote
Onsite
Security Level
None
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Preparing to Install the Cisco ASR 9000v Satellite Shelf
Procedure
Step 1
Verify that the proper fuse panel has been installed in the top mounting space. If a fuse panel is not
present, you must install one according to manufacturer instructions:
For an AC power supply, the fuse rating must not exceed 10 A or 15 A, depending on the standards
in various countries. The overcurrent and short circuit protection must be in accordance with local
and national electrical codes.
Step 2
Step 3
Place the Cisco ASR 9000v satellite shelf upside down on a smooth, flat surface.
Step 4
Peel off the rubber bumpers from the adhesive strip and place it adhesive-side down onto all the four
corners of the surface, as shown in Figure C-23.
Figure C-23
279886
Rubber
bumpers
Step 5
Place the Cisco ASR 9000v satellite shelf on a desktop, or on a smooth, flat surface.
Step 6
Power Module
The Cisco ASR 9000v satellite shelf is available in three variations based on the power module:
Cisco ASR 9000v satellite shelf with an AC power module for ANSI and ETSI standards
Cisco ASR 9000v satellite shelf with a DC power module (48 V) for ANSI standard
Cisco ASR 9000v satellite shelf with a DC power module (48 V) for ETSI standard
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Note
Do not remove the top cover of the Cisco ASR 9000v satellite shelf.
Fan-Tray Assembly
The fan-tray assembly is preinstalled on the right side of the Cisco ASR 9000v satellite shelf. The
fan-tray assembly is removable and holds fans and fan-control circuitry for the Cisco ASR 9000v
satellite shelf. The fan-tray assembly should be accessed only if a fan failure occurs.
The fan-tray assembly has the following ports:
EOBC (Ethernet Out-of-Band Channel)An RJ-45 port that supports high bandwidth external
connectivity. If the Cisco ASR 9000v satellite shelf fails to boot up, the EOBC port also called as
the disaster recovery port is used to log in to the Cisco ASR 9000v satellite shelf for troubleshooting.
Note
The EOBC port is meant only for TAC (Technical Assistance Center) usage.
PPS (Pulse Per Second)A mini BNC output port that provides timing signals to an external
equipment from the Cisco ASR 9000v satellite shelf.
10MHA mini BNC output port that provides timing signals at a frequency of 10 MHz to an
external equipment from the Cisco ASR 9000v satellite shelf and RET for power terminals A and B.
ToD/PPS (Time of Day/Pulse Per Second)An RJ-45 serial output port that provides time and day
information and timing signals to an external equipment from the Cisco ASR 9000v satellite shelf.
CONSOLEA USB port that is used to connect a console terminal. The console terminal can be
one of the following:
An ASCII terminal or a PC running terminal emulation software
A modem
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Preparing to Install the Cisco ASR 9000v Satellite Shelf
Note
15454S
FTA-PT
282284
10MHz
CONSOLE
FAN TR
EOEC
T D/P
PPS
Figure C-24
The timing signals are compliant with the IEEE 1588 standard.
The console port provides access to the Cisco ASR 9000v satellite shelf either locally (using a console
terminal), or remotely (using a modem). Console connections transmit at slower speeds than modems;
therefore, the console connection is suited for use with console terminals.
Note
An RJ-45 serial port is used for TOD/PPS functionality. The two RJ-45 pins 7 and 8 is used for TOD
(Time Of Day) functionality and the other two RJ-45 pins 1 and 2 are used for PPS functionality. Even
though an RJ-45 cable is used for TOD/PPS connection, a serial link is established. Two mini coax
connectors with RG316 1.0/2.3 M/M cables (50 ohm) are used for PPS (Pulse Per Second) and for
10MHz sinusoidal signal. Cable for TOD/PPS and 10MHz shall be shielded.
Note
Fan Speed
Fan speed is controlled by the microprocessor present in the Cisco ASR 9000v satellite shelf. The
sensors measure the critical component temperature of the Cisco ASR 9000v satellite shelf. Fan speed
options are low, medium, and high.
Fan Failure
If one or more fans fail on the fan-tray assembly, replace the entire assembly. You cannot replace
individual fans. The red Fan Fail LED on the front of the Cisco ASR 9000v satellite shelf illuminates
when one or more fans fail. The red Fan Fail LED clears after you install a working fan-tray.
NPT-J57 Replacing the Fan-Tray Assembly in the Cisco ASR 9000v Satellite
Shelf
Purpose
Tools/Equipment
This procedure describes how to replace the fan-tray assembly in the Cisco
ASR 9000v satellite shelf.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Prerequisite Procedures
Caution
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
Do not operate the Cisco ASR 9000v satellite shelf without an air filter.
Note
The estimated time for a skilled technician to replace an equipment fan or fan tray is 2 minutes.
Note
The fan or the cooling unit can be replaced without service interruption.
Caution
Do not force a fan-tray module into place. Doing so can damage either the connectors on the fan tray or
the connectors on the back panel of the shelf assembly, or both.
Note
Error messages appear on the fan-tray LED and in Cisco IOS XR software when the fan-tray module is
removed from the shelf or when one fan is not working.
Procedure
Step 1
279900
Screw
Fan-tray
assembly
Step 2
Extract the fan-tray assembly partially (not more than 1 inch) to disconnect the backplane connector and
wait until the fan stops.
Step 3
When the fans have stopped, pull the fan-tray assembly completely out of the shelf, as shown in
Figure C-26.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Preparing to Install the Cisco ASR 9000v Satellite Shelf
Fan-tray
assembly
279901
Figure C-26
Step 4
Slide the new fan-tray assembly into the Cisco ASR 9000v satellite shelf until the electrical plug at the
rear of the tray plugs into the corresponding receptacle on the backplane.
Step 5
Tighten the M3 screw on the fan-tray assembly to a torque value of 4 in-lbs (0.45 N-m).
Stop. You have completed this procedure.
NPT-J58 Replacing the Air Filter in the Cisco ASR 9000v Satellite Shelf
Purpose
Caution
Note
This procedure describes how to replace the air filter in the Cisco ASR
9000v satellite shelf.
Tools/Equipment
Prerequisite Procedures
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
Do not operate the Cisco ASR 9000v satellite shelf without an air filter.
Replacement or cleaning of an air filter is recommended every 60 days. Air filters are replaceable or
reusable.
Procedure
Step 1
Loosen the screw on the air filter faceplate, as shown in Figure C-27.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Figure C-27
Removing the Air Filter in the Cisco ASR 9000v Satellite Shelf
279898
Air
filter
Screw
Extract the air filter from the Cisco ASR 9000v satellite shelf, as shown in Figure C-28.
Figure C-28
Extracting the Air Filter in the Cisco ASR 9000v Satellite Shelf
Air
filter
Screw
Step 3
279899
Step 2
Remove the air filter faceplate from the air filter frame, as shown in Figure C-29.
Figure C-29
Air Filter
282147
Air Filter
Faceplate
Step 4
Step 5
Insert the air filter faceplate engaging the air filter frame, as shown in Figure C-30.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Power and Ground Description
Air Filter
Faceplate
282148
Air Filter
Frame
282147
Figure C-30
Step 6
Insert the air filter into the Cisco ASR 9000v satellite shelf.
Step 7
Tighten the M3 screw on the air filter to a torque value of 4 in-lbs (0.45 N-m).
Stop. You have completed this procedure.
Note
For detailed instructions on grounding the Cisco ASR 9000v satellite shelf, refer to the Electrostatic
Discharge and Grounding Procedure for the Cisco ASR 9000v Satellite Shelf section.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
282283
Figure C-31
Ret (A)
Ret (B)
-48V (A)
-48V (B)
Terminal block
protective cover
Lugs
Screws
To install redundant DC power feeds, use four power cables and one ground cable. For a single power
feed, only two power cables (#14 AWG or larger, copper conductor, 194 degrees Fahrenheit [90 degrees
Celsius] minimum) and one ground cable (#8 AWG or larger) are required. Use a conductor with low
impedance to ensure circuit overcurrent protection. However, the conductor must have the capability to
safely conduct any faulty current that might be imposed.
For a 48 VDC power supply, the fuse rating must not exceed 10 A. The voltages 40.5 VDC and 57.6
VDC are, respectively, the minimum and maximum voltages required to power the chassis. Functionality
is guaranteed at -40 VDC input voltage, according to GR-1089, Issue 5. The nominal steady state voltage
is -48 VDC.
We recommend the following wiring conventions, but customer conventions prevail:
The battery return connection is treated as DC-1, as defined in Telcordia GR-1089-CORE, Issue 5.
The ground lug must be a dual-hole type, UL Listed, CSA certified, and rated to accept the #8 AWG
cable. Two ground threaded holes with M4 screws are provided on the Cisco ASR 9000v satellite shelf
to accommodate the dual-hole lug, as shown in Figure C-32.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Power and Ground Description
282282
Figure C-32
Chassis
Ground Points
(rear)
Chassis
Ground Points
(lateral)
Caution
Use only the power cables shipped with the Cisco ASR 9000v satellite shelf. The part number of the
cables is Cisco PN 72-4974-XX and the PID is CPT-DC-CBL-E=.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
NPT-J59 Installing the Power Feeds and Ground to the Cisco ASR 9000v
Satellite Shelf
Purpose
Tools/Equipment
This procedure describes how to install the power feeds to the Cisco ASR
9000v satellite shelf and how to ground the Cisco ASR 9000v satellite
shelf.
Screws
Listed pressure dual-holes lugs suitable for #14 AWG or larger copper
conductors
Wire cutters
Wire strippers
Crimp tool
Fuse panel
ETSI only:
Power cable (from the fuse panel to the power modules), shipped
satellite shelf
ANSI only:
Power cable (from the fuse panel to the assembly), #14 AWG or
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
Warning
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection
authority or an electrician if you are uncertain that suitable grounding is available. Statement 1024
Warning
To reduce the risk of electric shock, switch on the power only after the power cord is completely
installed into the power module. Statement 390
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Power and Ground Description
Warning
When stranded wiring is required, use approved wiring terminations, such as closed-loop or
spade-type with upturned lugs. These terminations should be the appropriate size for the wires and
should clamp both the insulation and conductor. Statement 1002
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Before working on a chassis or working near power supplies, unplug the power cord on AC units.
Statement 246
Warning
This equipment is intended to be grounded. Ensure that the host is connected to earth ground during
normal use. Statement 39
Warning
Warning
Connect the unit only to DC power source that complies with the safety extra-low voltage (SELV)
requirements in IEC 60950-1 based safety standards. Statement 1033
Warning
This product requires short-circuit (overcurrent) protection, to be provided as part of the building
installation. Install only in accordance with national and local wiring regulations. Statement 1045
Warning
This product relies on the buildings installation for short-circuit (overcurrent) protection. Ensure that
the protective device is rated not greater than: 10A for Cisco ASR 9000v satellite shelf with 48 VDC
power supply. Statement 1005
Warning
This product relies on the building's installation for short-circuit (overcurrent) protection. Ensure that
the protective device is rated not greater than: 10A-15A, 100-240VAC~. Statement 1005
Warning
A readily accessible two-poled disconnect device must be incorporated in the fixed wiring.
Statement 1022
Warning
This unit might have more than one power supply connection. All connections must be removed to
de-energize the unit. Statement 1028
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Caution
Always use the supplied ESD wristband when working with a powered Cisco ASR 9000v satellite shelf.
For detailed instructions on how to wear the ESD wristband, see the Electrostatic Discharge and
Grounding Procedure for the Cisco ASR 9000v Satellite Shelf section.
Caution
Do not operate the Cisco ASR 9000v satellite shelf without an air filter.
Note
Replacement or cleaning of an air filter is recommended every 60 days. Air filters are replaceable or
reusable.
Procedure
Step 1
Step 2
Step 3
Verify that the correct fuse panel is installed in the top mounting space:
For a 48 VDC power supply, the fuse rating must not exceed 10 A.
For an AC power supply, the fuse rating must not exceed 10 A or 15 A, depending on the standards
in various countries. The overcurrent and short circuit protection must be in accordance with local
and national electrical codes.
Depending on the shelf and the power module installed, complete the necessary task:
DLP-J179 Connecting Office Power (AC) to the Cisco ASR 9000v Satellite Shelf.
DLP-J180 Connecting Office Power (DC) to the Cisco ASR 9000v Satellite Shelf (ANSI Only).
DLP-J181 Connecting Office Power (DC) to the Cisco ASR 9000v Satellite Shelf (ETSI Only).
Connect the office ground to the Cisco ASR 9000v satellite shelf. For detailed instructions on
grounding, refer to the Connect the chassis to the office ground. For detailed instructions on how to
ground the chassis, see the Electrostatic Discharge and Grounding Procedure for the Cisco ASR
9000v Satellite Shelf section.
Complete the DLP-J182 Turning on and Verifying Office Power (AC) on the Cisco ASR 9000v Satellite
Shelf or DLP-J183 Turning on and Verifying Office Power (DC) on the Cisco ASR 9000v Satellite Shelf
as necessary.
Stop. You have completed this procedure.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Power and Ground Description
DLP-J179 Connecting Office Power (AC) to the Cisco ASR 9000v Satellite Shelf
Purpose
Tools/Equipment
Prerequisite Procedures
Note
Wire wrapper
Wire cutters
Wire strippers
Crimp tool
Fuse panel
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
Warning
When installing or replacing the unit, the ground connection must always be made first and
disconnected last. Statement 1046
Warning
This equipment shall be connected to AC mains provided with a surge protective device (SPD) at the
service equipment complying with NFPA 70, the National Electrical Code (NEC). Statement 7012
Caution
The Cisco ASR 9000v satellite shelf relies on the protective devices in the building installation to protect
against short circuit, overcurrent, and ground faults. Ensure that the protective devices are properly rated
and comply with national and local codes.
Caution
When terminating the frame ground, do not use soldering lug connectors, screwless (push-in)
connectors, quick connect connectors, or other friction-fit connectors.
Note
If the Cisco ASR 9000v satellite shelf loses its connection to the Cisco ASR 9000 router, the Cisco ASR
9000v satellite shelf resets until the connection to the Cisco ASR 9000 router is re-established.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Procedure
Step 1
Attach the AC power cable to the cable connector in the AC power module, as shown in Figure C-33.
Connecting Office Power to the Cisco ASR 9000v Satellite Shelf AC Power
279888
Figure C-33
Cable
clip
Cable
connector
Step 2
AC power
cable
Close the cable clip to secure the power cable, as shown in Figure C-28.
Figure C-34
Closing the Cable Clip to Secure the Power Cable to the Cisco ASR 9000v Satellite
Shelf
279887
Cable clip
(open)
Cable clip
(closed)
Step 3
Note
Step 4
The voltage rating value for AC power ranges between 100 VAC to 240 VAC depending on the
standards in various countries.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Power and Ground Description
DLP-J180 Connecting Office Power (DC) to the Cisco ASR 9000v Satellite Shelf
(ANSI Only)
Purpose
Tools/Equipment
Prerequisite Procedures
Wire cutters
Wire strippers
Crimp tool
Fuse panel
Power cable (from fuse panel to assembly), #14 AWG or larger copper
conductors, 194F [90C])
Listed pressure dual-holes lugs suitable for #14 AWG or larger copper
conductors
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
Warning
When installing or replacing the unit, the ground connection must always be made first and
disconnected last. Statement 1046
Warning
Hazardous voltage or energy may be present on DC power terminals. Always replace cover when
terminals are not in service. Be sure uninsulated conductors are not accessible when cover is in
place. Statement 1075
Note
Caution
The battery return connection is treated as DC-1, as defined in Telcordia GR-1089-CORE Issue 5.
The Cisco ASR 9000v satellite shelf relies on the protective devices in the building installation to protect
against short circuit, overcurrent, and ground faults. Ensure that the protective devices are properly rated
and comply with national and local codes.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Note
If the Cisco ASR 9000v satellite shelf loses its connection to the Cisco ASR 9000 router, the Cisco ASR
9000v satellite shelf resets until the connection to the Cisco ASR 9000 router is re-established.
Procedure
Step 1
Connect the return cables of the power supply to the Earth ground located at the power supply side.
Step 2
Connect the office power according to the fuse panel engineering specifications.
Step 3
Measure and cut the cables as needed to reach the Cisco ASR 9000v satellite shelf from the fuse panel.
Step 4
Step 5
Strip 1/2 inch (12.7 mm) of insulation from all power cables that you will use.
Step 6
Crimp the lugs onto the ends of all the power leads.
Step 7
279889
Figure C-35
Terminal block
protective cover
Step 8
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Power and Ground Description
Loosening the Terminal Block Screws on the Cisco ASR 9000v Satellite Shelf
279890
Figure C-36
Terminal
block screws
Step 9
Terminal block
protective cover
279891
Figure C-37
Ret (A)
Ret (B)
-48V (A)
-48V (B)
Lugs
Terminal block
protective cover
Screws
Step 10
Tighten the M3.5 screws to a torque value of 7 in-lbs (0.79 N-m) to lock the lugs.
Step 11
Mount the terminal block protective cover on the Cisco ASR 9000v satellite shelf, as shown in
Figure C-38.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Replacing the Terminal Block Protective Cover on the Cisco ASR 9000v Satellite Shelf
279892
Figure C-38
Terminal block
protective cover
Note
Step 12
Use only pressure terminal connectors, such as ring and fork types, when terminating the battery,
battery return, and frame ground conductors.
Caution
Before you make any crimp connections, coat all bare conductors (battery, battery return, and
frame ground) with an appropriate antioxidant compound. Bring all unplated connectors,
braided strap, and bus bars to a bright finish, then coat with an antioxidant before you connect
them. You do not need to prepare tinned, solder-plated, or silver-plated connectors and other
plated connection surfaces, but always keep them clean and free of contaminants.
Caution
When terminating power, return (RET), and frame ground, do not use soldering lug, screwless
(push-in) connectors, quick-connect, or other friction-fit connectors.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Power and Ground Description
DLP-J181 Connecting Office Power (DC) to the Cisco ASR 9000v Satellite Shelf
(ETSI Only)
Purpose
Tools/Equipment
Prerequisite Procedures
Wire wrapper
Wire cutters
Wire strippers
Crimp tool
Fuse panel
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
Warning
When installing or replacing the unit, the ground connection must always be made first and
disconnected last. Statement 1046
Warning
Hazardous voltage or energy may be present on DC power terminals. Always replace cover when
terminals are not in service. Be sure uninsulated conductors are not accessible when cover is in
place. Statement 1075
Note
The battery return connection is treated as DC-1, as defined in Telcordia GR-1089-CORE Issue 5.
Caution
The Cisco ASR 9000v satellite shelf relies on the protective devices in the building installation to protect
against short circuit, overcurrent, and ground faults. Ensure that the protective devices are properly rated
and comply with national and local codes.
Note
If the Cisco ASR 9000v satellite shelf loses its connection to the Cisco ASR 9000 router, the Cisco ASR
9000v satellite shelf resets until the connection to the Cisco ASR 9000 router is re-established.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Procedure
Step 1
Connect the return cables of the power supply to the Earth ground located at the power supply side.
Step 2
Attach the DC ETSI power cables to the DSUB power connectors of the DC power module, as shown in
Figure C-39.
Figure C-39
Connecting DC ETSI Power Cables to the DSUB Power Connectors on the Cisco ASR
9000v Satellite Shelf
279893
Terminal
B
Terminal A
Screws
DSUB power
connectors
DC power
cables (ETSI)
Step 3
Tighten the M3 pan-head screws to a torque value of 4 in-lbs (0.45 N-m) to secure the cable, as shown
in Figure C-40.
Securing the DC Power Cables to the Cisco ASR 9000v Satellite Shelf
279894
Figure C-40
Screws
DC power
cables (ETSI)
Note
Use only pressure terminal connectors, such as ring and fork types, when terminating the battery,
battery return, and frame ground conductors.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Power and Ground Description
Step 4
Caution
Before you make any crimp connections, coat all bare conductors (battery, battery return, and
frame ground) with an appropriate antioxidant compound. Bring all unplated connectors,
braided strap, and bus bars to a bright finish, then coat with an antioxidant before you connect
them. You do not need to prepare tinned, solder-plated, or silver-plated connectors and other
plated connection surfaces, but always keep them clean and free of contaminants.
Caution
When terminating power, return (RET), and frame ground, do not use soldering lug, screwless
(push-in) connectors, quick-connect, or other friction-fit connectors.
DLP-J182 Turning on and Verifying Office Power (AC) on the Cisco ASR 9000v
Satellite Shelf
Purpose
This procedure describes how to measure the power to verify correct power
and returns for the Cisco ASR 9000v satellite shelf.
Tools/Equipment
Voltmeter
Prerequisite Procedures
Warning
Note
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
To reduce the risk of electric shock, switch on the power only after the power cord is completely
installed into the power module. Statement 390
Do not apply power to the shelf assembly until you complete all the installation steps.
Procedure
Step 1
To power up the node, insert the fuse into the fuse position according to site practice. For an AC power
supply, the fuse rating must not exceed 10 A or 15 A, depending on the standards in various countries.
Step 2
If the Cisco ASR 9000v satellite shelf does not power up, check the voltage at the power source using a
voltmeter. The voltage should be 100 VAC to 240 VAC +/-10 percent.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Step 3
DLP-J183 Turning on and Verifying Office Power (DC) on the Cisco ASR 9000v
Satellite Shelf
Purpose
This procedure describes how to measure the power to verify correct power
and returns for the Cisco ASR 9000v satellite shelf.
Tools/Equipment
Voltmeter
Prerequisite Procedures
Warning
Note
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
To reduce the risk of electric shock, switch on the power only after the power cord is completely
installed into the power module. Statement 390
Do not apply power to the shelf assembly until you complete all the installation steps.
Procedure
Step 1
Using a voltmeter, verify the office battery and ground at the following points on the fuse panel:
a.
To verify the power, place the black test lead of the voltmeter to the return (RET). Place the red test
lead on the BAT-A connection and verify that:
For a 48 VDC power supply, the voltage is between 40.5 VDC and 57.6 VDC. Place the red
test lead on the BAT-B connection and verify that it is between 40.5 VDC and 57.6 VDC.
Note
b.
The voltages 40.5 VDC and 57.6 VDC are, respectively, the minimum and maximum
voltages required to power the Cisco ASR 9000v satellite shelf that has 48V DC power
supply. The nominal steady state voltage is -48 VDC.
To verify the ground, place the black test lead of the voltmeter to the frame ground. Place the red
test lead on the BAT-A return ground and verify that no voltage is present, that is, meter reading must
be 0 VDC. Place the red test lead on the BAT-B return ground and verify that no voltage is present,
that is, meter reading must be 0 VDC.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Power and Ground Description
Step 2
To power up the node, insert the fuse into the fuse position according to site practice. For a 48V DC
power supply, the fuse rating must not exceed 10 A.
Step 3
Using a voltmeter, verify the Cisco ASR 9000v satellite shelf for 48 VDC battery and return:
a.
To verify the BAT-A of the Cisco ASR 9000v satellite shelf, place the black lead of the voltmeter to
the return. Place the red test lead to the 48V (BAT-A battery connection) red cable. For a 48 VDC
power supply, verify that it reads between 40.5 VDC and 57.6 VDC. Then place the red test lead
of the voltmeter to the RET1 (BAT-A return ground) black cable and verify that no voltage is present,
that is, meter reading must be 0 VDC.
Note
Step 4
For a Cisco ASR 9000v satellite shelf that has 48 VDC power supply, the voltages 40.5
VDC and 57.6 VDC. are, respectively, the minimum and maximum voltages required to
power the Cisco ASR 9000v satellite shelf. The nominal steady state voltage is 48 VDC.
b.
To verify the BAT-B of the Cisco ASR 9000v satellite shelf, place the black test lead of the voltmeter
to the return. Place the red test lead to the 48 V (BAT-B battery connection) red cable. For a 48
VDC power supply, verify that it reads between 40.5 VDC and 57.6 VDC. Then place the red test
lead of the voltmeter to the RET2 (BAT-B return ground) black cable and verify that no voltage is
present, that is, meter reading must be 0 VDC.
c.
To verify the ground, place the black test lead of the voltmeter to the frame ground. Place the red
test lead on the BAT-A return ground and verify that no voltage is present, that is, meter reading must
be 0 VDC. Place the red test lead on the BAT-B return ground and verify that no voltage is present,
that is, meter reading must be 0 VDC.
NTP-J60 Connecting Cables to the EOBC, Timing, and Console Ports on the
Cisco ASR 9000v Satellite Shelf
Purpose
Tools/Equipment
Prerequisite Procedures
This procedure describes how to connect cables to the EOBC, timing, and
console ports in the Cisco ASR 9000v satellite shelf.
USB cable
Required/As Needed
As needed
Onsite/Remote
Onsite
Security Level
None
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Caution
Always use the supplied Electrostatic Discharge (ESD) wristband when working with a powered Cisco
ASR 9000v satellite shelf. For detailed instructions on how to wear the ESD wristband, see the Preparing
Yourself section in the Electrostatic Discharge and Grounding Procedure for the Cisco ASR 9000v
Satellite Shelf section.
Procedure
Step 1
Complete the DLP-J184 Connecting the Timing Cables to the PPS, 10MHz, and ToD/PPS Ports on the
Cisco ASR 9000v Satellite Shelf procedure to connect timing to an external equipment.
Step 2
Complete the DLP-J185 Connecting the Cables to the EOBC or Console Port on the Cisco ASR 9000v
Satellite Shelf procedure to install the cables to the EOBC or console port.
Stop. You have completed this procedure.
DLP-J184 Connecting the Timing Cables to the PPS, 10MHz, and ToD/PPS Ports
on the Cisco ASR 9000v Satellite Shelf
Purpose
Tools/Equipment
Prerequisite Procedures
Warning
Note
This procedure describes how to connect the timing cables to the PPS, 10
MHz, and ToD/PPS ports on the Cisco ASR 9000v satellite shelf.
Required/As Needed
As needed
Onsite/Remote
Onsite
Security Level
None
The intra-building ports of the equipment or subassembly is suitable for connection to intra-building
or unexposed wiring or cabling only. The intra-building port(s) of the equipment or subassembly must
not be metallically connected to interfaces that connect to the OSP or its wiring. These interfaces are
designed for use as intra-building interfaces only (Type 2 or Type 4 ports as described in
GR-1089-CORE, Issue 5) and require isolation from the exposed OSP cabling. The addition of Primary
Protectors is not sufficient protection in order to connect these interfaces metallically to OSP wiring.
Statement 7005
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Power and Ground Description
Note
To unplug the RJ-45 cables connected to the ToD/PPS and EOBC ports on the fan-tray, use small pliers
or a screwdriver.
Procedure
Step 1
Locate the timing connectors (PPS, 10 MHz, or ToD/PPS) on the fan-tray assembly of the Cisco ASR
9000v satellite shelf, as shown in Figure C-41.
Figure C-41
Timing
connectors
Fan-tray
assembly
Step 2
Step 3
Step 4
CAT-5 Ethernet
Cable
281884
mini-BNC
Cables
Connect one end of the mini-BNC cable to the PPS or 10 MHz mini-BNC output port.
Connect the other end of the mini-BNC cable to an external equipment to provide timing signals.
Connect one end of a standard CAT-5 Ethernet cable to the ToD/PPS RJ-45 output port.
b.
Connect the other end of the CAT-5 Ethernet cable to an external equipment to provide timing
signals.
DLP-J185 Connecting the Cables to the EOBC or Console Port on the Cisco ASR
9000v Satellite Shelf
Purpose
Tools/Equipment
This procedure describes how to connect the cables to the EOBC or console
port on the Cisco ASR 9000v satellite shelf.
USB cable
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Prerequisite Procedures
Warning
Required/As Needed
As needed
Onsite/Remote
Onsite
Security Level
None
The intra-building ports of the equipment or subassembly is suitable for connection to intra-building
or unexposed wiring or cabling only. The intra-building port(s) of the equipment or subassembly must
not be metallically connected to interfaces that connect to the OSP or its wiring. These interfaces are
designed for use as intra-building interfaces only (Type 2 or Type 4 ports as described in
GR-1089-CORE, Issue 5) and require isolation from the exposed OSP cabling. The addition of Primary
Protectors is not sufficient protection in order to connect these interfaces metallically to OSP wiring.
Statement 7005
Note
The console port is used for the setup and maintenance of the Cisco ASR 9000v satellite shelf and the
EOBC port is used for disaster recovery, that is, to log in to the Cisco ASR 9000v satellite shelf for
troubleshooting when the connection between the Cisco ASR 9000v satellite shelf and the Cisco ASR
9000 router is lost.
Note
To unplug the RJ-45 cables connected to the ToD/PPS and EOBC ports on the fan-tray, use small pliers
or a screwdriver.
Procedure
Step 1
Locate the EOBC port or the console port on the fan-tray assembly of the Cisco ASR 9000v satellite
shelf, as shown in Figure C-41.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Power and Ground Description
Figure C-42
USB
Cable
CAT-5 Ethernet
Cable
Step 2
Step 3
Step 4
281883
Fan-tray
assembly
Connect one end of a standard CAT-5 Ethernet cable to the EOBC port.
b.
Connect the other end of the standard CAT-5 Ethernet cable to external equipment to establish
external connectivity.
b.
Connect the other end of the USB cable to the console terminal or a modem that connects to the
console terminal.
Warning
This procedure describes how to install and route fiber-optic cables on the
Cisco ASR 9000v satellite shelf.
cables
tie wrap
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
Invisible laser radiation may be emitted from disconnected fibers or connectors. Do not stare into
beams or view directly with optical instruments. Statement 1051
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Caution
When connecting an optical fiber patch cord between the Cisco ASR 9000v satellite shelf and the optical
card ports in the Cisco ASR 9000 router, use the electrostatic discharge wristband supplied with the
Cisco ASR 9000 router.
Note
Always clean all the fiber connectors thoroughly before making the connection with the mating adapter.
Very small particles can permanently damage the end of the mating fiber inside the Cisco ASR 9000v
satellite shelf, which makes regular cleaning imperative. For cleaning instructions, see NTP-J62 Clean
Fiber Connectors.
Note
The Cisco ASR 9000v satellite shelf features LC/UPC bulkhead adapters. Always use fiber-optic cables
equipped with the corresponding (LC/UPC) connector type. Using any other type of connector results in
damage to the connector or adapter, or both.
Procedure
Step 1
Place the LC/UPC cable connector in front of the corresponding bulkhead adapter on the front panel of
the Cisco ASR 9000v satellite shelf.
Step 2
Align the keyed ridge of the cable connector with the slot in the receiving adapter.
Step 3
Gently push the cable connector into the adapter until you hear a click, which indicates that the latching
system is engaged.
Step 4
Route the fiber cables through the cable guide (left and right side). A tie-wrap is tied around the fiber
and cables through the cable guide.
The cables are routed through the cable guide in an ANSI (23-inch) rack configuration, as shown in this
Figure C-43.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Power and Ground Description
EOEC
29
CISCO
10MHz
39
37
35
33
31
CONSOLE
43
41
FAN TR
3+
1+
ToD/P
PPS
Figure C-43
15454S
FTA-PT
27
4+
25
2+
23
44
21
42
19
40
17
38
36
34
32
30
MIN
MAJ
CRIT
FAN
PWR
28
26
24
22
20
281920
18
The cables are routed through the cable guide in an ETSI rack configuration, as shown in Figure C-44.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
CISCO
FAN TR
ToD/P
37
EOEC
35
33
31
29
CONSOLE
3+
1+
43
41
39
10MHz
PPS
Figure C-44
15454FTA-PTS
27
4+
25
2+
23
44
21
42
19
40
17
38
15
36
13
34
11
32
30
FAN
PWR
28
PTGE
454E-SA-
MIN
MAJ
CRIT
26
3
1
24
22
20
18
16
14
12
10
8
6
4
5A
281919
8V
Note
If no cable guide is installed, bind the cables and fibers using the tie-wrap.
Caution
Do not operate a Cisco ASR 9000v satellite shelf without the mandatory air filter.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Maintaining the Cisco ASR 9000v Satellite Shelf
NPT-J58 Replacing the Air Filter in the Cisco ASR 9000v Satellite Shelf
Purpose
Caution
Note
This procedure describes how to replace the air filter in the Cisco ASR
9000v satellite shelf.
Tools/Equipment
Prerequisite Procedures
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
Do not operate the Cisco ASR 9000v satellite shelf without an air filter.
Replacement or cleaning of an air filter is recommended every 60 days. Air filters are replaceable or
reusable.
Procedure
Step 1
Loosen the screw on the air filter faceplate, as shown in Figure C-45.
Figure C-45
Removing the Air Filter in the Cisco ASR 9000v Satellite Shelf
279898
Air
filter
Screw
Step 2
Extract the air filter from the Cisco ASR 9000v satellite shelf, as shown in Figure C-46.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Extracting the Air Filter in the Cisco ASR 9000v Satellite Shelf
279899
Figure C-46
Air
filter
Screw
Step 3
Remove the air filter faceplate from the air filter frame, as shown in Figure C-47.
Figure C-47
Air Filter
282147
Air Filter
Faceplate
Step 4
Step 5
Insert the air filter faceplate engaging the air filter frame, as shown in Figure C-48.
Attach the Air Filter Faceplate to the Air Filter Frame
Air Filter
Faceplate
282148
Air Filter
Frame
282147
Figure C-48
Step 6
Insert the air filter into the Cisco ASR 9000v satellite shelf.
Step 7
Tighten the M3 screw on the air filter to a torque value of 4 in-lbs (0.45 N-m).
Stop. You have completed this procedure.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Maintaining the Cisco ASR 9000v Satellite Shelf
Tools/Equipment
Inspection microscope
Type A Fiber Optic Connector Cleaner (CLETOP reel)
Optical swab
Optical receiver cleaning stick
Warning
Prerequisite Procedures
None
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
Invisible laser radiation may be emitted from the end of the unterminated fiber cable or connector. Do
not view directly with optical instruments. Viewing the laser output with certain optical instruments
(for example, eye loupes, magnifiers, and microscopes) within a distance of 100 mm may pose an eye
hazard. Statement 1056
Step 1
Using an inspection microscope, inspect each fiber connector for dirt, cracks, or scratches.
Step 2
Note
Replace all dust caps whenever the equipment is unused for 30 minutes or more.
Step 3
Complete the DLP-J187 Clean Fiber Connectors with CLETOP task on page C-74 as necessary.
Step 4
Complete the DLP-J188 Clean the Fiber Adapters task on page C-75 as necessary.
Note
To clean multi-fiber optic connectors, complete the DLP-J186 Clean Multi Fiber-Optic Cable
Connectors task on page C-73 as necessary.
Stop. You have completed this procedure.
Tools/Equipment
Prerequisite Procedures
None
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
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
Step 1
Step 2
Read the manufacturer (cleaning cartridge) instructions to insert the connector into the cleaning
cartridge.
Step 3
Step 4
Insert the fiber connector into the applicable adapter or attach a dust cap to the fiber connector.
Note
Step 5
If you must replace a dust cap on a connector, first verify that the dust cap is clean.
Return to your originating procedure (NTP).
Tools/Equipment
Prerequisite Procedures
None
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
Step 1
Step 2
Press the lever up to open the shutter door. Each time you press the lever, you expose a clean wiping
surface.
Step 3
Insert the connector into the CLETOP cleaning cassette slot, rotate one quarter turn, and gently swipe
downwards.
Step 4
Use an inspection microscope to inspect each fiber connector for dirt, cracks, or scratches. If the
connector is not clean, repeat Steps 1 to 3.
Step 5
Insert the fiber connector into the applicable adapter or attach a dust cap to the fiber connector.
Note
Step 6
If you must replace a dust cap on a connector, first verify that the dust cap is clean. To clean the
dust cap, wipe the outside of the cap using a dry, lint-free wipe and the inside of the dust cap
using a CLETOP stick swab (14100400).
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Maintaining the Cisco ASR 9000v Satellite Shelf
Tools/Equipment
Prerequisite Procedures
None
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
Step 1
Step 2
Insert a CLETOP stick swab (14100400) into the adapter opening and rotate the swab.
Step 3
Step 4
NTP-J63 Perform the Cisco ASR 9000v Satellite Shelf Installation Acceptance
Test
Purpose
Tools/Equipment
Voltmeter
Prerequisite Procedures
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
Procedure
Step 1
Once you have installed your Cisco ASR 9000v satellite shelf, verify that each applicable procedure
listed in the below table was completed.
Table C-9
Description
Completed
NTP-J53 Unpack and Inspect the Cisco ASR 9000v Satellite Shelf
NTP-J54 Inspect the Cisco ASR 9000v Satellite Shelf
Connect the chassis to the office ground. For detailed instructions on how to ground
the chassis, see the Electrostatic Discharge and Grounding Procedure for the Cisco
ASR 9000v Satellite Shelf section.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Table C-9
Description
Completed
NPT-J59 Installing the Power Feeds and Ground to the Cisco ASR 9000v Satellite
Shelf
NTP-J60 Connecting Cables to the EOBC, Timing, and Console Ports on the Cisco
ASR 9000v Satellite Shelf
NTP-J61 Install and Route Fiber-Optic Cables
Step 2
DLP-J188 Inspect the Cisco ASR 9000v Satellite Shelf Installation and Connections.
Step 3
Step 4
Continue with NTP-J63 Perform the Cisco ASR 9000v Satellite Shelf Installation Acceptance Test.
Stop. You have completed this procedure.
DLP-J188 Inspect the Cisco ASR 9000v Satellite Shelf Installation and
Connections
Purpose
Tools/Equipment
None
Prerequisite Procedures
None
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
Procedure
Step 1
Make sure that all external wiring connections (that is, power, ground, alarms, and so on) are secure. If
a wire or cable is loose, return to the appropriate procedure in this chapter to correct it.
Step 2
Tools/Equipment
Voltmeter
Prerequisite Procedures
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Maintaining the Cisco ASR 9000v Satellite Shelf
Warning
Caution
Required/As Needed
Required
Onsite/Remote
Onsite
Security Level
None
To reduce the risk of electric shock, switch on the power only after the power cord is completely
installed into the power module. Statement 390
Do not apply power to the shelf assembly until you complete all the installation steps.
Procedure
Step 1
Using a voltmeter, verify the office battery and ground at the following points on the fuse panel:
a.
To verify the power, place the black test lead of the voltmeter to the return (RET). Hold it there while
completing Step b.
b.
Place the red test lead on the fuse power points on the third-party power distribution panel to verify
that they read between:
For a 48 VDC power supply, the voltage is between 40.5 VDC and 57.6 VDC. Place the red
test lead on the BAT-B connection and verify that it is between 40.5 VDC and 57.6 VDC.
Note
Step 2
The voltages 40.5 VDC and 57.6 VDC are, respectively, the minimum and maximum
voltages required to power the Cisco ASR 9000v satellite shelf that has 48V DC power
supply. The nominal steady state voltage is -48 VDC.
Using a voltmeter, verify the shelf ground and power wiring: Place the black lead (positive) on the
RET1(A) and the red lead on the -48 V (A) point.
For the Cisco ASR 9000v satellite shelf with 48 V power supply, verify a reading between 40.5
VDC and 57.6 VDC.
Step 3
Using a voltmeter, verify the Cisco ASR 9000v satellite shelf for 48 VDC battery and return:
a.
To verify the BAT-A of the Cisco ASR 9000v satellite shelf, place the black lead of the voltmeter to
the return. Place the red test lead to the 48V (BAT-A battery connection) red cable. For a 48 VDC
power supply, verify that it reads between 40.5 VDC and 57.6 VDC. Then place the red test lead
of the voltmeter to the RET1 (BAT-A return ground) black cable and verify that no voltage is present,
that is, meter reading must be 0 VDC.
Note
For a Cisco ASR 9000v satellite shelf that has 48 VDC power supply, the voltages 40.5
VDC and 57.6 VDC. are, respectively, the minimum and maximum voltages required to
power the Cisco ASR 9000v satellite shelf. The nominal steady state voltage is 48 VDC.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
b.
Step 4
To verify the BAT-B of the Cisco ASR 9000v satellite shelf, place the black test lead of the voltmeter
to the return. Place the red test lead to the 48 V (BAT-B battery connection) red cable. For a 48
VDC power supply, verify that it reads between 40.5 VDC and 57.6 VDC. Then place the red test
lead of the voltmeter to the RET2 (BAT-B return ground) black cable and verify that no voltage is
present, that is, meter reading must be 0 VDC.
Hardware Specifications
This section contains product names, product IDs, and hardware specifications for the Cisco ASR 9000v
satellite shelf.
Product Names
The product names for the Cisco ASR 9000v satellite shelf are listed in Table C-10. The Cisco ASR
9000v satellite shelf is available in three variations based on the power module.
Table C-10
Shelf
Product Name
ASR-9000v-44GE-AC=
ASR-9000v-AC
ASR-9000v-DC-A 44-port GE + 4-port 10GE ASR 9000v, DC Power, Fan, Filter, ANSI Chassis
ASR-9000v-DC-E
44-port GE + 4-port 10GE ASR 9000v, DC Power, Fan, Filter, ETSI Chassis
A9K-NV-5S-LIC
A9K-NV-20S-LIC
License+Satellite
ASR-9000v-FAN= Cisco ASR 9000v Satellite Shelf Fan Tray with Filter
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Cisco ASR 9000v Satellite Shelf System Specifications
The GPS (Global Positioning System) interface (1PPS and 10Mhz) specifications are listed in
Table C-11.
.
Table C-11
GPS (Global Positioning System) Interface (1PPS and 10Mhz) of the Cisco ASR 9000v
Satellite Shelf System
10 MHz Specification
1 PPS Specification
Waveform
Sine wave
Pulse
Frequency
10 MHz
1 PPS
Amplitude
Impedance
50?
50?
The pinout of the TOD (Time of Day) RJ45 port is listed in Table C-12.
Table C-12
TOD/1PPS RS422 Interface RJ45 Pinout of the Cisco ASR 9000v Satellite Shelf
System
Pin
Signal Name
Description
1PPS_N
1PPS_P
NC
No Connect
GND
GND
NC
No Connect
TOD_P
TOD_N
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Fan Tray
Table C-13
Shelf
Input Voltage
Fuse Rating
100V - 240V AC
depending on the
standards in various
countries
48 V DC 5 A
Voltages 40.5 VDC
and 57.6 VDC are,
respectively, the
minimum and
maximum voltages
required to power the
chassis. The nominal
steady state voltage is
-48 VDC.
Functionality is
guaranteed at -40 VDC
input voltage,
according to GR-1089,
Issue 5.
48 VDC 5 A
DSUB 2 poles
Table C-14 lists the power requirements for the fan-tray assembly of the Cisco ASR 9000v satellite shelf
system.
Table C-14
Fan Tray
Watts
12 V supplied by the 36
Cisco ASR 9000v
satellite shelf
Amps
3
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Cisco ASR 9000v Satellite Shelf System Specifications
Shelf
Physical Dimensions
Measurement in inches
Height
Width
Depth
19 or 23 inches 9.1
with mounting
ears attached for
ANSI rack
configuration
Cisco ASR
1.7
9000v Satellite
Shelf
21 inches with
mounting ears
attached for
ETSI rack
configuration
Measurement in mm
Weight in Kg
Height
Width
with AC
power
module
4.06 kg
43.1
231.1
482.6 or 584.2
with mounting
ears attached for
ANSI rack
configuration
with DC
power
module
4.22 kg
Depth
533.4 mm with
mounting ears
attached for
ETSI rack
configuration
Weight in Kg
with AC
power
module
4.06 kg
with DC
power
module
4.22 kg
Shelf
Interface
Switching Capacity
44 G
Cisco ASR 9000v Satellite Shelf GBIC, SFP, SFP+, and XFP Compatibility
The GBIC, SFP, SFP+, and XFP compatibility of the Cisco ASR 9000v satellite shelf system is listed in
Table C-17.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Table C-17
GBIC, SFP, SFP+, and XFP Cisco ASR 9000v Satellite Shelf System Compatibility
Platform
Cisco ASR 9000v Satellite
Shelf System
10-2307-02
10-2155-02 through
10-2184-02
10-2668-01
10-2670-01
10-2669-01
ONS-SE-2G-1470= through
ONS-SE-2G-1610=
ONS-SE-GE-BXU=
10-2481-01
ONS-SE-GE-BXD=
10-2482-01
ONS-SE-ZE-EL=
10-2351-01
ONS-SI-100-FX=
10-2350-01
ONS-SI-100-LX10=
10-2294-01
ONS-SI-GE-EX=
ONS-SI-GE-LX=
10-2300-01
ONS-SI-GE-SX=
10-2295-01
ONS-SI-GE-ZX=
10-2296-01
ONS-SC+-10G-ZR=
ONS-SC+-10G-LRM=
ONS-SC-GE-BXU=
10-2481-01
ONS-SC-GE-BXD=
10-2482-01
ONS-SC-E1-T1-CES=
ONS-SC-E3-T3-CES=
ONS-SC+-10G-CU1=
37-1188-01
ONS-SC+-10G-CU3=
37-1197-01
ONS-SC+-10G-CU5=
37-1198-01
ONS-SC+-10G-CU7=
37-1196-01
ONS-SC+-10G-ER=
10-2619-01
ONS-SC+-10G-LR=
10-2618-01
ONS-SC+-10G-LRM=
ONS-SC+-10G-SR=
10-2620-01
ONS-SC+-10G-ZR=
ONS-SC+-10G-xx.x=
ONS-SE+-10G-LR=
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Next Steps
Next Steps
For information on powering up your system, please refer to the Plug and Play Satellite nV Switch Turn
up section in the Configuring the Satellite Network Virtualization (nV) System on the Cisco ASR 9000
Series Router chapter of the Cisco ASR 9000 Series Aggregation Services Router Interface and
Hardware Component Configuration Guide online.
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Warning
This unit is intended for installation in restricted access areas. A restricted access area can be
accessed only through the use of a special tool, lock and key, or other means of security.
Statement 1017
Safety Guidelines
Before you begin installing the Cisco ASR 901 router, review the safety guidelines in Safety
Precautions, page 1-5, and the Rack-Mounting Configuration Guidelines, page 3-2 to avoid injuries or
damaging the equipment.
In addition, before replacing, configuring, or maintaining the Cisco ASR 901 router, review the safety
warnings listed in the document Cisco Regulatory Compliance and Safety Information for Cisco ASR
901 Series Aggregation Services Router.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Safety Guidelines
Warning
Before connecting the system to the power source, read the installation instructions. Statement 1004
Before moving the system, always disconnect all the power cords and interface cables.
Before and after installation, keep the chassis area clean and dust-free.
Keep tools and assembly components away from walk areas to avoid tripping over them.
Do not perform any action that creates a potential hazard to people or makes the equipment unsafe.
Do not wear loose clothing that may get caught in the chassis.
When working under conditions hazardous to your eyes, wear safety glasses.
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
This unit is intended for installation in restricted access areas. A restricted access area can be
accessed only through the use of a special tool, lock and key, or other means of security.
Statement 1017
Warning
To avoid electric shock, do not connect safety extra-low voltage (SELV) circuits to telephone-network
voltage (TNV) circuits. LAN ports contain SELV circuits, and WAN ports contain TNV circuits. Some
LAN and WAN ports both use RJ-45 connectors. Statement 1021
Warning
Before working on equipment that is connected to power lines, remove jewelry (including rings,
necklaces, and watches). Metal objects will heat up when connected to power and ground and can
cause serious burns or weld the metal object to the terminals. Statement 43
Warning
Before working on a chassis or working near power supplies, unplug the power cord on AC units;
disconnect the power at the circuit breaker on DC units. Statement 12
Warning
During periods of lightning activity, do not work on the system or connect or disconnect cables.
Statement 1001
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Safety Guidelines
Warning
There is the danger of explosion if the battery is replaced incorrectly. Replace the battery only with
the same or equivalent type recommended by the manufacturer. Dispose of used batteries according
to the manufacturers instructions. Statement 1015
Warning
This unit might have more than one power supply connection. All connections must be removed to
de-energize the unit. Statement 1028
Locate the rooms emergency power switch. If an electrical accident occurs, you can quickly switch
off the power.
Before working on the system, switch off the DC main circuit breaker and disconnect the power
terminal block cable.
Carefully examine your work area for possible hazards, such as wet floors, ungrounded power
extension cables, and missing safety grounds.
Never perform any action that creates a potential hazard to people or makes the equipment unsafe.
Never install telephone jacks in wet locations unless the jack is specifically designed for it.
Never touch un-insulated telephone wires or terminals unless the telephone line is disconnected at
the network interface.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Safety Guidelines
Caution
Wear an ESD-preventive wrist strap, ensuring that it makes good skin contact. To channel unwanted
ESD voltages safely to ground, connect the clip to an unpainted surface of the chassis frame. To
guard against ESD damage and shocks, the wrist strap and cord must operate effectively.
If no wrist strap is available, ground yourself by touching a metal part of the chassis.
For the safety of your equipment, periodically check the resistance value of the antistatic wrist strap. It
should be between 1 and 10 Mohm.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Prerequisites
Prerequisites
Before installing the Cisco ASR 901 router, it is important to prepare for installation by:
Preparing the site (site planning) and reviewing the installation plans or method of procedures
(MOPs).
Gathering tools and test equipment required to properly install the Cisco ASR 901 router.
Site Planning
Ideally, you should have prepared the installation site beforehand. As part of your preparation, obtain a
floor plan of the site and the equipment rack where the Cisco ASR 901 router would be housed.
Determine the location of any existing routers and their interconnections, including communications and
power. Following the air flow guidelines (see the Air Flow Guidelines section on page C-88), ensure
that adequate cooling air is provided to the router.
All personnel involved in the installation of the router including installers, engineers, and supervisors
should participate in the preparation of a Method of Procedure (MOP) for approval by the customer.
Warning
Site Environment
Install the Cisco ASR 901 router in an equipment rack. The location of your router and the layout of your
equipment rack, or wiring room are extremely important considerations for proper operation. Cramped
equipment, inadequate ventilation, and inaccessible panels can cause malfunctions and shutdown, and
can make maintenance difficult. Plan to access the front and rear panels of the router.
Take the following precautions for an acceptable operating environment for your router and to avoid
environmentally caused equipment failures:
Ensure that the room where your router operates has adequate air circulation. Electrical equipment
generates heat. Without adequate circulation, ambient air temperature may not cool the equipment
to acceptable operating temperatures.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Site Planning
Caution
If air flow through the equipment rack and the routers that occupy it is blocked or restricted, or if the
ambient air being drawn into the rack is too warm, an over temperature condition can occur within the
rack and the routers that occupy it.
The site should also be as dust-free as possible. Dust tends to clog the router fans, reducing the flow of
cooling air through the equipment rack and the routers. Thus, increasing the risk of an over temperature
condition.
Use the following guidelines to plan your equipment rack configuration:
Mount the Cisco ASR 901 router in a 19-inch rack (with a 17.5- or 17.75-inch opening).
Beside air flow, you must allow clearance around the rack for maintenance.
Enclosed racks must have adequate ventilation. Ensure that the rack is not congested, because each
router generates heat. An enclosed rack should have louvered sides and a fan to provide cooling air.
Heat that is generated by equipment near the bottom of the rack can be drawn upward into the intake
ports of the equipment above.
When mounting a chassis in an open rack, ensure that the rack frame does not block the intakes or
(on the left side of the chassis) or the exhaust (on the right side of the chassis).
When a rack-installed equipment fails, especially equipment in an enclosed rack, try making the
equipment operate by itself, if possible. Power off other equipment in the rack (and in adjacent
racks) to give the router a maximum of cooling air and clean power.
Method of Procedure
Part of site preparation includes reviewing installation plans or method of procedures (MOPs). An
example of a MOP that includes pre-installation checklist of tasks, considerations to address and agree
upon before proceeding with the installation, is as follows:
1.
2.
Assign personnel.
3.
4.
5.
6.
7.
8.
9.
On an equipment plan, make a preliminary decision that locates each Cisco ASR 901 router that you
plan to install.
10. Verify the list of replaceable parts for installation (screws, bolts, washers, and so on) so that the parts
are identified.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Site Planning
11. Check the required tools list to make sure the necessary tools and test equipment are available (see
Note
Do not discard the packaging materials used in shipping your Cisco ASR 901 router. You will need the
packaging materials in the future if you move or ship the router.
The Cisco ASR 901 router, cables, and any optional equipment you ordered may be shipped in more than
one container. When you unpack the containers, check the packing list to ensure that you receive all of
the following items:
Router
Accessory kit (part number 53-3085-01/53-3295-0 for the Cisco ASR 901), containing
Terminal block (part number 53-3085-01)
Two hole lug, 6-AWG ground wire, #10 blue stud (part number 32-0629-01)
Two pan-head Phillips screws used to attach the lug to the router, M5.0x10mm
Two cable guides (part number 700-01663-01)
Two pan-head Phillips screws used to attach the cable guides, M4,0x20mm (part number
48-0654-01)
Note
Inspect all items for shipping damage. If an item appears to be damaged, or if you encounter problems
installing or configuring your router, contact customer service. The Cisco Information Packet provides
warranty, service, and support information.
Warning
Only trained and qualified personnel should be allowed to install or replace this equipment.
Statement 49
Flat-blade screwdrivers: small, 3/16-inch (0.476 cm) and medium, 1/4-inch (0.625 cm).
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Site Planning
Number 12-24 pan-head screws to secure the router to the equipment rack.
Cables for connection to the WAN and LAN ports (depending on the configuration).
Note
For more information on cable specifications, see Connector and Cable Specifications,
page C-170
Ethernet hub or PC with a network interface card for connection to the Ethernet (LAN) ports.
Console terminal (an ASCII terminal or a PC running terminal emulation software) is configured for
9600 baud, 8 data bits, no parity, and 2 stop bits.
Ratcheting torque screwdriver with a Phillips head that exerts up to 15 pound-force inches (lbf-in)
of pressure.
Serial interfaces may require a channel service unit/data service unit (CSU/DSU).
Installation Checklist
To assist you with your installation and to provide a historical record of completed tasks and users, use
the following Installation Checklist. Make a copy of this checklist and mark the entries as you complete
each task. When the checklist is completed, include a copy of the checklist for each router in your Site
Log along with other records for your new router. See Site Log, page C-176 for information on the Site
Log, including a sample Site Log.
Installation Checklist for Site:
Router Name:
Task
Verified by
Date
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Console Port Considerations
Task
Verified by
Date
Note
Note
Console and rollover cables are not included with the Cisco ASR 901 router. You can order the console
cable from Cisco Systems, Inc. (Part number ACS-1900ASYN=).
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Network Modules
For cable and port pinouts, see the online document Cisco Modular Access Router Cable Specifications.
This document is provided on the documentation DVD that accompanied your router (if ordered), and is
also available online at Cisco.com.
Network Modules
You can order the Cisco ASR 901 router as a satellite shelf with the following interface modules.
Interface modules are installed and shipped with the router; they are not field replaceable.
Caution
Allow clearance on either side of the Cisco ASR 901 router for cooling air to be drawn in through the
left side and circulated through the chassis and out the two fan exhaust ports mounted on the other side
of the chassis.
Caution
When mounting the router to an equipment rack, ensure that the rack is bolted to the floor.
Because you may install more than one router into the rack, ensure that the weight of all of the
routers installed does not make the rack unstable.
Some equipment racks are also secured to ceiling brackets, if necessary, due to the weight of the
equipment in the rack. Make sure that the rack you are using to install the routers is secured to the
building structure.
As mentioned in the Air Flow Guidelines section on page 2-5, maintain a 6-inch (15.24-cm)
clearance on each side of the router to ensure adequate air intake and exhaust.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Mounting the Cisco ASR 901 Router
Avoid installing the routers in an overly congested rack. Air flowing to or from other routers in the
rack might interfere with the normal flow of cooling air through the routers, increasing the potential
for overtemperature conditions within the routers.
Allow at least 19 inches (48.7 cm) of clearance at the front and rear of the rack for router
maintenance.
Follow your local practices for cable management. Ensure that cables to and from the routers do not
impede access to perform equipment maintenance or upgrades.
Step 2
Align the rack-mounting bracket with the Cisco ASR 901 router and position with the four #6-32 x
0.25-inch screws (provided) (see Figure C-49 for front-mounting).
Attaching the Bracket for Front-Mounting
282344
Figure C-49
Step 3
Insert the screws (four places) and tighten using a Number 2 Phillips screwdriver.
Step 4
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Caution
To prevent injury, review the Safety Guidelines section on page 2-1 and the Rack-Mounting
Configuration Guidelines section on page C-92 before installing the Cisco ASR 901 router in the
equipment rack.
Step 1
Locate the equipment rack position where you plan to install the router.
Step 2
Verify that there are no obstructions and ensure that the equipment rack is stabilized.
Step 3
Position the router in the equipment rack lining up the bracket holes on the router with the holes on the
rack and secure with four #6-32 x 0.25-inch mounting screws (two on each side).
Note
Step 4
The vertical spacing for EIA equipment racks is 1.75 inches (4.44 cm), with mounting holes
spaced 1.5 inches (3.81 cm) apart.
Note
The cable guides are useful only if your router is front-mounted. Do not attach the cable guides if your
router is center-mounted or recess-mounted.
Use the cable guides to dress the cables that attach to the front of the Cisco ASR 901 router. The cable
guides allow you to gather the cables and direct them to the left and right sides of the router. This helps
to keep the cables from obscuring the fronts of lower routers in the same rack.
Step 1
In the accessory kit, locate the two cable guides (part number 700-01663-01) and two M4.0x20mm
Phillips screws used to attach the cable guides (part number 48-0654-01).
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Mounting the Cisco ASR 901 Router
Step 2
Position the cable guide over the threaded hole in the front flange of either the left or right mounting
bracket. The threaded hole is located midway between the two slotted holes used to mount the unit to
the rack.
Attaching the Cable Guide
282345
Figure C-50
Step 3
Use an M4.0x20mm Phillips screw to fix the cable guide to the mounting bracket. Do not over-tighten
the screw.
Step 4
Note
If you find it awkward to insert the screw while holding the cable guide in place, you can first insert the
screw only far enough so that it does not fall out. Then, using the slot in the mounting pillar of the cable
guide, slide the cable guide into place around the screw. Finally, tighten the screw to fix the cable guide
to the mounting bracket.
Ratcheting torque screwdriver with Phillips head that exerts up to 15 pound-force inches (lbf-in) of
pressure for attaching the ground wire to the router.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Caution
Before making connections to the Cisco ASR 901 router, ensure that you disconnect the power at the
circuit breaker. Otherwise it may result in severe injury or damage to the router.
Warning
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection
authority or an electrician if you are uncertain that suitable grounding is available. Statement 1024
Warning
Warning
When installing the unit, the ground connection must always be made first and disconnected last.
Statement 42
Figure C-51 shows the grounding point marked on the rear panel of the Cisco ASR 901 router for ease
of installation
Grounding Point
282342
Figure C-51
Fan
This unit is to be installed in a restrictive access location and must be permanently grounded to minimum
6-AWG copper ground wire.
Complete the following steps to ground the Cisco ASR 901 router using a 2-hole lug and the
corresponding mounting point. Most carriers require a 6-AWG ground connection. Verify your carriers
requirements for the ground connection.
Step 1
In the accessory kit, locate the 2-hole lug, 2 pan-head Phillips head screws used to attach the lug to the
router, and 6-AWG ground wire. (Lug, screws, and wire are part number 32-0629-01.)
Step 2
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Mounting the Cisco ASR 901 Router
Step 3
If your ground wire is insulated, use a wire-stripping tool to strip the ground wire to 0.5 inch 0.02 inch
(12.7 mm 0.5 mm) for the ring terminal (Figure C-52).
.
Figure C-52
Insulation
Wire lead
60528
Step 4
Slide the open end of your ground lug over the exposed area of the ground wire.
Step 5
Using a crimping tool (as specified by the ground lug manufacturer), crimp the ground lug to the ground wire
(Figure C-53).
Crimping a Ground Lug onto the Ground Wire
60529
Figure C-53
Step 6
Use a Phillips head screwdriver to attach the ground lug and wire assembly to the front of the router with
the 2 screws from the accessory kit.
Step 7
Connect the other end of the ground wire to a suitable grounding point at your site.
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Note
The installation must comply with the 2002 National Electric Code (NEC) and other applicable codes.
This product relies on the buildings installation for short-circuit (overcurrent) protection. Ensure that
the protective device is rated not greater than 10 A minimum, 60 VDC. Statement 1005
Complete the following steps to connect the DC power supply to the Cisco ASR 901 router:
Step 1
Switch off the DC power source at the circuit breaker, and place the circuit breaker in the Off position.
Step 2
Locate the 6-pin terminal block (part number 27-2030-01) (Figure C-54). The terminal block is located
in the accessory kit (part number 53-3085-01 for the Cisco ASR 901 router), which is shipped with the
router.
282346
Figure C-54
Step 3
Plug the 6-pin terminal block into the power connector located on the front side of the router.
Step 4
Connect one end of the customer-supplied power cord (16-AWG copper wire) to the site DC power
source.
Step 5
Plug the connector on the power supply cord into the 6-pin terminal block that you plugged into the rear
of the router in Step 3.
Warning
An exposed wire lead from a DC-input power source can conduct harmful levels of electricity. Be sure
that no exposed portion of the DC-input power source wire extends from the terminal block plug.
Statement 122
Warning
When installing this unit, secure all power cabling to avoid disturbing field-wiring connections.
Statement 38
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Installing and Removing SFP Modules
Caution
Caution
We strongly recommend that you do not install or remove fiber-optic SFP modules with cables attached
because of the potential damage to the cables, the cable connector, or the optical interfaces in the SFP
module. Disconnect all cables before removing or installing an SFP module.Removing and installing an
SFP module can shorten its useful life. Do not remove and insert SFP modules more often than is
absolutely necessary.
SFP Module with a Bale-Clasp Latch
86575
Figure 3-55
Complete the following steps to insert an SFP module into the module slot:
Step 1
Attach an ESD-preventive wrist strap to your wrist and to a bare metal surface on the chassis.
Some SFP modules identify the top side of the module with transmit (TX) and receive (RX) markings
or arrows that show the direction of the connection.
Step 2
If the SFP module that you are using has the markings, use them to identify the top side of the module.
Step 3
Step 4
Insert the SFP module into the slot until you feel the connector on the module snap into place in the rear
of the slot (see Figure 3-56).
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Figure 3-56
BITS
MGMNT
CONSOL
NG-MRW
GE
COMBO
SFP
Step 5
Caution
Step 6
SYSTEM
282347
TOD
For fiber-optic SFP modules, remove the dust plugs from the optical ports, and store them for later use.
Do not remove the dust plugs from the fiber-optic SFP module port or the rubber caps from the
fiber-optic cable until you are ready to connect the cable. The plugs and caps protect the SFP module
ports and cables from contamination and ambient light.
Insert the cable connector into the SFP module:
For fiber-optic SFP modules, insert the line card or MT-RJ cable connector into the SFP module.
For copper 1000BASE-T SFP modules, insert the RJ-45 cable connector into the SFP module.
Attach an ESD-preventive wrist strap to your wrist and to a bare metal surface on the chassis.
Step 2
Disconnect the cable from the SFP module, and insert a dust plug into the cable end.
Tip
Step 3
For reattachment, note which cable connector plug is transmit (TX) and which is receive (RX).
Unlock and remove the SFP module, as shown in Figure 3-57.
If the module has a bale-clasp latch, pull the bale out and down to eject the module. If the bale-clasp
latch is obstructed and you cannot use your index finger to open it, use a small, flat-blade screwdriver
or other long, narrow instrument to open the bale-clasp latch.
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Connecting Cables
Figure 3-57
BITS
MGMNT
CONSOL
NG-MRW
GE
COMBO
SFP
SYSTEM
282348
TOD
Bale Clasp
Step 4
Grasp the SFP module between your thumb and index finger, and carefully remove it from the
module slot.
Step 5
For fiber-optic SFP modules, insert a dust plug into the optical ports of the SFP module to keep the
optical interfaces clean.
Step 6
Place the removed SFP module in an antistatic bag or other protective environment.
Connecting Cables
This section describes how to connect the Cisco ASR 901 router to external devices and networks. It
includes the following sections:
Do not work on the system or connect or disconnect cables during periods of lightning activity.
Statement 1001
The Cisco ASR 901 router has a single console port that can function in DTE mode:
Note
The console port functions are asynchronous serial ports; any devices connected to the console port must
be cabled for asynchronous transmission. (Asynchronous is the most common type of serial device; for
example, most modems are asynchronous devices.)
The Cisco ASR 901 router uses RJ-45 ports for console port function.
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Connecting Cables
We provide the following cables and adapters for connecting the Cisco ASR 901 router to a console
terminal:
Straight-through
Crossover
The Cisco ASR 901 router ships with and uses the rollover cable. For instructions on how to identify a
rollover cable, see Identifying a Rollover Cable, page C-109.
Console Port
Complete the following steps to connect a terminal or a PC running terminal emulation software to the
console port on the router:
Step 1
Connect the terminal using an RJ-45 rollover cable and an RJ-45-to-DB-25 or RJ-45-to-DB-9 adapter
(labeled TERMINAL) to the console port. For cable pinouts, see the Console Port Signals and Pinouts
section on page C-108.
Note
Step 2
The RJ-45-to-DB-25 adapter (Cisco part number 29-0810-01) can be purchased from Cisco
Systems.
Configure the terminal or terminal emulation software for 9600 baud, 8 data bits, no parity, and 2 stop
bits.
Note
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Connecting Cables
Step 2
Step 3
Connect the other end to the BTS patch or demarcation panel at your site.
For more information about Gigabit Ethernet connectors including pinouts, see Gigabit Ethernet
Connector Pinouts section on page C-105
Step 2
Insert the SFP module patch cable into the slot until you feel the connector on the cable snap into place
in the rear of the slot.
Step 3
Connect the other end to the patch or demarcation panel at your site.
Step 4
Turn on power to the router (see Powering On the Router section on page C-113 for more details).
For more information about SFP connectors, see SFP Port Pinouts and Cable Specifications section
on page C-106.
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Connecting Cables
Step 1
Step 2
Connect one end of the cable to the BITS port using a T1/E1 cable.
Step 3
Step 4
Turn on power to the router (see Powering On the Router section on page C-113 for more details).
For more information about T1/E1 connectors including pinouts, see T1/E1 Port Pinouts section on
page C-106.
Step 2
Step 3
Connect the other end of the mini-coax cable to the 10Mhz or 1PPS port on the Cisco ASR 901 router.
For instructions on how to configure clocking, see the Cisco ASR 901 Mobile Wireless Router Software
Configuration Guide.
For more information about 10Mhz and 1PPS port pinouts, see GPS Port Pinouts section on
page C-111.
Step 2
Step 3
Connect the other end of the cable to the ToD port on the Cisco ASR 901 router.
For instructions on how to configure clocking, see the Cisco ASR 901 Router Software Configuration
Guide.
Note
For more information about BITS port pinouts, see Time of Day Pinouts section on page C-110.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Cisco ASR 901 Cable Specifications
205053
12345678
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Table C-18
Pin
FE Signal
GE Signal
TX data+
TX A+
TX data
TX A
RX data+
RX B+
Not used
TX C+
Not used
TX C
RX data
RX B
Not used
RX D+
Not used
RX D
Note
Pins not listed in the tables in this appendix are not connected
87654321
RJ-48C connector
RJ-48C Connector
24939
Figure C-59
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Console Port Signals and Pinouts
Figure C-60 shows the RJ-48C connector wiring for the T1/E1 cable.
Figure C-60
H11419
Note
Pin
Signal Name
Direction
Description
RX Tip
Input
Receive Tip
RX Ring
Input
Receive Ring
Not used
TX Tip
Output
Transmit Tip
TX Ring
Output
Transmit Ring
Not used
Not used
Not used
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
RJ-45-to-RJ-45
rollover cable
RJ-45-to-DB-9 adapter
(labeled TERMINAL)
H7226
Router
Table C-20 lists the Console port pinouts for the Cisco ASR 901 router.
Table C-20
Pin
Signal Name
HP Pins
Direction
Description
RTS
UART_RTS1
Output
Request to send
DTR
NC
TXD
UART_SOUT1
Output
Transmit data
RI
GND
GND
GND
RXD
UART_SIN1
Input
Receive data
DSR/DCD
NC
Input
CTS
UART_CTS1
Input
Clear to send
Ring indicator
Table C-21 describes the pinouts RJ-45-to-RJ-45 and RJ-45-to-DB-9 rollover cables.
Table C-21
Console
Port (DTE)
RJ-45-to-DB-9
Terminal Adapter
(Connected to Rollover
Cable)
Signal
RJ-45 Pin
RJ-45 Pin
DB-9 Pin
Signal
CTS
Console
Device
RTS
DTR
DSR/DCD
TxD
RxD
GND/RI
GND
GND
GND/RI
RxD
TxD
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Console Port Signals and Pinouts
Table C-21
Console
Port (DTE)
RJ-45-to-DB-9
Terminal Adapter
(Connected to Rollover
Cable)
Signal
RJ-45 Pin
RJ-45 Pin
DB-9 Pin
Signal
DSR/DCD
DTR
CTS
81
RTS
Console
Device
Table C-22 lists the pinouts for the asynchronous serial console port, the RJ-45-to-RJ-45 rollover cable,
and the RJ-45-to-DB-25 female DTE adapter (labeled TERMINAL).
Table C-22
Console
Port (DTE)1
RJ-45-to-DB-25
Terminal Adapter
Console
Device
Signal
RJ-45 Pin
RJ-45 Pin
DB-25 Pin
Signal
CTS
RTS
DTR
DSR/DCD
TxD
RxD
GND/RI
GND
GND
GND/RI
RxD
TxD
DSR/DCD
20
DTR
RTS
CTS
1. You can use the same cabling to connect a console to the auxiliary port.
2. Pin 1 is connected internally to pin 8.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Figure C-62
H3824
Pin 8
Pin
Signal Name
Direction
Description
RX ring
Input
Receive ring
RX tip
Input
Not connected
TX ring
Output
Transmit ring
TX tip
Output/input
Not connected
Not connected
Not connected
Pin
Signal Name
Direction
Description
Not connected
Not connected
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
GPS Port Pinouts
Table C-24
Pin
Signal Name
Direction
Description
Not connected
Ground
Ground
Not connected
TOD_N
Output/Input
TOD_P
Output/Input
Note
For pinouts related to ToD and 1PPS using the BITS interface, see Console Port Signals and Pinouts.
Table C-25
10 Mhz
1PPS
InputSine wave
InputPulse shape
OutputSquare wave
OutputPulse shape
Impedance
50 ohms
50 ohms
Pulse Width
26 microseconds
Rise Time
InputAC coupled
40 nanoseconds
Waveform
Amplitude
Output5 nanoseconds
The 1PPS interface type is Series 1.0 / 2.3, 50 ohms.
For instructions on how to configure the 10 Mhz and 1PPSs ports, see the Cisco ASR 901 router Mobile
Wireless Software Configuration Guide.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Table C-26
Pin
Signal Name
Alarm input 1
Alarm input 2
Description
Not connected
Alarm input 3
Alarm input 4
Not connected
Not connected
Not connected
Pin
Signal Name
RxD_P
RxD_N
TxD_P
Description
Not connected
Not connected
TxD_N
Not connected
Not connected
Note
If your Cisco ASR 901 router is front-mounted, you can use the cable guide (found in the accessory kit)
to dress the cables.
To continue the installation, proceed to the next section, Powering On the Router.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Powering On the Router
Do not touch the power supply when the power cord is connected. For systems with a power switch,
line voltages are present within the power supply even when the power switch is off and the power
cord is connected. For systems without a power switch, line voltages are present within the power
supply when the power cord is connected. Statement 4
Warning
This equipment is intended to be grounded. Ensure that the host is connected to earth ground during
normal use. Statement 39
Power-On Procedure
Complete these steps to power on the Cisco ASR 901 router and verify its initialization and self-test:
Step 1
Step 2
Restore power by moving the handle of the circuit breaker to the ON position.
The LED (labeled POWER) on the front panel should go ON and the fans operate.
Depending on your installation, other front-panel LEDs can also come on.
Note
If you encounter problems when you power on the router, see Appendix A, Troubleshooting.
Note
The Product IDs (PIDs) for the the Cisco ASR 901 router are A901-12C-F-D and A901-12C-FT-D
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Connecting the Cisco ASR 903 Router to the Network, page C-159
Safety Guidelines
Before you begin the installation of the Cisco ASR 903 router as a satellite shelf, review the safety
guidelines in this chapter to avoid injuring yourself or damaging the equipment.
In addition, before replacing, configuring, or maintaining the Cisco ASR 903 router as a satellite shelf,
review the safety warnings listed in Regulatory Compliance and Safety Information for the Cisco ASR
903 Router.
The following sections describe the safety guidelines for the Cisco ASR 903 router as a satellite shelf:
Safety Guidelines for Personal Safety and Equipment Protection, page C-116
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Safety Guidelines
Warning
To prevent bodily injury when mounting or servicing this unit in a rack, you must take special
precautions to ensure that the system remains stable. The following guidelines are provided to ensure
your safety: This unit should be mounted at the bottom of the rack if it is the only unit in the rack. When mounting
this unit in a partially filled rack, load the rack from the bottom to the top with the heaviest component at the bottom
of the rack. If the rack is provided with stabilizing devices, install the stabilizers before mounting or servicing the unit
in the rack. Statement 1006
Warning
This unit is intended for installation in restricted access areas. A restricted access area can be
accessed only through the use of a special tool, lock and key, or other means of security.
Statement 1017
Warning
Ultimate disposal of this product should be handled according to all national laws and regulations.
Statement 1040
Warning
To prevent the system from overheating, do not operate it in an area that exceeds the maximum
recommended ambient temperature of 149F (65C). Statement 1047
Warning
The chassis should be mounted on a rack that is permanently affixed to the building. Statement 1049
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
Warning
This is a Class A Device and is registered for EMC requirements for industrial use. The seller or buyer
should be aware of this. If this type was sold or purchased by mistake, it should be replaced with a
residential-use type. Statement 294
Warning
This is a class A product. In a domestic environment this product may cause radio interference in
which case the user may be required to take adequate measures. Statement 340
Warning
This equipment is in compliance with the essential requirements and other relevant provisions of
Directive 1999/5/EC.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Safety Guidelines
Before moving the system, always disconnect all the power cords and interface cables.
Before and after installation, keep the chassis area clear and dust-free.
Keep tools and assembly components away from walk areas where you or others could trip over
them.
Do not perform any action that creates a potential hazard to people or makes the equipment unsafe.
Do not wear loose clothing that may get caught in the chassis.
When working under conditions that may be hazardous to your eyes, wear safety glasses.
Warning
Warning
Do not stare into the beam or view it directly with optical instruments. Statement 1011
Warning
Warning
Hazardous network voltages are present in WAN ports regardless of whether power to the unit is OFF
or ON. To avoid electric shock, use caution when working near WAN ports. When detaching cables,
detach the end away from the unit first. Statement 1026
Warning
Blank faceplates and cover panels serve three important functions: they prevent exposure to
hazardous voltages and currents inside the chassis; they contain electromagnetic interference (EMI)
that might disrupt other equipment; and they direct the flow of cooling air through the chassis. Do not
operate the system unless all cards, faceplates, front covers, and rear covers are in place.
Statement 1029
Warning
Hazardous voltage or energy is present on the backplane when the system is operating. Use caution
when servicing. Statement 1034
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Safety Guidelines
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
Before working on a chassis or working near power supplies, unplug the power cord on AC units;
disconnect the power at the circuit breaker on DC units. Statement 12
Warning
Before working on equipment that is connected to power lines, remove jewelry (including rings,
necklaces, and watches). Metal objects will heat up when connected to power and ground and can
cause serious burns or weld the metal object to the terminals. Statement 43
Warning
Do not work on the system or connect or disconnect cables during periods of lightning activity.
Statement 1001
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Read the installation instructions before connecting the system to the power source. Statement 1004
Warning
This product relies on the buildings installation for short-circuit (overcurrent) protection. Ensure that
the protective device is rated: For a -48/-60 VDC installation, the wire shall be 12 AWG minimum with
a 20 A branch circuit breaker. For a 24 VDC installation, the wire shall be 8 AWG minimum with a 40
A branch circuit breaker. Statement 1005
Warning
This product relies on the buildings installation for short-circuit (overcurrent) protection. For an AC
installation, ensure that the branch circuit breaker is rated a maximum 20A.
Warning
There is the danger of explosion if the battery is replaced incorrectly. Replace the battery only with
the same or equivalent type recommended by the manufacturer. Dispose of used batteries according
to the manufacturers instructions. Statement 1015
Warning
This unit is intended for installation in restricted access areas. A restricted access area can be
accessed only through the use of a special tool, lock and key, or other means of security.
Statement 1017
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Safety Guidelines
Warning
When you connect or disconnect the power and relay connector with power applied, an electrical arc
can occur. This could cause an explosion in hazardous area installations. Be sure that power is
removed from the switch and alarm circuit. Be sure that power cannot be accidentally turned on or
verify that the area is nonhazardous before proceeding. Failure to securely tighten the power and
relay connector captive screws can result in an electrical arc if the connector is accidentally
removed. Statement 1058
Warning
Take care when connecting units to the supply circuit so that wiring is not overloaded. Statement 1018
Warning
The plug-socket combination must be accessible at all times, because it serves as the main
disconnecting device. Statement 1019
Warning
To avoid electric shock, do not connect safety extra-low voltage (SELV) circuits to telephone-network
voltage (TNV) circuits. LAN ports contain SELV circuits, and WAN ports contain TNV circuits. Some
LAN and WAN ports both use RJ45 connectors. Use caution when connecting cables. Statement 1021
Warning
A readily accessible two-poled disconnect device must be incorporated in the fixed wiring. Statement
1022
Warning
To reduce the risk of fire, use only 26 AWG or larger telecommunication line cord. Statement 1023
Warning
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection
authority or an electrician if you are uncertain that suitable grounding is available. Statement 1024
Warning
Warning
This unit might have more than one power supply connection. All connections must be removed to
de-energize the unit. Statement 1028
Warning
To prevent personal injury or damage to the chassis, never attempt to lift or tilt the chassis using the
handles on modules (such as power supplies, fans, or cards); these types of handles are not designed
to support the weight of the unit. Statement 1032
Warning
Connect the unit only to DC power source that complies with the safety extra-low voltage (SELV)
requirements in IEC 60950 based safety standards. Statement 1033
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Safety Guidelines
Warning
Do not use this product near water; for example, near a bath tub, wash bowl, kitchen sink or laundry
tub, in a wet basement, or near a swimming pool. Statement 1035
Warning
Never install telephone jacks in wet locations unless the jack is specifically designed for
wet locations. Statement 1036
Warning
Before opening the unit, disconnect the telephone-network cables to avoid contact with
telephone-network voltages. Statement 1041
Warning
This equipment must be installed and maintained by service personnel as defined by AS/NZS 3260.
Incorrectly connecting this equipment to a general-purpose outlet could be hazardous. The
telecommunications lines must be disconnected 1) before unplugging the main power connector or 2)
while the housing is open, or both. Statement 1043
Warning
This product requires short-circuit (overturned) protection, to be provided as part of the building
installation. Install only in accordance with national and local wiring regulations. Statement 1045
Warning
When installing or replacing the unit, the ground connection must always be made first and
disconnected last. Statement 1046
Warning
Never install an AC power module and a DC power module in the same chassis. Statement 1050
Warning
Failure to securely tighten the power and relay connector captive screws can result in an electrical
arc if the connector is accidentally removed. Statement 1058
Warning
This equipment is intended to be grounded. Ensure that the host is connected to earth ground during
normal use.
Warning
If you connect or disconnect the console cable with power applied to the switch or any device on the
network, an electrical arc can occur. This could cause an explosion in hazardous location
installations. Be sure that power is removed or the area is nonhazardous before proceeding. To verify
switch operation, perform POST on the switch in a nonhazardous location before installation.
Statement 1065
Warning
Installation of the equipment must comply with local and national electrical codes. Statement 1074
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Safety Guidelines
Warning
Hazardous voltage or energy may be present on DC power terminals. Always replace cover when
terminals are not in service. Be sure uninsulated conductors are not accessible when cover is in
place. Statement 1075
Locate the rooms emergency power-off switch. If an electrical accident occurs, you will be able to
quickly turn off the power.
Before working on the system, turn off the DC main circuit breaker and disconnect the power
terminal block cable.
Carefully examine your work area for possible hazards, such as moist floors, ungrounded power
extension cables, and missing safety grounds.
Never perform any action that creates a potential hazard to people or makes the equipment unsafe.
Never install telephone jacks in wet locations unless the jack is specifically designed for it.
Never touch uninsulated telephone wires or terminals unless the telephone line is disconnected at
the network interface.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Safety Guidelines
Warning
This equipment needs to be grounded. Use a green and yellow 6 AWG ground wire to connect the host
to earth ground during normal use. Statement 383
Electrostatic discharge (ESD) can damage equipment and impair electrical circuitry. ESD can occur
when electronic printed circuit cards are improperly handled and can cause complete or intermittent
failures. When removing and replacing modules, always follow ESD prevention procedures:
Note
Wear an ESD-preventive wrist strap, ensuring that it makes good skin contact. To channel unwanted
ESD voltages safely to ground, connect the clip to an unpainted surface of the chassis frame. To
guard against ESD damage and shocks, the wrist strap and cord must operate effectively.
If no wrist strap is available, ground yourself by touching a metal part of the chassis.
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 available ejector levers or captive installation screws, if any, to
release the bus connectors from the backplane or midplane.
Handle components by their handles or edges only; do not touch the printed circuit boards or
connectors.
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 the safety of your equipment, periodically check the resistance value of the antistatic wrist strap. It
should be between 1 and 10 Mohm.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Site Planning
Site Planning
The following sections describe how to plan for the installation of the Cisco ASR 903 router as a satellite
shelf:
General Precautions
Observe the following general precautions when using and working with your Cisco ASR 903 router as
a satellite shelf system:
Keep your system components away from radiators and heat sources and do not block cooling vents.
Do not spill food or liquids on your system components and never operate the product in a wet
environment.
Do not push any objects into the openings of your system components. Doing so can cause fire or
electric shock by shorting out interior components.
Position system cables and power supply cables carefully. Route system cables and the power supply
cable and plug so that they cannot be stepped on or tripped over. Be sure that nothing else rests on
your system component cables or power cable.
Do not modify power cables or plugs. Consult a licensed electrician or your power company for site
modifications. Always follow your local and national wiring rules.
If you turn off your system, wait at least 30 seconds before turning it on again to avoid system
component damage.
The site meets the environmental requirements.Cisco ASR 903 router as a satellite shelf
The sites air conditioning system can compensate for the heat dissipation of the Cisco ASR 903
router as a satellite shelf.
The floor space that the Cisco ASR 901 occupies can support the weight of the system.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Site Planning
The electrical circuit servicing the Cisco ASR 903 router as a satellite shelf complies with the
requirements.
Consideration has been given to the console port wiring and limitations of the cabling involved,
according to TIA/EIA-232F.
The Cisco ASR 903 router as a satellite shelf Ethernet cabling distances are within limitations.
The equipment rack in which you plan to install the Cisco ASR 903 router as a satellite shelf
complies with requirements.
In selecting the location of the rack, careful consideration has been given to safety, ease of
maintenance, and proper airflow.
Environmental Requirements
Environmental monitoring in the Cisco ASR 903 router as a satellite shelf protects the system and
components from damage caused by excessive voltage and temperature conditions. To ensure normal
operation and avoid unnecessary maintenance, plan and prepare your site configuration before
installation. After installation, make sure that the site maintains the environmental characteristics
described in System Specifications section on page 2.
Physical Characteristics
Be familiar with the physical characteristics of the Cisco ASR 903 router as a satellite shelf to assist you
in placing the system in the proper location. For more information, see the System Specifications
section on page 2.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Site Planning
Room air
344738
Air exhaust
The fan trays maintain acceptable operating temperatures for the internal components by drawing in cool
air through the vents, and circulating the air through the chassis.
The following guidelines will help you plan your equipment rack configuration:
To ensure adequate air flow through the equipment rack, we recommend that you maintain a
clearance of at least 80 mm on each side of the rack at all times.
If airflow through the equipment rack and the routers that occupy it is blocked or restricted, or if the
ambient air being drawn into the rack is too warm, an overtemperature condition can occur within
the rack and the routers that occupy it.
The site should also be as dust-free as possible. Dust tends to clog the router fans, reducing the flow
of cooling air through the equipment rack and the routers that occupy it, thus increasing the risk of
an overtemperature condition.
Enclosed racks must have adequate ventilation. Ensure that the rack is not congested, because each
router generates heat. An enclosed rack should have louvered sides and a fan to provide cooling air.
Heat that is generated by the equipment near the bottom of the rack can be drawn upward into the
intake ports of the equipment above.
When mounting a chassis in an open rack, ensure that the rack frame does not block the side intakes
and the exhaust fans.
When rack-installed equipment fails, especially equipment in an enclosed rack, try operating the
equipment by itself, if possible. Power off all other equipment in the rack (and in adjacent racks) to
give the router maximum cooling air and clean power.
Avoid locating the Cisco ASR 903 router as a satellite shelf in a location in which the chassis air
intake vents may draw in the exhaust air from adjacent equipment. Consider how the air flows
through the router; the airflow direction is side to side, with ambient air drawn in from the vents
located on the front right of the chassis.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Site Planning
Caution
Note
The redundant power option provides a second, identical power supply to ensure that power to the
chassis continues uninterrupted if one power supply fails or input power on one line fails.
In systems configured with the redundant power option, connect each of the two power supplies to
a separate input power source. If you fail to do this, your system might be susceptible to total power
failure due to a fault in the external wiring or a tripped circuit breaker.
To prevent a loss of input power, be sure that the total maximum load on each circuit supplying the
power supplies is within the current ratings of the wiring and the breakers.
Check the power at your site before installation and periodically after installation to ensure that you
are receiving clean power. Install a power conditioner if necessary.
Provide proper grounding to avoid personal injury and damage to the equipment due to lightning
striking power lines or due to power surges. The chassis ground must be attached to a central office
or other interior ground system.
This product requires short-circuit (overcurrent) protection, to be provided as part of the building
installation. Install only in accordance with national and local wiring regulations.
The Cisco ASR 903 router as a satellite shelf installation must comply with all the applicable codes and
is approved for use with copper conductors only. The ground bond fastening hardware should be of
compatible material and preclude loosening, deterioration, and electrochemical corrosion of hardware
and joined material. Attachment of the chassis ground to a central office or other interior ground system
must be made with a 6 AWG gauge wire, copper ground conductor at a minimum.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Site Planning
The maximum power draw of the Cisco ASR 903 router satellite shelf chassis and its configurable
hardware components are listed in the following table. The maximum power draw values are not affected
by whether the router chassis contains 1 or 2 power supplies AC or DC.
Hardware component(s)
100 W
A900-RSP1B-55 (standby)
100 W
13.0 W
17.5 W
17.5 W
The T1/E1 interface module for the Cisco ASR 903 router uses a high-density connector that
requires the use of a T1/E1 interface cable and a customer-provided patch panel. For more
information, see Connecting T1/E1 cables section on page 3-39 of the Cisco ASR 903 Router
Hardware Installation Guide online. Note that the Cisco ASR 903 router as a satellite shelf does not
use the T1/E1 interface module. The Cisco ASR 903 router as a satellite shelf supports only ethernet
ports.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Site Planning
Shielded cables must be used to connect to the DB-25 alarm connector on the fan tray in order to
comply with FCC/EN55022/CISPR22 Class A emissions requirements. For information about the
fan tray alarm port, see Connecting the Fan Tray Alarm Port section on page 3-42 of the Cisco
ASR 903 Router Hardware Installation Guide online.
Before you install the Cisco ASR 903 router as a satellite shelf, have all the additional external
equipment and cables on hand. For information about ordering, contact a Cisco customer service
representative.
The extent of your network and the distances between the network interface connections depend in part
on the following factors:
Signal type
Signal speed
Transmission medium
The distance and rate limits referenced in the following sections are the IEEE-recommended maximum
speeds and distances for signaling purposes. Use this information as a guideline in planning your
network connections prior to installing the Cisco ASR 903 router as a satellite shelf.
If wires exceed the recommended distances, or if wires pass between buildings, give special
consideration to the effect of a lightning strike in your vicinity. The electromagnetic pulse caused by
lightning or other high-energy phenomena can easily couple enough energy into unshielded conductors
to destroy electronic devices. If you have had problems of this sort in the past, you may want to consult
experts in electrical surge suppression and shielding.
Interference Considerations
When wires are run for any significant distance, there is a risk that stray signals will be induced on the
wires as interference. If interference signals are strong, they can cause data errors or damage to the
equipment.
The following sections describe sources of interference and how to minimize its effects on the
Cisco ASR 901 system.
Electromagnetic Interference
All equipment powered by AC current can propagate electrical energy that can cause EMI and possibly
affect the operation of other equipment. The typical sources of EMI are equipment power cords and
power service cables from electric utility companies.
Strong EMI can destroy the signal drivers and receivers in the Cisco ASR 901 and even create an
electrical hazard by causing power surges through the power lines into installed equipment. These
problems are rare but could be catastrophic.
To resolve these problems, you need specialized knowledge and equipment that could consume
substantial time and money. However, you can ensure that you have a properly grounded and shielded
electrical environment, paying special attention to the need for electrical surge suppression.
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Site Planning
For information about the electrode magnetic compliance standards supported on the Cisco ASR 903
router as a satellite shelf, see Regulatory Compliance and Safety Information for the Cisco ASR 903
Router.
Rack-Mounting Guidelines
The following sections provide guidelines for rack-mounting the Cisco ASR 903 router as a satellite
shelf:
Do not move large racks by yourself. Due to the height and weight of a rack, a minimum of two
people are required to accomplish this task.
Ensure that the rack is level and stable before extending a component from the rack.
Do not step on or stand on any component or system when servicing other systems or components
in a rack.
When mounting the Cisco ASR 903 router as a satellite shelf in a partially filled rack, load the rack
from the bottom to the top, with the heaviest component at the bottom of the rack.
If the rack is provided with stabilizing devices, install the stabilizers before mounting or servicing
the unit in the rack.
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Site Planning
Caution
When mounting a chassis in any type of rack equipment, ensure that the inlet air to the chassis does not
exceed 65 degrees C.
The distance between the center lines of the mounting holes on the two mounting posts must be 18.31
inches 0.06 inch (46.50 cm 0.15 cm). The rack-mounting hardware included with the chassis is
suitable for most 19-inch equipment racks.
Consider installing the Cisco ASR 903 router as a satellite shelf in a rack with the following features:
Note
Network Equipment Building System (NEBS) compliant, 19-inch (48.3 cm) wide rack.
EIA or European Telecommunications Standards Institute (ETSI) hole patterns in the mounting
rails. The required mounting hardware is shipped with the Cisco ASR 901. If the rack that you plan
to install the system in has metric-threaded rails, you must provide your own metric-mounting
hardware.
The Cisco ASR 903 router as a satellite shelf should not be installed in an enclosed rack because the
chassis requires an unobstructed flow of cooling air to maintain acceptable operating temperatures for
its internal components. Installing the router in any type of enclosed rackeven with the side doors
removedcould disrupt the air flow, trap heat next to the chassis, and cause an overtemperature
condition inside the router. If you use an enclosed rack, ensure that there are air vents on all sides of the
rack and there is proper ventilation.
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Site Planning
Avoid installing the Cisco ASR 903 router as a satellite shelf in a congested rack and consider how
routing of cables from other pieces of equipment in the same rack could affect access to the router cards.
The sides of the chassis must remain unobstructed to ensure adequate airflow and prevent overheating
inside the chassis.
Allow the following clearances for normal system maintenance:
To avoid problems during installation and ongoing operations, follow these general precautions when
you plan equipment locations and connections:
Use the show environment all command regularly to check the internal system status. The
environmental monitor continually checks the interior chassis environment; it provides warnings
about high temperature and creates reports on other potentially dangerous occurrences. If warning
messages are displayed, take immediate action to identify the cause, and correct the problem.
Keep the Cisco ASR 903 router as a satellite shelf off the floor and out of areas that collect dust.
Follow ESD-prevention procedures to avoid damage to equipment. Damage from static discharge
can cause immediate or intermittent equipment failure.
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Site Planning
Installation Checklist
To assist you with your installation and to provide a record of what was done by whom and when,
photocopy the Cisco ASR 903 Router Installation Checklist shown in Table C-28. Use this to record the
completion and verification of each procedure. After the checklist is completed, place it in your Site Log
along with the other records pertaining to your new Cisco router.
Table C-28
Verified
By
Task
Date
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132823
Note
Outside carton
Pallet
Packing straps
We recommend that you have at least two people available to help with the installation and ensure safe
lifting.
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Receiving the Cisco ASR 903 Router
Chassis-Lifting Guidelines
The chassis is not intended to be moved frequently. Before you install the system, ensure that your site
is properly prepared so that you can avoid having to move the chassis later to accommodate power
sources and network connections.
Two or more people are required to lift the chassis. Each time you lift the chassis or any heavy object,
follow these guidelines:
Warning
Never attempt to lift the chassis by yourself. Because of the size and weight of the chassis, use at
least two people to safely lift and move it without causing injury to yourself or damaging the
equipment.
Ensure that your footing is solid, and balance the weight of the chassis between your feet.
Lift the chassis slowly; never move suddenly or twist your body as you lift.
Keep your back straight and lift with your legs, not your back. If you must bend down to lift the
chassis, bend at the knees, not at the waist, to reduce the strain on your back muscles.
Always disconnect all external cables before lifting or moving the chassis.
To prevent personal injury or damage to the chassis, never attempt to lift or tilt the chassis using the
handles on modules (such as power supplies, fans, or cards); these types of handles are not designed
to support the weight of the unit. Lift the unit only by using handles that are an integral part of the
chassis, or by grasping the chassis underneath its lower edge. Statement 163
Each person should stand on either side of the chassis and place one hand under the air intake at the
bottom front of the chassis.
Step 2
With the other hand, grasp the top rear of the chassis under the air exhaust, and carefully lift the chassis.
Flat-blade screwdrivers: Small 3/16-inch (0.476 cm) and medium 1/4-inch (0.625 cm):
To install or remove modules
To remove the cover if you are upgrading the memory or other components
Cables for connecting to the WAN and LAN ports (depending on the configuration)
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Note
Warning
Ethernet hub or switch or PC with a network interface card for connecting to the Ethernet ports
Console terminal (an ASCII terminal or a PC running terminal emulation software) that is
configured for 9600 baud, 8 data bits, no parity, and 2 stop bits
(Optional) Modem for connecting to the auxiliary port for remote administrative access
Auxiliary cable for connecting to the auxiliary port (you can supply this cable or order one)
Ratcheting torque screwdriver with a Phillips head that exerts up to 30 pound-force per square inch
(lbf/sq in) of pressure
Only trained and qualified personnel should be allowed to install or replace this equipment.
Statement 49
Table C-29
Step 1
Inspect the box for any shipping damage. If there is obvious physical damage, contact your Cisco service
representative.
Step 2
Step 3
Step 4
Use Table C-29 to check the contents of the Cisco ASR 903 router as a satellite shelf shipping container.
Do not discard the shipping container. You will need the container if you move or ship the Cisco ASR
903 router as a satellite shelf in the future.
Component
Description
Chassis
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Installing the Router in a Rack
Table C-29
Cisco ASR 903 Router Satellite Shelf Shipping Container Contents (continued)
Component
Description
Accessories kit
Documentation
Regulatory Compliance and Safety Information for the Cisco ASR 903 Router
Optional equipment
Note
Power cord if an AC power supply was shipped. There are no cords for the DC
power supply units.
Most Cisco documentation is available online. Documentation that is shipped with your Cisco ASR 901
includes the Regulatory Compliance and Safety Information for the Cisco ASR 903 Router document,
and the Cisco ASR 903 Documentation Roadmap that contains information about the various documents
that are available online and the links to them.
Connecting the Cisco ASR 903 Router to the Network, page C-159
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Remove the rack-mount brackets from the accessory kit and position them beside the router chassis.
Figure C-65 shows how to attach the brackets on the Cisco ASR 903 router as a satellite shelf for a
19-inch EIA rack.
Attaching Mounting Brackets for a 19-inch EIA Rack
209338
Figure C-65
Figure C-66 shows how to attach the brackets on the Cisco ASR 903 router as a satellite shelf for a 300
mm ETSI cabinet.
Attaching Mounting Brackets for a 300 mm ETSI Cabinet
209247
Figure C-66
Step 2
Position one of the brackets against the chassis side, and align the screw holes.
Step 3
Secure the bracket to the chassis with the screws removed when performing Step 1. The recommended
maximum torque is 28 lbf/sq in.
Step 4
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Installing the Router in a Rack
Step 2
If the front of the chassis (front panel) is at the front of the rack, insert the rear of the chassis between
the mounting posts.
If the rear of the chassis is at the front of the rack, insert the front of the chassis between the
mounting posts.
Align the mounting holes in the bracket (and optional cable guide) with the mounting holes in the
equipment rack.
Do not use interface module and power supply ejector handles to lift the chassis; using the handles to
lift the chassis can deform or damage the handles.
Figure C-67
Figure C-68
343345
209248
Caution
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209246
Figure C-69
Step 3
Install the 8 or 12 (4 or 6 per side) 12-24 x 3/4-inch or 10-32 x 3/4-inch screws through the holes in the
bracket and into the threaded holes in the equipment rack posts.
Step 4
Use a tape measure and level to verify that the chassis is installed straight and level.
Position the cable management brackets against the front of the chassis and align the four screw holes,
as shown in Figure C-70.
Cable Management Bracket Installation
282406
Figure C-70
Step 2
Secure the cable management brackets with four M4 screws. The recommended maximum torque is 10
lbf/sq in.
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Installing the Chassis Ground Connection
EIA 19-inch rackAttach the grounding lug to the rear of the router, as shown in Figure C-71.
Figure C-71
281928
Figure C-72
1
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
PWR
FAN TEMP
STAT
CRIT MAJ MIN
PWR
STAT
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
PWR
RUDY RSP
STAT
SYNC
ACT
PWR
MEM
CONSOLE
1PPS
IN
1PPS
OUT
1OMHZ
IN
1OMHZ
OUT
STAT
L
PWR
TOD
BITS
MGMT
ENET
STAT
24V60V
28A
7 S
PWR
STAT
L
7 S
7 S
PWR
INPUT
OK
OUTPUT
FAIL
24V60V
28A
INPUT
OK
OUTPUT
FAIL
ALARM
281929
STAT
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To ensure that the chassis ground connection that you provide is adequate, you need the following parts
and tools:
Ratcheting torque screwdriver with Phillips head that exerts up to 15 lbf/sq in of pressure for
attaching the ground wire to the router
Caution
Before making connections to the Cisco ASR 903 router as a satellite shelf, ensure that you
disconnect the power at the circuit breaker. Otherwise, severe injury to you or damage to the
router may occur.
Warning
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the
absence of a suitably installed ground conductor. Contact the appropriate electrical inspection
authority or an electrician if you are uncertain that suitable grounding is available. Statement 1024
Warning
Warning
When installing the unit, the ground connection must always be made first and disconnected last.
Statement 42
This unit is to be installed in a restrictive access location and must be permanently grounded to minimum
6 AWG copper ground wire.
Perform the following procedure to ground the Cisco ASR 903 router as a satellite shelf using a 2-hole
lug and the corresponding mounting point. Most carriers require a minimum 6 AWG ground connection.
Verify your carriers requirements for the ground connection.
Step 1
If your ground wire is insulated, use a wire-stripping tool to strip the ground wire to 0.5 inch 0.02 inch
(12.7 mm 0.5 mm) (Figure C-73).
Figure C-73
Insulation
Step 2
Wire lead
60528
Slide the open end of your 2-hole ground lug over the exposed area of the ground wire.
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Installing the Chassis Ground Connection
Step 3
Using a crimping tool (as specified by the ground lug manufacturer), crimp the ground lug to the ground wire
as shown in Figure C-74.
Crimping a Ground Lug onto the Ground Wire
60529
Figure C-74
Step 4
Use a Phillips head screwdriver to attach the 2-hole ground lug and wire assembly to the router with the
2 pan-head Phillips head screws. For a 19-inch EIA rack, attach the 2-hole ground lug to the rear of the
router.
Step 5
Connect the other end of the ground wire to a suitable grounding point at your site.
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Orient the fan tray so that the captive screws are on the left side of the fan trays front panel. Figure C-75
shows how to orient the fan tray.
Figure C-75
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
PWR
STAT
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
PWR
STAT
FAN TEMP
PWR
RUDY RSP
STAT
SYNC
ACT
PWR
MEM
CONSOLE
1PPS
IN
1PPS
OUT
1OMHZ
IN
1OMHZ
OUT
STAT
L
7 S
7 S
7 S
PWR
TOD
BITS
MGMT
ENET
STAT
24V60V
28A
PWR
PWR
STAT
INPUT
OK
OUTPUT
FAIL
24V60V
28A
INPUT
OK
OUTPUT
FAIL
ALARM
Step 2
Guide the fan tray into the chassis until it is fully seated.
Caution
Step 3
281934
STAT
The fans are exposed on the left side of the fan tray. Keep your fingers, clothing, and jewelry
away from the fans. Always handle the fan tray by the handle.
Secure the fan tray to the chassis using the attached captive installation screws. The recommended
maximum torque is 5.5 lbf/sq in.
This completes the procedure for installing or replacing the fan tray in a Cisco ASR 903 router as a
satellite shelf.
For information about connecting cables to the fan tray alarm port, see Connecting the Fan Tray Alarm
Port section on page C-169. For a summary of the LEDs on the fan tray, see LED Summary section
on page C-172. For more information about air flow guidelines, see Air Flow Guidelines, page C-124.
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Installing the Fan Tray
Caution
The router can stay active for up to five minutes if the temperature is below the ambient limit. However,
in the event of an overtemperature alarm, the router can shut down in less than five minutes. In the event
of a critical temperature alarm, the router shuts down immediately.
Follow these steps to remove and replace the fan tray on the Cisco ASR 903 router as a satellite shelf:
Step 1
Using a No. 2 Phillips screwdriver or your fingers, loosen the captive installation screw that secures the
fan tray to the chassis. Figure C-76 shows the front of the fan tray, including the captive installation
screws.
Figure C-76
Captive
installation
screw
FAN TEMP
Handle
209393
ALARM
Step 2
Grasp the fan tray handle with one hand and the outside of the chassis with the other hand. Figure C-76
shows the front of the fan tray, including the handle.
Caution
The fans are exposed on the left side of the fan tray. Keep your fingers, clothing, and jewelry
away from the fans. Always handle the fan tray by the handle.
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RSP Installation
Step 3
Pull the fan tray backward toward you no more than 1 inch to disengage it from the power receptacle on
the midplane, as shown in Figure C-77.
Figure C-77
FAN TEMP
SYNC
ACT
PWR
TOD
BITS
MGMT
ENET
STAT
24V60V
28A
209394
ALARM
When removing the fan tray, keep your hands and fingers away from the spinning fan
blades. Let the fan blades completely stop before you remove the fan tray. Statement 258
Warning
Step 4
Wait at least 5 seconds to allow the fans to stop spinning. Then, pull the fan tray backward toward you
and out of the chassis.
Note
As the fan tray slides out of the chassis, support the bottom of the fan tray with one hand and
keep your other hand on the fan tray handle.
This completes the steps for removing the fan tray from the chassis.
To install the new fan tray, follow the steps in Installing the Fan Tray section on page C-142.
RSP Installation
Follow these steps on handling an RSP module in the Cisco ASR 903 router as a satellite shelf:
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RSP Installation
Choose a slot for the module. Make sure that there is enough clearance to accommodate any equipment
that will be connected to the ports on the module. If a blank module filler plate is installed in the slot in
which you plan to install the module, remove the plate by removing its 2 Phillips pan-head screws.
Step 2
Fully open both the ejector levers on the new module, as shown in Figure C-78.
Caution
Step 3
Position the module in the slot. Make sure that you align the sides of the module with the guides on each
side of the slot, as shown in Figure C-78.
Figure C-78
GE-0
GE-0
GE-0
GE-0
GE-0
RUDY RSP
GE-0
GE-1
GE-1
GE-1
GE-1
GE-1
GE-1
GE-2
GE-2
GE-2
GE-2
GE-2
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
PWR
GE-3
GE-4
GE-5
STAT
GE-6
GE-7
PWR
GE-3
GE-4
GE-5
STAT
GE-6
GE-7
FAN TEM
P
PWR
GE-3
GE-4
GE-5
STAT
GE-6
CRIT MAJ
MIN
GE-7
PWR
GE-3
GE-4
GE-5
STAT
GE-6
GE-7
PWR
GE-3
GE-4
GE-5
STAT
GE-6
GE-7
PWR
CONSOLE
1PPS
IN
INPUT
OK
OUTPUT
FAIL
STAT
1PPS
OUT
1OMHZ
IN
1OMHZ
OUT
SYNC
ACT
TOD
BITS
Step 4
MGMT
ENET
PWR
STAT
24V60V
28A
INPUT
OK
OUTPUT
FAIL
24V60V
28A
ALARM
281932
MEM
Carefully slide the module into the slot until the EMI gasket on the module makes contact with the
module in the adjacent slot and both the ejector levers have closed to approximately 45 degrees with
respect to the module faceplate.
Caution
If the top slot already has an RSP module installed, and you install a second RSP module in
the slot below it, be careful not to damage the EMI gasket of the bottom RSP module against
the ejector levers of the top RSP during insertion.
Step 5
While pressing down, simultaneously close both the ejector levers to fully seat the module in the
backplane connector. The ejector levers are fully closed when they are flush with the module faceplate.
Step 6
Tighten the two captive installation screws on the module. The recommended maximum torque is 5.5
lbf/sq in.
Note
Make sure that the ejector levers are fully closed before tightening the captive installation
screws.
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Step 7
Verify that the captive installation screws are tightened on all of the modules installed in the chassis.
This step ensures that the EMI gaskets on all the modules are fully compressed in order to maximize the
opening space for the new or replacement module.
Note
Note
If the captive installation screws are loose, the EMI gaskets on the installed modules will push
adjacent modules toward the open slot, which reduces the size of the opening and makes it
difficult to install the new module.
Blank module filler plates (Cisco part number A900-RSPA-BLANK) should be installed in any empty
chassis slots to keep dust out of the chassis and to maintain consistent airflow through the chassis.
Warning
Hazardous voltage or energy is present on the backplane when the system is operating. Use caution
when servicing. Statement 1034
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
Step 2
Verify that the captive installation screws on all the modules in the chassis are tight. This step ensures
that the space created by the removed module is maintained.
Note
If the captive installation screws are loose, the EMI gaskets on the installed modules will push
the modules toward the open slot, which in turn reduces the size of the opening and makes it
difficult to remove the module.
Step 3
Loosen the two captive installation screws on the module you plan to remove from the chassis.
Step 4
Place your thumbs on the ejector levers (see Figure C-78) and simultaneously rotate the ejector levers
outward to unseat the module from the backplane connector.
Step 5
Grasp the front edge of the module and slide the module straight out of the slot. If the chassis has
horizontal slots, place your hand under the module to support its weight as you slide it out from the slot.
Do not touch the module circuitry.
Caution
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Interface Module Installation
Step 6
Place the module on an antistatic mat or antistatic foam, or immediately reinstall the module in another
slot.
Step 7
Install blank module filler plates (Cisco part number A900-RSPA-BLANK) in empty slots, if any.
Warning
Blank faceplates and cover panels serve three important functions: they prevent exposure to
hazardous voltages and currents inside the chassis; they contain electromagnetic interference (EMI)
that might disrupt other equipment; and they direct the flow of cooling air through the chassis. Do not
operate the system unless all cards, faceplates, front covers, and rear covers are in place. Statement
1029
Before inserting an interface module, make sure that the chassis is grounded.
Step 2
To insert the interface module, carefully align the edges of the interface module between the upper and
lower edges of the router slot.
Step 3
Carefully slide the interface module into the router slot until the interface module makes contact with
the backplane. Figure C-79 shows how to install the interface module.
Inserting an Interface Module
282442
Figure C-79
Step 4
Tighten the locking thumbscrews on both sides of the interface module. The recommended maximum
torque is 5.5 lbf/sq in.
Step 5
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Note
Caution
Do not use interface module and power supply ejector handles to lift the chassis; using the handles to
lift the chassis can deform or damage the handles.
To remove an interface module, disconnect all the cables from each interface module.
Step 2
Step 3
Slide the interface module out of the router slot by pulling on the handles. If you are removing a blank
filler plate, pull the blank filler plate completely out of the router slot using the captive screws.
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Installing the Power Supply
DC power19.2VDC to -72VDC
The DC power supply uses 3 position terminal block-style connector with positive latching/securing
and labeled connections for +24/48V, GRD, -24/48V. The terminal block connector is of suitable
size to carry the appropriate AWG wire size to handle the input current of the power supply. No
ON/OFF switch is provided.
AC power85VAC to 264VAC
The AC power supply has an IEC 320-type power receptacle and a 15 Amp service connector. You
can use standard right angle power cords with the AC power supply. The power supply includes a
power cord retainer. No ON/OFF switch is provided.
Each power supply provides a single primary input power connection. You can install dual power
supplies for redundancy.
Warning
Read the installation instructions before connecting the system to the power source. Statement 10
Note
Products that have an AC power connection are required to have an external surge protective device
(SPD) provided as part of the building installation to comply with the Telcordia GR-1089 NEBS
standard for electromagnetic compatibility and safety.
Caution
Do not use interface module and power supply ejector handles to lift the chassis; using the handles to
lift the chassis can deform or damage the handles.
The following sections describe the Cisco ASR 903 router satellite shelf power supplies:
To prevent loss of input power, ensure that the total maximum load on each circuit supplying the
power supplies is within the current ratings of the wiring and breakers.
In some systems, you can use an UPS to protect against power failures at your site. Avoid UPS types
that use ferroresonant technology. These UPS types can become unstable with systems like the Cisco
ASR 903 router as a satellite shelf, which can have substantial current draw fluctuations due to
bursty data traffic patterns.
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Use the information in the DC Power Specifications section on page 1-4 to estimate the power
requirements and heat dissipation of a Cisco ASR 903 router as a satellite shelf based on a given
configuration of the router. Determining power requirements is useful for planning the power
distribution system needed to support the router.
Warning
Never defeat the ground conductor or operate the equipment in the absence of a suitably installed
ground conductor. Contact the appropriate electrical inspection authority or an electrician if you are
uncertain that suitable grounding is available. Statement 213
Warning
The plug-socket combination must be accessible at all times because it serves as the main
disconnecting device. Statement 1019
Warning
This product requires short-circuit (overcurrent) protection, to be provided as part of the building
installation. Install only in accordance with national and local wiring regulations. Statement 1045
Each chassis power supply should have its own dedicated input power source. The source must
comply with the safety extra-low voltage (SELV) requirements in the UL 60950, CSA 60950, EN
60950, and IEC 60950 standards.
The circuit must be protected by a dedicated two-pole circuit breaker. The circuit breaker should be
sized according to the power supply input rating and local or national code requirements.
The circuit breaker is considered the disconnect device and should be easily accessible.
Do not connect the DC return wire to the system frame or to the system grounding equipment.
Use the grounding lug to attach a wrist strap for ESD protection during servicing.
Each chassis power supply should have its own dedicated branch circuit.
The circuit breaker should be sized according to the power supply input rating and local or national
code requirements.
The AC power receptacles used to plug in the chassis must be the grounding type. The grounding
conductors that connect to the receptacles should connect to protective earth ground at the service
equipment.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Installing the Power Supply
Note
This equipment is suitable for installation in Network Telecommunications Facilities and locations
where the NEC applies.
Note
This equipment is suitable for installations utilizing the Common Bonding Network (CBN).
Note
The grounding architecture of this product is DC-Isolated (DC-I) for DC-powered products.
DC-powered products have a nominal operating DC voltage of 48 VDC.
Ensure that the system (earth) ground connection has been made. For ground connection installation
instructions, see the Installing the Chassis Ground Connection section on page C-139.
Step 2
If necessary, remove the blank power supply filler plate from the chassis power supply bay opening by
loosening the captive installation screws.
Step 3
Verify that power to the DC circuit connected to the power supply you are installing is off. To ensure that
power has been removed from the DC circuits, locate the circuit breakers for the DC circuits, switch the
circuit breakers to the OFF position, and tape the circuit-breaker switches in the OFF position.
Step 4
Grasp the power supply handle with one hand. Place your other hand underneath the power supply, as
shown in Figure C-80. Slide the power supply into the power supply bay. Make sure that the power
supply is fully seated in the bay.
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Figure C-80
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
FAN TEMP
PWR
STAT
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
PWR
STAT
PWR
RUDY RSP
STAT
SYNC
ACT
PWR
CONSOLE
MEM
1PPS
IN
1PPS
OUT
1OMHZ
IN
STAT
L
7 S
7 S
7 S
1OMHZ
OUT
PWR
TOD
BITS
MGMT
ENET
STAT
PWR
ALARM
PWR
STAT
INPUT
OK
OUTPUT
FAIL
Step 5
24V60V
282340
STAT
28A
Tighten the captive installation screws of the power supply. The recommended maximum torque is 5.5
lbf/sq in.
If you are installing a redundant DC power supply, repeat these steps for the second power source.
Step 2
Use a wire-stripping tool to strip the ends of each of the two wires coming from the DC-input power
source to 0.27 inch (6.6 mm) 0.02 inch (0.5 mm) and the wire for grounding. Do not strip more than
0.29 inch (7.4 mm) of insulation from the wire. Stripping more than the recommended amount of wire
can leave behind exposed wire from the terminal block plug after installation.
Step 3
Identify the ground, positive, and negative feed positions for the terminal block connection. The
recommended wiring sequence is:
a.
b.
c.
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Installing the Power Supply
Figure C-81
1
2
207765
Step 4
Insert the exposed wire of one of the three DC-input power source wires into the terminal block plug.
Make sure that you cannot see any wire lead. Only wire with insulation should extend from the terminal
block.
Caution
Do not overtorque the plug captive screws of the terminal block. The recommended maximum
torque is from 0.5 Nm (4.425 lbf/sq in) to 0.6 Nm (5.310 lbf/sq in).
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Step 5
Use a ratcheting torque screwdriver to torque the terminal block plug captive screw (above the installed
wire lead) from 0.5 Nm (4.425 lbf/sq in) to 0.6 Nm (5.310 lbf/sq in) as shown in Figure C-82.
Figure C-82
207764
1
Step 6
Torque is from 0.5 Nm (4.425 lbf/sq in) to 0.6 Nm (5.310 lbf/sq in)
Repeat Step 4 through Step 5 for the remaining DC input power source wire and the ground wire.
Figure C-83 shows the wiring completed for a terminal block plug.
Figure C-83
Inserting the DC Power Supply Terminal Block Plug in the Block Header
FAN TEM
P
RUDY RSP
CRIT MAJ
MIN
MEM
CONSOL
E
1PPS
IN
1PPS
OUT
1OMHZ
IN
1OMHZ
OUT
SYNC
ACT
TOD
BITS
MGMT
ENET
PWR
STAT
INPUT
OK
OUTPUT
FAIL
24V60V
28A
INPUT
OK
24V60V
28A
255730
OUTPUT
FAIL
ALARM
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Installing the Power Supply
Caution
Secure the wires coming in from the terminal block plug so that they cannot be disturbed by
casual contact.
Step 7
Ensure that the terminal block plug is fully seated in the terminal block header on the DC power supply
panel. The plug has a locking feature. You should hear a snap or click when it is installed properly.
Step 8
Use a tie wrap to secure the wires to the rack, so that the wires are not pulled from the terminal block
plug by casual contact. Make sure the tie wrap allows for some slack in the ground wire, as shown in
Figure C-84.
Figure C-84
FAN TEM
P
RUDY RSP
CRIT MAJ
MIN
MEM
CONSOL
E
1PPS
IN
1PPS
OUT
1OMHZ
IN
1OMHZ
OUT
SYNC
ACT
TOD
BITS
MGMT
ENET
PWR
STAT
INPUT
OK
OUTPUT
FAIL
28A
INPUT
OK
OUTPUT
FAIL
24V60V
28A
255731
24V60V
ALARM
2
1
Step 9
Use a tie wrap to secure the wires to the handle. Leave a service loop on the ground wire between the
handle and the connector such that it is the last to receive strain if the wires are pulled.
This completes the procedure for connecting the DC power supply in the Cisco ASR 903 router as a
satellite shelf.
If you are installing a redundant DC power supply, repeat these steps for the second power source.
Remove the tape from the circuit-breaker switch handle, and restore power by moving the circuit-breaker
switch handle to the On (|) position.
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Step 2
Verify power supply operation by checking if the power supply front panel LEDs are in the following
states:
Note
The Cisco ASR 903 router satellite shelf power supplies are hot-swappable. If you have installed
redundant power supply modules, you can replace a single power supply without interrupting power to
the router.
Warning
When you install the unit, the ground connection must always be made first and disconnected last.
Statement 1046
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Warning
Installation of the equipment must comply with local and national electrical codes. Statement 1074
Follow these steps to remove and replace the DC power supply on the Cisco ASR 903 router as a satellite
shelf:
Step 1
Before servicing the power supply, switch off the circuit breaker in your equipment area. As an
additional precaution, tape the circuit-breaker switch in the Off position.
Step 2
Slip on the ESD-preventive wrist strap that was included in the accessory kit.
Step 3
Switch the power supply circuit-breaker switch to the Off (O) position.
Step 4
Pull the terminal block plug connector out of the terminal block head in the power supply.
Step 5
Step 6
Grasping the power supply handle with one hand, pull the power supply out from the chassis while
supporting it with the other hand.
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Installing the Power Supply
Step 7
Replace the DC power supply within 5 minutes. If the power supply bay is to remain empty, install a
blank filler plate (Cisco part number A900-PWR-BLANK) over the opening, and secure it with the
captive installation screws.
Warning
This product requires short-circuit (over current) protection, to be provided as part of the building
installation. Install only in accordance with national and local wiring regulations.
Ensure that the system (earth) ground connection has been made. For ground connection installation
instructions, see the Installing the Chassis Ground Connection section on page C-139.
Step 2
If necessary, remove the blank power supply filler plate from the chassis power supply bay opening by
loosening the captive installation screws.
Step 3
Grasp the power supply handle with one hand. Place your other hand underneath the power supply, as
shown in Figure C-85. Slide the power supply into the power supply bay. Make sure that the power
supply is fully seated in the bay.
Figure C-85
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
FAN TEMP
PWR
STAT
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
PWR
STAT
PWR
RUDY RSP
STAT
SYNC
ACT
PWR
STAT
L
7 S
7 S
7 S
MEM
CONSOLE
1PPS
IN
1PPS
OUT
1OMHZ
IN
1OMHZ
OUT
PWR
TOD
BITS
MGMT
ENET
STAT
PWR
ALARM
PWR
STAT
Step 4
Warning
344750
STAT
Tighten the captive installation screws of the power supply. The recommended maximum torque is 5.5
lbf/sq in.
Power supply captive installation screws must be tight to ensure protective grounding continuity.
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Step 2
Connect the other end of the power cord to an AC-input power source.
Step 3
Verify power supply operation by checking that the power supply LEDs are in the following states:
Step 4
If the LEDs indicate a power problem, see the Chapter 5, Troubleshootingfor troubleshooting
information.
Step 5
If you are installing a redundant power supply, repeat these steps for the second power source.
Note
If you are installing a redundant AC power supply, ensure that each power supply is connected to a
separate power source in order to prevent power loss in the event of a power failure.
Note
The Cisco ASR 901 power supplies are hot-swappable. If you have installed redundant power supply
modules, you can replace a single power supply without interrupting power to the router.
Warning
When you install the unit, the ground connection must always be made first and disconnected last.
Statement 1046
Warning
Before performing any of the following procedures, ensure that power is removed from the DC circuit.
Statement 1003
Warning
Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Statement 1030
Warning
Installation of the equipment must comply with local and national electrical codes. Statement 1074
Disconnect the power cord from the power source. Do not touch the metal prongs on the power cord
when it is still connected to the power supply.
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Step 2
Remove the power cord from the power connection on the power supply. Do not touch the metal prongs
embedded in the power supply.
Step 3
Step 4
Grasp the AC power supply with one hand, and slide it part of the way out of the chassis. Place your
other hand underneath the power supply, and slide it completely out of the chassis.
Step 5
If the power supply bay is to remain empty, install a blank filler plate (Cisco part number
A900-PWR-BLANK) over the opening, and secure it with the captive installation screws.
Note
Installing the Cisco Microsoft Windows USB Device Driver, page C-163
You cannot use the USB and RS232 console ports at the same time; if you insert the USB cable into the
router, the RS232 port is disabled.
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Note
Install the USB device driver before establishing a physical connection between the router and the PC,
by using the USB Console cable plugged into the USB serial port. Otherwise, the connection will fail.
For more information, see the Installing the Cisco Microsoft Windows USB Device Driver section on
page C-163.
Step 1
Connect the end of the console cable with the RJ45 connector to the light blue console port on the router.
or
Connect a USB Type A-to-Type A cable to the USB console port as shown in Figure C-86. If you are
using the USB serial port for the first time on a Windows-based PC, install the USB driver now according
to the instructions in the following sections.
Installing the Cisco Microsoft Windows XP USB Driver section on page C-163
Installing the Cisco Microsoft Windows 2000 USB Driver section on page C-163
Installing the Cisco Microsoft Windows Vista USB Driver section on page C-164
Note
You cannot use the USB port and the EIA port concurrently. See Connecting to the Auxiliary
Port section on page C-165. When the USB port is used it takes priority over the RJ45 EIA port.
Note
The USB Type A-to-Type A cable is not included with the Cisco ASR 903 router as a satellite
shelf; it is ordered separately.
Step 2
Connect the end of the cable with the DB-9 connector (or USB Type-A) to the terminal or PC. If your
terminal or PC has a console port that does not accommodate a DB-9 connector, you must provide an
appropriate adapter for that port.
Step 3
To communicate with the router, start a terminal emulator application, such as Microsoft Windows
HyperTerminal. This software should be configured with the following parameters:
9600 baud
8 data bits
no parity
1 stop-bit
no flow control
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Figure C-86
MEM
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
PWR
1PPS
IN
CONSOLE
RUDY RSP
FAN TEMP
SYNC
STAT
ACT
PWR
PWR
MEM
CONSOLE
1PPS
IN
1PPS
OUT
1OMHZ
IN
1OMHZ
OUT
TOD
BITS
MGMT
ENET
MEM
CONSOLE
1PPS
IN
1PPS
OUT
1OMHZ
IN
1OMHZ
OUT
TOD
BITS
MGMT
ENET
STAT
24V60V
28A
STAT
STAT
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
PWR
RUDY RSP
STAT
SYNC
ACT
PWR
STAT
L
7 S
7 S
7 S
PWR
STAT
PWR
STAT
INPUT
OK
OUTPUT
FAIL
24V60V
28A
INPUT
OK
OUTPUT
FAIL
ALARM
282404
PWR
1
2
USB Type-A
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Step 2
Step 3
Step 4
9,
66 Apr
1 16:46 tty.usbmodem1a21
Connect to the USB port with the following command followed by the router USB port speed
macbook:user$ screen /dev/tty.usbmodem1a21 9600
Step 2
Step 3
Enter the following commands to find the Linux USB port number
root@usb-suse# cd /dev
root@usb-suse /dev# ls -ltr *ACM*
crw-r--r-1 root
root
188,
root@usb-suse /dev#
Step 4
Connect to the USB port with the following command followed by the router USB port speed
root@usb-suse /dev# screen /dev/ttyACM0 9600
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Step 2
If using 32-bit Windows XP double-click the file setup.exe from the Windows_32 folder, or if using
64-bit Windows XP double-click the file setup(x64).exe from the Windows_64 folder.
Step 3
Step 4
Step 5
Step 6
Connect the USB cable to the PC and router USB console ports. The EN LED for the USB console port
turns green, and within a few moments the Found New Hardware Wizard appears. Following the
instructions to complete the installation of the driver.
Step 7
Obtain the file Cisco_usbconsole_driver.zip from the Cisco.com web site and unzip it.
Step 2
Step 3
Step 4
Step 5
Step 6
Connect the USB cable to the PC and router USB console ports. The EN LED for the USB console port
turns green, and within a few moments a series of Found New Hardware Wizard windows appear.
Following the instructions to complete the installation of the driver.
Step 7
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Obtain the file Cisco_usbconsole_driver.zip from the Cisco.com web site and unzip it.
Step 2
If using 32-bit Windows Vista double-click the file setup.exe from the Windows_32 folder, or if using
64-bit Windows Vista double-click the file setup(x64).exe from the Windows_64 folder.
Step 3
Step 4
Note
If a User Account Control warning appears, click Allow - I trust this program... to proceed.
Step 5
Step 6
Connect the USB cable to the PC and router USB console ports. The EN LED for the USB console port
turns green, and within a few moments a pop up window stating Installing device driver software
appears. Following the instructions to complete the installation of the driver.
Step 7
Note
Step 1
Step 2
Step 3
When the Program Maintenance window appears, select the Remove radio button. Click Next.
Note
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Step 1
Run the setup.exe for Windows 32-bit or setup(x64).exe for Windows-64bit. Click Next.
Step 2
The InstallShield Wizard for Cisco Virtual Com appears. Click Next.
Step 3
When the Program Maintenance window appears, select the Remove radio button. Click Next.
Step 4
Step 5
Note
Step 1
Run the setup.exe for Windows 32-bit or setup(x64).exe for Windows-64bit. Click Next.
Step 2
The InstallShield Wizard for Cisco Virtual Com appears. Click Next.
Step 3
When the Program Maintenance window appears, select the Remove radio button. Click Next.
Step 4
Note
Step 5
If a User Account Control warning appears, click Allow - I trust this program... to proceed.
Note
The console cable and DB-9-to-DB-25 connector are not included with the Cisco ASR 903
router as a satellite shelf; they are ordered separately.
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Connect the RJ45 end of the adapter cable to the black AUX port on the router, as shown in Figure C-87.
Figure C-87
MEM
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
PWR
1PPS
IN
CONSOLE
RUDY RSP
FAN TEMP
SYNC
STAT
ACT
PWR
PWR
MEM
CONSOLE
1PPS
IN
1PPS
OUT
1OMHZ
IN
1OMHZ
OUT
TOD
BITS
MGMT
ENET
MEM
CONSOLE
1PPS
IN
1PPS
OUT
1OMHZ
IN
1OMHZ
OUT
TOD
BITS
MGMT
ENET
STAT
24V60V
28A
STAT
STAT
GE-0
GE-1
GE-2
GE-3
GE-4
GE-5
GE-6
GE-7
PWR
RUDY RSP
STAT
SYNC
ACT
PWR
PWR
STAT
L
7 S
7 S
7 S
STAT
PWR
STAT
INPUT
OK
OUTPUT
FAIL
24V60V
28A
ALARM
INPUT
OK
OUTPUT
FAIL
282405
PWR
1
2
3
4
RJ45 to DB-9
Modem
Step 2
Connect the DB-9 end of the console cable to the DB-9 end of the modem adapter.
Step 3
Step 4
Make sure that your modem and the router auxiliary port are configured for the same transmission speed
(up to 115200 bps is supported) and for mode control with data carrier detect (DCD) and data terminal
ready (DTR) operations.
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However, when the Ethernet Management port is configured to a fixed speed (10 or 100 Mbps) through
command-line interface (CLI) commands, the port is forced to MDI mode.
When in a fixed-speed configuration and MDI mode:
Warning
To comply with the Telcordia GR-1089 NEBS standard for electromagnetic compatibility and safety,
connect the Management Ethernet ports only to intra-building or unexposed wiring or cable. The
intrabuilding cable must be shielded and the shield must be grounded at both ends. The intra-building
port(s) of the equipment or subassembly must not be metallically connected to interfaces that connect
to the OSP or its wiring. These interfaces are designed for use as intra-building interfaces only (Type
2 or Type 4 ports as described in GR-1089-CORE) and require isolation from the exposed OSP cabling.
The addition of Primary Protectors is not sufficient protection in order to connect these interfaces
metallically to OSP wiring.
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Figure C-88
Cisco ASR 903 Router Satellite Shelf Flash Token Memory Stick
CONSOL
E
209390
MEM
Step 2
To replace a Cisco USB Flash memory stick, simply insert the module into the USB port labeled MEM
as shown in Figure C-88 . The Flash memory module can be inserted in only one way, and can be inserted
or removed regardless of whether the router is powered up or not.
Note
You can insert or remove the memory stick whether the router is powered on or not.
Warning
To comply with the Telcordia GR-1089 NEBS standard for electromagnetic compatibility and safety,
connect the Gigabit Ethernet ports only to intra-building or unexposed wiring or cable. The
intrabuilding cable must be shielded and the shield must be grounded at both ends. The intra-building
port(s) of the equipment or subassembly must not be metallically connected to interfaces that connect
to the OSP or its wiring. These interfaces are designed for use as intra-building interfaces only (Type
2 or Type 4 ports as described in GR-1089-CORE) and require isolation from the exposed OSP cabling.
The addition of Primary Protectors is not sufficient protection in order to connect these interfaces
metallically to OSP wiring.
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Connecting the Cisco ASR 903 Router to the Network
Follow these steps to connect the cable to a copper Gigabit Ethernet port:
Step 1
Step 2
Connect one end of the cable to the Gigabit Ethernet port on the router.
Step 3
Connect the other end to the BTS patch or demarcation panel at your site.
Warning
To comply with the Telcordia GR-1089 NEBS standard for electromagnetic compatibility and safety,
connect the alarm ports only to intra-building or unexposed wiring or cable. The intrabuilding cable
must be shielded and the shield must be grounded at both ends. The intra-building port(s) of the
equipment or subassembly must not be metallically connected to interfaces that connect to the OSP
or its wiring. These interfaces are designed for use as intra-building interfaces only (Type 2 or Type 4
ports as described in GR-1089-CORE) and require isolation from the exposed OSP cabling. The
addition of Primary Protectors is not sufficient protection in order to connect these interfaces
metallically to OSP wiring.
Only Pins 1, 2, 4, 6, and 8 are available for customer use. The remaining pins are for Cisco manufacturing
test, and should not be connected. Use a shielded cable for connection to this port for EMC protection.
Table C-30 on page C-170 summarizes the pinouts on the alarm port.
Step 1
Step 2
Attach the other end of the RJ45 cable to the relay controller.
For information about how to map alarm inputs to critical, major, and minor alarm conditions, see the
Cisco ASR 903 Software Configuration Guide.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Pinouts
The following sections describe the pinouts for the Cisco ASR 903 router satellite shelf interfaces:
Pin
Signal Name
Description
ALARM0_IN
Alarm input 0
ALARM1_IN
Alarm input 1
No connect
ALARM2_IN
Alarm input 2
ALARM3_IN
Alarm input 3
No connect
No connect
COMMON
Alarm common
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Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Pinouts
Pin
Signal Name
Direction
Description
RTS
Output
Request to send
DTR
Output
TXD
Output
Transmit data
RI
GND
RXD
Input
Receive data
DSR/DCD
Input
CTS
Input
Clear to send
Ring Indicator
Pin
Signal Name
TRP0+
TRP0-
TRP1+
TRP2+
TRP2-
TRP1-
TRP3+
TRP3-
Description
Pin
Signal Name
Direction
Description
A1
Vcc
+5VDC (500mA)
A2
D-
Data -
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
LED Summary
Table C-33
Pin
Signal Name
Direction
Description
A3
D+
Data +
A4
Gnd
Ground
The USB Console port +5VDC is input and operates as an USB peripheral device.
Note
Pin
Signal Name
Direction
Description
A1
Vcc
+5VDC (500mA)
A2
D-
Data -
A3
D+
Data +
A4
Gnd
Ground
Note
Note
The USB flash/MEM port +5VDC is output. We provide power for USB flash/MEM, and it
operates as a USB host device.
Fiber-Optic Specifications
The specification for optical fiber transmission defines two types of fiber: single-mode and multimode.
Within the single-mode category, three transmission types are defined: short reach, intermediate reach,
and long reach. Within the multimode category, only short reach is available. For information about
optical SFP modules, see the documentation for the SFP module at
http://www.cisco.com/en/US/partner/products/hw/modules/ps5455/prod_installation_guides_list.html.
LED Summary
The following sections describe the meanings of the LEDs on the Cisco ASR 903 router satellite shelf.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
LED Summary
RSP LEDs
Table C-35 summarizes the RSP LEDs.
Note
A major alarm condition indicates the failure of a single fan in the fan tray; a critical alarm
indicates the failure of multiple fans. In the event that a single fan fails, the Cisco ASR 903 router
satellite shelf software adjusts the fan speed to prevent excessive heat within the chassis.
Table C-35
RSP LEDs
LED
Color/State
Power
(PWR)
Off
Green
Status
(STAT)
Off
Disabled/power down
Red
Yellow
Rommon booted
Green
Off
Not available
Yellow
Green
Active
(ACTV)
Management Off
port
(MGMT)
No connection
Green
Flashing
green
Off
Not enabled
Yellow
Free run
Flashing
yellow
Holdover
Green
Locked to source
USB flash
(MEM)
Flashing
green
USB activity
BITS
Off
Amber
Green
In frame/working properly
Sync status
(SYNC)
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
LED Summary
Table C-36
LED
Color/State
Description
Power
(PWR)
Off
Disabled/no power to IM
Green
Status
(STAT)
Off
Disabled/power-down
Red
Amber
Green
Operational
Off
Inactive or no connection
Amber
Fault/loop condition
Green
Ok with no activity
Flashing
green
OK with activity
Off
100/10 Mbps/Slow
Green
1Gbps/Full
Link status
(L)
Speed (S)
LED
Color/State
Description
Input OK
Off
No Input Voltage
Amber
Green
Off
Red
Green
Operational
Output Fail
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
LED Summary
Table C-38
LED
Color/State
Description
Input Power
(PWR)
Off
No input voltage
Amber
Green
Off
Disabled/power-down/no power
Red
Green
Operational
Status
(STAT)
LED
Color/State
Description
Status
(TEMP)
Off
Disabled/power down
Amber
Over temperature
Green
OK
Green
Amber
Fan fault
Red
Minor
(MIN)
Off
No minor alarm
Amber
Minor alarm
Major
(MAJ)
Off
No major alarm
Red
Major alarm
Critical
(CRIT)
Off
No critical alarm
Red
Fan (FAN)
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Site Log
Site Log
Use the Site Log to provide a record of actions related to installing and maintaining the router. Keep it
in an accessible place near the chassis so that those who performs tasks have access to it. Use the
Installation Checklist (see the Site Planning section on page C-122) to verify the steps in the
installation and maintenance of your router. Site Log entries might include the following:
Installation progressMake a copy of the Cisco ASR 903 router as a satellite shelf Installation
Checklist, and insert it into the Site Log. Make entries as you complete each task.
Upgrade, removal, and maintenance proceduresUse the Site Log as a record of ongoing router
maintenance and expansion history. Each time a task is performed on the Cisco ASR 903 router as
a satellite shelf, update the Site Log to reflect the following:
Removal or replacement of interface modules, fan tray, power supplies, or RSPs
Configuration changes
Maintenance schedules and requirements
Maintenance procedures performed
Intermittent problems
Comments and notes
Table C-40 on page C-177 shows a sample site log. Make copies of the sample or design your own site
log to meet the needs of your site and equipment.
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Site Log
Date
Initials
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Appendix C
Cisco ASR 9000 Satellite Systems (ASR 9000v, ASR 903, ASR 901)
Site Log
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INDEX
Numerics
installing components
10Mhz Interface, Connecting cables to
C-104
A-13
redundancy
troubleshooting
A-12
A-12
A-12
A-12
A-12
A-13
A-12
5-4, 5-5
replacing
5-4
1-14, 4-27
guidelines
1-11
illustration
1-12, 1-13
airflow
chassis clearance
removing
clearance
C-108, C-109
air flow
adapter pinouts
4-23
air filter
4-6, 4-9
3-22
5-9
service requirements
C-104
4-5
removing components
A-12
5-9
3-1
C-130
A-12
3-21
alarms
connector, RSP card
caution
1-44
illustration
pinout
AC-input power
connecting
external site
3-22, 5-12
1-43
1-44
1-43
current rating
A-5, A-7
disconnecting
5-12
line cards
electrical specifications
4-25
A-5, A-7
3-2
4-19, 4-20
4-23
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Index
code descriptions
description
4-23
4-22
troubleshooting using
troubleshooting with
altitude
4-2
A-4
cable
ASR 9006
assemblies
AC Electrical Specifications
A-5
2-34
A-8
A-5, A-7
2-34, 2-35
cables
attaching
alarm connector
A-2
DC Electrical Specifications
3-14
RSP card
1-40, 3-20
connecting to a modem
description
4-22
illustration
1-38
3-17
connector pinout
3-14
C-166 to ??
1-40
3-20
3-20
3-20
3-15
C-108, C-109
1-7
1-39
managing
back panel
twisted pair
C-110
3-14
1-11
cautions
1-45
1-7
C-89
1-43
1-33
2-34
2-33
auxiliary port
connections
2-33, 2-34
4-21
connecting devices to
3-18
A-2
pinouts
3-21
A-7, A-9
1-7
ASR 9010
AC Electrical Specifications
3-15
A-2
Physical Specifications
C-127
DC Electrical Specifications
Physical Specifications
C-107
A-2
chassis dimensions
4-23
4-24
C-123
altitude specifications
2-34, 2-35
C-104
alarm connector
EMC
1-44
3-5, 3-22
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Index
EMI gasket
fan trays
2-15, 3-5
5-9
handling cards
lifting safely
3-4
maintaining
3-5
3-21
chassis
?? to 5-23
mounting in a rack
powering on
air flow
A-5
4-2
CLETOP
show environment
2-28
show version
5-8
4-1
AC power
5-12
3-10
AC-powered routers
3-6, 3-9
alarm cable
rack installation
5-21
5-4
slot numbering
checklist, installation
Cisco ASR 9000 Series
specifications
A-2
A-1
5-4, 5-5
1-32
C-130
5-21
3-17
DC-powered routers
5-23
2-24
removal warning
1-22
3-21
1-5, 2-26
preventing overheating
1-2
connecting
2-25
5-22
4-27
2-29
lifting (warning)
C-126
commands
C-125
5-19
C-73
C-74
coaxial cable
C-75
fiber connectors
2-27
C-90
C-89
cleaning
fiber adaptors
A-2
footprint dimensions
dimensions
1-22
dimensions
1-14
3-27
startup sequence
1-xxvi
1-5
1-38, 3-19
2-33
2-19, 2-20
C-103
3-14
C-103
C-95
3-22
3-24
router to a PC
?? to C-160
3-21
1-43
1-22
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Index
disconnecting
2-33
connector
auxiliary port
1-40
console port
AC power
5-12
DC power
5-13
dust
1-39
1-14
console port
adapter
C-109
connecting devices to
connections
considerations
electrical specifications
C-91
description
4-22
illustration
1-38
pinouts
3-20
A-5, A-7
1-39, C-109
C-125
C-108
cooling subsystem
C-109
C-108
3-5, 3-22
electromagnetic interference
See EMI
electromagnetic pulse
See EMP
environmental shutdown
isolating problems
troubleshooting
4-27
4-27
4-25
1-2
EMC
See electromagnetic compatibility
EMI
DC-input power
prevention
cabling (illustration)
1-34
EMP, avoiding
connecting power to
3-24
EMP prevention
connecting routers
disconnecting
1-10
C-127
4-27
equipment
5-13
3-3
for installation
C-89
racks rack-mounting
3-1
equipment
5-9
power module
C-88
power consumption
A-8, A-9
specifications
electrical specifications
A-11
A-8, A-9
removing components
A-11
4-5
power system
5-9
1-11
1-32
redundancy
2-15, 3-5
C-98
A-8, A-9
4-9, 4-11
Cisco ASR 9000 Series Aggregation Services Router Hardware Installation Guide
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OL-17499-07
Index
hub
1-43
humidity
fan tray power consumption
A-13
C-123
humidity guidelines
1-22, A-4
fan trays
caution
5-9
3-4
4-26
5-8
4-5
4-23
4-23
operation
4-26
removing
installation
replacing
5-7
troubleshooting
warnings
4-27
5-8
fiber
checklist
C-90
hardware
C-83, C-114
mounting
C-92
tools required
cleaning adapters
C-75
installing
C-73
AC power modules
4-21
cables
FRUs, list
C-5, C-12
3-2
See connecting
5-2
cards
3-5, 5-19
C-3
fan trays
general site requirements
C-87
line cards
C-103
grounding
grounding (caution)
3-10
C-104
power module
5-11
2-1
2-24
3-6, 3-9
C-113
C-133
C-104
3-3
5-8
lifting chassis
gigabit ethernet
2-25
5-22
DC power modules
(warning)
2-29
4-23
C-89
cleaning connectors
Front View
4-23
B-1
C-99 to C-100
interface
numbering
C-11
hardware
installing
C-83, C-114
3-14 to 3-17
C-11
interference
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Index
1-7
1-10
cable connection
1-2
4-21
3-21
4-23
connecting devices to
L
laser safety
LINK
1-41, 1-42
RJ-45 cabling
4-21
front panel
4-22
1-43
4-21
4-23
1-46
method of procedures
C-8
See MOP
lifting chassis
correct position (illustration)
MOP
2-27
C-88
mounting
2-28
instructions
line cards
alarms
3-20
1-42
troubleshooting
4-2
LEDs
C-92
4-25
3-14
3-15
connection points
grounding
5-19
3-14
4-3
C-103
1-7
interface
4-23
log
C-176
A-4
numbering
4-25
1-36, 1-37
2-33
noise specification
5-19
C-11
A-5, A-7
O
OIR
5-3
M
maintaining routers
1-22
NEBS
N
National Electrical Code (NEC)
3-14
3-10
installing (illustration)
site
illustration
LEDs (illustration)
4-21
at startup
1-40
LED indicators
1-2
LED indicators
ACT
description
3-21
5-3
4-27
?? to 5-23
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OL-17499-07
Index
P
packing the chassis for shipment
A-12
5-23
PC
connecting to router
fan tray
?? to C-160
A-13
RSP card
4-23
A-2
A-12
powering on
A-11
C-113
pinouts
alarm display connector
1-44
1-40
power module
C-84, C-117
AC-input
1-39
indicators (illustration)
C-111
service requirement
port
specifications
auxiliary port
console port
See console port
See management LAN ports
ports
1-22
A-8, A-9
A-8, A-9
installing
5-11
removing
5-9
A-11
A-11
1-24, 1-28
C-84, C-117
power supply
A-11
AC-input
power
distribution system, troubleshooting
4-14
current rating
1-22 to 1-33
line frequency
surge suppression
power (warning)
A-8, A-9
power supplies
A-11
service requirement
4-7
DC-input
3-27
operation
1-11, C-127
connecting
Power Consumption
80 Gigabyte Modular Line Card
A-5, A-7
4-26
C-84
A-5, A-7
C-95
DC-input
A-13
A-13
operation
power consumption
A-12
A-12
redundancy
A-12
A-12
power surges
A-8, A-9
A-8, A-9
A-8, A-9
4-26
C-98, C-113
1-22
power system
installing components
5-9
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Index
removing components
5-9
air filter
replacing components
5-9
troubleshooting
5-4, 5-5
4-11
fan trays
4-23
processor
2-19, 2-20
power module
4-16
route. See RP
5-9
5-21
line cards
B-1
4-23
repeater
2-16, 5-19
C-100 to C-101
1-43
replacing
air filter
cards
racks
installing the chassis in
open rack, description
1-6
2-24
5-21
telco 2-post
description
1-15
illustration
1-15
RFI prevention
1-11
C-127
4-23
C-110
route processor
See RP
installation requirements
installing the chassis in
1-6
router
connecting to a PC
2-25
?? to C-160
telco two-post
illustration
1-14
RJ-45 connectors
5-22
B-1
1-16
1-17
5-7
2-29
3-14
RP
2-24
overview
4-16
subsystem, troubleshooting
reconnecting
4-15
C-127
RSP-440 card
See connecting
record keeping, site log
2-1
1-16
verifying dimensions
startup sequence
C-91
4-4
RSP card
redundancy
AC-input power specifications
A-8, A-9
regulatory compliance
removing
5-19
fan trays
4-post
enclosed
5-4
C-12
4-21
4-21
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Index
1-46
3-21
SFP modules
3-17
4-22
flash memory
installation
4-22
front panel
C-99 to C-100
illustration
indicators
Temperature
4-19
C-70
shipment
4-19, 4-20
4-16
3-6, 3-9
A-11
environment
5-19
2-16, 5-19
4-27
4-1
log
C-87
C-87
C-176
C-91
site requirements
See RP
air flow
A-4
site
configuration
4-15
C-89
5-19
ports
power consumption
C-106
Shelf
4-17, 4-18
indicators, table of
installing
C-100
4-23
4-23
1-11
grounding lug
layout
1-6
MOPs
C-88
1-33
safety
rack mounting
compliance information
general guidelines
information
lifting
1-2
B-1
1-1
C-12
3-19
C-98
C-129
site wiring
guidelines
1-36
1-22
1-5
1-10
slot numbering
specifications
SELV circuit
connections
warning
site log
1-14
1-38, 3-19
acoustic noise
1-38
altitude
C-9, C-84
A-5, A-7
A-4
A-4
A-1
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Index
A-4
A-4
system
vibration
4-11
RP subsystem
4-15
4-23
startup problems
A-4
4-6
power system
RSP card
C-11
temperature
4-1
subsystem approach
A-4
specifications, system
temperature
C-11
power subsystem
twisted-pair cable
4-23
4-2
4-25
1-11
1-43
sync port
connection guidelines
system specifications
1-45
C-11
1-5
1-45
T
V
telco rack
See racks, telco 2-post
ventilation
temperature
C-88
verifying
1-11
1-22
rack dimensions
overtemperature conditions
system specifications
troubleshooting
temperature sensor
4-27
4-25
C-11
A-4
voltage
third-party equipment
A-8, A-9
C-3
C-89
troubleshooting
C-112
W
warning
AC-input power
4-6 to 4-9
short circuit
4-6
4-25
warnings
5-15
disconnecting DC power
4-27
4-27
C-98
connecting DC power
4-9
environmental shutdown
fan tray
2-24
A-4
2-24
fan trays
5-8
5-13, 5-14
1-2
3-23
line cards
4-25
lifting chassis
overview
4-1
2-26
5-21
4-14
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2-1
1-38
1-33
1-5
wiring
bonding and grounding cable connection
site guidelines
2-33
1-10
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Index
Cisco ASR 9000 Series Aggregation Services Router Hardware Installation Guide
IN-12
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