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Cisco ASR 5000 Installation Manual
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ASR 5000 Installation Guide
First Published: September 30, 2015
Last Modified: March 31, 2016
Americas Headquarters
Cisco Systems, Inc.
170 West Tasman Drive
San Jose, CA 95134-1706
USA
http://www.cisco.com
Tel: 408 526-4000
800 553-NETS (6387)
Fax: 408 527-0883

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Summary of Contents for Cisco ASR 5000

  • Page 1 ASR 5000 Installation Guide First Published: September 30, 2015 Last Modified: March 31, 2016 Americas Headquarters Cisco Systems, Inc. 170 West Tasman Drive San Jose, CA 95134-1706 http://www.cisco.com Tel: 408 526-4000 800 553-NETS (6387) Fax: 408 527-0883...
  • Page 2 Cisco and the Cisco logo are trademarks or registered trademarks of Cisco and/or its affiliates in the U.S. and other countries. To view a list of Cisco trademarks, go to this URL: www.cisco.com/go/trademarks . Third-party trademarks mentioned are the property of their respective owners. The use of the word partner does not imply a partnership relationship between Cisco and any other company.
  • Page 3: Table Of Contents

    P r e f a c e Conventions Used xiii Dimensions Related Documentation Contacting Customer Support ASR 5000 Hardware Platform Overview C H A P T E R 1 The ASR 5000 Platform Chassis Configurations Chassis Description Slot Numbering Rear Slot Numbering for Half-Height Line Cards...
  • Page 4 Card Interlock Switch Card Identifiers Installation Procedure Overview C H A P T E R 2 Chassis Components Installation at a Glance Required Tools and Equipment Hand Tools Equipment Site Prerequisites Power and Grounding Environment Clearance ASR 5000 Installation Guide...
  • Page 5 C H A P T E R 3 Equipment Rack Configuration Ventilation Considerations Mounting Options Weight Considerations Unpacking the ASR 5000 Chassis Installing the Chassis Reducing the Weight of the Chassis Prior to Installation Flush Mount Installation of the Chassis Mid-Mount Installation of the Chassis...
  • Page 6 Cabling the Optical SFP+ Interface 10 Gigabit Ethernet Line Card (XGLC) Cabling the Optical SFP+ Interface Cabling the Optical (ATM) Line Cards C H A P T E R 9 Optical (ATM) Line Card Interfaces Cabling the Optical SFP Interface ASR 5000 Installation Guide...
  • Page 7 SPIO Run/Fail LED States SPIO Active LED States SPIO Standby LED States SPIO Interface Link LED States SPIO Interface Activity LED States Checking the LEDs on the Ethernet Line Cards Ethernet Line Card Run/Fail LED States ASR 5000 Installation Guide...
  • Page 8 Summary of Maintenance Tasks Constant Attention Daily Weekly Monthly 6 Months No Specific Time Frame Adding Application and Line Cards to an Existing Installation C H A P T E R 1 4 Chassis Slot Numbering and Assignments ASR 5000 Installation Guide viii...
  • Page 9 Installing a Lower Fan Tray Assembly What to do with the Failed Fan Tray Replacing Application Cards C H A P T E R 1 9 Determining Whether an Application Card has Failed Using the CLI Using SNMP Traps ASR 5000 Installation Guide...
  • Page 10 Central Office Alarm Interface Electrical Characteristics Central Office Alarm Wiring Example BITS Timing Interface BITS E1 BNC Interface BITS T1 3-Pin Interface Fast Ethernet Line Card (FLC2) Interfaces 10/100 Mbps RJ-45 Interface Gigabit Ethernet Card (GLC2/QGLC) SFP Interfaces ASR 5000 Installation Guide...
  • Page 11 Chassis Air Flow Hardware Product Support Matrix A P P E N D I X A Packet Processing Cards Line Cards Preparing a Full-Height Line Card Slot A P P E N D I X B Introduction ASR 5000 Installation Guide...
  • Page 12 RMA Overview Re-packaging Your RMA Shipping Multiple Components Sealing the Shipment Labeling the Shipment Cisco Return Locations Packaging ASR 5000 Cards Application Cards Application Card Types Packaging an Application Card Line Cards (except XGLC) Half-Height Line Card Types Packaging a Half-height Line Card...
  • Page 13: About This Guide

    About this Guide ® This Installation Guide pertains to system features and functionality that run on the Cisco ASR 5000 platform. It describes how to unpack, install and initially configure the system. This guide also includes technical specifications and guidelines for monitoring system operation.
  • Page 14: Dimensions

    The most up-to-date information for this product is available in the product Release Notes provided with each product release. The following documents are available: • ASR 5000 Installation Guide • ASR 5000 System Administration Guide • Command Line Interface Reference • SNMP MIB Reference • Statistics and Counters Reference •...
  • Page 15 Contacting Customer Support Refer to the support area of http://www.cisco.com for up-to-date product documentation or to submit a service request. A valid username and password are required to access this site. Please contact your Cisco sales or service representative for additional information.
  • Page 16 About this Guide Contacting Customer Support ASR 5000 Installation Guide...
  • Page 17: Asr 5000 Hardware Platform Overview

    Card Identifiers, page 38 The ASR 5000 Platform The ASR 5000 multimedia core platform is designed for deployment in multimedia-enabled core networks. It features a distributed architecture that allows all tasks and services to be allocated across the entire platform.
  • Page 18: Chassis Configurations

    ASR 5000 Hardware Platform Overview Chassis Configurations • SNMP support for event notification Figure 1: ASR 5000 Chassis Chassis Configurations The system is designed to scale from a minimum configuration, as shown in the table below, to a fully-loaded redundant configuration containing a maximum of 48 cards.
  • Page 19: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview Chassis Configurations Component Supported ASR Redundant HW Redundant HW + Maximum per 5000 Product Configuration SW Configuration Chassis (Note 1) (Note 2) Packet Services Card 2 (PSC2) (2 active +1 (3 active +1 Packet Services Card 3 (PSC3)
  • Page 20: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview Chassis Configurations 2. These numbers represent the minimum number of components for: a) hardware and software redundancy; b) platforms with combined services. Additional components are required if Session Recovery is to be supported. 3. This is the minimum configuration for redundant SGSN service and MME service.
  • Page 21: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview Chassis Configurations Table 2: Chassis and Sub-component Identification Key Item Description Chassis: Supports 16 front-loading slots for application cards and 32 rear-loading slots for line cards. To support the XGLC, a full-height line card, remove the half-height guide from the rear slots.
  • Page 22: Chassis Description

    Chassis Description Chassis Description Slot Numbering The ASR 5000 chassis features a 48-slot design with 16 front-loading slots for application cards and 32 rear-loading slots (16 upper and 16 lower) for line cards. ASR 5000. Figure 3: Chassis Slot Numbers The following table shows the front slot numbers and their corresponding rear slot numbers.
  • Page 23: Rear Slot Numbering For Half-Height Line Cards

    Rack Units (1 RU = 1.75 in. [44.5 mm]). You can mount a maximum of three ASR 5000 chassis in a 2- or 4-post equipment rack, or telco cabinet, provided that all system cooling and ventilation requirements are met. Three stacked chassis will occupy a minimum of 42 RUs.
  • Page 24: Midplane Architecture

    ASR 5000 Hardware Platform Overview Midplane Architecture • Mid-mount: In this configuration, the flanges of the mounting brackets are recessed from the front of the chassis. This method is typically used with 2-post racks. You must remove and re-install the mounting brackets in the middle of the chassis on both sides.
  • Page 25: 320 Gbps Switch Fabric

    ASR 5000 Hardware Platform Overview Midplane Architecture Item Description Chassis slot number 17: upper right-most line card slot. The 10 Gigabit Ethernet Line Card (XGLC) is a full-height line card that takes up the upper and lower slots in the back of the chassis. Use the upper slot number only when referring to installed XGLCs.
  • Page 26: 280 Gbps Redundancy Bus

    ASR 5000 Hardware Platform Overview Midplane Architecture 280 Gbps Redundancy Bus The Redundancy Bus consists of multiple, full-duplex serial links providing packet processing card-to-line card redundancy through the chassis' Redundancy Crossbar Cards (RCCs) as shown below. Figure 5: RCC Logical View Each RCC facilitates 28 links: •...
  • Page 27: Spio Cross-Connect Bus

    PFU is -40 VDC to -60 VDC; the nominal range is -48 VDC to -60 VDC. The ASR 5000 does not offer an AC power supply option. If only AC power is available at the installation Important site, an adequately sized AC-to-DC converter will be required to supply -48 VDC power to the chassis.
  • Page 28: Fan Tray Assemblies

    ASR 5000 Hardware Platform Overview Fan Tray Assemblies Item Description VDC (-48 VDC input terminals) RTN (voltage return terminals) PFU handle Circuit breaker (On/Off) rated at 165A Power LED Fan Tray Assemblies There are two fan tray assemblies within the chassis. A lower fan tray intakes ambient air and an upper fan tray exhausts warmed air from the chassis.
  • Page 29: Upper Fan Tray

    ASR 5000 Hardware Platform Overview Upper Fan Tray before they enter the system. Temperature sensors measure the temperature at various points throughout the chassis. The system monitors this information, and generates a maintenance alarm, if necessary. Figure 8: Particulate Air Filter Important A replacement air filter is shipped with each chassis.
  • Page 30: Application Cards

    ASR 5000 Hardware Platform Overview Application Cards Application Cards The following application cards are supported by the system. System Management Card (SMC) The SMC serves as the primary system controller, initializing the entire system and loading the software's configuration image into other cards in the chassis as applicable.
  • Page 31: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview System Management Card (SMC) The front panel of the SMC with its major components is shown below: Figure 10: System Management Card (SMC) Table 6: SMC Callouts Item Description Card Ejector Levers —Use to insert/remove card to/from chassis.
  • Page 32: Smc Raid Support

    ASR 5000 Hardware Platform Overview SMC RAID Support Item Description Card Level Status LEDs—Show the status of the card. See Applying Power and Verifying Installation for definitions. System Level Status LEDs—Show the status of overall system health and/or maintenance requirements. See Applying Power and Verifying Installation for definitions.
  • Page 33: Packet Processing Cards: Psc2 And Psc3

    ASR 5000 Hardware Platform Overview Packet Processing Cards: PSC2 and PSC3 • Files deleted to free up disk space Event logs at the Informational level are generated for normal situations: • Disk partition completion • RAID discovery results without overwriting •...
  • Page 34: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview Packet Processing Cards: PSC2 and PSC3 To take advantage of the distributed processing capabilities of the system, you can add packet processing cards to the chassis without their supporting line cards, if desired. This results in increased packet handling and transaction processing capabilities.
  • Page 35: Packet Services Card (Psc)

    ASR 5000 Hardware Platform Overview Packet Processing Cards: PSC2 and PSC3 Table 7: Packet Processing Card (Generic) Callouts Item Description Card Ejector Levers —Use to insert/remove card to/from chassis. Interlock Switch —In its Down position the interlock switch notifies the system to safely power down the card prior to its removal.
  • Page 36: Packet Processor Card (Ppc) Description

    ASR 5000 Hardware Platform Overview Line Cards To optimize network efficiency and minimize down time, the system supports 1:n redundancy for PSC3s. If session recovery is enabled, the minimum number of PSC3s per chassis increases from one to four cards.
  • Page 37: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview Switch Processor I/O (SPIO) Card The following shows the front panel of the SPIO card, its interfaces, and other major components. Figure 12: Switch Processor I/O (SPIO) Card Table 8: SPIO Callouts Item Description Card Ejector Levers—Use to insert/remove card to or from the chassis.
  • Page 38: Management Lan Interfaces

    ASR 5000 Hardware Platform Overview Switch Processor I/O (SPIO) Card Management LAN Interfaces SPIO management LAN interfaces connect the system to the carrier's management network and applications, normally located remotely in a Network Operations Center (NOC). You can use the RJ-45 copper 10/100/1000 Mbps Ethernet interfaces or optical SFP Gigabit Ethernet interfaces to connect to the management network.
  • Page 39: Central Office Alarm Interface

    ASR 5000 Hardware Platform Overview Redundancy Crossbar Card (RCC) Central Office Alarm Interface The CO alarm interface is a 10-pin connector for up to three dry-contact relay switches for connection to a CO alarm monitoring panel. The three Normally Closed alarm relays can be wired to support Normally Open or Normally Closed devices, indicating minor, major, and critical alarms.
  • Page 40: Fast Ethernet Line Card (Flc2)

    ASR 5000 Hardware Platform Overview Fast Ethernet Line Card (FLC2) Table 10: RCC Callouts Item Description Card Ejector Levers—Use to insert/remove a card to and from the chassis. Interlock Switch—In its Down position the interlock switch notifies the system to safely power down the card prior to its removal.
  • Page 41: Gigabit Ethernet Line Card (Glc2)

    ASR 5000 Hardware Platform Overview Gigabit Ethernet Line Card (GLC2) The following shows the panel of the FLC2 with its interfaces and major components. Figure 14: Fast Ethernet Line Card (FLC2) Table 11: FLC2 Callouts Item Description Card Ejector Levers—Use to insert/remove card to/from chassis.
  • Page 42: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview Gigabit Ethernet Line Card (GLC2) Table 12: SFP Modules Supported by the GLC2 Module Type Card Interface Cable Specifications Identification Type 1000Base-SX Ethernet Fiber, LC Fiber Type: Multi-mode fiber (MMF), 850 nm wavelength 1000 SX...
  • Page 43: Quad Gigabit Ethernet Line Card (Qglc)

    ASR 5000 Hardware Platform Overview Quad Gigabit Ethernet Line Card (QGLC) The following diagram shows the front panel of the GLC2 with an optical connector, identifying its interfaces and major components. Figure 15: Gigabit Ethernet Line Card (GLC2) Table 13: GLC2 Callouts...
  • Page 44: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview Quad Gigabit Ethernet Line Card (QGLC) Table 14: SFP Modules Supported by the QGLC Module Type Card Interface Cable Specifications Identification Type 1000Base-SX Ethernet Fiber, LC Fiber Type: Multi-mode fiber (MMF), 850 nm wavelength 1000 SX...
  • Page 45: Gigabit Ethernet Line Card (Xglc)

    10 Gigabit Ethernet Line Card (XGLC) The XGLC supports higher speed connections to packet core equipment, increases effective throughput between the ASR 5000 and the packet core network, and reduces the number of physical ports needed on the ASR 5000.
  • Page 46: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview 10 Gigabit Ethernet Line Card (XGLC) The XGLC use a Small Form Factor Pluggable Plus (SFP+) module. The modules support one of two media types: 10GBASE-SR (Short Reach) 850nm, 300m over multimode fiber (MMF), or 10GBASE-LR (Long Reach) 1310nm, 10km over single mode fiber (SMF).
  • Page 47: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview 10 Gigabit Ethernet Line Card (XGLC) Important This product has been tested and found to comply with the limits for Class 1 laser devices for IEC825, EN60825, and 21CFR1040 specifications. The following shows the front panel of the XGLC, identifying its interfaces and major components.
  • Page 48: Optical Line Card (Olc2)

    ASR 5000 Hardware Platform Overview Optical Line Card (OLC2) Table 17: XGLC Callouts Item Description Card Ejector Levers—Use to insert/remove card to/from chassis. Interlock Switch—In its Down position the interlock switch notifies system to safely power down the card prior to its removal.
  • Page 49: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview Optical Line Card (OLC2) Table 18: SFP Modules Supported by the OLC2 Module Type Card Interface Cable Specifications Identification Type Single-mode ATM/POS Single-mode Fiber Types: Single-mode optical fiber Optical Fiber OC-3 SM Fiber, LC Wavelength: 1310 nm...
  • Page 50: Channelized Line Card (Clc2)

    ASR 5000 Hardware Platform Overview Channelized Line Card (CLC2) Install the OLC2 directly behind its respective (active) packet processing card. As with other line cards, install the Optical (ATM) Line Card in slots 17 through 23, 26 through 39, and 42 through 48.The following figures show the panel of the OLC2, indicating its ports and major components.
  • Page 51: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview Channelized Line Card (CLC2) of the base station subsystem (BSS) in a mobile network. These interfaces are commonly used with the SGSN product to support frame relay. In North America, the card supplies ANSI SONET STS-3 (optical OC-3) signaling. In Europe, the card supplies SDH STM-1 (optical OC-3).
  • Page 52: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview Channelized Line Card (CLC2) The following figures show the panel of the CLC2 Channelized Line Cards, identifying their interfaces and major components. Figure 19: Channelized Line Card (CLC2) Table 21: CLC2 (Frame Relay) Callouts Item Description Card Ejector Levers—Use to insert/remove card to/from chassis.
  • Page 53: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview Channelized Line Card (CLC2) • ITU-T - Recommendation G.707 Network Node Interface for the Synchronous Digital Hierarchy (SDH), December 2003. • ITU-T - Recommendation G.747 Second Order Digital Multiplex Equipment Operating at 6312 kbps and Multiplexing Three Tributaries at 2048 kbps, 1993.
  • Page 54: Card Interlock Switch

    The following figure shows how the card interlock switch works in conjunction with the ejector lever. Figure 20: Card Interlock Switch in the Lever-locked Position Card Identifiers The table below cross-references ASR 5000 application and line cards by acronym, label, variant, and Cisco part identifier (PID). Table 22: ASR 5000 Component References...
  • Page 55: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview Card Identifiers Descriptor Acronym Label Variant Packet Services Card PSC3 Packet Services 3 64GB None 64GB Packet Processing Card End of Life (not supported in Release 16.0+) 16GB Switch Processor SPIO Switch Processor I/O SPIO, E1 BNC BITS...
  • Page 56: Asr 5000 Installation Guide

    ASR 5000 Hardware Platform Overview Card Identifiers Descriptor Acronym Label Variant Optical 4-port (ATM) OLC2 OLC2 OC-3/STM-1 with MM SFP Line Card with SM SFP ASR 5000 Installation Guide...
  • Page 57: Installation Procedure Overview

    Chassis Components, page 42 • Installation at a Glance, page 43 • Required Tools and Equipment, page 44 • Site Prerequisites, page 45 • Protecting Against Electro-static Discharge, page 45 • Federal Communications Commission Warning, page 46 ASR 5000 Installation Guide...
  • Page 58: Chassis Components

    Installation Procedure Overview Chassis Components Chassis Components The following graphic and table illustrate the chassis and describe its subcomponents. Figure 21: ASR 5000 Chassis and Sub-components Table 23: Chassis and Sub-component Identification Key Item Description Chassis: Supports 16 front-loading slots for application cards and 32 rear-loading slots for line cards.
  • Page 59: Installation At A Glance

    Installation at a Glance The list below summarizes the installation process for the chassis. Unpacking instructions are not provided in this document. Please refer to the Unpacking the ASR 5000 Note Chassis document shipped with the system, for information and instructions on this topic. The chassis and cards are shipped separately.
  • Page 60: Required Tools And Equipment

    • A computer or terminal server with a 9-pin RS-232C serial port, or 25-to-9-pin male RS-232C adapter. It will be connected to the SPIO's Console port for accessing the command line interface (CLI) for initial system configuration. ASR 5000 Installation Guide...
  • Page 61: Site Prerequisites

    Clearance Adequate clearance must be maintained at the front and rear of the ASR 5000 chassis to assure proper air flow and allow maintenance access for the installation, removal and replacement of components. The recommended clearance is 30 to 36 inches (76 to 92 centimeters) at the front and rear of the chassis.
  • Page 62: Federal Communications Commission Warning

    Figure 22: Location of Chassis ESD Jacks Federal Communications Commission Warning This device complies with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules and Regulations. Operation is subject to the following two conditions: ASR 5000 Installation Guide...
  • Page 63: Ics Notice

    Modifications to this product not authorized by Cisco could void the FCC approval and negate your authority to operate the product.
  • Page 64: Asr 5000 Installation Guide

    Installation Procedure Overview Laser Notice ASR 5000 Installation Guide...
  • Page 65: Chassis Installation

    Equipment Rack Configuration, page 49 • Weight Considerations, page 51 • Unpacking the ASR 5000 Chassis, page 51 • Installing the Chassis, page 54 Equipment Rack Configuration The chassis is designed for installation in a standard 19-inch (48.26 cm) equipment rack. Additional rack hardware, such as extension brackets, may be used to install the chassis in a standard 23-inch (58.42 cm) rack.
  • Page 66: Ventilation Considerations

    Figure 23: System Airflow and Ventilation Proper ventilation and cooling must allow the chassis to operate within the temperature and humidity levels described in the following table. ASR 5000 Installation Guide...
  • Page 67: Mounting Options

    • When lifting any heavy object, it is important to remember to bend at the knees and lift with your legs. Bending at the waist and lifting with your back could cause personal injury. Unpacking the ASR 5000 Chassis Before unpacking the chassis, use a pallet jack to move the container as close to the final installation site Important as possible.
  • Page 68: Asr 5000 Installation Guide

    Chassis Installation Unpacking the ASR 5000 Chassis sections are secured together for shipping via four locking mechanisms located near the bottom corners of the container. ASR 5000 Installation Guide...
  • Page 69: Asr 5000 Installation Guide

    Chassis Installation Unpacking the ASR 5000 Chassis Refer to the printed instructions that come with the shipment for detailed unpacking procedures. Important Figure 24: ASR 5000 Shipping Container ASR 5000 Installation Guide...
  • Page 70: Installing The Chassis

    During installation, maintenance, and/or removal, wear grounding wrist and/or heel straps to avoid ESD Caution damage to the components. Failure to do so could result in damage to sensitive electronic components and potentially void your warranty. Step 1 Remove the upper fan tray. ASR 5000 Installation Guide...
  • Page 71: Asr 5000 Installation Guide

    Vorsicht beim Herausziehen der Luefter-Schublade: um eine Beschaedigung des Moduls und eventuelle Verletzungen zu vermeiden, sollte diese hinten und vorne unterstuetzt werden. Step 2 Remove the lower fan tray assembly. ASR 5000 Installation Guide...
  • Page 72: Asr 5000 Installation Guide

    Vorsicht beim Herausziehen der Luefter-Schublade: um eine Beschaedigung des Moduls und eventuelle Verletzungen zu vermeiden, sollte diese hinten und vorne unterstuetzt werden. Step 3 Remove the PFUs located in the lower-rear of the chassis. ASR 5000 Installation Guide...
  • Page 73: Flush Mount Installation Of The Chassis

    Mount the chassis to the rails of the equipment rack. Use the hardware that was supplied with the equipment rack. Begin with the two bottom holes and work your way up until all four holes on each flange are secured. ASR 5000 Installation Guide...
  • Page 74: Mid-Mount Installation Of The Chassis

    On the side of the chassis, unfasten the eight Phillips #2 screws that secure the mounting bracket to the chassis. Step 2 Place the mounting bracket over the middle set of mounting holes on the side of the chassis and secure it to the chassis with the screws you removed in step 1. ASR 5000 Installation Guide...
  • Page 75: Asr 5000 Installation Guide

    Mount the chassis to the rails of the equipment rack with the hardware that was supplied with the equipment rack. Begin with the two bottom holes and work your way up until all holes on each flange are secured. ASR 5000 Installation Guide...
  • Page 76: Grounding The Chassis

    Failure to properly ground the chassis could result in personal injury and/or damage to the chassis and its Caution components. ASR 5000 Installation Guide...
  • Page 77: Asr 5000 Installation Guide

    The method of connection is: chassis - lug - flat washer - nut (3/8-inch). The nut(s) must be torqued to 50 in-lb (5.65 N-m). Ground Cable: Cable length: Not more than 70 feet (21.336 meters) one way. Cable size: 6 AWG (minimum), stranded copper. ASR 5000 Installation Guide...
  • Page 78: Re-Installing Chassis Sub-Components

    Re-Installing Chassis Sub-components If you performed the procedure in the Reducing the Weight of the Chassis Prior to Installation, on page 54 section, complete the procedures described below to re-install the sub-components of the chassis. ASR 5000 Installation Guide...
  • Page 79: Asr 5000 Installation Guide

    Use a Phillips #2 screwdriver to tighten each of the four screws on the PFU to secure it to the chassis. d) Re-install the second PFU in the PFU bay labeled Power Filter Unit 2 by repeating step b and step c. Step 2 Re-install the lower fan tray assembly into the chassis. ASR 5000 Installation Guide...
  • Page 80: Asr 5000 Installation Guide

    Verify that the particulate filter is securely in place. Its front should be flush with the front of the fan tray assembly and its tab should be lowered to keep it in place. ASR 5000 Installation Guide...
  • Page 81: Asr 5000 Installation Guide

    Slowly slide the fan tray into the chassis along the guides until its face plate is firmly against the chassis. c) Use a Phillips #1 screwdriver to tighten the four screws on the face of the fan tray to secure it. ASR 5000 Installation Guide...
  • Page 82: Asr 5000 Installation Guide

    Re-Installing Chassis Sub-components d) Replace the upper plastic bezel: align it over the bezel mounts that protrude from the face of the fan tray and snap it in place. Step 4 Proceed to the Application Card Installation chapter. ASR 5000 Installation Guide...
  • Page 83: Application Card Installation

    The chassis has 16 front-loading slots that host application cards. This allows the installation of redundant components and provides ample room for expanding the system. Chassis slots are labeled 1 through 16 from left to right. Figure 26: Chassis Front Slot Numbering ASR 5000 Installation Guide...
  • Page 84: Asr 5000 Platform

    Chassis slots 8 and 9 are reserved for the SMC only. By default, when the chassis' power is on, the SMC in slot 8 is active. The other SMC is automatically placed into standby mode. Do not place any card other than an SMC into slots 8 or 9 of the ASR 5000. Doing so Caution will cause damage to the card and possibly the chassis' mid-plane.
  • Page 85: Recommended Minimum Chassis Configuration

    If you use the session recovery feature, a minimum of three active packet processing cards and one standby (redundant) packet processing card are required. Installing Application Cards The installation procedure is identical for all application cards. This section provides the instructions for installing application cards in the chassis. ASR 5000 Installation Guide...
  • Page 86: Asr 5000 Installation Guide

    Take extra caution when installing packet processing cards. These cards contain heat sinks that could become Caution loose or be damaged if they come into contact with another card while it is being inserted in the chassis slot. ASR 5000 Installation Guide...
  • Page 87: Asr 5000 Installation Guide

    Slide the interlock switch on the front panel of the application card upward to lock the ejector tab in place. The flange on the left-side of the interlock switch prevents movement of the ejector tab when raised completely. You must slide the interlock switch upward before securing the card's top screw to the mounting Important rail. ASR 5000 Installation Guide...
  • Page 88: Asr 5000 Installation Guide

    Use a Phillips #2 screwdriver to tighten the screws at the top and bottom of the blanking panel to secure the panel to the chassis. c) Repeat step a and step b for any additional unused chassis slots. Step 11 Proceed to the Line Card Installation chapter. ASR 5000 Installation Guide...
  • Page 89: Line Card Installation

    Installing the 10 Gigabit Ethernet Line Card (XGLC), page 81 Chassis Slot Numbering and Assignments The chassis has 32 rear-loaded slots for line cards. This allows for the installation of redundant components and provides ample space for expanding the system. ASR 5000 Installation Guide...
  • Page 90: Asr 5000 Installation Guide

    The following table shows the front slot numbers and their corresponding rear slot numbers. Table 27: Front and Rear Slot Numbering Relationship Position Slot Number Front Rear Slots Rear Bottom Slots The following line cards are available for the chassis: ASR 5000 Installation Guide...
  • Page 91: Asr 5000 Installation Guide

    17 through 23 and 26 through 32. Resides behind Redundant SMC in slot 9. It provides redundancy for all SMC application cards and for line cards installed in the lower-rear chassis, slots 33 through 39 and 42 through 48. ASR 5000 Installation Guide...
  • Page 92: Line Card Redundancy

    When two line cards are installed, the card in the upper-rear chassis slot is automatically the active card. The card in the lower-rear chassis slot is automatically placed in standby mode. In the event that the active card experiences a failure, the system automatically migrates traffic to the standby card in the lower slot. ASR 5000 Installation Guide...
  • Page 93: Side-By-Side Redundancy For The Xglc

    32. Make sure that both packet processing cards in front of the line cards are of the same type, configured as a redundant pair, and active.The CLI configuration to support this redundancy mode is specified at the card level as follows: config [local]asr5000# card 17 [local]asr5000(config)# redundant with 18 [local]asr5000(config-card-17)# ASR 5000 Installation Guide...
  • Page 94: Recommended Minimum Chassis Configuration

    However, it is strongly recommended that redundant components be used to minimize the risk of system outage. Therefore, the recommended minimum chassis configuration consists of the following: Table 29: ASR 5000 Recommended Minimum Chassis Configuration Application Card Application Associated Interface Card...
  • Page 95: Installing Half-Height Line Cards

    Step 5 Hold the card by its ejector levers and align the card with the upper and lower card guides of the chassis slot. Gently slide it into the slot until the levers touch the chassis frame. ASR 5000 Installation Guide...
  • Page 96: Asr 5000 Installation Guide

    Slide the interlock switch on the front panel of the line card upward to lock the ejector tab in place. The flange on the left-side of the interlock switch prevents movement of the ejector tab when raised completely. You must slide the interlock switch upward before securing the card's top screw to the mounting Important rail. ASR 5000 Installation Guide...
  • Page 97: Installing The 10 Gigabit Ethernet Line Card (Xglc)

    Installing the 10 Gigabit Ethernet Line Card (XGLC) The XGLC is a full-height line card that gets installed in the rear slots of the ASR 5000 chassis. It provides a single Small Form-factor Pluggable+ (SFP+) 10 Gigabit Ethernet interface for network connectivity.
  • Page 98: Installing The Xglc

    Slide the interlock switch on the front panel of the line card upward to lock the ejector tab in place. The flange on the left-side of the interlock switch prevents movement of the ejector tab when raised completely. ASR 5000 Installation Guide...
  • Page 99: Chapter

    Use a Phillips #2 screwdriver to tighten the screws at the top and bottom of the front panel to secure the card to the chassis. Step 7 Repeat step 1 through step 10 for every other line card that to be installed. Step 8 Proceed to the appropriate chapter for information on connecting data cables to the line cards. ASR 5000 Installation Guide...
  • Page 100: Asr 5000 Installation Guide

    Line Card Installation Installing the XGLC ASR 5000 Installation Guide...
  • Page 101: Chapter

    The SPIO is available with the following types of interfaces: • Two Gigabit Ethernet, fiber optical (SFP) • Two 1000Base-T Ethernet, copper (RJ-45) • One RS-232 interface (RJ-45) • One Central Office alarms (10-pin Molex)) • One BITS (BNC or 3-pin connector) ASR 5000 Installation Guide...
  • Page 102: E1 Bnc Bits Interface Version

    Gigabit Ethernet interface for connecting to Form-factor Pluggable management LAN Ethernet 1 RJ-45 10/100/1000 Ethernet interface for connecting to management LAN Ethernet 2 RJ-45 10/100/1000 Ethernet for connecting to management Console RJ-45 RS-232 interface for local administration of the system ASR 5000 Installation Guide...
  • Page 103: T1 3-Pin Bits Interface Version

    Table 31: SPIO 3-Pin BITS Interface Descriptions Item Label Connector Type Description SFP 1 Optical fiber, Small Gigabit Ethernet interface for connecting to Form-factor Pluggable management LAN SFP 2 Optical fiber, Small Gigabit Ethernet interface for connecting to Form-factor Pluggable management LAN ASR 5000 Installation Guide...
  • Page 104: Connecting To The Management Lan

    Using the SFP Interfaces The two optical 1000Base-SX SFP interfaces are hot-pluggable 802.3z-compliant Gigabit Ethernet interfaces that take their configuration from the inserted cable type. Refer to the following table for information about supported cable specifications. ASR 5000 Installation Guide...
  • Page 105: Asr 5000 Installation Guide

    • 50/1640.42 feet (500 meters) Minimum Tx Power: -9.5 dBm Rx Sensitivity: -17 dBm The SFP interface is only certified to work with SFP transceiver modules purchased from Cisco for use Important with the SPIO card. Be sure to label the interface cables with their destination prior to connecting them to the SPIO card. This Important will assure proper reconnection should the card need to be serviced.
  • Page 106: Using The Ethernet Rj-45 Interfaces

    Be sure to label the interface cables with their destination prior to connecting them to the SPIO card. This will assure proper reconnection should the card need to be serviced. Figure 31: SPIO Ethernet RJ-45 Interface ASR 5000 Installation Guide...
  • Page 107: Connecting To The Serial Console Port

    The Console port is an RJ-45 RS-232 interface that provides access to the system's command line interface (CLI). This serial interface communicates at 9600 to 115200 bps (default = 115200 bps). The RJ-45 pinout of tis interface is described in the figure and table that follow. ASR 5000 Installation Guide...
  • Page 108: Db-9 To Rj-45 Adapter

    DB-9 to RJ-45 Adapter SPIOs are shipped with an RJ-45-to-RJ-45 serial cable and an RJ-45-to-DB-9 adapter. The DB-9S conductor on the adapter is female. If you use the cable and adaptor together, refer to the following figure and table. ASR 5000 Installation Guide...
  • Page 109: Asr 5000 Installation Guide

    Clear to Send (CTS) Input Data Set Ready (DSR) Input Receive Data (RxD) Input Signal Ground (SGND) SGND Ready To Send (RTS) Output Transmit Data (TxD) Output Data Carrier Detect (DCD) Input Data Terminal Ready (DTR) Output ASR 5000 Installation Guide...
  • Page 110: Usb To Db-9 Adapter

    Transmit Data (TxD) Output Data Terminal Ready (DTR) Output Unused Signal Ground (SGND) Ground Ground Data Set Ready (DSR) Input Unused Request To Send (RTS) Output Unused Clear To Send (CTS) Input Unused Ring Indicator (RI) Input Unused ASR 5000 Installation Guide...
  • Page 111: Connecting To The Console Port

    The BITS source derives its timing from a primary reference source (PRS), such as a Stratum 1 clock or Global Positioning System (GPS) signal. Connection to the BITS is via a BNC coaxial cable (E1) or 3-pin wire-wrap connector (T1). ASR 5000 Installation Guide...
  • Page 112: Bits E1 Bnc Interface

    Important BITS source. Your NOC may also have detailed specifications for distributing the BITS clock signals to network devices such as the ASR 5000. BITS E1 BNC Interface The BNC version of the SPIO employs a 75-ohm coaxial BNC connector that accepts an analog E1 BITS signal.
  • Page 113: Bits Timing Configuration

    CPU and memory resources. The CO alarm interface pinout is provided in the following figure and table. Figure 38: SPIO CO Alarm Interface Pinouts ASR 5000 Installation Guide...
  • Page 114: Asr 5000 Installation Guide

    This "Y" cable has two Molex connectors on one end that are keyed to fit into the CO Alarm interfaces in one direction only. Each connector mates with one of the side-by-side SPIO cards. On the opposite end is a 9-pin terminal block that you can mount to the telco cabinet or equipment rack frame. ASR 5000 Installation Guide...
  • Page 115: Asr 5000 Installation Guide

    Minor Alarm - Normally closed Yellow Minor Alarm - Common Green Minor Alarm - Normally open Blue Critical Alarm - Normally closed Violet Critical Alarm - Common Gray Critical Alarm - Normally open Not wired Not equipped Unused ASR 5000 Installation Guide...
  • Page 116: Electrical Characteristics

    In this example, the CO alarm interface is connected to a CO Alarm Panel, where green LEDs are wired to indicate normal operation, and red LEDs are wired to indicate an alarm condition. Figure 40: CO Alarm Interface Schematic ASR 5000 Installation Guide...
  • Page 117: Asr 5000 Installation Guide

    Cabling the Switch Processor Input/Output Line Card Central Office Alarm Wiring Example With all relays de-energized (normally closed), the green LED is illuminated. If an alarm relay is energized, the NO (normally open) contact closes and the red LED is illuminated. ASR 5000 Installation Guide...
  • Page 118: Asr 5000 Installation Guide

    Cabling the Switch Processor Input/Output Line Card Central Office Alarm Wiring Example ASR 5000 Installation Guide...
  • Page 119: Cabling The Fast Ethernet (10/100) Line Card

    The Fast Ethernet Line Card (FLC2, Ethernet 10/100) has eight RJ-45 interfaces, as shown in the figure below. Each of these is an auto-sensing 10Base-T/100Base-TX Ethernet interface that terminates a shielded twisted-pair (STP) copper cable. The interfaces are labeled 1 through 8 from top to bottom. ASR 5000 Installation Guide...
  • Page 120: Asr 5000 Installation Guide

    • Link: This green LED shows whether or not the line card is connected to the network. The LED is illuminated when the card is connected. • Activity: This green LED shows when data is transmitted or received. The LED is illuminated when data is passing through the interface. ASR 5000 Installation Guide...
  • Page 121: Asr 5000 Installation Guide

    Be sure to label the interface cables with their destinations prior to connecting them to the FLC2. This Important will assure proper reconnection should the card need to be serviced. To cable the FLC2, simply plug an STC Ethernet cable from a network device into the desired port. ASR 5000 Installation Guide...
  • Page 122: Asr 5000 Installation Guide

    Cabling the Fast Ethernet (10/100) Line Card FLC2 Interfaces ASR 5000 Installation Guide...
  • Page 123: Cabling The Gigabit Ethernet Line Cards

    Quad Gigabit Ethernet Line Card (QGLC), page 109 • RJ-45 SFP Module Detail, page 111 • Cabling the Optical SFP+ Interface, page 113 • 10 Gigabit Ethernet Line Card (XGLC), page 114 • Cabling the Optical SFP+ Interface, page 115 ASR 5000 Installation Guide...
  • Page 124: Gigabit Ethernet Line Card (Glc2)

    Fiber, LC Fiber Type: Multi-mode fiber (MMF), 850 nm wavelength 1000 SX duplex Core Size (microns)/Range: female connector • 62.5/902.23 feet (275 meters) • 50/1640.42 feet (500 meters) Minimum Tx Power: -9.5 dBm Rx Sensitivity: -17 dBm ASR 5000 Installation Guide...
  • Page 125: Quad Gigabit Ethernet Line Card (Qglc)

    Radiated Emissions Criteria, you must use shielded-twisted pair cable and ensure that it is properly terminated at both ends. The SFP interface is only certified to work with SFP transceiver modules purchased from Cisco for use Important with the GLC2.
  • Page 126: Asr 5000 Installation Guide

    Fiber, LC Fiber Type: Multi-mode fiber (MMF), 850 nm wavelength 1000 SX duplex Core Size (microns)/Range: female connector • 62.5/902.23 feet (275 meters) • 50/1640.42 feet (500 meters) Minimum Tx Power: -9.5 dBm Rx Sensitivity: -17 dBm ASR 5000 Installation Guide...
  • Page 127: Rj-45 Sfp Module Detail

    Radiated Emissions Criteria, you must use shielded-twisted pair cable and ensure that it is properly terminated at both ends. The SFP interface is only certified to work with SFP transceiver modules purchased from Cisco for use Important with the QGLC.
  • Page 128: Asr 5000 Installation Guide

    • Link: This green LED shows whether or not the line card is connected to the network. The LED is illuminated when the card is connected. • Activity: This green LED shows when data is transmitted or received. The LED is illuminated when data is passing through the interface. ASR 5000 Installation Guide...
  • Page 129: Cabling The Optical Sfp+ Interface

    Nicht genutzte Buchsen mit der entsprechenden Kappe verschliessen. Step 1 Remove the cover from the SFP interface. Step 2 Insert the optical cable from a network device into the interface and ensure that it is securely in place. ASR 5000 Installation Guide...
  • Page 130: Gigabit Ethernet Line Card (Xglc)

    The 10 Gigabit Ethernet Line Card or XGLC, is a full-height line card. The XGLC uses industry standard SFP+ transceiver modules to support various fiber types as required. The following diagram shows the XGLC's single SFP+ interface. Figure 46: XGLC Fiber Optic Interface ASR 5000 Installation Guide...
  • Page 131: Cabling The Optical Sfp+ Interface

    Because of the optical SFP interface, this product has been tested and found to comply with the limits for Important Class 1 laser devices for IEC825, EN60825, and 21CFR1040 specifications. Cabling the Optical SFP+ Interface To interconnect the optical SFP+ interface on the XGLC, follow the instructions below. ASR 5000 Installation Guide...
  • Page 132: Asr 5000 Installation Guide

    Nicht genutzte Buchsen mit der entsprechenden Kappe verschliessen. Step 1 Remove the cover from the SFP interface. Step 2 Insert the optical cable from a network device into the interface and ensure that it is securely in place. ASR 5000 Installation Guide...
  • Page 133: Cabling The Optical (Atm) Line Cards

    Optical Fiber OC-3 SM Fiber, LC Wavelength: 1310 nm IR-1 duplex Core Size: 9 micrometers female connector Cladding Diameter: 125 micrometers Range: Intermediate/21 kilometers Attenuation: 0.25 dB/KM Min/Max Tx Power: -15 dBm/-8 dBm Rx Sensitivity: -28 dBm ASR 5000 Installation Guide...
  • Page 134: Asr 5000 Installation Guide

    Range: Short/2 kilometers Min/Max Tx Power: -19 dBm/-14 dBm Rx Sensitivity: -30 dBm The SFP interface is only certified to work with SFP transceiver modules purchased from Cisco for use Important with the OLC2. Because of the optical SFP interface, this product has been tested and found to comply with the limits for Important Class 1 laser devices for IEC825, EN60825, and 21CFR1040 specifications.
  • Page 135: Cabling The Optical Sfp Interface

    Step 4 Insert the optical cable from a network device into the interface and ensure that it is securely in place. Step 5 Repeat step 1 through step 4 to connect a fiber-optic cable to other ports. ASR 5000 Installation Guide...
  • Page 136: Asr 5000 Installation Guide

    Cabling the Optical (ATM) Line Cards Cabling the Optical SFP Interface ASR 5000 Installation Guide...
  • Page 137: Chapter

    Optical Fiber (STM-1/OC-3) Fiber, LC Wavelength: 1310 nm SM IR-1 duplex Core Size: 9 micrometers female connector Cladding Diameter: 125 micrometers Range: Intermediate/21 kilometers Attenuation: 0.25 dB/KM Min/Max Tx Power: -15 dBm/-8 dBm Rx Sensitivity: -28 dBm ASR 5000 Installation Guide...
  • Page 138: Asr 5000 Installation Guide

    Range: Short/2 kilometers Min/Max Tx Power: -19 dBm/-14 dBm Rx Sensitivity: -30 dBm The SFP interface is only certified to work with SFP transceiver modules purchased from Cisco for use Important with the CLC2. Because of the optical SFP interface, this product has been tested and found to comply with the limits for Important Class 1 laser devices for IEC825, EN60825, and 21CFR1040 specifications.
  • Page 139: Cabling The Optical Sfp Interface

    Insert the fiber-optic optical cable from a network device into the interface and ensure that it is securely in place. Step 5 Repeat step 1 through step 4 to connect a fiber-optic cable to other ports, if so equipped. ASR 5000 Installation Guide...
  • Page 140: Asr 5000 Installation Guide

    Cabling the Channelized Line Cards Cabling the Optical SFP Interface ASR 5000 Installation Guide...
  • Page 141: Cabling The Power Filter Units

    Input Voltage Maximum range: -40VDC to -60VDC Nominal range: -48VDC to -60 VDC TUV Rated Peak Current Load 165A @ -48 VDC Maximum Peak Power Load 5760W Empty Chassis Maximum Power Load 800W (includes fan trays) ASR 5000 Installation Guide...
  • Page 142: Estimating Power Requirements

    (Total Application Card Maximum Power Load) + (Total Line Card Maximum Power Load) + (Chassis Maximum Power Load) The calculation for estimating the power required for an ASR 5000 installation with 3 PSCs, 2 SMCs, 2 SPIOs, 2 RCCs, and 4 Ethernet 1000 line cards is as follows: (250W x 3) + (130W x 2) + ((20W x 2) + (13.5W x 4)) + 800W = 1934W...
  • Page 143: Asr 5000 Installation Guide

    Calculations assume a 0.3 volt drop from the PDF to the PDP, and a 0.3 volt drop from the PDP to the chassis. This is a total voltage drop of 0.6 volts. Fuse Panel to ASR 5000 Assuming an 18-foot (5.5 meter) loop length, each cable between the PDP and the chassis must be the equivalent of 83,690 circular mils (1 AWG) or greater.
  • Page 144: Asr 5000 Installation Guide

    Cabling the Power Filter Units Power Cable Requirements Figure 49: PFU Wiring Diagram ASR 5000 Installation Guide...
  • Page 145: Connecting The Pfu To The Power Source

    Cabling the Power Filter Units Connecting the PFU to the Power Source Table 48: ASR 5000 PFU Wiring Diagram Descriptions Item Description Two 2-hole lugs are required: one for return (RTN) and one for power (-VDC). The PFU 0.3125-inch posts spaced 0.88-inch on center.
  • Page 146: Asr 5000 Installation Guide

    3. The nuts should be torqued to 50 in-lb. (5.65 N-m). Step 5 Connect the lug attached to the power feed cable to the PFU: a) Insert the lug over the two terminals labeled -VDC. These are the two bottom terminals on the PFU. ASR 5000 Installation Guide...
  • Page 147: Asr 5000 Installation Guide

    Repeat step 1 through step 6 for the PFU installed in the bay labeled Power Filter Unit 2. Step 8 Proceed to the next chapter for information and instructions on applying power to the chassis and verifying that the installation was successful. ASR 5000 Installation Guide...
  • Page 148: Asr 5000 Installation Guide

    Cabling the Power Filter Units Connecting the PFU to the Power Source ASR 5000 Installation Guide...
  • Page 149: Applying Power And Verifying The Installation

    Important This chapter assumes that the ASR 5000 chassis, its sub-components, as well as application and line cards have been physically installed. The system has also been cabled to interoperate with management and traffic networks.
  • Page 150: Asr 5000 Installation Guide

    8 and 9, power is quickly applied to the SPIOs in slots 24 and 25. Step 2 During the startup process, each card performs a series of Power-On Self Tests (POSTs) to ensure that the hardware is ASR 5000 Installation Guide...
  • Page 151: Asr 5000 Installation Guide

    Make sure a card or blanking panel is installed in every chassis slot at all times. After the system successfully boots and the initial configuration is applied, the system is ready to be configured or offer services. ASR 5000 Installation Guide...
  • Page 152: Applying Power To The Chassis

    Optional. If the circuit breaker on your PFU is equipped with a locking clip, lock the circuit breaker in place. Move the breaker's locking clip to the left until the clip's inside tang is recessed in the breaker's actuator opening. ASR 5000 Installation Guide...
  • Page 153: Verifying The Installation

    LEDs on the various cards to verify the installation. Checking the LED on the PFU Each PFU has a single status LED labeled POWER. This LED is green during normal operating conditions. ASR 5000 Installation Guide...
  • Page 154: Asr 5000 Installation Guide

    If all of the above suggestions have been verified, then it is likely that the PFU is not functional. Please contact your service representative. ASR 5000 Installation Guide...
  • Page 155: Checking The Leds On The Smc(S)

    Checking the LEDs on the SMC(s) Checking the LEDs on the SMC(s) Each SMC is equipped with the following LEDs as shown in the following figure: • Run/Fail • Active • Standby • Status • Service • Busy ASR 5000 Installation Guide...
  • Page 156: Smc Run/Fail Led States

    The SMC's Run/Fail LED indicates the overall status of the card. This LED is illuminated steady green for normal operation. If the LED is not green, use the troubleshooting information in the table to diagnose the problem. ASR 5000 Installation Guide...
  • Page 157: Smc Active Led States

    Card is active None needed for the SMC in slot 8. If green for the SMC in slot 9, verify that the SMC in slot 8 is installed properly according to the instructions in this document. ASR 5000 Installation Guide...
  • Page 158: Smc Standby Led States

    POST test results are positive. If it is off, refer to Run/Fail LED States, on page 140 for troubleshooting information. Card in Active Mode Check the state of the Active LED. If it is green, the card is in active mode. ASR 5000 Installation Guide...
  • Page 159: Smc Status Led States

    PFU outage etc.) None Card is not receiving No maintenance needed. power SMC Busy LED States The Busy LEDs on the SMCs indicate that there is activity on one of their memory devices: • CompactFlash module ASR 5000 Installation Guide...
  • Page 160: Checking The Leds On Packet Processing Cards

    No maintenance needed. not in use. Checking the LEDs on Packet Processing Cards Each packet processing card is equipped with status LEDs as shown in the following figure: • Run/Fail • Active • Standby • Status • Service ASR 5000 Installation Guide...
  • Page 161: Psca, Psc2, Psc3 And Ppc Run/Fail Led States

    The packet processing card's Run/Fail LED indicates the overall status of the card. This LED is illuminated steady green during normal operation. If the LED is not green, use the troubleshooting information in the table to diagnose the problem. ASR 5000 Installation Guide...
  • Page 162: Psca, Psc2, Psc3 And Ppc Active Led States

    Table 57: Packet Processing Card Active LED States Color Description Troubleshooting Green Card is active The first time power is applied to the system, all of the packet processing cards should be booted into the standby mode. Therefore, this LED should be off. ASR 5000 Installation Guide...
  • Page 163: Psca, Psc2, Psc3 And Ppc Card Standby Led States

    PSCA, PSC2, PSC3 and PPC Run/Fail LED States, on page 145 for troubleshooting information. Card is in Active Mode Check the state of the Active LED. If it is green, the card is in active mode. ASR 5000 Installation Guide...
  • Page 164: Checking The Leds On The Spio(S)

    The SPIO's Run/ Fail LED indicates the overall status of the card. This LED is illuminated steady green for normal operation. If the LED is not green, use the troubleshooting information in the table to diagnose the problem. ASR 5000 Installation Guide...
  • Page 165: Spio Active Led States

    Color Description Troubleshooting Green Card is active None needed for SPIO in slot 24. If green for SPIO in slot 25, verify that SPIO in slot 24 is installed according to the instructions in this document. ASR 5000 Installation Guide...
  • Page 166: Spio Standby Led States

    During system startup, some Link and/or Activity LEDs may momentarily illuminate. This activity is normal and does not indicate any network link or data transfer status. The line card has not yet been initialized and placed into a stable operational state by the system. ASR 5000 Installation Guide...
  • Page 167: Spio Interface Activity Led States

    Checking the LEDs on the Ethernet Line Cards This section describes the LEDs for the following Ethernet cards: • Fast Ethernet 10/100 Line Card (FLC2) • Gigabit Ethernet 1000 (GLC2) • Quad Gigabit Ethernet Line Card (QGLC) ASR 5000 Installation Guide...
  • Page 168: Ethernet Line Card Run/Fail Led States

    Verify that the card is properly installed per the instructions in this document. If all of the above suggestions have been verified, it is possible that the line card is not functional. Please contact your service representative. ASR 5000 Installation Guide...
  • Page 169: Ethernet Line Card Active Led States

    The line card installed in the lower-rear chassis slot behind the packet processing card enters standby mode. If the LED is not green, use the troubleshooting information in the table to diagnose the problem. ASR 5000 Installation Guide...
  • Page 170: Ethernet Line Card Interface Link Led States

    Table 67: Ethernet Line Card Interface Link LED States 10 Color Description Troubleshooting Green Link is up None needed. NOTE: This LED will not indicate the presence of a network link until the interface parameters are set during the software configuration process. ASR 5000 Installation Guide...
  • Page 171: Ethernet Line Card Activity Led States

    None needed if there is no activity on the link. Prior to the link configuration, this is normal operation. Checking the Card-Level LEDs on the Optical (ATM) Line Card Each Optical (ATM) line card (OLC2) is equipped with card-level status LEDs: • Run/Fail • Active • Standby ASR 5000 Installation Guide...
  • Page 172: Optical (Atm) Line Card Run/Fail Led States

    Card powered with Errors were detected during the POSTs. It is likely that the errors error(s) detected were logged to the system's command line interface during the boot process. Refer to the System Administration Guide for troubleshooting information. ASR 5000 Installation Guide...
  • Page 173: Optical Atm Line Card Active Led States

    For example, if this LED is green for a line card in slot 33, verify that the line card in slot 17 is installed properly. ASR 5000 Installation Guide...
  • Page 174: Standby Led States

    Check the state of the Active LED. If it is green, the card is in standby mode. Refer to the System Administration Guide for information configuring the card to serve as a redundant component. ASR 5000 Installation Guide...
  • Page 175: Checking The Alarm And Link Leds On The Optical (Atm/Pos Oc-3) Line Card

    Off when there is no alarm for this port. Yellow Alarm Yellow (ON) Illuminates when the port is receiving a signal indicating a problem at the remote end, for example, RDI. Off when there is no alarm for this port. ASR 5000 Installation Guide...
  • Page 176: Card-Level Leds On The Channelized (Stm-1/Oc-3) Line Card

    • Run/Fail • Active • Standby The location of these LEDs is displayed in the figure below. The various states are described in the following three tables. Figure 57: Card-Level Status LEDs for the Channelized Line Card ASR 5000 Installation Guide...
  • Page 177: Channelized Line Card Run/Fail Led States

    The line card installed in the lower-rear chassis slot behind the packet processing card enters standby mode. If the LED is not green, use the troubleshooting information in the table to diagnose the problem. ASR 5000 Installation Guide...
  • Page 178: Channelized Line Card Standby Led States

    None needed for line cards installed in slots 33 through 39 and mode 42 through 48 after configuration. If green for line cards installed in slots 17 through 23 and 26 through 32, refer to the System Administration Guide for troubleshooting information. ASR 5000 Installation Guide...
  • Page 179: Checking The Alarm And Link Leds On The Channelized Line Card 2

    Each CLC2 provides alarm and link LEDs that indicate the status of each port. These LEDs are located at the bottom of the front panel, as illustrated in the figure below. Figure 58: Alarm/Link LEDs for the Channelized Line Card ASR 5000 Installation Guide...
  • Page 180: Checking The Leds On The Rcc(S)

    Off indicates that there is no SFP module plugged into the port. Checking the LEDs on the RCC(s) Each RCC is equipped with status LEDs shown in the following figure: • Run/Fail • Active • Standby ASR 5000 Installation Guide...
  • Page 181: Rcc Run/Fail Led States

    Card powered with no None needed. errors detected Card powered with Errors were detected during the POSTs. It is likely that the errors error(s) detected were logged to the system's command line interface during the boot process. ASR 5000 Installation Guide...
  • Page 182: Rcc Active Led States

    POST test results are positive. If it is off, refer to Standby Mode Run/Fail LED States, on page 165 for troubleshooting information. Check the state of the Standby LED. If it is green, the card is in standby mode. This is the normal operating mode. ASR 5000 Installation Guide...
  • Page 183: Rcc Standby Led States

    Completing Initial System Configuration After power is applied to the chassis and the ASR 5000 has successfully booted, the command line interface (CLI) appears on a terminal connected to the Console port of the SPIO.
  • Page 184: Asr 5000 Installation Guide

    Applying Power and Verifying the Installation Completing Initial System Configuration • Configuring SNMP support and trap generation The Getting Started, Configuring System Settings and Configuring Management Settings chapters of the System Administration Guide provide detailed procedures for completing the above tasks. ASR 5000 Installation Guide...
  • Page 185: System Monitoring

    All of the commands listed below can be run from the Exec mode prompt of the Command Line Interface Important (CLI). Daily - Standard Health Check The standard health check is divided into independent procedures: • Hardware Status • Physical Layer Status • System Status and Performance ASR 5000 Installation Guide...
  • Page 186: Asr 5000 Installation Guide

    System Status and Performance Check a summary of CPU state and load, memory and CPU show cpu table usage. Check NPU utilization within the chassis. show npu table Check availability of resources for sessions. show resources utilization table ASR 5000 Installation Guide...
  • Page 187: Periodic Status Checks

    If enabled, view statistics associated with Inter-Chassis Session show srp info Recovery (ICSR). show srp monitor all show srp checkpoint statistics Periodic Status Checks Depending upon system usage and performance, you may want to perform these tasks more frequently than recommended. ASR 5000 Installation Guide...
  • Page 188: Asr 5000 Installation Guide

    Field Programmable Gate Array (FPGAs). You should replace the particulate air filter installed directly above the lower fan tray in the chassis. Refer to the Replacing the Chassis Air Filter section of this guide for detailed instructions. ASR 5000 Installation Guide...
  • Page 189: Counters And Bulkstats

    See Configuring Bulk Statistics section in the System Administration Guide for more information. Summary of Maintenance Tasks This section contains a quick reference for when to perform various maintenance operations on the ASR 5000 chassis. These operations include, but are not limited to: •...
  • Page 190: Daily

    • If the boot system priority is approaching a low value, reset it to a higher priority. • When you finish troubleshooting with runtime logging, remove the logging commands from the config. • Maintain your SNMP trap server. • Maintain your syslog server. ASR 5000 Installation Guide...
  • Page 191: Adding Application And Line Cards To An Existing Installation

    This chapter includes the following sections: • Chassis Slot Numbering and Assignments, page 176 • Adding Application Cards, page 177 • Adding Half-Height Line Cards, page 179 • Adding a 10 Gigabit Ethernet Line Card, page 181 ASR 5000 Installation Guide...
  • Page 192: Chassis Slot Numbering And Assignments

    When referring to installed XGLCs, use the upper slot number only. Slot numbering for other installed half-height cards is maintained: 17 to 32 and 33 to 48, regardless of the number of installed XGLCs ASR 5000 Installation Guide...
  • Page 193: Adding Application Cards

    You can add single packet processing cards to a production system. However, you must reboot the system Important to ensure optimal operation and capacity. For this reason Cisco Systems suggests that you perform the installation during a maintenance window when a reboot will have minimal impact.
  • Page 194: Asr 5000 Installation Guide

    Slide the interlock switch on the front panel of the application card upward to lock the ejector tab in place. The flange on the left-side of the interlock switch prevents movement of the ejector tab when raised completely. You must slide the interlock switch upward before securing the card's top screw to the mounting Important rail. ASR 5000 Installation Guide...
  • Page 195: Chapter

    Step 5 Hold the card by its ejector levers and align the card with the upper and lower card guides of the chassis slot. Gently slide it into the slot until the levers touch the chassis frame. ASR 5000 Installation Guide...
  • Page 196: Asr 5000 Installation Guide

    Use a Phillips #2 screwdriver to tighten the screws at the top and bottom of the line card's front panel to secure the card to the chassis. Step 9 Repeat step 1 through step 7 for every other line card that to be installed. Step 10 Install blanking panels over any unused chassis slots. ASR 5000 Installation Guide...
  • Page 197: Chapter

    Adding a 10 Gigabit Ethernet Line Card The 10 Gigabit Ethernet Line Card (XGLC) is a full-height line card that occupies two half-height slots in the rear of the ASR 5000 chassis. It accepts a single Small Form-factor Pluggable+ (SFP+) transceiver module for network connectivity.
  • Page 198: Preparing A Full-Height Line Card Slot

    The procedure for modifying two half-height card slots to accept the full-height XGLC is described in the Preparing A Full-Height Card Slot appendix. Complete the procedures described in that appendix before attempting to install the XGLC in the ASR 5000 chassis. Installing the XGLC...
  • Page 199: Asr 5000 Installation Guide

    Slide the interlock switch on the front panel of the line card upward to lock the ejector tab in place. The flange on the left-side of the interlock switch prevents movement of the ejector tab when raised completely. Important You must slide the interlock switch upward before securing the card's top screw to the mounting rail. ASR 5000 Installation Guide...
  • Page 200: Chapter

    Use a Phillips #2 screwdriver to tighten the screws at the top and bottom of the front panel to secure the card to the chassis. Step 7 Repeat step 1 through step 10 for every other line card that to be installed. Step 8 Proceed to the appropriate chapter for information on connecting data cables to the line cards. ASR 5000 Installation Guide...
  • Page 201: Chapter

    Removing and Installing SMC PC Cards The ASR 5000 supports the use of PC Cards, also known as PCMCIA cards. These cards store software images, configuration files, and other data. Each SMC incorporates a single PCMCIA slot on its front panel.
  • Page 202: Installing Pc Cards

    The face/top of the PC Card, typically where the manufacturer's brand name information is located on the label, should be facing to the right side of the card. Step 5 Align the PC Card slot cover over the open slot. ASR 5000 Installation Guide...
  • Page 203: Removing Pc Cards

    Failure to do so could result in damage to sensitive electronic components and potentially void your warranty. Step 1 Identify the slot from which the PC Card will be removed. Step 2 Use a Phillips #1 screwdriver to remove the two screws securing the PC Card slot cover. ASR 5000 Installation Guide...
  • Page 204: Asr 5000 Installation Guide

    Eject the PC Card from the slot. a) Press and release the PC Card ejector button once to release and fully extend it. b) Firmly press the PC Card ejector button a second time to eject the card. ASR 5000 Installation Guide...
  • Page 205: Asr 5000 Installation Guide

    Align the PC Card slot cover over the open slot. Step 7 Use the two screws that you removed in step 2 of this procedure and a Phillips #1 screwdriver to fasten the PC Card slot cover. ASR 5000 Installation Guide...
  • Page 206: Asr 5000 Installation Guide

    Removing and Installing SMC PC Cards Removing PC Cards ASR 5000 Installation Guide...
  • Page 207: Replacing The Chassis Air Filter

    This condition causes the dual-speed fans to run at high speed. A clogged and dirty air filter hinders air flow through the chassis resulting in higher operating temperatures. To monitor chassis temperature and fan speed, issue the following CLI command in the Exec mode: show fans ASR 5000 Installation Guide...
  • Page 208: Removing The Air Filter

    This notification is only generated if the card has previously generated a starCardTempOverheat notification. Removing the Air Filter Follow the instructions below to remove the air filter. Step 1 Access the chassis' lower fan tray assembly. ASR 5000 Installation Guide...
  • Page 209: Asr 5000 Installation Guide

    Use a Phillips #1 screwdriver to remove the fan tray cover. Loosen the four screws that secure it in place and pull it away from the chassis. Step 2 Raise the plastic tab above the face of the fan tray assembly and gently pull it toward you until the air filter is free from the fan tray assembly. ASR 5000 Installation Guide...
  • Page 210: Installing The Air Filter

    Step 2 Slide the air filter into the lower fan tray assembly along the guides located on the lower fan tray until the front of the air filter is flush with the front of the assembly. ASR 5000 Installation Guide...
  • Page 211: Asr 5000 Installation Guide

    The fan tray cover is keyed and can only be installed in one Important direction. Step 6 Replace the plastic bezel over the fan tray bay. a) Align the bezel over the bezel mounts that protrude from the fan tray bay cover. b) Snap the bezel in place. ASR 5000 Installation Guide...
  • Page 212: Asr 5000 Installation Guide

    Replacing the Chassis Air Filter Installing the Air Filter ASR 5000 Installation Guide...
  • Page 213: Replacing A Power Filter Unit

    C H A P T E R Replacing a Power Filter Unit Up to two -48 VDC Power Filter Unit (PFU) assemblies can be installed in the ASR 5000 chassis. Two PFUs provide load-balancing and redundancy. The PFUs are located in the lower-rear of the chassis.
  • Page 214: Removing The Failed Pfu

    Remove the cable from the -VDC terminals as described below. The -VDC terminals are the two terminals located at the bottom of the PFU. a) Use a 9/16-inch nut driver or socket wrench to remove the nuts and washers that secure the cable to the PFU. ASR 5000 Installation Guide...
  • Page 215: Asr 5000 Installation Guide

    Use a Phillips #2 screwdriver to loosen the four screws that secure the PFU to the chassis. Step 7 Grasp the handle on the PFU and gently pull it toward you. The PFU should easily slide out of the chassis. ASR 5000 Installation Guide...
  • Page 216: Installing The Replacement Pfu

    Flip the circuit breaker actuator on the replacement PFU to the OFF position. If the circuit breaker on your PFU is equipped with a locking clip, lock the circuit breaker in place. Move the breaker's locking clip to the right until the clip's inside tang is recessed in the breaker's actuator opening. ASR 5000 Installation Guide...
  • Page 217: Asr 5000 Installation Guide

    To avoid electric shock, ensure that the power source is off before attaching power cables to the PFU(s) installed in the chassis. Spannungsversorgung abschalten vor Anschluss der Kabel an die Netzteile, um einen elektrischen Schlag zu vermeiden. ASR 5000 Installation Guide...
  • Page 218: Asr 5000 Installation Guide

    To avoid the risk of fire, take proper precautions to ensure that the power feed and return lugs are not touching. Um einen Kurzschluss zu vermeiden, duerfen sich die beiden Stromkabel nicht beruehren. Step 9 Reinstall the plastic terminal cover. ASR 5000 Installation Guide...
  • Page 219: What To Do With The Failed Pfu

    What to do with the Failed PFU If the failed PFU is still under warranty, return it to the vendor for repair. If the failed PFU is out of warranty, contact Cisco to determine if it can be sent in for repair at an additional cost.
  • Page 220: Asr 5000 Installation Guide

    Replacing a Power Filter Unit What to do with the Failed PFU ASR 5000 Installation Guide...
  • Page 221: Replacing Upper Or Lower Fan Tray

    Determining Whether a Fan Tray Needs Replacing The system has several ways to indicate a fan tray failure. The first indicator is that the Status LED on the System Resource Card (SRC) turns red to indicate the failure of a chassis component. ASR 5000 Installation Guide...
  • Page 222: Using The Cli

    20: An error has occurred on the redundant fan controller bus for the fan tray. 40: An inter-bus communication error was experienced between the primary and redundant fan controllers on the fan tray. 80: The fan tray is not present. ASR 5000 Installation Guide...
  • Page 223: Removing An Upper Fan Tray

    1 Pull the fan tray towards you until the fan tray extends out of the chassis approximately two inches (5 cm). 2 Wait 30 seconds to allow fans to stop spinning. 3 Fully remove fan tray. ASR 5000 Installation Guide...
  • Page 224: Installing An Upper Fan Tray

    Use a Phillips #1 screwdriver to tighten the four screws on the face plate to secure the fan. Step 4 Replace the plastic bezel by aligning it over the bezel mounts that protrude from the fan tray and snapping the bezel in place. ASR 5000 Installation Guide...
  • Page 225: Removing A Lower Fan Tray Assembly

    Do NOT use an electric or pneumatic torque driver to loosen these screws. Step 3 Pull the fan tray toward you with the handle cut-out on the front of the fan tray assembly. The fan tray assembly should easily slide out of the chassis. ASR 5000 Installation Guide...
  • Page 226: Installing A Lower Fan Tray Assembly

    2 30 Sekunden warten bis die Luefter zum stehen kommen. 3 Schublade erst jetzt komplett herausziehen. Step 4 Proceed to Installing a Lower Fan Tray Assembly, on page 210. Installing a Lower Fan Tray Assembly Follow the instructions below to install a lower fan tray. ASR 5000 Installation Guide...
  • Page 227: Asr 5000 Installation Guide

    Slowly slide the fan tray into the chassis along the guides until it is seated firmly in the chassis and can go no further. Step 3 Verify that the particulate filter is securely in place. Its front should be flush with the front of the fan tray assembly and its tab should be lowered to keep it in place. ASR 5000 Installation Guide...
  • Page 228: What To Do With The Failed Fan Tray

    If the failed fan tray is still under warranty, return it to the vendor for repair. If the failed fan tray is out of warranty, contact Cisco to determine if it can be sent in for repair at an additional cost.
  • Page 229: Replacing Application Cards

    If you see either of these indicators, you can determine the nature of the problem via the CLI or by checking the Simple Network Management Protocol (SNMP) traps. Using the CLI Monitor application cards in the chassis by executing the following CLI commands in Exec mode: show card diag slot_# ASR 5000 Installation Guide...
  • Page 230: Using Snmp Traps

    If a migration is taking place, it is likely that there is a problem with the original packet processing card. ASR 5000 Installation Guide...
  • Page 231: Removing The Application Card

    Use a Phillips #2 screwdriver to loosen the screws at the top and bottom of the failed application card's front panel. Step 2 Slide the interlock switch on the front panel of the application card downward. ASR 5000 Installation Guide...
  • Page 232 Do not leave chassis slots uncovered for extended periods of time. This reduces airflow through the chassis Caution and could cause it to overheat. Make sure a card or a blanking panel is installed in every chassis slot at all times. Step 5 Proceed to Installing the Application Card, on page 217. ASR 5000 Installation Guide...
  • Page 233: Installing The Application Card

    Take extra caution when installing packet processing cards. These cards contain heat sinks that could become loose or damaged if they come into contact with an adjacent card while the packet processing card is being inserted in the chassis slot. ASR 5000 Installation Guide...
  • Page 234 Slide the interlock switch on the front panel of the application card upward to lock the ejector tab in place. The flange on the left-side of the interlock switch prevents movement of the ejector tab when raised completely. You must slide the interlock switch upward before securing the card's top screw to the mounting Important rail. ASR 5000 Installation Guide...
  • Page 235: Replacing The Cf Memory Card On Smcs

    SMC. This ensures that the proper software image, configuration files, and license keys are loaded as the system boots. To reduce the risk of damage, handle the CompactFlash memory card only when necessary as part of the Caution maintenance process. ASR 5000 Installation Guide...
  • Page 236: Replacing The Compactflash On An Smc

    On the failed SMC, remove the card retainer clip that secures the CompactFlash module in the socket by pulling the ends of the card retainer clips out and away from the socket. Step 2 Gently pull the module out of the socket. ASR 5000 Installation Guide...
  • Page 237: What To Do With The Failed Application Card

    Installing the Application Card, on page 217 for instructions on installing the replacement SMC. What to do with the Failed Application Card If the failed application card is still under warranty, return it to the vendor for repair. ASR 5000 Installation Guide...
  • Page 238 Replacing Application Cards What to do with the Failed Application Card If the failed application card is out of warranty, contact Cisco to determine if it can be sent in for repair at an additional cost. Disposal of this product should be performed in accordance with all national laws and regulations.
  • Page 239: Replacing Line Cards

    If you see either of these indicators, use the CLI or check the Simple Network Management Protocol (SNMP) traps to determine the nature of the problem. Using the CLI Enter the following CLI commands in Exec mode to monitor line cards: show card diag slot_# ASR 5000 Installation Guide...
  • Page 240: Using Snmp Traps

    A card has failed to start up properly. The card is not operational. starCardFailed The card has failed and is no longer operational. starCardSWFailed An unrecoverable software error has occurred on the card. starCardRCCFailed The RCC has failed. ASR 5000 Installation Guide...
  • Page 241: Removing The Line Card

    Step 4 Pull the ejector levers outward, firmly and straight, until the card is unseated from the chassis. Step 5 Holding the card by its ejector levers, gently slide the card out of the chassis. ASR 5000 Installation Guide...
  • Page 242: Installing The Line Card

    Step 2 Hold the card by its ejector levers and align it with the upper and lower card guides of the chassis slot. Gently slide the card into the slot until the levers touch the chassis frame. ASR 5000 Installation Guide...
  • Page 243 Refer to the destination label on each cable and re-attach the cables to the line card. Refer to the following table to locate the chapter of this guide that provides information and instructions on cabling the line card. ASR 5000 Installation Guide...
  • Page 244: What To Do With The Failed Line Card

    If the failed line card is still under warranty, return it to the vendor for repair. If the failed line card is out of warranty, contact Cisco to determine if you can send it in for repair at an additional cost.
  • Page 245: Technical Specifications

    Interface Specifications, page 234 Physical Dimensions The ASR 5000 can be mounted in any standard (EIA-310-D, IEC 60297) 19-inch (482.6 mm) equipment cabinet or telecommunications rack. The table below lists the dimensions for the chassis and each component that can be placed within the chassis.
  • Page 246: Weights

    8.25 in. (20.96 cm) 5.12 in. (13.00 cm) (PFU) Weights The following table identifies the maximum weights for fully-loaded systems—cards installed in all slots and all other components installed. Table 86: ASR 5000 Component Weights Component Weight Chassis 65 lbs. (29.48 kg) Empty As Shipped (empty chassis with PFUs, fan trays, bezels and blanking 160 lbs.
  • Page 247: Power Specifications

    Line Card (rear-installed) Maximum SPIO: 15W Power Load FLC2: 13.5W GLC2: 10.5W QGLC: 15W XGLC: 25W OLC2:23W CLC2: 23W RCC: 20W Application Card (front-installed) SMC: 130W Maximum Power Load PSC2: 325W PSC3: 330W Power Feed PFU: 160A @ -48VDC ASR 5000 Installation Guide...
  • Page 248: Estimating Power Requirements

    You can mount a maximum of three ASR 5000 chassis in a 2- or 4-post equipment rack or telco cabinet, provided that all system cooling and ventilation requirements are met. Three stacked chassis will occupy a minimum of 42 RUs.
  • Page 249 Rack mounting requires the use of industry-standard (EIA-310-D, IEC 60297) equipment racks and cabinets, as well as supplier-recommended fasteners. The following figure depicts how three chassis can be mounted in a 42 RU equipment rack. Figure 63: Three ASR 5000 Chassis in a 42 RU Rack ASR 5000 Installation Guide...
  • Page 250: Interface Specifications

    CLC2 Channelized (STM-1/OC-3) Single-mode Fiber, LC duplex — SM IR-1 Channelized Multi-mode Fiber, LC duplex (STM-1/OC-3)Multi-Mode Notes 1 An RJ-45 Ethernet interface may have more than one pin-out configuration, depending on the type of cable used. ASR 5000 Installation Guide...
  • Page 251: Spio Card Interfaces

    Console Cable Specifications SPIO cards are shipped with a console cable assembly that includes a 7-foot (2 meter) serial cable with RJ-45 connectors on each end, and an RJ-45-to-DB-9 adapter. Use the RJ-45-to-DB-9 adapter to connect the console ASR 5000 Installation Guide...
  • Page 252 To construct a RJ-45 to DB-25 cable for modem connectivity, refer to the table that follows. Table 91: RJ-45 to DB-25 Cable Signal Description Signal Type RJ-45 Pin DB-25 Pin Signal Clear to Send (CTS) Input Data set Ready (DSR) Input Receive Data (RX) Input Signal Ground (SGND) SGND ASR 5000 Installation Guide...
  • Page 253: Fiber Sfp Interface

    Table 93: SPIO RJ-45 Ethernet Interface Pinouts 10Base-T 10Mbps Cat3 100Base-Tx 100Mbps Cat5 1000Base-Tx 1Gbps Cat5+ BI DA+ BI DA- BI DB+ Not used Not used BI DC+ Not used Not used BI DC- BI DB- ASR 5000 Installation Guide...
  • Page 254: Central Office Alarm Interface

    This "Y" cable has two Molex connectors on one end that are keyed to fit into the CO Alarm interfaces in one direction only. Each connector mates with one of the side-by-side SPIO cards. On the opposite end is a 9-pin terminal block that you can mount to the telco cabinet or equipment rack frame. ASR 5000 Installation Guide...
  • Page 255 Minor Alarm - Normally closed Yellow Minor Alarm - Common Green Minor Alarm - Normally open Blue Critical Alarm - Normally closed Violet Critical Alarm - Common Gray Critical Alarm - Normally open Not wired Not equipped Not applicable ASR 5000 Installation Guide...
  • Page 256: Electrical Characteristics

    LEDs are wired to indicate an alarm condition. Figure 66: CO Alarm Interface Schematic With all relays de-energized (normally closed), the green LED is illuminated. If an alarm relay is energized, the NO (normally open) contact closes and the red LED is illuminated. ASR 5000 Installation Guide...
  • Page 257: Bits Timing Interface

    Each of the eight RJ-45 interfaces available on the FLC2 supports auto-sensing 10Base-Tx or 100Base-Tx Ethernet interfaces. 10/100 Mbps RJ-45 Interface The RJ-45 interfaces on the Fast Ethernet line card support the following cable types and transfer rates. ASR 5000 Installation Guide...
  • Page 258: Gigabit Ethernet Card (Glc2/Qglc) Sfp Interfaces

    Min RX: -20 (typical) / -17 (max.) dBm (sensitivity average power) 1000Base-LX Interface The 1000Base-LX fiber SFP interface on the Ethernet 1000 LX line card has one pair of host connectors. The QGLC has four pairs. ASR 5000 Installation Guide...
  • Page 259: Base-T

    BI DB+ BI DC+ BI DC- BI DB- BI DD+ BI DD- RX = Receive Data TX = Transmit Data BI = BI directional data DA, DB, DC, DD = Data Pair A, B, C, and D ASR 5000 Installation Guide...
  • Page 260: Gigabit Ethernet Line Card (Xglc) Sfp

    -12.6 (max.) dBm (sensitivity average power) Fiber ATM/POS OC-3 (OLC2) Multi-Mode Interface Fiber ATM/POS OC-3 SM IR-1 Interface The fiber-optic SFP interface on OLC2 Optical ATM Line Cards with the SM IR-1 interface has one pair of host connectors. ASR 5000 Installation Guide...
  • Page 261: Channelized Line Cards

    SFP transceivers. Table 104: Single-Mode Fiber Transmit and Receive Levels Signal Level Max TX: -8 dBm Min TX: -15 dBm Max RX: -8 dBm (saturation average power) Min RX: -28 (max.) dBm (sensitivity average power) ASR 5000 Installation Guide...
  • Page 262: Channelized Line Cards (Clc2) With Multi-Mode Interface

    SFP transceivers. Table 105: Multi-Mode Fiber Transmit and Receive Levels 0 Signal Level Max TX: -14 dBm Min TX: -19 dBm Max RX: -12 dBm (saturation average power) Min RX: -30 (max.) dBm (sensitivity average power) ASR 5000 Installation Guide...
  • Page 263: Chapter

    Electromagnetic Compatibility (EMC) Compliance , page 249 Federal Communications Commission Warning The ASR 5000 complies with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules and Regulations. Operation is subject to the following two conditions: •...
  • Page 264: Ics Notice

    The lasers in this equipment are Class 1 devices. Class 1 laser devices are not considered to be hazardous. Safety Certifications The ASR 5000 complies with all safety certifications listed below. • UL60950 - Standard for Safety for Information Technology Equipment, 3rd Edition •...
  • Page 265: Acoustic Noise

    Japan VCCI-A The ASR 5000 has been registered for compliance with the Voluntary Council for Control of Interference, VCCI. Korean EMC Class A device (Broadcasting Communication Device for Office Use): This device obtained EMC registration for office use (Class A), and may be used in places other than home.
  • Page 266 Safety, Electrical and EMC Certifications Korean EMC ASR 5000 Installation Guide...
  • Page 267: Environmental Specifications

    Supported Environmental Standards, page 252 • Chassis Air Flow, page 252 Operating and Storage Parameters Use the following information to plan your network installation for the ASR 5000 platform. Table 106: Temperature, Humidity and Altitude Recommendations Temperature Operating 0 degrees C to +55 degrees C...
  • Page 268: Supported Environmental Standards

    • ESTI 300 019 - Environmental conditions and environmental tests for telecommunications equipment Chassis Air Flow Airflow within the ASR 5000 is designed per Telcordia recommendations to ensure the proper vertical convection cooling of the system. As shown in the figure below, the lower fan tray pulls ambient air into the chassis from the front and side intake vents located at the bottom of the chassis.
  • Page 269 When planning chassis installation, ensure that equipment rack or cabinet hardware does not hinder air Caution flow at any of the intake or exhaust vents. Additionally, ensure that the rack/cabinet hardware, as well as the ambient environment, allow the system to function within the operating limits specified in this chapter. ASR 5000 Installation Guide...
  • Page 270 Environmental Specifications Chassis Air Flow ASR 5000 Installation Guide...
  • Page 271: Hardware Product Support Matrix

    A P P E N D I X Hardware Product Support Matrix This appendix identifies the embedded services supported by the various types of ASR 5000 packet processing cards and line cards. It includes the following sections: • Packet Processing Cards, page 255 •...
  • Page 272 ◦ SGSN = Serving GPRS Support Node Table 107: Packet Processing Card – Product Support Matrix Embedded Service PSCA PSC2 PSC3 CDMA PDSN/HA HSGW Not Qualified PMIPv6 Not Qualified Femtocell CDMA Not Qualified Not Qualified UMTS Not Qualified ASR 5000 Installation Guide...
  • Page 273: Line Cards

    • CLC2 = Channelized Line Card (Frame Relay over SDH/SONET. STM-1, OC-3) • OLC2 = Optical Line Card (ATM over SDH/SONET signaling, IPoA [PVC}) Table 108: Line Card – Product Support Matrix Embedded Service SPIO FLC2 GLC2 QGLC XGLC CLC2 OLC2 CDMA PDSN/HA ASR 5000 Installation Guide...
  • Page 274 Embedded Service SPIO FLC2 GLC2 QGLC XGLC CLC2 OLC2 HSGW PMIPv6 Femtocell CDMA UMTS Note 1 Note 1 Security Gateway ePDG PDIF TTG/PDG Other GGSN IMS-MMD IPCF IPSG SGSN Note 1. Home NodeB Gateway (HNB-GW) applications. ASR 5000 Installation Guide...
  • Page 275: Preparing A Full-Height Line Card Slot

    Remove the Half-Height Card Guide, page 260 Introduction The ASR 5000 chassis ships with all rear line card slots configured for half-height line cards. If you are installing a full-height line card, such as the XGLC, you must prepare a full-height slot to receive it.
  • Page 276: Remove Blanking Panels

    Install a card or a blanking panel s in every chassis slot. Remove the Half-Height Card Guide You must next remove the half-height card guide separating the exposed upper and lower chassis slots. Figure 70: Half-height Card Guide ASR 5000 Installation Guide...
  • Page 277 Remove the two gasket strips to allow access to the screws beneath. Save the gasket strips. Step 2 Using a Phillips #1 screwdriver, loosen the two screws that secure the half-height card guide ejector rail/cap. Save the screws for later use. Step 3 Remove the half-height card guide ejector rail/cap. ASR 5000 Installation Guide...
  • Page 278 Preparing a Full-Height Line Card Slot Remove the Half-Height Card Guide Step 4 Use the screwdriver provided with the full-height line card to loosen the screw that secures the half-height card guide to the chassis mid-plane. ASR 5000 Installation Guide...
  • Page 279 Remove the Half-Height Card Guide Step 5 Gently pull the half-height card guide out of the chassis. You may need to slightly angle the guide when you slide it out of the chassis to unlatch Important ASR 5000 Installation Guide...
  • Page 280 Preparing a Full-Height Line Card Slot Remove the Half-Height Card Guide ASR 5000 Installation Guide...
  • Page 281: Rma Shipping Procedures

    The following general guidelines apply when packaging components: • It is best to use the original Cisco box and packaging in which your equipment was sent and received. You can use a shipping carton saved when the system and its components were installed. You can also use the packaging for a replacement component to repackage the original component.
  • Page 282: Re-Packaging Your Rma

    If using the original Cisco box and packaging, properly place the item within the packaging material. If using a non-Cisco shipping carton and packing material, be sure the item is properly surrounded with bubble wrap or packaging foam to ensure restriction in movement during transport.
  • Page 283: Cisco Return Locations

    Cisco Return Locations Cisco Return Locations For a list of authorized Cisco return centers, go to the Authorized Return Locations link on www.cisco.com. Packaging ASR 5000 Cards This section provides detailed instructions for packaging ASR 5000 cards using Cisco shipping cartons.
  • Page 284 Application Cards Step 2 If packing an SMC, a foam block must be removed from the bottom foam near the connector cut outs. Step 3 Place the card in the carton as shown in the photos. ASR 5000 Installation Guide...
  • Page 285: Line Cards (Except Xglc)

    • ASR5K-08100E-K9 – Fast Ethernet Line Card 2 (FLC2) • ASR5K-4OC3C-MM-K9 – Optical Line Card 2 (OLC2) [MM SFP] • ASR5K-4OC3C-SM-K9 – Optical Line Card 2 (OLC2) [SM SFP] • ASR5K-041GE-SX-K9 – 4-Port Ethernet 1000 Line Card (QGLC) [SX MM SFP] ASR 5000 Installation Guide...
  • Page 286: Packaging A Half-Height Line Card

    Packaging a Half-height Line Card The packaging sequence is as follows: Step 1 Place the card inside the ESD bag; fold over and seal the bag with an ESD Label or tape as shown in the photos. ASR 5000 Installation Guide...
  • Page 287 Step 2 Place the card within the bottom piece of foam as shown in the photos. If packing an RCC or SPIO, a foam block must be removed from the bottom foam near the connector cut outs. ASR 5000 Installation Guide...
  • Page 288 Step 5 Close the carton and seal it with packaging tape. See Sealing the Shipment for additional information. Step 6 Place the shipping label on the outside of the carton. See Labeling the Shipment for additional information. ASR 5000 Installation Guide...
  • Page 289: Gigabit Ethernet Card (Xgl)

    The XGLC shipping carton includes a bottom foam piece and two top foam pieces. Insert the XGLC in the bottom foam piece and place the two top pieces in the slots at either ends of the card as shown in the photos: ASR 5000 Installation Guide...
  • Page 290 Step 3 Close the carton and seal it with packaging tape. See Sealing the Shipment for additional information. Step 4 Place the shipping label on the outside of the carton. See Labeling the Shipment for additional information. ASR 5000 Installation Guide...
  • Page 291: Spare Component Recommendations

    This appendix provides a recommended quantity of spare components to be stocked as part of a sparing program for the ASR 5000. This information should only be used as a guideline for designing a sparing program that meets your company's design, deployment, and availability goals.
  • Page 292: Spare Component Recommendations

    This appendix provides a recommended quantity of spare components to be stocked as part of a sparing program for the ASR 5000. This information should only be used as a guideline for designing a sparing program that meets your company's design, deployment, and availability goals.
  • Page 293 Spare Component Recommendations Spare Component Recommendations Component Name Minimum number of spares For every "n" number of deployed components Lower Fan Tray Unit Particulate Air Filter ASR 5000 Installation Guide...
  • Page 294 Spare Component Recommendations Spare Component Recommendations ASR 5000 Installation Guide...

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