Cisco ASR 9001 and Cisco ASR 9001-S Routers Hardware Installation Guide May 2013 Americas Headquarters Cisco Systems, Inc. 170 West Tasman Drive San Jose, CA 95134-1706 USA http://www.cisco.
THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO CHANGE WITHOUT NOTICE. ALL STATEMENTS, INFORMATION, AND RECOMMENDATIONS IN THIS MANUAL ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED. USERS MUST TAKE FULL RESPONSIBILITY FOR THEIR APPLICATION OF ANY PRODUCTS.
CONTENTS Preface CHAPTER 1 vii Preparing for Installation 1-1 Cisco ASR 9001 Router 1 Cisco ASR 9001-S Router 1 Safety Guidelines 1-2 General Safety Guidelines 1-2 Compliance and Safety Information 1-3 Laser Safety 1-3 Energy Hazard 1-3 Preventing Electrostatic Discharge Damage Lifting Guidelines 1-4 1-4 Site Requirement Guidelines 1-5 Site Layout and Equipment Dimensions 1-5 Site Wiring Guidelines 1-7 Chassis Air Flow Guidelines 1-7 Rack-Mounting and Air Flow Clearance Guidelines 1-8 Telco 2-Post R
Contents SYNC Port LED Indicators RP External USB Port 1-27 CHAPTER 2 1-26 Unpacking and Installing the Chassis 2-1 Pre-Installation Considerations and Requirements Installation Overview 2-1 Required Tools and Equipment 2-2 Unpacking the Cisco ASR 9001 Router Positioning the Router 2-3 2-2 Rack-Mounting the Router Chassis 2-4 Verifying Rack Dimensions 2-4 Installing the Chassis in a 2-Post Rack Installing the Chassis in a 4-post Rack 2-4 2-7 Supplemental Bonding and Grounding Connections CHAPT
Contents Cable Management Bracket 3-14 Installing a Cable Management Bracket 3-14 Removing a Cable-Management Bracket 3-15 Connecting Route Processor Cables 3-16 Connecting to the RP Console Port 3-17 Connecting to the RP Auxiliary Port 3-17 Connecting to the RP Ethernet Management Ports 3-17 Connecting Power to the Router 3-18 Connecting Power to an AC-Powered Router 3-18 Connecting Power to a DC-Powered Router 3-20 Powering on the Router CHAPTER 4 3-21 Troubleshooting the Installation 4-1 Trouble
Contents Verifying the Transceiver Modules 4-15 Advanced Line Card Troubleshooting 4-17 Troubleshooting the Cooling Subsystem 4-18 Fan Tray Operation 4-18 Power Module Fans 4-18 Over-temperature Conditions 4-19 Isolating Cooling Subsystem Problems 4-19 CHAPTER Replacing Cisco ASR 9001 Router Components 5 5-1 Prerequisites and Preparation 5-1 Field Replaceable Units 5-1 Online Insertion and Removal 5-2 Powering Off the Router 5-2 Removing and Replacing the Fan Tray 5-2 Removing and Replacing AC or DC
Preface This Cisco ASR 9001 and Cisco ASR 9001-S Routers Hardware Installation Guide preface contains these sections: • Changes to This Document, page vii • Audience, page vii • Purpose, page vii • Document Organization, page viii • Document Conventions, page viii • Obtaining Documentation and Submitting a Service Request, page ix Changes to This Document Table 1 lists the technical changes made to this document since it was first developed.
Preface Document Organization This installation guide is organized into these chapters and appendixes: • Chapter 1, “Preparing for Installation,” describes safety considerations, required tools and equipment, an overview of the installation, and procedures to perform before installation. • Chapter 2, “Unpacking and Installing the Chassis,” provides instructions for installing the chassis into a rack.
Preface Timesaver Warning Means the described action saves time. You can save time by performing the action described in the paragraph. This warning symbol means danger. You are in a situation that could cause bodily injury. Before you work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with standard practices for preventing accidents.
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CH A P T E R 1 Preparing for Installation Cisco ASR 9001 Router The Cisco ASR 9001 Router is a compact high-capacity provider edge (PE) router that delivers 120 Gbps of non-blocking, full-duplex fabric capacity in a two-rack-unit (2RU) form factor. Similar to other routers in the Cisco ASR 9000 Series, running Cisco IOS XR software images, the Cisco ASR 9001 Router delivers the features and services found on the ASR 9000 Series platforms, allowing customers to standardize on the same Cisco IOS XR image.
Chapter 1 Preparing for Installation Safety Guidelines Front Panel of the Cisco ASR 9001-S Router 360032 Figure 1-2 In order to achieve the full bandwidth of 120 Gbps and to enable the disabled ports, a Cisco license can be obtained. Once the license is obtained and installed, the Cisco ASR 9001-S Router must be reloaded to bring up the full 120 Gbps capacity.
Chapter 1 Preparing for Installation Safety Guidelines • Always disconnect the power source and unplug all power cables before lifting, moving, or working on the router. • Keep the work area clear and dust free during and after installation. • Keep tools and router components away from walkways and equipment rack aisles. • Do not wear loose clothing, jewelry (including rings and chains), or other items that could get caught in the router. • Fasten your tie or scarf and sleeves.
Chapter 1 Preparing for Installation Safety Guidelines Preventing Electrostatic Discharge Damage Many router components can be damaged by static electricity. Not exercising the proper electrostatic discharge (ESD) precautions can result in intermittent or complete component failures. To minimize the potential for ESD damage, always use an ESD-preventive antistatic wrist strap (or ankle strap) and ensure that it makes good skin contact.
Chapter 1 Preparing for Installation Site Requirement Guidelines Warning • Do not lift equipment alone; have another person help you to lift the equipment. • Ensure that your footing is solid; balance the weight of the object between your feet. • Lift the equipment slowly; never move suddenly or twist your body as you lift. • Keep your back straight and lift with your legs, not your back.
Chapter 1 Preparing for Installation Site Requirement Guidelines – Frame is bolted to the floor and is secured to the building structure using either wall brackets or overhead brackets. • When mounting the router in a telco-style rack or 4-post rack, be sure to use all the screws provided to secure the chassis to the rack posts. • Install the cable-management brackets included with the router to keep cables organized.
Chapter 1 Preparing for Installation Site Requirement Guidelines Site Wiring Guidelines When planning the location of the router, consider distance limitations for signaling, electromagnetic interference (EMI), and connector compatibility. If the wiring is run for any significant distance in an electromagnetic field, interference can occur between the field and the signals on the wires. Poor wiring can cause: • Radio interference emanating from the wires.
Chapter 1 Preparing for Installation Site Requirement Guidelines Figure 1-5 Air Flow Path through the Cisco ASR 9001 Router Air exhaust 331882 Room air When selecting a site to install the router, observe these guidelines: • Dust free area—Site should be as dust free as possible. Dusty environments can clog the power supply intake vents, reducing the cooling air flow through the router. Clogged filters and vents can cause an over-temperature condition in the router.
Chapter 1 Preparing for Installation Site Requirement Guidelines Equipment Rack Types 243453 Figure 1-6 a a Telco-style rack b b Free-standing, 4-post open rack with two mounting posts in the front, two mounting posts in the back or along each side c c Free-standing enclosed rack with perforated sides and two mounting posts in the front Telco 2-Post Rack Item a in Figure 1-6 shows a telco-style rack.
Chapter 1 Preparing for Installation Site Requirement Guidelines Cisco ASR 9001 Router Mounted in a 2-Post Rack 331928 Figure 1-7 Open 4-Post Rack Item b in Figure 1-6 shows a free-standing, 4-post open rack with two mounting posts in the front and two mounting posts in the back or along the side. The mounting posts in this type of rack are often adjustable so that you can position the rack-mounted unit within the depth of the rack rather than flush-mount it with the front of the rack.
Chapter 1 Preparing for Installation Site Requirement Guidelines Caution Do not install the Cisco ASR 9001 Router in any type of fully-enclosed rack that does not have the required perforated sides or doors; the router requires an unobstructed flow of cooling air to maintain acceptable operating temperatures for its internal components.
Chapter 1 Preparing for Installation Site Requirement Guidelines Figure 1-8 ASR 9001 Clearance Requirements for an Enclosed 4-Post Rack Installation Rear of chassis 6 Inches 152.0 mm 6 Inches 152.0 mm Front of chassis 331929 3.25 Inches 82.55 mm Temperature and Humidity Guidelines The operating and nonoperating environmental site requirements are listed in Table A-2.
Chapter 1 Preparing for Installation Site Requirement Guidelines Caution Each Cisco ASR 9001 Router is powered by only one type of input: AC or DC. A hybrid (AC+DC) power configuration is not supported. Caution Proper grounding is necessary to avoid damage from lightning and power surges. See the “NEBS Supplemental Unit Bonding and Grounding Guidelines” section on page 1-20 for grounding requirements.
Chapter 1 Preparing for Installation Site Requirement Guidelines AC Power Cord CAB-AC Plug: EL701B Cordset rating: 15 A, 250 V Length: 8 ft 2 in. (2.5 m) Connector: IEC 60320 C13 332012 Figure 1-9 Figure 1-10 AC Power Cord CAB-L620P-C13-JPN Cordset rating: 15 A, 250 V Length: 8 ft 2 in. (2.5 m) Plug: NEMA L6-20P 332009 Connector: WS 002 Figure 1-11 AC Power Cord CAB-ACA Cordset rating: 10 A, 250 V Length: 8 ft 2 in. (2.
Chapter 1 Preparing for Installation Site Requirement Guidelines Figure 1-12 AC Power Cord CAB-ACI Cordset rating: 10 A, 250 V Length: 8 ft 2 in. (2.5 m) Plug: CEI 23-16 332008 Connector: IEC 60320 C13 Figure 1-13 AC Power Cord CAB-ACR Cordset rating: 10 A/250 V Length: 8 ft 2 in. (2.5 m) Connector: IEC 60320 C13 285303 Plug: EL 219 (IRAM 2073) Figure 1-14 AC Power Cord CAB-ACS Plug: NEMA L6-20P Cordset rating: 10 A, 250 V Length: 8 ft 2 in. (2.
Chapter 1 Preparing for Installation Site Requirement Guidelines Figure 1-15 AC Power Cord CAB-ACU Cordset rating: 13 A, 250 V Length: 8 ft 2 in. (2.5 m) Plug: BSI 1363 285301 Connector: IEC 60320 C13 Figure 1-16 AC Power Cord CAB-ACC Cordset rating: 10 A, 250 V Length: 8 ft 2 in. (2.5 m) Plug: NEMA L6-20P 332010 Connector: WS 002 Figure 1-17 AC Power Cord CAB-ACSA Cordset rating: 10 A, 250 V Length: 8 ft 2 in. (2.
Chapter 1 Preparing for Installation Site Requirement Guidelines Figure 1-18 AC Power Cord CAB-9K10A-EU Cordset rating: 10A, 250 V Length: 8 ft 2 in. (2.5 m) Plug: M2511 332625 Connector: WS 002 Figure 1-19 AC Power Cord SFS-250V-10A-IS Cordset rating: 10 A, 250V Length: 8 ft 2 in. (2.5 m) Connector: WS 002 332624 Plug: EL 212 (SI-32) DC Powered Router Connections to DC power modules are rated at 20 A maximum.
Chapter 1 Preparing for Installation Site Requirement Guidelines Figure 1-20 shows the type of terminal block required for DC-input cable connections. DC Power Cable Terminal Block 331934 Figure 1-20 Figure 1-21 shows DC power source cable connections for single DC power module. Warning To avoid shock hazard, be sure to apply shrink wrap tubing around the wire entry area of the terminal block. Warning Hazardous voltage or energy may be present on power terminals.
Chapter 1 Preparing for Installation Site Requirement Guidelines DC Power Source Cabling Scheme for a Single DC Power Module 331933 Figure 1-21 The color coding of the source DC power cable leads depends on the color coding of the site DC power source.
Chapter 1 Preparing for Installation Site Requirement Guidelines NEBS Supplemental Unit Bonding and Grounding Guidelines Although the router chassis requires a safety earth ground connection as part of the power cabling to power modules, you must permanently connect the central office ground system or interior equipment grounding system to the supplemental bonding and grounding connection on the side of the router chassis to meet network equipment building system (NEBS) requirements as well as safety com
Chapter 1 Preparing for Installation Cisco ASR 9001 Router Port Connection Guidelines • Note One grounding wire. Although we recommend at least six AWG multistrand copper wire, the wire diameter and length depend on your router location and site environment. These parts are not available from Cisco, but they are available from external commercial vendors.
Chapter 1 Preparing for Installation Cisco ASR 9001 Router Port Connection Guidelines Table 1-2 Cisco ASR 9001 Router Front Panel Ports Description Port Name Connector Type Description TOD Port RJ45 Time of Day Input/Output Port along with 1PPS Signal. Signal type is RS422. Service LAN Port (IEEE 1588) RJ45 A 10/100Mbps Ethernet Port for IEEE1588 Grand Master Connection through CAT5 cable. Signal type is MLT3. 10MHz Connector SMB 10MHz Input for GPS Synchronization.
Chapter 1 Preparing for Installation Cisco ASR 9001 Router Port Connection Guidelines Table 1-2 Cisco ASR 9001 Router Front Panel Ports Description Port Name Connector Type Description CLUSTER Ports (0/1) SFP For Cascading two Cisco ASR 9001 Router systems. The pinout and signal level is as per the SFP standard. This supports copper/optical SFP modules. Fixed SFP+ Ports (0/1/2/3) SFP+ Fixed ports include 4X10G SFP+ ports and supports 20X1G, 4X10G and 2X10G ports through Ethernet Plugs.
Chapter 1 Preparing for Installation Cisco ASR 9001 Router Port Connection Guidelines Auxiliary Port Signals The RP Auxiliary (AUX) port is a RJ-45 interface for connecting a modem or other data communication equipment (DCE) device (such as another router) to the RP. The AUX port supports hardware flow control and modem control. Table 1-4 lists the signals used on the Auxiliary port.
Chapter 1 Preparing for Installation Cisco ASR 9001 Router Port Connection Guidelines Table 1-5 RP Management LAN Port Signals (continued) MGT LAN Port Pin 10Base-T, 100Base-TX Signal 1000Base-T Signal 4 — BI_DC+ 5 — BI_DC– 6 Receive– BI_DB– 7 — BI_DD+ 8 — BI_DD– Management LAN Port LED Indicators The Management LAN connectors have integral LED indicators (see Figure 1-24). When lit, these LEDs indicate: • Green (LINK)—Connection is alive. • Amber (ACT)—Connection is active.
Chapter 1 Preparing for Installation Cisco ASR 9001 Router Port Connection Guidelines Straight-Through Cable Pinout to a Hub, Repeater or Switch MDI wiring MDI-X wiring 1 TxD+ 1 RxD+ 2 TxD– 2 RxD– 3 RxD+ 3 TxD+ 6 RxD– 6 TxD– H11007 Figure 1-25 When connecting to a router, use the crossover cable pinout shown in Figure 1-26.
Chapter 1 Preparing for Installation Cisco ASR 9001 Router Port Connection Guidelines • in J.211 mode: – Green — DTI is operating in normal mode. – Amber — DTI is operating in fast mode. Figure 1-27 SYNC Port Connector 332428 12345678 Table 1-6 Pin BITS/J.211 Connector Pinout Signal Note 1 DTI_P/BITS_RX_P Bi-direction for DTI, T1/E1/64K Input 2 DTI_P/BITS_RX_N Bi-direction for DTI, T1/E1/64K Input 3 — — 4 BITS_TX_P* T1/E1/6.321M Output 5 BITS_TX_N* T1/E1/6.
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CH A P T E R 2 Unpacking and Installing the Chassis This chapter contains the procedures for installing the router in a rack.
Chapter 2 Unpacking and Installing the Chassis Unpacking the Cisco ASR 9001 Router Required Tools and Equipment Before you begin the rack-mount installation, you must read and understand the information in the “Rack-Mounting and Air Flow Clearance Guidelines” section on page 1-8 and have these tools and equipment: • ESD-preventive wrist strap • Number 1 and number 2 Phillips screwdrivers • 1/4-inch (6.35-mm) and 3/16-inch (4.
Chapter 2 Unpacking and Installing the Chassis Unpacking the Cisco ASR 9001 Router Figure 2-1 Unpacking the Cisco ASR 9001 Router from the Shipping Container 2 3 4 5 5 6 332150 1 1 Cardboard packaging container 4 Bag containing router 2 Accessory box 5 Cardboard caps 3 Foam packaging material- top caps 6 Foam packaging material - bottom cap Positioning the Router Use a safety hand truck to move the router to the location where it is being installed in a rack.
Chapter 2 Unpacking and Installing the Chassis Rack-Mounting the Router Chassis Rack-Mounting the Router Chassis The router chassis is installed in a front-mounted position, as shown in Figure 1-7 for the Cisco ASR 9001 Router chassis. In a front-mounted position, the chassis rack-mounting flanges are secured directly to the rack posts. The PID of the rack mounting kit for Cisco ASR 9001 Router and Cisco ASR 9001-S Router is ASR-9001-2P-KIT=.
Chapter 2 Unpacking and Installing the Chassis Rack-Mounting the Router Chassis This section describes how to install the chassis in a 2-post telco-style rack. Figure 2-3 shows the orientation of the Cisco ASR 9001 Router chassis to the rack posts and components used in the installation.
Chapter 2 Unpacking and Installing the Chassis Rack-Mounting the Router Chassis Use this procedure to install the chassis in the equipment rack: Step 1 With two people’s aid, lift the chassis into the rack holding top and bottom of the chassis (see Figure 2-4). Correct Lifting Positions 332152 Figure 2-4 Caution Do not grasp air inlet or exhaust when lifting the router chassis. Step 2 Position the chassis until the rack-mounting flanges are flush against the mounting rails on the rack.
Chapter 2 Unpacking and Installing the Chassis Supplemental Bonding and Grounding Connections Installing the Chassis in a 4-post Rack To mount the Cisco ASR 9001 Router chassis in a 4-post open rack, two side brackets must be attached to the chassis and the rear posts (see Figure 2-5).
Chapter 2 Unpacking and Installing the Chassis Supplemental Bonding and Grounding Connections Use this procedure to attach a grounding cable lug to the router: Step 1 Insert the grounding screws through the locking washers, and into the threaded grounding receptacle on the Cisco ASR 9001 Router chassis as shown in Figure 2-6. Step 2 Tighten the grounding screws securely to the receptacles.
CH A P T E R 3 Installing Modules and Cables in the Chassis This chapter contains the procedures for installing cards and modules into the chassis, after it has been installed in a rack. It also describes how to connect cables to the ports and RP.
Chapter 3 Installing Modules and Cables in the Chassis Modular Port Adapters .
Chapter 3 Installing Modules and Cables in the Chassis Modular Port Adapters 20-Port Gigabit Ethernet Modular Port Adapter 330784 Figure 3-2 Table 3-1 describes the 20-Port Gigabit Ethernet modular port adapter LEDs. Table 3-1 20-Port Gigabit Ethernet Modular Port Adapter LEDs LED Label Color State Meaning A/L Off Off Port is not enabled. Green On Port is enabled and the link is up. The MPA A/L LED will blink green when there is traffic activity.
Chapter 3 Installing Modules and Cables in the Chassis Modular Port Adapters Figure 3-3 A9 4-Port 10 Gigabit Ethernet Modular Port Adapter K- MP A- 4X 10 GE 330784 0 1 2 STATUS 3 GE 10 4X PA - -M A9 K Table 3-2 describes the 4-Port 10 Gigabit Ethernet modular port adapter LEDs. Table 3-2 4-Port 10 Gigabit Ethernet Modular Port Adapter LEDs LED Label Color State Meaning A/L Off Off Port is not enabled. Green On Port is enabled and the link is up.
Chapter 3 Installing Modules and Cables in the Chassis Installing and Removing Modular Port Adapters Figure 3-4 A9 2-Port 10 Gigabit Ethernet Modular Port Adapter K- MP A- 2X 10 330784 GE STATUS 0 GE 10 2X PA - -M A9 K Table 3-2 describes the 2-Port 10 Gigabit Ethernet modular port adapter LEDs. Table 3-3 2-Port 10 Gigabit Ethernet Modular Port Adapter LEDs LED Label Color State Meaning A/L Off Off Port is not enabled. Green On Port is enabled and the link is up.
Chapter 3 Installing Modules and Cables in the Chassis Installing and Removing Modular Port Adapters • Checking the Installation, page 3-8 Handling Modular Port Adapters (MPAs) Each modular port adapter (MPA) circuit board is mounted on a metal carrier, and is sensitive to electrostatic discharge (ESD) damage.
Chapter 3 Installing Modules and Cables in the Chassis Installing and Removing Modular Port Adapters • 3. Execute the do show plat command to verify that the MPA to be removed is in the disabled state. 4. Physically remove the MPA to be replaced. 5. Physically insert the replacement MPA 6. Return the MPA to the up state with the no hw-module subslot 0/0/1 shutdown command. Hard OIR Hard OIR is the physical online insertion and removal of Modular port adapters (MPAs) without software commands.
Chapter 3 Installing Modules and Cables in the Chassis Installing and Removing Modular Port Adapters Note Step 3 The modular port adapter (MPA) will slide easily into the slot if it is properly aligned on the tracks. If the modular port adapter (MPA) does not slide easily, do NOT force it. Remove the modular port adapter (MPA) and reposition it, paying close attention to engaging it on the tracks.
Chapter 3 Installing Modules and Cables in the Chassis Installing and Removing Modular Port Adapters When the system has reinitialized all interfaces, the modular port adapter (MPA) STATUS LEDs should be on (green). The port LEDs (C/A and A/L) may be on (green), depending on your connections and configuration.
Chapter 3 Installing Modules and Cables in the Chassis Installing and Removing Modular Port Adapters Step 5 Use the show version command to obtain software version information for the installed modular line cards (MLCs) as well as interfaces available. Using show Commands to Display Modular Port Adapter (MPA) Information Table 3-4 describes the show commands you can use to display modular port adapter (MPA) information.
Chapter 3 Installing Modules and Cables in the Chassis Installing and Removing SFP Modules The ping command sends an echo request out to a remote device at an IP address that you specify. After sending a series of signals, the command waits a specified time for the remote device to echo the signals. Each returned signal is displayed as an exclamation point (!) on the console terminal; each signal that is not returned before the specified timeout is displayed as a period (.).
Chapter 3 Installing Modules and Cables in the Chassis Cable Management Cable Management Cisco ASR 9001 Router includes a cable-management system that organizes the interface cables entering and exiting the router, keeping them out of the way, and free of sharp bends. Caution Excessive bending of interface cables can damage the cables.
Chapter 3 Installing Modules and Cables in the Chassis Cable Management Figure 3-7 Cable-Management Tray Installation and Removal 1 332147 1 Cable-Management Tray Step 3 Insert and tighten the captive screw(s) to secure the tray. (see Figure 3-7). Step 4 Connect all the cables to the intended ports and pass them throught the cable management tray in an organized manner.
Chapter 3 Installing Modules and Cables in the Chassis Cable Management Cable Management Bracket The Cisco ASR 9001 Router provides a cable management bracket at the middle of the router chassis. Figure 3-8 shows a typical cable routing for the Cisco ASR 9001 Router. Example Cable Routing through Cisco ASR 9001 Router Cable Management Brackets 332699 Figure 3-8 Note When shipped, the cable-management bracket is not attached to the router chassis.
Chapter 3 Installing Modules and Cables in the Chassis Cable Management Figure 3-9 Cable-Management Bracket Installation and Removal 332146 1 1 Cable-Management Bracket Step 3 Insert and tighten the captive screw(s) to secure the bracket. (see Figure 3-9). Step 4 Connect all the cables to the intended ports and pass them throught the cable management bracket in an organized manner.
Chapter 3 Installing Modules and Cables in the Chassis Connecting Route Processor Cables Connecting Route Processor Cables This section describes how to connect cables to the console, auxiliary, and Ethernet ports on the RP. The console and auxiliary ports are both asynchronous serial ports; any devices connected to these ports must be capable of asynchronous transmission. Most modems are asynchronous devices. Figure 3-10 shows an example of an RP with data terminal and modem connections called out.
Chapter 3 Installing Modules and Cables in the Chassis Connecting Route Processor Cables Connecting to the RP Console Port The system console port on the RP is an RJ-45 receptacle for connecting a data terminal to perform the initial configuration of the router. The console port requires a straight-through RJ-45 cable. See the “Cisco ASR 9001 Router Port Connection Guidelines” section on page 1-21 for additional information about the console port.
Chapter 3 Installing Modules and Cables in the Chassis Connecting Power to the Router Caution Ethernet management ports are primarily used as Telnet ports into the Cisco ASR 9001, and for booting or accessing Cisco software images over a network to which an Ethernet port is directly connected. We strongly caution you to consider the security implications of enabling routing functions on these ports. Note The Ethernet interfaces on the RP are end-station devices only, not repeaters.
Chapter 3 Installing Modules and Cables in the Chassis Connecting Power to the Router Plug the AC power cord into the receptacle at the front of the chassis (see Figure 3-11). Step 5 Close the cable wrap to secure the AC power cord plug to the power module receptacle. Typical AC Power Connections 332894 Figure 3-11 Step 4 Step 6 Plug the other end of the AC power cord into the AC source receptacle. Step 7 Proceed to the “Powering on the Router” section on page 3-21.
Chapter 3 Installing Modules and Cables in the Chassis Connecting Power to the Router Connecting Power to a DC-Powered Router This section contains the procedures to connect the DC source power cables to a DC-powered router. The color coding of source DC power cable leads depends on the color coding of the site DC power source.
Chapter 3 Installing Modules and Cables in the Chassis Powering on the Router Typical Power Connections for a Single DC Power Module 331933 Figure 3-12 Step 4 Proceed to the “Powering on the Router” section on page 3-21. Powering on the Router Use this procedure to turn on power to either an AC-powered or DC-powered router: Step 1 Power on the circuit breaker to your power sources. Step 2 Verify that the Power Input LED on each power module is lit. Step 3 Set the power switch to the ON position.
Chapter 3 Installing Modules and Cables in the Chassis Powering on the Router Cisco ASR 9001 and Cisco ASR 9001-S Routers Hardware Installation Guide 3-22 OL-26701-02
CH A P T E R 4 Troubleshooting the Installation This chapter contains general troubleshooting information to help isolate the cause of any difficulties you might encounter during the installation and initial startup of the system. Although an over-temperature condition is unlikely at initial startup, environmental monitoring functions are included in this chapter because these too monitor internal voltages.
Chapter 4 Troubleshooting the Installation Troubleshooting Overview For troubleshooting purposes in this chapter, the router consists of these subsystems: • Power subsystem—Router chassis is shipped with up to two AC-input or DC-input power supply modules installed in the Cisco ASR 9001 Router chassis. • Chassis backplane power distribution—System transfers +12 VDC power from the power modules to the chassis backplane and distributes it to all the cards through the backplane connectors.
Chapter 4 Troubleshooting the Installation Troubleshooting the Power Subsystem Troubleshooting the Power Subsystem This section contains information to troubleshoot the power subsystems: Note • Troubleshooting the AC-Input Power Subsystem, page 4-3 • Troubleshooting the DC-Input Power Subsystem, page 4-5 • Troubleshooting the Power Distribution System, page 4-8 For the RP card to communicate properly to a power module, input power to at least one of the two power modules should be present.
Chapter 4 Troubleshooting the Installation Troubleshooting the Power Subsystem Power Module Status Indicators 2 1 332384 Figure 4-1 1 OK (Green) Power ON when the power supply is ON and OK LED BLINKING when the input AC power voltage is present OFF when no input voltage is present 2 FAIL (Amber) LED ON when power supply failure occurs (due to over voltage, over current, over temperature, and fan failure) BLINKING when alarm condition or power supply warning events occur, where the power supply conti
Chapter 4 Troubleshooting the Installation Troubleshooting the Power Subsystem • FAIL (amber) LED —Indicates the power supply failure, includes over voltage, over current, over temperature and fan failure conditions. If the FAIL LED is blinking, it indicates alarm condition or power supply warning events, while the power supply continues to operate; this includes high temperature, high power, or slow fan conditions. Make sure that each power cord is connected to a dedicated AC power source.
Chapter 4 Troubleshooting the Installation Troubleshooting the Power Subsystem Additional Power Subsystem Troubleshooting Information This section contains additional troubleshooting information to help you isolate the cause of a power problem. Hardware and Software Identification The power modules have software IDs that differ from the hardware ID labels on the chassis. Table 4-2 is a table for converting power module hardware IDs to software IDs.
Chapter 4 Troubleshooting the Installation Troubleshooting the Power Subsystem 0/RSP0/* host host host host host host host host host host host host host host host host 5.0V VP3P3_CAN 0.75V 3.3V_RSP 2.5V_RSP 1.8V_RSP 1.5V_RSP 1.2V_RSP 1.9V_LDO_RSP 1.2V_TIMEX 1.0V_IMIO_CORE 1.8V_USB 12.0V 7.0V_RSP 3.3V_OCXO_RSP 1.
Chapter 4 Troubleshooting the Installation Troubleshooting the Power Subsystem host host host host host host host host host host host host host host host host host host host 1.8V_ZAR_LDO 3.3V_ZAR_LDO 2.5V_SKT_SKM 1.8V_LGTNG 1.5V_NP4C_1 1.5V_SKT 1.05V_NP4C_CORE 1.0V_SKT 1.0V_SKM 1.0V_LGTNG_CORE 0.9V_TCAM0_CORE 0.9V_TCAM1_CORE 3.3V_CLK_LDO 2.5V_CLK_LDO 1.2V_WL_LDO 1.0V_WL_LDO 1.0V_PEX1 1.0V_PEX2 1.
Chapter 4 Troubleshooting the Installation Troubleshooting the Route Processor Subsystem • If the fan tray is still not operating, there could be a problem with either the fan tray or with the +12 VDC distribution through backplane. • Contact your Cisco representative if replacing the fan tray does not fix the problem. Troubleshooting the Route Processor Subsystem The router processor subsystem consists of the route processor located on the RP card.
Chapter 4 Troubleshooting the Installation Troubleshooting the Route Processor Subsystem RP Front Panel Indicators The RP card has eight discrete LED indicators for display of system information. Table 4-3 lists the display definitions of the eight discrete LEDs on the RP front panel as well as the normal LED states on the power modules (AC or DC) and the fan tray after a successful system startup.
Chapter 4 Troubleshooting the Installation Troubleshooting the Route Processor Subsystem Table 4-3 RP Discrete LED Display Definitions (continued) Indicator (Label) LED Color Description STATUS (Fan tray) Bi-color Amber Fan tray power ON state. Green Fan tray fully functional. Red Fan failure condition. Ethernet Ports and Status LEDs The RP has two 8-pin media-dependent interface (MDI) RJ-45 Management LAN ports for 10 Mbps, 100 Mbps, and 1000Mbps Ethernet connections.
Chapter 4 Troubleshooting the Installation Troubleshooting the Line Card Monitoring Critical, Major, and Minor Alarm Status Alarms warn of: • Overtemperature condition on a component in the card • Fan failure in the fan tray • Overcurrent condition in a power supply • Out-of-tolerance voltage on the card The alarm LEDs are controlled by the CAN microcontoller software, which sets the threshold levels for triggering the different stages of alarms.
Chapter 4 Troubleshooting the Installation Troubleshooting the Line Card Table 4-4 RSP FAIL and LC FAIL LEDs RSP FAIL LED Green Port state is up and a valid physical layer link is established. Blinking Line activity is occurring. The LED blinks green-amber-green. Red Port state is up, but there is a link loss or SFP/XFP failure. Off Port is administratively shut down. LC FAIL LED Green Line card has booted properly, and is ready to pass or is passing traffic.
Chapter 4 Troubleshooting the Installation Troubleshooting the Line Card Line Card Interface Address A Cisco ASR 9001 Router identifies an interface address by its rack number, line card slot number, instance number, and port number, in the format rack/slot/instance/port. The rack parameter is reserved for multirack systems; so, the rack parameter is always 0 (zero) for the Cisco ASR 9001 Router. The line card slot is numbered 0 with three subslots. The subslots on the line card are numbered 0, 1, and 2.
Chapter 4 Troubleshooting the Installation Troubleshooting the Line Card RP/0/RSP0/CPU0:router(config-if)# no shutdown The no shutdown command passes an enable command to the line card. It also causes the line card to configure itself based on the most recent configuration commands received by the line card.
Chapter 4 Troubleshooting the Installation Troubleshooting the Line Card NAME: "module mau 0/0/0/0", DESCR: "XFP" PID: XFP-10G-MM-SR , VID: V02 , SN: ONT1535101F NAME: "module mau 0/0/0/1", DESCR: "XFP" PID: XFP-10G-MM-SR , VID: V01 , SN: ONT15011038 NAME: "module mau 0/0/0/2", DESCR: "XFP" PID: XFP-10G-MM-SR , VID: V02 , SN: ONT1535103K NAME: "module mau 0/0/0/3", DESCR: "XFP" PID: XFP-10G-MM-SR , VID: V01 , SN: ONT150111N5 NAME: "module 0/0/1", DESCR: "ASR 9000 20-port 1GE Modular Port Adapter" PID: A9
Chapter 4 Troubleshooting the Installation Troubleshooting the Line Card PID: SFP-GE-S , VID: V01 , SN: FNS15501AJX NAME: "module mau 0/0/1/17", DESCR: "SFP" PID: SFP-GE-S , VID: V01 , SN: FNS155009TE NAME: "module mau 0/0/1/18", DESCR: "SFP" PID: SFP-GE-S , VID: V01 , SN: FNS155009TR NAME: "module mau 0/0/1/19", DESCR: "SFP" PID: SFP-GE-S , VID: V01 , SN: FNS15501AJQ NAME: "module mau 0/0/2/0", DESCR: "SFP" PID: SFP-10G-SR , VID: V03 , SN: SPC1503050L NAME: "module mau 0/0/2/1", DESCR: "SFP" PID: SFP-1
Chapter 4 Troubleshooting the Installation Troubleshooting the Cooling Subsystem Note It is important to collect the show tech-support command data before doing a reload or power cycle. Failure to do so can cause all information about the problem to be lost. Output from these commands varies slightly depending on which line card you are using, but the basic information is the same.
Chapter 4 Troubleshooting the Installation Troubleshooting the Cooling Subsystem For additional power supply troubleshooting information, see the “Troubleshooting the Power Subsystem” section on page 4-3. Note For the RSP to communicate properly to a power module, input power to at least one of the two power modules should be present.
Chapter 4 Troubleshooting the Installation Troubleshooting the Cooling Subsystem Step 2 Eject and reseat the fan tray making sure the captive screws are securely tightened to a torque of 10 +/–1 in-lb. If the fan tray still does not function, go to Step 3.
CH A P T E R 5 Replacing Cisco ASR 9001 Router Components The router is equipped as ordered and is ready for installation and startup when it is shipped. As network requirements change, you may need to upgrade the system by adding or changing components. This chapter describes how to maintain router components.
Chapter 5 Replacing Cisco ASR 9001 Router Components Removing and Replacing the Fan Tray Online Insertion and Removal The Cisco ASR 9000 Series Router field-replaceable units (FRUs) can be removed and replaced with the power on and the system operating. This facility is known as online insertion and removal (OIR). Unless otherwise noted, the maintenance tasks described in this chapter can be performed while the router remains powered on.
Chapter 5 Replacing Cisco ASR 9001 Router Components Removing and Replacing AC or DC Power System Components Removing or Installing the Fan Tray on the Cisco ASR 9000 Series Router Chassis 332382 Figure 5-1 To install a fan tray into the chassis: Step 1 Lift the fan tray (with two hands) and slide it halfway into the module bay. Step 2 Slowly push the fan tray into the chassis until it mates with the backplane connector at the back of the module bay.
Chapter 5 Replacing Cisco ASR 9001 Router Components Removing and Replacing AC or DC Power System Components Power Module Replacement Guidelines The Cisco ASR 9000 Series Router support online insertion and removal (OIR) for power modules. If you are replacing a redundant power module, you can remove and install the power module while the system remains powered on without causing an electrical hazard or damage to the system.
Chapter 5 Replacing Cisco ASR 9001 Router Components Removing a Chassis from the Equipment Rack Removing or Installing an AC or DC Power Module 332383 Figure 5-2 Installing an AC or DC Power Module To install an AC or DC power module (see Figure 5-2): Step 1 Slide the power module into the bay until it mates with its backplane connector. Step 2 Make sure that keying lever locks with the chassis. Step 3 Verify that the OK (green) power indicator on the front of the power module comes ON.
Chapter 5 Replacing Cisco ASR 9001 Router Components Installing a Replacement Chassis in the Equipment Rack Step 3 Disconnect the power from the power modules on the front of the chassis: Step 4 Disconnect the supplemental bonding and grounding connection from the chassis (see the “Supplemental Bonding and Grounding Connections” section on page 2-7). Step 5 Disconnect RP cables connected to the console port, auxiliary port, or either of the management Ethernet ports.
A P P E N D I X A Technical Specifications This appendix lists certain technical specifications for the Cisco ASR 9001 Router.
Appendix A Technical Specifications Table A-1 lists the physical specifications for the Cisco ASR 9001 Router. Table A-1 Cisco ASR 9001 Router Physical Specifications Description Value Chassis height 3.46 in. (8.79 cm) Chassis width 17.42 in. (44.2 cm) Chassis depth 18.5 in. (47.0 cm) Chassis weight • Chassis only1 24.69 pounds (11.2 kg) • Chassis: fully configured with two MPAs, two power modules, and one fan tray 37.91 pounds (17.2 kg) 1.
Appendix A Technical Specifications Table A-3 lists the AC electrical specifications for the Cisco ASR 9001 Router.
Appendix A Technical Specifications Table A-5 lists the AC input voltage range for the AC-powered Cisco ASR 9001 Router (single phase power source). Table A-5 AC Input Voltage Range Range Minimum Minimum Nominal Nominal Maximum Nominal Maximum Input Voltage 90 VAC 100 VAC 220 VAC 240 VAC 264 VAC 50 Hz 50/60 Hz 60 Hz 63 Hz Line Frequency 47 Hz Table A-6 lists the DC input voltage range for the DC-powered Cisco ASR 9001 Router.
Appendix A Technical Specifications Table A-9 lists the power consumption specifications for a fully configured chassis. Caution Be sure that the chassis configuration complies with the required power budgets. Failure to properly verify the configuration may result in an unpredictable state if one of the power units fails. Contact your local sales representative for assistance.
Appendix A Table A-11 Technical Specifications Supported SFP+ Transceivers (continued) Part Number Description Wavelength Fiber Type Typical Maximum Distance SFP-10G-LR Cisco SFP+ for 10-Gigabit Ethernet Long Reach 1310 nm SMF 6.21 miles (10 km) SFP-10G-SR Cisco SFP+ for 10-Gigabit Ethernet Short Reach 850 nm 62.5 micron (FDDI grade) 82.02 feet (25 m) 62.5 micron (OM1 grade) 65.62 feet (20 m) 50 micron (OM2 grade) 262.47 feet (80 m) 50 micron (OM3 grade) 984.
Appendix A Technical Specifications Table A-13 Supported DWDM SFP Transceivers (continued) Part Number Description Wavelength ITU Grid DWDM-SFP-5092 Cisco 1000BASE-DWDM SFP (100 GHz ITU grid) 1550.92 nm 33 DWDM-SFP-5012 Cisco 1000BASE-DWDM SFP (100 GHz ITU grid) 1550.12 nm 34 DWDM-SFP-4931 Cisco 1000BASE-DWDM SFP (100 GHz ITU grid) 1549.31 nm 35 DWDM-SFP-4851 Cisco 1000BASE-DWDM SFP (100 GHz ITU grid) 1548.51 nm 36 DWDM-SFP-4772 Cisco 1000BASE-DWDM SFP (100 GHz ITU grid) 1547.
Appendix A Technical Specifications Note Version V01 and V02 of the XFP-10GLR-OC192SR 10-Gigabit Ethernet module listed in Table A-14 are not supported. Note Version V01 and V02 of the XFP-10GZR-OC192LR 10-Gigabit Ethernet module listed in Table A-14 is not supported. Table A-14 Supported 10-Gigabit Ethernet XFP Modules Part Number Description Wavelength Fiber Type XFP-10GLR-OC192SR (Version V03, see note) Multirate 10GBASE-LR and OC-192/STM-64 SR-1 XFP 1310 nm SMF Typical Maximum Distance 6.
Appendix A Technical Specifications Table A-15 Supported DWDM XFP Transceivers (continued) Part Number Description Wavelength ITU Grid DWDM-XFP-46.12 Cisco 10GBASE-DWDM XFP (100 GHz ITU grid) 1546.12 nm 39 DWDM-XFP-44.53 Cisco 10GBASE-DWDM XFP (100 GHz ITU grid) 1544.53 nm 41 DWDM-XFP-43.73 Cisco 10GBASE-DWDM XFP (100 GHz ITU grid) 1543.73 nm 42 DWDM-XFP-42.94 Cisco 10GBASE-DWDM XFP (100 GHz ITU grid) 1542.94 nm 43 DWDM-XFP-42.14 Cisco 10GBASE-DWDM XFP (100 GHz ITU grid) 1542.
Appendix A Technical Specifications Cisco ASR 9001 and Cisco ASR 9001-S Routers Hardware Installation Guide A-10 OL-26701-02
A P P E N D I X B Site Log The site log provides a historical record of all operation and maintenance actions performed on the router. Keep your site log at a convenient place near the router where it can be easily accessed. The site log might include these entries: • Installation progress—Make entries in the site log to record installation progress. Note any difficulties and remedies during the installation process.
Appendix B Date Description of Action Performed or Symptoms Observed Site Log Initials Cisco ASR 9001 and Cisco ASR 9001-S Routers Hardware Installation Guide B-2 OL-26701-02
INDEX alphanumeric LED display Numerics startup sequence 10-Gigabit Ethernet XFP modules specifications 4-2 troubleshooting with A-8 altitude specifications 20-Port Gigabit Ethernet Modular Port Adapte 3-2 4-2 A-2 ASR 9010 2-Port 10 Gigabit Ethernet Modular Port Adapter 3-4 AC Electrical Specifications 4-Port 10 Gigabit Ethernet Modular Port Adapter 3-3 bonding and grounding locations chassis dimensions Physical Specifications A-2 See auxiliary port; console port 3-18 current rating
Index attaching removing from a rack auxiliary and console port RSP card bonding and grounding connection installation guide, organization 3-17 RSP card console port maintaining 3-17 RSP card management LAN port avoiding noise interference 3-17 mounting in a rack powering on correct polarity, DC-input power shelf DC-input grounding cable lug management LAN ports 1-19, 3-20 startup sequence configuration cautions configure DC-input power shelf wiring interface 1-19, 3-20 1-1 4-14 4-14
Index power to AC-powered router 3-18 redundancy power to DC-powered router 3-20 removing components RSP card to a hub, repeater, or switch site power to router troubleshooting dust 2-8 connector 1-24 console port console logs A-3 4-5 1-8 DWDM SFP modules A-6 DWDM XFP modules A-8 1-23 4-17 E console port connecting devices to connections 3-17 electrical specifications 1-23, 3-16 description 4-11 illustration 1-21 pinouts 5-3 source DC service requirement 1-25 1-12 suppleme
Index replacing configuring 5-2 troubleshooting warnings interface address 4-19 troubleshooting 5-2 Fixed 4x10-Gigabit Ethernet Line Card flow control FRUs, list 4-13 4-13 interference 3-1 avoiding in network interface cables 4-13 radio frequency 5-1 fully configured 4-14 1-7 invisible laser radiation (warning) 1-4 IOS XR software 1-6 1-3 4-12, 4-14 G L Gigabit Ethernet SFP modules copper laser safety 3-2 CWDM A-5, A-6 DWDM A-6 1-3 LED line card status grounding (caution
Index M P MAC address packing the chassis for shipment 4-13 maintaining routers parameters ?? to 5-6 management LAN ports bandwidth limitations cable connection 4-11 cable connection (caution) description default values 4-13 auxiliary port connector 3-17 console port connector LED indicators 1-24 1-23 auxiliary port 4-11 See auxiliary port 1-25 troubleshooting A-2 port 1-25, 1-26 LEDs (illustration) console port 4-11 maximum transmission unit (MTU) Modular 4-13 pinouts 3-18
Index AC power cord figures installation requirements 1-13 power supply installing the chassis in AC-input verifying dimensions current rating line frequency operation 2-4 See RFI prevention A-3 redundancy A-3 4-18 rated input voltage 2-4 radio frequency interference A-3 input power rating A-3 DC-input AC-input power specifications A-3 DC-input power specifications A-3 removing input current rating input power rating operation redundancy chassis from racks A-3 fan trays A-3 r
Index power-on self-test acoustic noise 4-9 route processor (RP) altitude See RP A-2 A-2 Cisco ASR 9000 Series A-1 DC-input power subsystem humidity S shock compliance information general guidelines A-2 vibration 1-3 switch 1-2 SELV circuit connections A-2 A-2 1-26 sync port 3-16 connection guidelines SELV circuit connections warning syslog 1-21, 3-16 1-26 4-17 1-21 See also safety T serial ports, asynchronous See auxiliary port; console port telco rack SFP modules coppe
Index startup issues DC-input power module 4-2 startup problems subsystem approach syslog DC-input power supply 4-1 W 4-18 troubleshooting commands show context slot show diag slot show logging 4-15 5-2 keeping power turned off 4-17 4-17 router and rack stability SELV circuits 4-17 shock hazard 4-17 show-tech support 1-3 3-18 removing chassis from racks 4-17 show tech ethernet show tech pfi fan trays invisible laser radiation show running config show stacks warnings 4-17 4-17 s