Cisco Systems ASR9001s, 9001S manual Site Wiring Guidelines, Chassis Air Flow Guidelines

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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.

Strong EMI, especially when caused by lightning or radio transmitters. EMI can destroy the signal drivers and receivers in the router, and can even create an electrical hazard by conducting power surges through lines and into equipment.

Note To predict and remedy strong EMI, you may need to consult with radio frequency interference (RFI) experts.

Site wiring is unlikely to emit radio interference if you use twisted-pair cable with good distribution of grounding conductors. Use a high-quality twisted-pair cable with one ground conductor for each data signal, when applicable.

Give special consideration to the effect of lightning strikes in your vicinity, especially if the wiring exceeds recommended distances, or if it passes between buildings. The electromagnetic pulse (EMP) caused by lightning or other high-energy phenomena can easily induce enough energy into unshielded conductors, and destroy electronic devices. If you have experienced EMP problems in the past, you may want to consult experts in electrical surge suppression and shielding.

Most data centers cannot resolve infrequent, but potentially catastrophic, problems without pulse meters and other special equipment. In addition, these problems can take a great deal of time to identify and resolve. We recommend that you take the necessary precautions to avoid these problems by providing a properly grounded and shielded environment, with special attention to issues of electrical surge suppression.

Chassis Air Flow Guidelines

Cool air is circulated through the Cisco ASR 9001 Router by one fan tray located along the right side of the router (see Figure 1-5).

The fan tray maintains acceptable operating temperatures for the internal components by drawing in cool air through the vents, and circulating the air through the chassis. Each power supply is also equipped with fans that draw cool air into the front of the power supply and force warm air out of the air exhaust.

Note See the “Rack-Mounting and Air Flow Clearance Guidelines” section on page 1-8section for details on air flow clearance requirements for installation in an enclosed 4-post rack.

Cisco ASR 9001 and Cisco ASR 9001-S Routers Hardware Installation Guide

 

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Contents Text Part Number OL-26701-02 Americas HeadquartersPage Cisco ASR 9001 Router Cable Management Status LEDs Site Log B-1 Audience Changes to This DocumentPurpose Revision Date Change SummaryDocument Conventions Document OrganizationObtaining Documentation and Submitting a Service Request OL-26701-02 Preparing for Installation General Safety Guidelines Safety GuidelinesEnergy Hazard Compliance and Safety InformationLaser Safety Lifting Guidelines Preventing Electrostatic Discharge DamageSite Requirement Guidelines Site Layout and Equipment DimensionsRear of chassis Chassis Air Flow Guidelines Site Wiring GuidelinesAir exhaust Room air Rack-Mounting and Air Flow Clearance GuidelinesEquipment Rack Types Telco 2-Post RackEnclosed Rack with Perforated Sides Open 4-Post RackAir Flow Guidelines for Enclosed Rack Installation Power Connection Guidelines Temperature and Humidity GuidelinesAC Power Cord Illustrations AC Powered RoutersAC Power Cord CAB-AC 12 AC Power Cord CAB-ACI 15 AC Power Cord CAB-ACU 18 AC Power Cord CAB-9K10A-EU DC Powered Router20 DC Power Cable Terminal Block 331933 Nebs Supplemental Unit Bonding and Grounding Guidelines 23 Cisco ASR 9001 Router Front Panel Ports Cisco ASR 9001 Router Port Connection GuidelinesDescription Port NameMLT3 SMBConsole Port and Auxiliary Port Connection Guidelines Console Port SignalsSignal Input/Output Description Management LAN Ports Connection Guidelines Auxiliary Port Signals10Base-T, 100Base-TX Signal 1000Base-T Signal Management LAN RJ-45 Cabling Management LAN Port LED IndicatorsSync Ports Connection Guidelines Sync Port LED IndicatorsRP External USB Port Pin SignalOL-26701-02 Installation Overview Pre-Installation Considerations and RequirementsRequired Tools and Equipment Unpacking the Cisco ASR 9001 RouterPositioning the Router Rack-Mounting the Router Chassis Verifying Rack DimensionsInstalling the Chassis in a 2-Post Rack Page Correct Lifting Positions Supplemental Bonding and Grounding Connections Installing the Chassis in a 4-post RackNebs Bonding and Grounding for the Cisco ASR 9001 Router Fixed 4x10-Gigabit Ethernet Ports Installing Modules and Cables in the ChassisPort Gigabit Ethernet Modular Port Adapter Modular Port AdaptersStatus Port 10 Gigabit Ethernet Modular Port AdapterLED Label Color State Meaning 4-Port 10 Gigabit Ethernet Modular Port Adapter 2-Port 10 Gigabit Ethernet Modular Port Adapter Installing and Removing Modular Port AdaptersOnline Insertion and Removal Handling Modular Port Adapters MPAsGE MPA Modular Port Adapter MPA Installation and RemovalChecking the Installation Optical Device Installation and RemovalCleaning Optical Devices Verifying the InstallationPage Command Type of Information Provided Using the ping Command to Verify Network ConnectivityInstalling and Removing XFP Modules Installing and Removing SFP ModulesCable Management Tray Installing a Cable Management TrayCable Management Removing a Cable-Management Tray Cable-Management Tray Installation and RemovalCable Management Bracket Installing a Cable Management BracketRemoving a Cable-Management Bracket Cable-Management Bracket Installation and Removal10 RP Console and Auxiliary Port Connections Connecting Route Processor CablesConnecting to the RP Ethernet Management Ports Connecting to the RP Console PortConnecting to the RP Auxiliary Port Connecting Power to an AC-Powered Router Connecting Power to the RouterProceed to the Powering on the Router section on Negative to negative Connecting Power to a DC-Powered Router12 Typical Power Connections for a Single DC Power Module Powering on the RouterOL-26701-02 Troubleshooting Using a Subsystem Approach Troubleshooting OverviewNormal Router Startup Sequence Identifying Startup IssuesTroubleshooting the AC-Input Power Subsystem Troubleshooting the Power SubsystemLED Power Module Status IndicatorsTroubleshooting a DC Power Module Troubleshooting the DC-Input Power SubsystemObtaining Temperature and Environmental Information Additional Power Subsystem Troubleshooting InformationHardware and Software Identification Hardware IDTroubleshooting the Installation 8VLGTNG Troubleshooting the Power Distribution SystemRoute Processor Overview Troubleshooting the Route Processor SubsystemColor Description RP Front Panel IndicatorsIndicator Label Auxiliary and Console Ports Ethernet Ports and Status LEDsMonitoring Critical, Major, and Minor Alarm Status Troubleshooting the Line CardInitial Boot Process Status LEDsConfiguration Parameters Configuring and Troubleshooting Line Card InterfacesParameter Configuration File Entry Default Value MTULine Card Interface Address Using Configuration CommandsBasic Line Card Configuration Verifying the Transceiver Modules PID XFP-10G-MM-SR Show logging Show diag slot Show context location slot Advanced Line Card TroubleshootingFan Tray Operation Troubleshooting the Cooling SubsystemPower Module Fans Isolating Cooling Subsystem Problems Over-temperature ConditionsOL-26701-02 Field Replaceable Units Prerequisites and PreparationRemoving and Replacing the Fan Tray Powering Off the RouterRemoving and Replacing AC or DC Power System Components Removing an AC or DC Power Module Power Module Replacement GuidelinesRemoving and Replacing an AC or DC Power Module Removing a Chassis from the Equipment Rack Installing an AC or DC Power ModulePacking a Chassis for Shipment Installing a Replacement Chassis in the Equipment RackTechnical Specifications Description Value Table A-3 Cisco ASR 9001 AC Electrical Specifications Parameter Value Minimum Maximum Range NominalRange Minimum Nominal Maximum Part Number Description Typical MaximumPart Number Description Wavelength Fiber Type Distance ITU Grid Part Number Description WavelengthColor Identifier Part Number Description Wavelength ITU Grid XFP-10GLR-OC192SR Fiber Type DistanceXFP-10GZR-OC192LR XFP-10G-MM-SRDWDM-XFP-C OL-26701-02 Site Log Appendix B Site Log Numerics IN-2 EMI See EMILED Dwdm CwdmACT LinkIN-5 NebsIN-6 IN-7 IN-8
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