Cisco 7500 Series Installation and Configuration Guide Corporate 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.
C O N T E N T S Preface xi Audience xi Organization xi Related Documentation Conventions xii xiii Safety Warnings xv Warning Definition xv Restricted Area Warning xviii Obtaining Documentation xix Cisco.
Contents Cisco 7513-MX Dual CyBus Backplane Cisco 7513-MX System Specifications 1-22 1-24 Cisco 7576 Overview 1-25 Cisco 7576 Dual CyBus Backplane 1-27 Identifying Cisco 7576 Independent Routers and CyBuses CyBus Slot Number Assignments 1-29 Cisco 7576 System Specifications 1-30 1-29 Route Switch Processor Overview 1-31 RSP-Specific Hardware Features 1-31 RSP2—Cisco 7505 1-31 RSP4/4+—Cisco 7507, Cisco 7513, and Cisco 7576 1-33 RSP8—Cisco 7507-MX and Cisco 7513-MX 1-36 RSP16—Cisco 7507, Cisco 7507-MX, C
Contents Cisco 7505 Power Considerations 2-7 Cisco 7507 and Cisco 7507-MX Power Considerations 2-8 Cisco 7513, Cisco 7513-MX, and Cisco 7576 Power Considerations Plant Wiring Guidelines 2-10 Interference Considerations with Cabling Distance Limitations of Interface Cabling 2-9 2-10 2-11 Site Environment, Chassis Temperature, and Airflow Guidelines 2-12 Cisco 7505 Airflow Considerations 2-13 Cisco 7507 and Cisco 7507-MX Airflow Considerations 2-14 Cisco 7513, Cisco 7513-MX, and Cisco 7576 Airflow Conside
Contents Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 3-19 Cisco 7513, Cisco 7513-MX, and Cisco 7576 Installation Considerations 3-24 Attaching the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Cable-Management Bracket 3-26 Installing Cisco 7513, Cisco 7513-MX, and Cisco 7576 Power Supplies 3-27 Connecting Power to Cisco 7513, Cisco 7513-MX, and Cisco 7576 DC-Input Power Supplies 3-29 Making Cable Connections to the RSP 3-32 Connecting a Console Terminal to the RSP 3-32 Connecting to the Auxiliary
Contents Copying a Bootable Image into a Flash Memory Card 4-27 Copying Bootable Images Between Flash Memory Cards 4-28 Copying Files Between RSP Memory and a Flash Memory Card 4-30 Copying a Configuration File from RSP NVRAM to a Flash Memory Card on the RSP 4-30 Copying a Configuration from RSP DRAM to a Flash Memory Card on the RSP 4-31 Copying a Configuration File from a Flash Memory Card to RSP NVRAM 4-31 Recovering from Locked Blocks in Flash Memory Cards 4-32 If You Need More Configuration Informati
Contents Exchanging the EEPROM Devices 7-7 Installing the Card Cage Assembly 7-9 Removing and Replacing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Blower Module 7-10 Removing and Replacing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Chassis Cover Panels 7-11 Removing and Replacing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Backplane Maintenance Cover 7-13 Removing and Replacing the Chassis Interface in the Cisco 7513, Cisco 7513-MX, and Cisco 7576 7-14 CHAPTER 8 Troubleshooting a Cisco 7500 Seri
Contents Cisco 7507 and Cisco 7507-MX Power Supply LEDs 8-23 Cisco 7513, Cisco 7513-MX, and Cisco 7576 Power Supply LEDs Additional Reference Information for Troubleshooting CHAPTER 9 Replacing DRAM on the Route Switch Processor Upgrading or Replacing DRAM SIMMs on the RSP2 Removing RSP2 SIMMs 9-3 Installing New RSP2 SIMMs 9-4 8-26 9-1 9-1 Upgrading or Replacing DRAM DIMMs on the RSP4 and RSP8 Removing RSP4 and RSP8 DIMMs 9-9 Installing New RSP4 or RSP8 DIMMs 9-10 APPENDIX A Configuration Register
Contents Cisco 7500 Series Installation and Configuration Guide x OL-5008-03 B0
Preface This preface describes the audience, organization, and conventions of this installation and configuration guide, and provides information on how to obtain related documentation. This guide contains specific procedures for the initial hardware installation, and procedures for performing the basic system configuration of your Cisco 7500 series router. The Cisco 7500 series includes six routers: the Cisco 7505, Cisco 7507, Cisco 7507-MX, Cisco 7513, Cisco 7513-MX, and Cisco 7576.
Preface Related Documentation Chapter Title Description Chapter 1 Cisco 7500 Series Product Overview Describes the physical properties of each of the Cisco 7500 series routers. The remaining sections of this chapter describe router components, which are considered to be standard equipment and ship with each router.
Preface Conventions For comprehensive descriptions and examples of software configuration commands and the procedures for implementing them, refer to the related software configuration and reference documentation listed in the “If You Need More Configuration Information” section on page 4-32 and to the Cisco IOS software release note specific to the release of Cisco IOS software you are running on your system.
Preface Conventions Note Means reader take note. Notes contain helpful suggestions or references to material not covered in the publication. Timesavers use the following conventions: Timesaver Means the described action saves time. You can save time by performing the action described in the paragraph. Tips use the following conventions: Tip Means the following are useful tips. Cautions use the following conventions: Caution Means reader be careful.
Preface Safety Warnings Safety Warnings Warning Definition Warning IMPORTANT SAFETY INSTRUCTIONS This warning symbol means danger. You are in a situation that could cause bodily injury. Before you work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with standard practices for preventing accidents. To see translations of the warnings that appear in this publication, refer to the translated safety warnings that accompanied this device.
Preface Safety Warnings Attention IMPORTANTES INFORMATIONS DE SÉCURITÉ Ce symbole d'avertissement indique un danger. Vous vous trouvez dans une situation pouvant causer des blessures ou des dommages corporels. Avant de travailler sur un équipement, soyez conscient des dangers posés par les circuits électriques et familiarisez-vous avec les procédures couramment utilisées pour éviter les accidents.
Preface Safety Warnings Advarsel VIKTIGE SIKKERHETSINSTRUKSJONER Dette varselssymbolet betyr fare. Du befinner deg i en situasjon som kan forårsake personskade. Før du utfører arbeid med utstyret, bør du være oppmerksom på farene som er forbundet med elektriske kretssystemer, og du bør være kjent med vanlig praksis for å unngå ulykker. For å se oversettelser av advarslene i denne publikasjonen, se de oversatte sikkerhetsvarslene som følger med denne enheten.
Preface Safety Warnings Restricted Area Warning Warning This unit is intended for installation in restricted access areas. A restricted access area is where access can only be gained by service through the use of a special tool, lock and key, or other means of security, and is controlled by the authority responsible for the location. Waarschuwing Dit toestel is bedoeld voor installatie op plaatsen met beperkte toegang.
Preface Obtaining Documentation Varoitus Tämä laite on tarkoitettu asennettavaksi paikkaan, johon pääsy on rajoitettua. Paikka, johon pääsy on rajoitettua, tarkoittaa paikkaa, johon vain huoltohenkilöstö pääsee jonkin erikoistyökalun, lukkoon sopivan avaimen tai jonkin muun turvalaitteen avulla ja joka on paikasta vastuussa olevien toimivaltaisten henkilöiden valvoma. Attention Cet appareil est à installer dans des zones d'accès réservé.
Preface Documentation Feedback Cisco.com You can access the most current Cisco documentation at this URL: http://www.cisco.com/univercd/home/home.htm You can access the Cisco website at this URL: http://www.cisco.com You can access international Cisco websites at this URL: http://www.cisco.com/public/countries_languages.shtml Ordering Documentation You can find instructions for ordering documentation at this URL: http://www.cisco.com/univercd/cc/td/doc/es_inpck/pdi.
Preface Obtaining Technical Assistance Cisco Technical Support Website The Cisco Technical Support Website provides online documents and tools for troubleshooting and resolving technical issues with Cisco products and technologies. The website is available 24 hours a day, 365 days a year at this URL: http://www.cisco.com/techsupport Access to all tools on the Cisco Technical Support Website requires a Cisco.com user ID and password.
Preface Obtaining Additional Publications and Information Obtaining Additional Publications and Information Information about Cisco products, technologies, and network solutions is available from various online and printed sources. • Cisco Marketplace provides a variety of Cisco books, reference guides, and logo merchandise. Visit Cisco Marketplace, the company store, at this URL: http://www.cisco.
C H A P T E R 1 Cisco 7500 Series Product Overview The Cisco 7500 series includes the following routers: Cisco 7505, Cisco 7507, Cisco 7507-MX, Cisco 7513, Cisco 7513-MX, and Cisco 7576. The Cisco 7500 series routers support multiprotocol, multimedia routing and bridging with a wide variety of protocols and any combination of ATM, BRI, channel attachment, channelized E1, T1, and T3, Ethernet, Fast Ethernet, FDDI, HSSI, multichannel, PRI, Packet over SONET, synchronous serial, Token Ring, and voice media.
Chapter 1 Cisco 7500 Series Product Overview Terms and Acronyms Terms and Acronyms Following is a list of acronyms, initializations, and terms that identify the Cisco 7500 series system components and features: • AIP—Asynchronous Transfer Mode (ATM) Interface Processor. • Backplane—Single or dual system bus to which Cisco interface processors and system processors attach within a Cisco 7500 series router. • Card cage—Assembly in which the backplane is mounted. • CIP2—Channel Interface Processor.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7505 Overview • RSP4/4+—Specific main system RSP for the Cisco 7507, Cisco 7513, and Cisco 7576. • RSP8—Specific main system RSP for the Cisco 7507-MX and Cisco 7513-MX. • RSP16—Specific main system RSP for the Cisco 7507, Cisco 7507-MX, and Cisco 7513 and Cisco 7513-MX. • SIMM—Single in-line memory module. • Spares—Spare parts that do not require replacement by a Cisco-certified service provider. • SRAM—Static random-access memory.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7505 Overview Figure 1-1 Cisco 7505 (Front View) H2009 Captive fasteners Figure 1-2 shows details of the rear, interface-processor end of the Cisco 7505. CO NS OL E AU X.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7505 Overview Figure 1-3 CyBus Backplane in the Cisco 7505 SLOT 4 SLOT 3 SLOT 2 SLOT 1 H2875 SLOT 0 The backplane slots are keyed so that the processor modules can be installed only in the slots designated for them. Keys on the backplane fit into two key guides on each module.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7507 Overview Table 1-1 Cisco 7505 Specifications (continued) Description Specification DC-input rating –40 VDC minimum in North America (–56 VDC in European Union) –48 VDC nominal in North America (–60 VDC in European Union) –52 VDC maximum in North America (–72 VDC in European Union) 20A maximum at –48 VDC and 16A maximum @ –60 VDC DC-input cable 10 AWG, recommended minimum wire gauge (you provide the wire) DC-input hold-up time 10 ms of outpu
Chapter 1 Cisco 7500 Series Product Overview Cisco 7507 Overview Figure 1-4 Cisco 7507 (Front View) LOWER POWER NORMAL UPPER POWER LOWER POWER NORMAL H3135 UPPER POWER Cisco 7500 Series Installation and Configuration Guide OL-5008-03 B0 1-7
Chapter 1 Cisco 7500 Series Product Overview Cisco 7507 Overview Figure 1-5 shows details on the rear, interface-processor end of the Cisco 7507.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7507 Overview Figure 1-6 Interface processor slots 0 and 1 Dual CyBus Backplane in the Cisco 7507 RSP slots 2 and 3 Interface processor slots 4–6 H3886 SLOT 6 SLOT 5 SLOT 4 SLOT 3 SLOT 2 SLOT 1 SLOT 0 CyBus 0 CyBus 1 An RSP2, RSP4/4+, RSP8, or RSP 16 in either slot 2 or slot 3 controls both CyBus 0 and CyBus 1. The dual CyBus backplane in the Cisco 7507 has an aggregate bandwidth of 2.134 Gbps. The two CyBuses are independent of one another.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7507 Overview Cisco 7507 System Specifications Table 1-2 lists the specifications for the Cisco 7507 system. Table 1-2 Cisco 7507 Specifications Description Specification High-speed backplane Two 1.0677-Gbps CyBuses, 5 interface processor slots, 2 RSP slots Dimensions (H x W x D) 19.25 x 17.5 x 25.1 in. (48.90 x 44.45 x 63.75 cm) Chassis depth including power cord is 28 in. (71.12 cm) Weight Chassis only: 76 lb (34.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7507-MX Overview Cisco 7507-MX Overview The Cisco 7507-MX supports multiprotocol, multimedia routing and bridging with a wide variety of protocols and any combination of available electrical interfaces and media. Network interfaces reside on interface processors that provide a direct connection between the two CyBuses in the Cisco 7507-MX and your external networks.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7507-MX Overview Figure 1-8 shows details on the rear, interface-processor end of the Cisco 7507-MX.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7507-MX Overview Interface processor slots 0 and 1 Interface processor slots 4–6 SLOT 6 SLOT 5 SLOT 4 SLOT 3 Note RSP slots 2 and 3 SLOT 2 SLOT 1 SLOT 0 CyBus 0 Dual CyBus Backplane in the Cisco 7507-MX 28928 Figure 1-9 CyBus 1 The Cisco 7507-MX backplane includes connectors for time-division multiplexing (TDM)-compatible hardware. These connectors allow you to connect the Cisco 7507-MX to future TDM hardware as it becomes available.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7507-MX Overview Cisco 7507-MX System Specifications Table 1-3 lists the specifications for the Cisco 7507-MX system. Table 1-3 Cisco 7507-MX Specifications Description Specification High-speed backplane Two 1.0677-Gbps CyBuses, 5 interface processor slots, 2 RSP slots Dimensions (H x W x D) 19.25 x 17.5 x 25.1 in. (48.90 x 44.45 x 63.75 cm) Chassis depth including power cord is 28 in. (71.12 cm) Weight Chassis only: 76 lb (34.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7513 Overview Cisco 7513 Overview The Cisco 7513 router supports multiprotocol, multimedia routing and bridging with a wide variety of protocols and any combination of available electrical interfaces and media. Network interfaces reside on interface processors that provide a direct connection between the two CyBuses in the Cisco 7513 and your external networks.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7513 Overview Figure 1-10 POWER A POWER B NORMAL 122303 Front-panel LEDs Cisco 7513 (Front View) Cisco 7500 Series Installation and Configuration Guide 1-16 OL-5008-03 B0
Chapter 1 Cisco 7500 Series Product Overview Cisco 7513 Overview Figure 1-11 shows details on the rear, interface-processor end of the Cisco 7513. Figure 1-11 Cisco 7513 (Rear View) Blower module Cable-management bracket NO RM AL EN EJE AB LE AB LE CT SLO SLO T0 T1 SLA MA S V E TE R Card cage and processor modules SLA VE /M CP RE AU NS TE HA R LT EN T X.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7513 Overview Dual CyBus Backplane in the Cisco 7513 H3163 Figure 1-12 0 1 2 3 4 CyBus 0 (slots 0 through 5) 5 RSP RSP 8 9 10 11 12 CyBus 1 (slots 8 through 12) An RSP2, RSP4/4+, or RSP8 in either slot 6 or slot 7 controls both CyBus 0 and CyBus 1. The dual CyBus backplane in the Cisco 7513 has an aggregate bandwidth of 2.134 Gbps.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7513 Overview Cisco 7513 System Specifications Table 1-4 lists the specifications for the Cisco 7513 system. Table 1-4 Cisco 7513 Specifications Backplane Two 1.0677-Gbps CyBuses, 11 interface processor slots, 2 RSP slots Dimensions (H x W x D) 33.75 x 17.5 x 22 in. (85.73 x 44.45 x 55.88 cm) Chassis width including rack-mount flanges is 18.93 in. (48.1 cm) Chassis depth including power cables and cable-management bracket: 24 in. (60.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7513-MX Overview Cisco 7513-MX Overview The Cisco 7513-MX router supports multiprotocol, multimedia routing and bridging with a wide variety of protocols and any combination of available electrical interfaces and media. Network interfaces reside on interface processors that provide a direct connection between the two CyBuses in the Cisco 7513-MX and your external networks.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7513-MX Overview Figure 1-13 POWER A POWER B NORMAL 122303 Front-panel LEDs Cisco 7513-MX (Front View) Cisco 7500 Series Installation and Configuration Guide OL-5008-03 B0 1-21
Chapter 1 Cisco 7500 Series Product Overview Cisco 7513-MX Overview Figure 1-14 shows details on the rear, interface-processor end of the Cisco 7513-MX. Figure 1-14 Cisco 7513-MX (Rear View) Blower module Cable-management bracket NO RM AL EN EJE AB LE AB LE CT SLO SLO T0 T1 SLA MA S V E TE R Card cage and processor modules SLA VE /M CP RE AU NS TE HA R LT EN T X.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7513-MX Overview Dual CyBus Backplane in the Cisco 7513-MX 28929 Figure 1-15 0 1 2 3 4 CyBus 0 (slots 0 through 5) Note 5 RSP RSP 8 9 10 11 12 CyBus 1 (slots 8 through 12) The Cisco 7513-MX backplane includes connectors for time-division multiplexing (TDM)-compatible hardware. These connectors allow you to connect the Cisco 7513-MX to future TDM hardware as it becomes available. The Cisco 7513-MX also includes the Cisco turbo arbiter.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7513-MX Overview Cisco 7513-MX System Specifications Table 1-5 lists the specifications for the Cisco 7513-MX system. Table 1-5 Cisco 7513-MX Specifications Description Specification Backplane Two 1.0677-Gbps CyBuses: 11 interface processor slots, 2 RSP slots Dimensions (H x W x D) 33.75 x 17.5 x 22 in. (85.73 x 44.45 x 55.88 cm) Chassis width including rack-mount flanges is 18.93 in. (48.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7576 Overview Cisco 7576 Overview The Cisco 7576 router supports multiprotocol, multimedia routing and bridging with a wide variety of protocols and any combination of available electrical interfaces and media. The Cisco 7576 consists of two independent Cisco 7500 series routers configured on a single split backplane. This system is housed within the chassis footprint of a Cisco 7513 router.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7576 Overview Figure 1-16 POWER A POWER B NORMAL 122303 Front-panel LEDs Cisco 7576 (Front View) Cisco 7500 Series Installation and Configuration Guide 1-26 OL-5008-03 B0
Chapter 1 Cisco 7500 Series Product Overview Cisco 7576 Overview Figure 1-17 shows details on the rear, interface-processor end of the Cisco 7576. Figure 1-17 Cisco 7576 (Rear View) Blower module Cable-management bracket NO RM NO AL RM AL EN EJE Card cage and processor modules SLO SLO T0 T1 SLA MA S VE TE R SLA MA S VE TE R VE SLA /M CP RE AU SE /M CP RE T AU X. OLE VE R LT CO NS AS U TE HA SE AB LE R LT EN T X.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7576 Overview An RSP4/4+ or RSP8 in slot 6 controls router A and both CyBus 0 and CyBus 1. An RSP4/4+ or RSP8 in slot 7 controls router B and both CyBus 2 and CyBus 3. The dual CyBus backplane in the Cisco 7576 has an aggregate bandwidth of 2.134 Gbps per router. Interface processors connected to the set of CyBuses on router A are unaffected by the traffic generated by the interface processors connected to the set of CyBuses on router B.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7576 Overview Identifying Cisco 7576 Independent Routers and CyBuses The Cisco 7576 dual CyBus backplane includes 13 slots and provides two independent routers on a split backplane, designated router A and router B. The interface processor slot numbering scheme (see Figure 1-19) on the card cage of the Cisco 7576 provides easy identification of the independent routers, CyBuses, and slots that make up the Cisco 7576 backplane.
Chapter 1 Cisco 7500 Series Product Overview Cisco 7576 Overview Cisco 7576 System Specifications Table 1-6 lists the specifications for the Cisco 7576 system. Table 1-6 Cisco 7576 Specifications Description Specification Backplane Four 1.0677-Gbps CyBuses divided into sets of 2 creating 2 independent routers: 6 interface processor slots and 1 RSP slot designated as router A, and 5 interface processor slots and 1 RSP slot designated as router B Dimensions (H x W x D) 33.75 x 17.5 x 22 in. (85.
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview Route Switch Processor Overview The main system processor in the Cisco 7500 series routers is the Route Switch Processor (RSP). The current RSP models sold are: RSP4+, RSP8 and RSP16.. The RSP1, RSP2 and RSP4 are legacy models. For more information on any of these products, refer to http://www.cisco.com/univercd/cc/td/doc/product/core/cis7505/rte_swit/index.htm for additional information on these models.
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview Figure 1-20 Route Switch Processor (RSP2) Bus connector DRAM SIMMs MEMD SRAM CPU U33 MEMD SRAM Bank 0 ROM monitor (boot ROM) NVRAM U18 Bank 1 U30 U21 U12 U4 122375 U1 PC Card slots slot 0: bottom slot 1: top Flash memory Auxiliary port Console port SIMM holder The RSP2 contains the system CPU, the system software (in Flash memory), the system memory components, and two PC Card slots, formerly called Personal Compu
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview • Providing Simple Network Management Protocol (SNMP) management and the interface between the console and Telnet. • Combining all of the switched routing and high-speed switching functions that communicate with and control the interface processors on the dual CyBus. This switching section decides the destination of a packet and switches it accordingly.
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview You install the RSP4/4+ in slot 2 or slot 3 in the Cisco 7507 (see Figure 1-5), or in slot 6 or slot 7 in the Cisco 7513 (see Figure 1-11) and Cisco 7576 (see Figure 1-17). The RSP4/4+ is also compatible with the Cisco 7505, where it is installed in slot 4 (see Figure 1-2).
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview The RSP4/4+ contains the following components: • IDT R5000 Reduced Instruction Set Computing (RISC) processor, used for the CPU. The CPU runs at an external bus clock speed of 100 MHz and an internal clock speed of 200 MHz. • Up to 256 megabytes (MB) of parity-protected, dynamic random-access memory (DRAM) on two dual in-line memory modules (DIMMs); 32 MB of DRAM is the default shipping configuration.
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview Table 1-8 RSP4/4+ Memory Components Type Size Quantity 1 Description Location DRAM 32 to 256 MB DIMMs 1 or 2 32-, 64-, or 128-MB DIMMs (based on DRAM required) for main Cisco IOS image functions U10 or U10 and U13 SRAM2 2 MB (fixed) – SRAM for packet buffering functions (MEMD) – 512 KB (fixed) – SRAM for secondary CPU cache memory functions – NVRAM 128 KB 1 Nonvolatile SRAM for the system configuration fi
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview Figure 1-22 Route Switch Processor (RSP8) 2 1 3 MAL NOR U15 122377 9 U12 T1 SLO T0 SLO U7 AUX RO 8 SOLE CON 7 UT ES WIT CH PR OC ES SO R1 6 6 4 5 1 MEMD SRAM 6 Flash EPROM (ROMmon) 2 Bus connectors 7 Auxiliary port 3 CPU 8 Flash memory SIMM holder 4 DRAM DIMMs (bank 0: bottom) DRAM DIMMs (bank 1: top) 9 PC Card slot 0: bottom PC Card slot 1: top (for Flash Disks or Memory Cards 5 Console
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview • 8 MB of parity-protected, static random-access memory (SRAM) for packet buffering, and 2 MB of SRAM for tertiary (L3) CPU cache memory functions (SRAM is not user-configurable). • Most of the additional memory components used by the system, including onboard Flash memory and up to two PC Cards. (A bank of hardware [MAC-layer] addresses for the interface port is contained in an NVRAM device on the router backplane.
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview Table 1-9 RSP8 Memory Components Type Size 1 Quantity Description Location DRAM 64-MB to 256-MB DIMMs 1 or 2 Any combination of 32-MB, 64-MB, or 128-MB U12 or U12 and DIMMs (based on DRAM required) for main U152 Cisco IOS image functions SRAM3 8 MB (fixed) – SRAM for packet buffering functions (MEMD) – 2 MB (fixed) – SRAM for tertiary (L3) CPU cache memory functions NVRAM 2 MB 1 Nonvolatile SRAM for the syste
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview Note For the Cisco IOS releases that are supported on the RSP16 refer to the Software Advisor at Storing the IOS software images in Flash memory enables you to download and boot from upgraded Cisco IOS software images remotely or from software images resident in the RSP16 Flash memory, without having to remove and replace read-only memory (ROM) devices.
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview • Air-temperature sensors for environmental monitoring. (All of the logic for the environmental monitoring functions is contained on the router interface card.
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview 2. Do not mix memory sizes. If installing 2 DIMMs, both DIMMs must be the same size. If your router includes redundant RSPs, the RSPs should have the same memory size. 3. SRAM is not user-configurable or field-upgradable. 4. A system configuration file is contained in NVRAM, which allows the Cisco IOS software to control several system variables. 5. This 16-MB SIMM Flash memory is not supported on the RSP2, RSP4/4+, or RSP8. 6.
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview Caution To prevent memory problems, DRAM DIMMS must be 3.3V devices. Do not attempt to install higher-voltage devices (such as those designed for the RSP2) in the RSP4/4+ or RSP8 DIMM sockets. RSP SRAM RSP static random-access memory (SRAM) provides packet buffering and CPU cache memory functions. Table 1-12 lists the RSP SRAM configurations.
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview RSP EEPROM An electrically erasable programmable read-only memory (EEPROM) component on the RSP stores board-specific information such as the board serial number, part number, controller type, hardware revision, and other details unique to each board. This EEPROM is not a spare and cannot be programmed in the field.
Chapter 1 Cisco 7500 Series Product Overview Route Switch Processor Overview Table 1-13 RSP Console Port Pinout Pin Signal Direction Signal Description 1 – Ground (GND) 2 <— Transmit Data (TxD) 3 —> Receive Data RxD) 6 —> Data Set Ready (DSR); always on 7 – Ground (GND) 8 —> Data Carrier Detect (DCD); always on RSP Auxiliary Port Pinout The auxiliary port on the RSP is an EIA/TIA-232 DTE DB-25 plug to which you can attach external equipment in order to access the router from the net
Chapter 1 Cisco 7500 Series Product Overview AC-Input and DC-Input Power Supply Overview Table 1-15 lists the console Y-cable pinout, and Table 1-16 lists the auxiliary Y-cable pinout.
Chapter 1 Cisco 7500 Series Product Overview AC-Input and DC-Input Power Supply Overview Caution To prevent system problems, do not mix power supply input types in the Cisco 7507, Cisco 7507-MX, Cisco 7513, Cisco 7513-MX, or Cisco 7576 routers. Both power supplies installed in a router must be either AC input or DC input. Do not attempt to install a DC-input power supply in a router with one AC-input power supply, or vice versa.
Chapter 1 Cisco 7500 Series Product Overview AC-Input and DC-Input Power Supply Overview Figure 1-26 DC FA IL AC PO H1356a WER Captive installation screw AC-Input Power Supply (Cisco 7507 and Cisco 7507-MX) I 0 Figure 1-27 DC-Input Power Supply (Cisco 7507 and Cisco 7507-MX) DO NOT SHIP WITH POWER SUPPLY INSTALLED FASTENER TO BE FULLY ENGAGE D BEFORE OPERATI NG POWER SUPPLY H2496 IL WER T FA PO OU PUT IN INPUT VOLTAG E : 40-72 V= INPUT CURREN T : 24-13A I O NO SERVIC Figure 1-28 FAN
Chapter 1 Cisco 7500 Series Product Overview AC-Input and DC-Input Power Supply Overview Figure 1-29 DC FAN OUTPUT OK OK DC-Input Power Supply (Cisco 7513, Cisco 7513-MX, and Cisco 7576) H3030 FAIL I 0 For Cisco 7500 series routers used in the United Kingdom (U), Australia (A), Italy (I), and the continental European (E) countries (excluding Italy), the following power supplies are available: • Cisco 7505 – AC input: Product Numbers PWR/5-ACU(=), PWR/5-ACA(=), PWR/5-ACI(=), PWR/5-ACE(=) – DC-i
Chapter 1 Cisco 7500 Series Product Overview Arbiter Overview • For the Cisco 7513, Cisco 7513-MX, and Cisco 7576, see the “Removing Cisco 7513, Cisco 7513-MX, and Cisco 7576 Power Supplies” section on page 7-3. Arbiter Overview In the Cisco 7500 series routers, an internal printed circuit board called the arbiter arbitrates traffic on the CyBus and generates the CyBus clock. The Cisco 7505 has a single arbiter, whereas the Cisco 7507 and Cisco 7513 have a dual arbiter for the dual CyBuses.
Chapter 1 Cisco 7500 Series Product Overview Fan Tray and Blower Assembly Overview Figure 1-30 7500 Series Chassis Interface Standoff screw holes H2877 Standoff screw holes Chassis interface The CI isolates the CPU and system software from chassis-specific variations, and is attached directly to the front (noninterface processor side) of the system backplane.
Chapter 1 Cisco 7500 Series Product Overview Fan Tray and Blower Assembly Overview Cisco 7505 Fan Tray Assembly The Cisco 7505 uses a fan tray assembly (see Figure 1-31) consisting of six fans that supply cooling air to the chassis interior. The assembly is accessible from behind the chassis front panel. Fan Tray Assembly (Cisco 7505) H9714 Figure 1-31 All six fans should be operating whenever system power is on.
Chapter 1 Cisco 7500 Series Product Overview Fan Tray and Blower Assembly Overview Figure 1-32 Blower Assembly (Cisco 7507 and Cisco 7507-MX) Blower power connection Purple (+24V) Black (ground) H1386a Blower Captive Allen-head screws Cisco 7513, Cisco 7513-MX, and Cisco 7576 Blower Module Assembly The Cisco 7513, Cisco 7513-MX, and Cisco 7576 use a blower module assembly that is located at the top rear-end of the chassis (see Figure 1-33 and Figure 1-34).
Chapter 1 Cisco 7500 Series Product Overview Interface Processor Overview Blower Module Assembly (Rear View) H9715 Figure 1-34 LEDs (3) Power connector Interface Processor Overview Interface processors for the Cisco 7500 series routers are separate processor modules that are installed in the routers’ interface processor slots and attach to the system backplane.
Chapter 1 Cisco 7500 Series Product Overview Interface Processor Overview • FIP—Fiber Distributed Data Interface (FDDI) Processor, with one single attachment or dual attachment single-mode and multimode FDDI • FSIP—Fast Serial Interface Processor, with four or eight synchronous serial interfaces (EIA/TIA-232, EIA-TIA-449, EIA-530, X.21, V.35, or E1-G.
Chapter 1 Cisco 7500 Series Product Overview System Software Overview System Software Overview In Cisco 7500 series routers, Flash memory on the RSP contains the default system software. An EPROM device on each interface processor contains the latest interface processor microcode version, in compressed form.
C H A P T E R 2 Preparing for Installation This chapter includes specific information about required tools and parts, safety guidelines, and preparatory information required to ensure a successful installation of your Cisco 7500 series router. Do not unpack the Cisco 7500 series router until you are ready to install it. Keep the chassis in the shipping container to prevent accidental damage until you have determined where you want it installed.
Chapter 2 Preparing for Installation Safety Recommendations Note The Cisco 7513, Cisco 7513-MX, and Cisco 7576 rack-mounting procedure requires two people.
Chapter 2 Preparing for Installation Safety Recommendations • Before beginning any procedures requiring access to the chassis interior, locate the emergency power-off switch for the room in which you are working. • Disconnect all power and external cables before installing or removing a chassis. • Never assume that power has been disconnected from a circuit; always check. Warning See the installation instructions before you connect the system to its power source.
Chapter 2 Preparing for Installation Safety Recommendations Caution To prevent damage to the chassis and components, never attempt to lift the chassis by the plastic panels on the front of the chassis, or by the handles on power supplies or processor modules. These panels and handles were not designed to support the weight of the chassis.
Chapter 2 Preparing for Installation Safety Recommendations When you get ready to place the Cisco 7513, Cisco 7513-MX, or Cisco 7576 into a rack or onto a tabletop, each person should lift it by grasping the side handle with one hand and the bottom of the chassis with the other, and lift the chassis with your legs, as shown in Figure 2-2. (Do not lift the chassis using the blower module handle or the air intake vent below the card cage.
Chapter 2 Preparing for Installation Safety Recommendations Figure 2-3 Incorrect Way to Lift the Cisco 7513, Cisco 7513-MX, or Cisco 7576 POWER A POWER H3119 B Preventing Electrostatic Discharge Damage Electrostatic discharge (ESD) can damage equipment and impair electrical circuitry. It occurs when electronic components are improperly handled and can result in intermittent or complete failures. Always ensure that the chassis is electrically connected to earth ground.
Chapter 2 Preparing for Installation AC-Input and DC-Input Power Guidelines AC-Input and DC-Input Power Guidelines The wide-input AC-input power supplies in the Cisco 7500 series routers use a power factor corrector (PFC) that allows the router to operate on input voltage and current within the AC-voltage range of 100 to 240 VAC and 50 to 60 Hz.
Chapter 2 Preparing for Installation AC-Input and DC-Input Power Guidelines The 600W DC-input power supply allows the Cisco 7505 to operate between –40 and –52 VDC in North America (–48 VDC nominal) and between –56 and –72 VDC in the European Union (–60 VDC nominal). We recommend that you use an 8-AWG, highly flexible stranded cable for the DC power connections. (See Table 1-1 for a list of Cisco 7505 power specifications.
Chapter 2 Preparing for Installation AC-Input and DC-Input Power Guidelines Cisco 7513, Cisco 7513-MX, and Cisco 7576 Power Considerations The 1200W AC-input power supply in the Cisco 7513, Cisco 7513-MX, and Cisco 7576 routers uses a power factor corrector (PFC) that allows it to operate on input voltage and current within the range of 100 through 240 VAC and 47 through 63 Hz. Follow these precautions and recommendations when planning power connections to the router.
Chapter 2 Preparing for Installation Plant Wiring Guidelines 20A AC-Input Power Cable Connector, Plug, and Receptacle (Cisco 7513, Cisco 7513-MX, and Cisco 7576) H3164 Figure 2-5 IEC 320 20-amp connector (to the AC power supply) 20-amp plug 20-amp receptacle The DC-powered chassis requires a minimum 35A dedicated service (at –48 VDC). We recommend that you use an 8-AWG, highly flexible stranded cable for the DC power connections. Figure 2-6 shows the conductor preparations.
Chapter 2 Preparing for Installation Plant Wiring Guidelines Note To predict and remedy strong EMI, you might need to consult experts in radio frequency interference (RFI). If you use twisted-pair cable in your plant wiring with a good distribution of grounding conductors, the plant wiring is unlikely to emit radio interference. When exceeding the recommended distances, use a high-quality twisted-pair cable with one ground conductor for each data signal.
Chapter 2 Preparing for Installation Site Environment, Chassis Temperature, and Airflow Guidelines specifications for the electrical interfaces supported by the Cisco 7500 series routers, refer to the companion publication Interface Processor Installation and Configuration Guide. Site Environment, Chassis Temperature, and Airflow Guidelines Cisco 7500 series routers can operate as standalone systems placed on a table or as rack-mounted systems in a data processing or lab environment.
Chapter 2 Preparing for Installation Site Environment, Chassis Temperature, and Airflow Guidelines Table 2-1 Environmental Specifications for the Cisco 7500 Series Routers (continued) Specifications Minimum Maximum Humidity, ambient (noncondensing) nonoperating and storage 5% 95% Altitude, operating and nonoperating Sea level 10,000 ft (3050 m) 1 Vibration, operating 5 to 200 Hz, 0.
Chapter 2 Preparing for Installation Site Environment, Chassis Temperature, and Airflow Guidelines Cisco 7507 and Cisco 7507-MX Airflow Considerations The system blower on the Cisco 7507 and Cisco 7507-MX provides cooling air for the processor modules. The blower draws air in through the air filter in the front chassis panel and directs it up through the floor of the internal slot compartment and over the cards.
Chapter 2 Preparing for Installation Equipment Rack-Mounting Guidelines Figure 2-9 Airflow Through the Cisco 7513, Cisco 7513-MX, and Cisco 7576 System blower Card cage Intake air Exhaust air H3093 Power supplies The power supplies have their own fans with airflow that is independent of the chassis airflow. Ensure that there is minimum front and back clearance of 6 inches (15.24 cm).
Chapter 2 Preparing for Installation Equipment Rack-Mounting Guidelines • Equipment near the bottom of a rack can generate excessive heat that is drawn upward and into the inlet ports of equipment above, leading to overtemperature conditions in devices at or near the top of the rack.
Chapter 2 Preparing for Installation Equipment Rack-Mounting Guidelines Figure 2-10 Chassis Footprint and Outer Dimensions (Cisco 7505) Chassis foot C 14.25 in. (36.20 cm) 2 in. (5.08 cm) Power supply width 14.60 in. to ears (37.08 cm) Chassis foot C 13.32 in. (33.83 cm) Power supply depth 12.00 in. (30.48 cm) 1.25 in. (3.18 cm) Interface processor depth 11.25 in. (28.58 cm) Fan tray Chassis depth 17.0 in. (43.18 cm) Chassis depth with power cord and cable management bracket 19.0 in. (48.
Chapter 2 Preparing for Installation Equipment Rack-Mounting Guidelines • If you plan to use an equipment shelf, ensure that the shelf is constructed to support the weight and dimensions of the chassis. Figure 2-10 shows the chassis footprint, which you will need if you are designing a customized shelf. • If you use 2-post racks, be sure that the rack is bolted to the floor and secured.
Chapter 2 Preparing for Installation Equipment Rack-Mounting Guidelines Figure 2-11 Chassis Footprint and Outer Dimensions (Cisco 7507 and Cisco 7507-MX) Power supply/interface processor end 10 in. clearance required for interface processor removal 16 in. clearance required for power supply removal 1.220 in. Foot diameter 1.125 in. 4 places (28 in. including power cord) 4 in. 5.095 in. 16 in. 13 in. 25 in. 16.916 in. 15.060 in. 17.5 in.
Chapter 2 Preparing for Installation Equipment Rack-Mounting Guidelines • If you plan to use an equipment shelf, ensure that the shelf is constructed to support the weight and dimensions of the chassis. Figure 2-11shows the chassis footprint, which you will need if you are designing a customized shelf. • Install the router in an open rack whenever possible. If installation in an enclosed rack is unavoidable, ensure that the rack has adequate ventilation or an exhaust fan.
Chapter 2 Preparing for Installation Equipment Rack-Mounting Guidelines Figure 2-12 Chassis Footprint and Outer Dimensions (Cisco 7513, Cisco 7513-MX, and Cisco 7576) 19 in. required for blower removal 1.75 in. 4 places 3.94 in. 12.73 in. 1.47 in. Plastic front panel end 14.57 in. 18.93 in. 18.75 in. 21.23 in. Caution H3178 17.50 in. To prevent chassis overheating, never install the router in an enclosed rack or room that is not properly ventilated or air-conditioned.
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series • Maintain a minimum clearance of 6 inches (15.24 cm) on the rear and front of the chassis for the cooling air inlet and exhaust ports, respectively. Avoid placing the router in an overly congested rack or directly next to another equipment rack. Otherwise, the heated exhaust air from other equipment can enter the inlet air vents and cause an overtemperature condition inside the router.
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series The following sections provide information on environmental monitoring, temperature and voltage thresholds, and environmental reporting functions in the Cisco 7500 series routers: • Cisco 7500 Series Environmental Monitoring, page 2-23 • Cisco 7500 Series Temperature and Voltage Thresholds, page 2-24 • Cisco 7500 Series Environmental Reports, page 2-26 Cisco 7500 Series Environmental Monito
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series temperature of the system falls below a certain temperature setpoint. At the fifteenth temperature cycle, this temperature setpoint is changed to a very low value, preventing the affected router from powering back up. This achieves a hard shutdown of one router without affecting the other router. The RSP and IPs will remain disabled until the power is manually recycled.
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series ) Table 2-2 Typical Processor-Monitored Temperature Thresholds (Cisco 7505) Parameter Warning Normal Warning Critical Shutdown Inlet air < 10°C 10–39°C 39–46°C 46–64°C > 64°C Airflow < 10°C 10–70°C 70–77°C 77–88°C > 88°C Table 2-3 Typical Power Supply-Monitored Voltage Thresholds (Cisco 7505) Parameter Critical Normal Critical +5VDC < 4.74 4.74–5.26 > 5.
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series Table 2-6 Typical Processor-Monitored Temperature Thresholds (Cisco 7513, Cisco 7513-MX, and Cisco 7576) Parameter Normal High Warning High Critical Shutdown Inlet 10–40°C 44°C 50°C – Hotpoint 10–40°C 54°C 60°C – Exhaust 10–40°C – – – Processors – – – 70°C Power supply – – – 75°C 1 Restart 40°C – – – 1.
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series • Note Cisco 7576 Environmental show Command Examples, page 2-35 For complete show command descriptions and instructions, refer to the related software command reference publication, which is available on the Documentation CD-ROM, or in print. For a listing of available documentation, see the “If You Need More Configuration Information” section on page 4-32.
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series In the following example, all current measured values fall within the Normal status range. The first voltage parameter in the table, +12(V), shows that the Normal range for the +12V sense spans 10.20V through 13.80V. The current measured value, 12.05V, falls within that range and is therefore displayed in the Normal column.
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series +24 volts measured at 23.70(V) Airflow temperature measured at 35(C) Inlet temperature measured at 26(C) When the system power is on, all six fans in the fan array must be operational. If the system detects a failed or failing fan, it will display a warning message on the console screen.
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series and Table 2-5. The slots in which the RSP can be installed are indicated in parentheses (slot 2 and slot 3). Also listed are the shutdown thresholds for the processor boards and power supplies.
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series 0123456 Dbus slots: XX XXX inlet hotpoint RSP(3) 16C/60F 24C/71F 20C/68F exhaust Shutdown temperature source is 'hotpoint' slot3 (requested slot2) +12V +5V -12V +24V +2.5 PS1 PS1 PS1 PS1 measured at 11.84 measured at 5.05 measured at -11.84 measured at 23.78 reference is 2.46 +5V Current measured at 42.35 A (capacity 200 A) +12V Current measured at 6.
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series If the environmental status is not normal, the system reports the worst-case status level in the last line of the display. In the Cisco 7513 and Cisco 7513-MX, the show environment last command retrieves and displays the NVRAM log showing the reason for the last shutdown (if the shutdown was related to voltage or temperature) and the environmental status at that time.
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series +24(V) 20.00 23.80(V) 28.00 Temperature Parameters: SENSE WARNING NORMAL WARNING CRITICAL SHUTDOWN ------|-------------|------------|-------------|--------------|--------Inlet Air-flow 10 10 32(C) 40(C) 39 70 46 77 64 88 The following example shows only the Temperature Parameters section of the table.
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series The current temperature measurements at the three RSP sensors are displayed as inlet, hotpoint, and exhaust. The shutdown temperature source is the hotpoint sensor, which is located toward the center of the RSP. System voltage measurements are also displayed, followed by the system current measurements and power supply wattage calculation.
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series PS1 PS1 PS1 PS1 +5V Current measured at 42.35 A (capacity 200 A) +12V Current measured at 6.86 A (capacity 35 A) -12V Current measured at 0.55 A (capacity 3 A) output is 296 W When the system power is on, the blower must be operational. If the system detects that the blower has failed or is failing, it will display a warning message on the console screen.
Chapter 2 Preparing for Installation Environmental Monitoring and Reporting Overview for the Cisco 7500 Series Router# show env table Sample Point LowCritical LowWarning RSP(6) Inlet RSP(6) Hotpoint RSP(6) Exhaust +12 Voltage 10.90 11.61 +5 Voltage 4.61 4.94 -12 Voltage -10.15 -10.76 +24 Voltage 20.38 21.51 2.5 Reference 2.43 Shutdown boards at 70C/158F Shutdown power supplies at 76C/168F Restart after shutdown below 40C/104F Note HighWarning HighCritical 44C/111F 50C/122F 54C/129F 60C/140F 12.82 5.
C H A P T E R 3 Installing a Cisco 7500 Series Router This chapter provides guidelines and instructions you need for installing your Cisco 7500 series router, including rack-mounting and general installation considerations. This chapter also includes a rack-mounting procedure for the Cisco 7505; however, rack-mounting procedures for the Cisco 7507, Cisco 7507-MX, Cisco 7513, Cisco 7513-MX, and Cisco 7576 are far more extensive and beyond the scope of this publication.
Chapter 3 Installing a Cisco 7500 Series Router Providing a Ground Connection for the Chassis REVIEW DRAFT—CISCO CONFIDENTIAL Note • A temperature-controlled, air-conditioned area is ideal for the chassis. • Avoid crossing high-power cables with interface cables, which can cause interference in some interface types. It will not always be possible to avoid this, but try to prevent it.
Chapter 3 Installing a Cisco 7500 Series Router Providing a Ground Connection for the Chassis REVIEW DRAFT—CISCO CONFIDENTIAL Use the following procedure to attach the grounding lug to the chassis grounding receptacles on your router chassis: Step 1 Locate the chassis grounding receptacles on your router chassis.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7505 REVIEW DRAFT—CISCO CONFIDENTIAL After you ensure that your site environment meets all guidelines, choose from the following sections depending on the Cisco 7500 series model you plan to install: • Installing the Cisco 7505, page 3-4 • Installing the Cisco 7507 and Cisco 7507-MX, page 3-11 • Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576, page 3-19 Then see the “What Do I Do Now?” section on page 3-33.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7505 REVIEW DRAFT—CISCO CONFIDENTIAL You need a number 1 Phillips or 3/16-inch flat-blade screwdriver to remove any fillers (blank processor carriers) and to tighten the captive installation screws that secure the processor module in its slot. Whenever you handle modules, you should use an ESD-preventive wrist strap or other grounding device to prevent ESD damage.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7505 REVIEW DRAFT—CISCO CONFIDENTIAL Figure 3-3 Removing and Replacing Processor Modules (Cisco 7505) Card carrier guide (black) Remove a module as follows: 1. Use a screwdriver to loosen the captive installation screws (shown in A). A 2. Simultaneously pull the ejector levers out to release the module from the backplane connector (shown in B). The levers should snap into their spring retainers. Captive installation screw B 3.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7505 REVIEW DRAFT—CISCO CONFIDENTIAL Cisco 7505 Installation Considerations Before you install the Cisco 7505, decide where to install the router. If you intend to rack-mount the router, proceed to the “Rack-Mounting the Cisco 7505” section on page 3-7.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7505 REVIEW DRAFT—CISCO CONFIDENTIAL The following guidelines are provided to ensure your safety: – Mount this unit at the bottom of the rack if it is the only unit in the rack. – When mounting this unit in a partially filled rack, load the rack from the bottom to the top with the heaviest component at the bottom of the rack.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7505 REVIEW DRAFT—CISCO CONFIDENTIAL Attaching the Cisco 7505 Cable-Management Brackets The cable-management brackets for the Cisco 7505 are designed to keep network interface cables untangled and orderly, and to prevent cables from hindering access to interface processors in the lower slots.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7505 REVIEW DRAFT—CISCO CONFIDENTIAL Warning Before working on a chassis or working near power supplies, unplug the power cord on AC units or disconnect the power at the circuit breaker on DC units. This unit might have more than one power cord. To reduce the risk of electric shock, disconnect the two power supply cords before servicing the unit.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7507 and Cisco 7507-MX REVIEW DRAFT—CISCO CONFIDENTIAL This completes the procedure for attaching DC-input cables to the Cisco 7505 DC-input power supply, as well as procedures required to install the Cisco 7505. For information on how to connect cables to the RSP, see the “Making Cable Connections to the RSP” section on page 3-32, and then proceed to the “What Do I Do Now?” section on page 3-33.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7507 and Cisco 7507-MX REVIEW DRAFT—CISCO CONFIDENTIAL You can install interface processors (as shown in the following figure) in any of the five interface processor slots, which are numbered 0 and 1, and 4 through 6, from left to right when viewing the chassis from the rear. (See Figure 1-5.) Slot 2 or slot 3 contains the RSP, which is a required system component.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7507 and Cisco 7507-MX REVIEW DRAFT—CISCO CONFIDENTIAL Figure 3-8 Removing and Replacing Processor Modules— (Cisco 7507 and Cisco 7507-MX) Bottom ejector lever Remove a module as follows: 1. Use a screwdriver to loosen the captive installation screws (shown in A). A 2. Pull the ejector levers out to release the module from the backplane connector (shown in B). The levers should snap into their spring retainers.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7507 and Cisco 7507-MX REVIEW DRAFT—CISCO CONFIDENTIAL Cisco 7507 and Cisco 7507-MX Installation Considerations Before you install the Cisco 7507 or Cisco 7507-MX, decide where to install the router. Note If you plan to rack-mount the router, refer to the publication Cisco 7000 and Cisco 7507 Rack-Mount Kit Installation Instructions (Document Number 78-1058-xx or later), which shipped with the rack-mount kit ACS-7000RMK=.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7507 and Cisco 7507-MX REVIEW DRAFT—CISCO CONFIDENTIAL Note Warning The following procedure applies to AC-input and DC-input power supplies, with specific differences clearly noted. To prevent system problems, do not mix AC-input and DC-input power supplies in the same chassis. This product relies on the building’s installation for short-circuit (overcurrent) protection.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7507 and Cisco 7507-MX REVIEW DRAFT—CISCO CONFIDENTIAL Caution Each power supply weighs approximately 20 lb (9 kg). To prevent dropping power supplies, use two hands to remove and install power supplies. Step 4 The power supply has rollers on the bottom end. Place the rollers inside the bay and position the power supply so that it is aligned to go straight into the bay. Step 5 Push the power supply all the way into the bay.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7507 and Cisco 7507-MX REVIEW DRAFT—CISCO CONFIDENTIAL The following procedure assumes you have already installed the power supplies using the procedure in the “Installing Cisco 7507 and Cisco 7507-MX Power Supplies” section on page 3-14. The procedure requires 8-AWG cable for terminal block connections and a 3/16-inch flat-blade screwdriver to loosen the captive screws on the terminal block cover and the terminal block.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7507 and Cisco 7507-MX REVIEW DRAFT—CISCO CONFIDENTIAL Figure 3-11 Installing the Power Cable Leads, Nylon Ties, and Cover (Cisco 7507 and Cisco 7507-MX) Captive installation screws on terminal block cover DO NOT SHIP WITH POWER SUPPLY INSTALLED FASTENER TO BE FULLY ENGAGED BEFORE OPERATING POWER SUPPLY Power supply captive installation screw OU T INP FAIL UT PO WE R Terminal block cover (removable) Power leads attached to terminal
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL Step 7 Note If you are installing a second power supply, repeat Step 1 through Step 6. Do not turn on any power supplies until you are ready to power up the system. The interlock switch that locks the power supply in the slot also turns on the system power.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL Figure 3-12 Installation Flowchart (Cisco 7513, Cisco 7513-MX, and Cisco 7576) Unpack the router (Use Cisco 7513 and Cisco 7576 Unpacking Instructions) Rack-mount the router (Use Cisco 7513 and Cisco 7576 Rack-Mount Kit Installation Instructions ) (optional) Insert power supplies Perform an intial configuration and create a basic configuration file.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL Temporary Storage for Removed Processor Modules H3589 Figure 3-13 In the Cisco 7513 and Cisco 7513-MX you can install interface processors in any of the 11 interface processor slots, numbered 0 through 5 for CyBus 0, and 8 through 12 for CyBus 1, from left to right when viewing the chassis from the rear.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL The master RSP will recover from this event and issue a “cBus Complex Restart” message. (Cisco 7513 and Cisco 7513-MX systems that are configured with an RSP4 as the system slave are not affected and do not experience this problem.) The RSP8 only supports the HSA feature when used with another RSP8. Note The Cisco 7576 does not support HSA.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL Figure 3-14 Removing and Replacing Processor Modules (*Cisco 7513, Cisco 7513-MX, and Cisco 7576) Bottom ejector lever Remove a module as follows: 1. Use a screwdriver to loosen the captive installation screws (shown in A). A Captive installation screw Card carrier guide Card slot 2.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL Cisco 7513, Cisco 7513-MX, and Cisco 7576 Installation Considerations The chassis should already be in the area where you will install it, and your installation location should already be determined. Warning Before working on a chassis or working near power supplies, unplug the power cord on AC units or disconnect the power at the circuit breaker on DC units.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL Figure 3-15 Lifting a Cisco 7513, Cisco 7513-MX, or Cisco 7576 POWER A POWER H3118 B Follow these steps to install the Cisco 7513, Cisco 7513-MX, and Cisco 7576: Step 1 Remove all power supplies. (See the “Removing Cisco 7513, Cisco 7513-MX, and Cisco 7576 Power Supplies” section on page 7-3.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL Step 4 Replace the card cage assembly. (See the procedure in the “Installing the Card Cage Assembly” section on page 7-9.) Step 5 Replace the power supplies. (See the “Installing Cisco 7513, Cisco 7513-MX, and Cisco 7576 Power Supplies” section on page 3-27.) Step 6 Replace the processor modules in the card cage. (See the procedure in Figure 3-14.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL Note When you install the network interface cables, route the cables to and through the cable-management bracket. If you are using very thin cables that slip through the bracket openings, insert cable ties through the holes in the bracket and wrap them around the cables to secure them. It might be necessary to bundle longer cables to avoid tangling them.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL Figure 3-17 FAN OK OUTPUT FAIL H5267 AC OK Handling a Power Supply (Cisco 7513, Cisco 7513-MX, and Cisco 7576 AC-Input Power Supply Shown) I 0 Step 4 While firmly pressing the power supply faceplate so that is flush with the chassis rear panel, use a large slotted screwdriver to tighten the captive screw that secures the power supply to the chassis frame.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL Caution To maintain agency compliance requirements and meet EMI emissions standards in the Cisco 7513, Cisco 7513-MX, and Cisco 7576 chassis with a single power supply, the power supply blank must remain in the empty power supply bay. Do not remove this blank from the chassis except to install a second power supply.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL Warning Before working on a chassis or working near power supplies, unplug the power cord on AC units or disconnect the power at the circuit breaker on DC units. Warning This unit might have more than one power cord. To reduce the risk of electric shock, disconnect the two power supply cords before servicing the unit.
Chapter 3 Installing a Cisco 7500 Series Router Installing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL Figure 3-21 Attaching the DC-Input Power Cable (Cisco 7513, Cisco 7513-MX, and Cisco 7576) DC-input cable (8-AWG) Power leads attached to terminal block (+) Positive (–) Negative ( ) Ground DC FAN OUTPUT OK OK FAIL Conduit bracket I DC-input power supply with the terminal block cover removed Warning 122369 0 Captive installation screw When installing the un
Chapter 3 Installing a Cisco 7500 Series Router Making Cable Connections to the RSP REVIEW DRAFT—CISCO CONFIDENTIAL Making Cable Connections to the RSP This section describes how to make cable connections to the console and auxiliary ports on the RSPs in the Cisco 7500 series routers. (Specific differences between RSPs are clearly noted.) Note Pinouts for the console and auxiliary ports and cables are listed in the “RSP Asynchronous Serial Ports—Console and Auxiliary” section on page 1-44.
Chapter 3 Installing a Cisco 7500 Series Router What Do I Do Now? REVIEW DRAFT—CISCO CONFIDENTIAL Using the Y-Cables for Console and Auxiliary Connections For systems with two RSP2s, two RSP4s, two RSP8s, or one of each installed (one as master and one as slave in RSP slot 2 and slot 3 in the Cisco 7507, Cisco 7507-MX, and slot 6 and slot 7 in the Cisco 7513 and Cisco 7513-MX, using the HSA feature), you can simultaneously connect to both console or auxiliary ports using a special Y-cable.
Chapter 3 Installing a Cisco 7500 Series Router What Do I Do Now? REVIEW DRAFT—CISCO CONFIDENTIAL To connect the network interfaces, refer to one of the following: • The companion publicationInterface Processor Installation and Configuration Guide, which includes the following information: – Complete descriptions of each interface processor and its electrical interfaces – Specific safety information for each interface processor, as appropriate – All electrical interface and interface cabling specificati
C H A P T E R 4 Performing a Basic Configuration of the System This chapter describes the procedures for performing a basic configuration of your Cisco 7500 series router. It guides you through a basic router configuration, which is sufficient for you to access your network. Complex configuration procedures are beyond the scope of this text, and can be found in the configuration publications listed in the “If You Need More Configuration Information” section on page 4-32.
Chapter 4 Performing a Basic Configuration of the System Starting the System and Observing Initial Conditions Starting the System and Observing Initial Conditions This section describes the initial Cisco 7500 series system startup.
Chapter 4 Performing a Basic Configuration of the System Overview of Software Configuration Register Settings at Startup You have the option of proceeding with the setup facility to configure the interfaces, or exit from setup and use configuration commands to configure global (system-wide) and interface-specific parameters. You do not have to configure the interfaces immediately; however, you cannot enable the interfaces or connect them to any networks until you have configured them.
Chapter 4 Performing a Basic Configuration of the System Configuring the Software Configuration Register Configuring the Software Configuration Register Note Appendix A, “Configuration Register Information” also provides configuration register information. Cisco 7500 series routers use a 16-bit software configuration register, which allows you to set specific system parameters. Settings for the software configuration register are written into NVRAM.
Chapter 4 Performing a Basic Configuration of the System Configuring the Software Configuration Register 2. OEM = original equipment manufacturer.
Chapter 4 Performing a Basic Configuration of the System Configuring the Software Configuration Register Table 4-3 Default Boot Filenames Action/Filename Bit 3 Bit 2 Bit 1 Bit 0 Bootstrap mode 0 0 0 0 Default software 0 0 0 1 cisco2-RSP 0 0 1 0 cisco3-RSP 0 0 1 1 cisco4-RSP 0 1 0 0 cisco5-RSP 0 1 0 1 cisco6-RSP 0 1 1 0 cisco7-RSP 0 1 1 1 cisco10-RSP 1 0 0 0 cisco11-RSP 1 0 0 1 cisco12-RSP 1 0 1 0 cisco13-RSP 1 0 1 1 cisco14-RSP 1 1 0
Chapter 4 Performing a Basic Configuration of the System Configuring the Software Configuration Register Table 4-5 Console Terminal Transmission Rates Baud Bit 12 Bit 11 9600 0 0 4800 0 1 2400 1 1 1200 1 0 Bit 13 determines the server response to a bootload failure. Setting bit 13 causes the server to load operating software from Flash memory after five unsuccessful attempts to load a boot file from the network.
Chapter 4 Performing a Basic Configuration of the System Booting the Cisco 7500 Series Router for the First Time Booting the Cisco 7500 Series Router for the First Time The router is administered using the Cisco command interpreter, called the EXEC. You must boot and log in to the router before you can enter an EXEC command. For security purposes the EXEC has two levels of access to commands: user EXEC mode and privileged EXEC mode.
Chapter 4 Performing a Basic Configuration of the System Recovering a Lost Password An enable secret password can contain from 1 to 25 uppercase and lowercase alphanumeric characters; an enable password can contain any number of uppercase and lowercase alphanumeric characters. In both cases, a number cannot be the first character. Spaces are also valid password characters; for example, “two words” is a valid password. Leading spaces are ignored; trailing spaces are recognized.
Chapter 4 Performing a Basic Configuration of the System Recovering a Lost Password enable enable enable enable change change “load rom after netbootfails”? y/n [n]: “use all zero broadcast”? y/n [n]: “break/abort has effect?” y/n [n]: “ignore system config info?” [n]: y console baud rate? y/n [n]: boot characteristics? y/n [n] Configuration Summary enabled are: console baud: 9600 boot: image specified by the boot system command or default to: cisco2-RSP do you wish to change the configuration? y/n [n]
Chapter 4 Performing a Basic Configuration of the System Configuring the Cisco 7500 Series System Configuring the Cisco 7500 Series System You can complete a basic configuration of the Cisco 7500 series system using one of the procedures described in the following sections: • Performing a Basic Configuration Using AutoInstall, page 4-11 • Performing a Basic Manual Configuration Using the Setup Facility, page 4-12 • Performing a Basic Configuration Using Configuration Mode, page 4-18 Follow the proce
Chapter 4 Performing a Basic Configuration of the System Configuring the Cisco 7500 Series System Step 3 At the # prompt, enter the copy running-config startup-config command if you are running Cisco IOS Release 11.0 or later, or the write memory command if you are running a Cisco IOS release earlier than 11.0: Hostname# copy running-config startup-config Taking this step saves the configuration settings that the AutoInstall process created in the router.
Chapter 4 Performing a Basic Configuration of the System Configuring the Cisco 7500 Series System San Jose, California 95134-1706 Cisco Internetwork Operating System Software IOS (tm) GS Software (RSP-K-MZ), Version 11.1(8), RELEASE SOFTWARE (fc1) Copyright (c) 1986-1995 by cisco Systems, Inc. Compiled Thu 14-Sep-95 19:03 by biff Image text-base: 0x600087E0, data-base: 0x6052A000 RSP2 (R4600) processor with 16384K bytes of memory. Manufactured 27-Dec-1995. Blower serial 512.
Chapter 4 Performing a Basic Configuration of the System Configuring the Cisco 7500 Series System Step 5 Enter the enable secret password and the enable password when the following is displayed: The enable secret is a one-way cryptographic secret used instead of the enable password when it exists. Enter enable secret: barney The enable password is used when there is no enable secret and when using older software and some boot images.
Chapter 4 Performing a Basic Configuration of the System Configuring the Cisco 7500 Series System instead of the enable password when it exists. Enter enable secret: barney The enable password is used when there is no enable secret and when using older software and some boot images.
Chapter 4 Performing a Basic Configuration of the System Configuring the Cisco 7500 Series System Extended appletalk network? [no]: yes appletalk starting cable range [0]: appletalk zone: zonename Step 4 Save your settings to NVRAM. (For more information on saving settings to NVRAM, see the “Saving the Settings to NVRAM and Reviewing Your Configuration” section on page 4-19.) If additional Ethernet interfaces are available in your system, you are prompted for their configurations as well.
Chapter 4 Performing a Basic Configuration of the System Configuring the Cisco 7500 Series System Configure AppleTalk on this interface? [no]: yes Extended AppleTalk network? [no]: yes AppleTalk starting cable range [0]: Configuring interface Serial1/0: Is this interface in use? [no]: yes Configure IP on this interface? [no]: yes Configure IP unnumbered on this interface? [no]: IP address for this interface: 10.1.1.20 Number of bits in subnet field [0]: Class A network is 10.0.0.
Chapter 4 Performing a Basic Configuration of the System Configuring the Cisco 7500 Series System Your Cisco 7500 series router is now minimally configured and ready to use. If you want to modify the parameters after the initial configuration, use the setup command. To perform more complex configurations, use the configure command.
Chapter 4 Performing a Basic Configuration of the System Implementing Other Configuration Tasks Checking the Settings You can check the value of the settings you entered by entering either of the following commands at the # prompt: • show running-config (if you are running Cisco IOS Release 11.0 or later) • write terminal (if you are running a Cisco IOS release earlier than Release 11.0) Following is an example: Router# show running-config . . .
Chapter 4 Performing a Basic Configuration of the System What Do I Do Now? What Do I Do Now? After you have installed the Cisco 7500 series router hardware, checked all external connections, turned on the system power, allowed the system to boot up, and minimally configured the system, you might need to perform more complete and complex configurations, which are beyond the scope of this text.
Chapter 4 Performing a Basic Configuration of the System Using the Flash Memory Cards in the RSPs A Flash memory card can be inserted and removed with the system power on. Both PC Card slots can be used at the same time. The following procedure is generic, and can be used for a Flash memory card in either slot position.
Chapter 4 Performing a Basic Configuration of the System Using the Flash Memory Cards in the RSPs Figure 4-1 Installing and Removing a Flash Memory Card (RSP2) a NO RM AL UP EJ EC T NO b RM AL 1 OT SL 0 OT SL UP NO c RM AL EJ EC T UP 1 OT SL 0 OT SL EJ EC 1 OT SL 0 OT H3089 T SL Cisco 7500 Series Installation and Configuration Guide 4-22 OL-5008-03 B0
Chapter 4 Performing a Basic Configuration of the System Using the Flash Memory Cards in the RSPs Figure 4-2 Installing and Removing a Flash Memory Card (RSP4/4+ and RSP8) a NO RM AL S OT LOT 0 1 SL SL AV E MA ST ER b NO RM AL S OT LOT 0 1 SL c NO RM AL SL AV E MA ST ER S OT LOT 0 1 SL SL AV MA ST ER H7609 E The following sections include additional procedures for using Flash memory and Flash memory cards.
Chapter 4 Performing a Basic Configuration of the System Using the Flash Memory Cards in the RSPs Formatting a Flash Memory Card A Flash memory card that shipped with your chassis contains the Cisco IOS software image you need to boot your router. You do not need to reformat it. In some cases, you might need to insert a new Flash memory card and copy images or back up configuration files onto it. Flash memory cards shipped as spare parts are shipped unformatted and blank.
Chapter 4 Performing a Basic Configuration of the System Using the Flash Memory Cards in the RSPs Copying Files to Flash Memory You might need to copy a new image file to Flash memory whenever a new Cisco IOS software release or maintenance release becomes available. Caution You cannot copy a new image into Flash memory while the system is running from Flash memory. We recommend that you upgrade Cisco IOS software images in Flash memory one at a time; do not delete all known-good images at one time.
Chapter 4 Performing a Basic Configuration of the System Using the Flash Memory Cards in the RSPs Enabling Booting from Flash Memory To enable booting from Flash memory, set configuration register bits 3, 2, 1, and 0 to a value between 2 and 15 in conjunction with the boot system flash device:filename configuration command, where device is bootflash:, slot0:, or slot1:, and filename is the name of the file from which you want to boot the system.
Chapter 4 Performing a Basic Configuration of the System Using the Flash Memory Cards in the RSPs Files that are deleted are marked as deleted, but still occupy space in Flash memory. The squeeze command removes them permanently and pushes all other undeleted files together to eliminate spaces between them.
Chapter 4 Performing a Basic Configuration of the System Using the Flash Memory Cards in the RSPs • You know the filename of the image you want to copy into the Flash memory card. Following is the procedure for copying a bootable file (called new.image) into the Flash memory card: Step 1 Boot the router and allow it to initialize.
Chapter 4 Performing a Basic Configuration of the System Using the Flash Memory Cards in the RSPs • The bootable image in onboard Flash memory is image.boot. You will copy the new image from the new Flash memory card onto the Flash memory card that contains the old image. Note The scenario assumes that the new image will fit on the Flash memory card in slot 0, alongside the old image.
Chapter 4 Performing a Basic Configuration of the System Using the Flash Memory Cards in the RSPs Copying Files Between RSP Memory and a Flash Memory Card Copying a configuration file to a Flash memory card in PC Card slot 0 or slot 1 might be required if you do not have access to a TFTP server on which you can temporarily store your configuration file. You can then copy the configuration file back to NVRAM at any time.
Chapter 4 Performing a Basic Configuration of the System Using the Flash Memory Cards in the RSPs 4 5 6176844 1186 Jul 11 1996 23:04:10 rsp-jv-mz.111-472 Jul 12 1996 16:56:50 myfile2 9197156 bytes available (11381148 bytes used) Router# This completes the procedure for copying files between RSP NVRAM and a Flash memory card.
Chapter 4 Performing a Basic Configuration of the System If You Need More Configuration Information Router# copy slot0:myfile startup-config [ok] Router# To ensure that the startup configuration file, now stored in NVRAM, is the default running configuration file used by the system, issue the copy startup-config running-config command as follows: Router# copy startup-config running-config Router# %SYS-5-CONFIG_I: Configured from memory by console Router# This completes the procedure for copying a confi
Chapter 4 Performing a Basic Configuration of the System If You Need More Configuration Information • For systems with Cisco IOS Release 11.2(1) or a later release of 11.
Chapter 4 Performing a Basic Configuration of the System If You Need More Configuration Information Cisco 7500 Series Installation and Configuration Guide 4-34 OL-5008-03 B0
C H A P T E R 5 Maintaining Your Cisco 7505 Router Your Cisco 7505 router is configured to your order and is ready for installation and startup when it leaves the factory. After you install and configure your Cisco 7505 router, you might have to perform specific maintenance procedures and operations to ensure that the router is operating properly, to upgrade specific system components, or to replace components with spare parts or field-replaceable units (FRUs).
Chapter 5 Maintaining Your Cisco 7505 Router Tools Required for Maintenance Procedures Tools Required for Maintenance Procedures You need the following tools to replace any one of the Cisco 7505 internal spares: • 3/16-inch flat-blade or number 1 Phillips screwdriver to loosen the captive screws on the chassis cover panel and the DC-input terminal connections on the DC-input power supply • Number 1 Phillips screwdriver for the power harness cover • Number 2 Phillips screwdriver for the M4 Phillips s
Chapter 5 Maintaining Your Cisco 7505 Router Maintenance Procedures for the Cisco 7505 Maintenance Procedures for the Cisco 7505 The specific maintenance procedures for your Cisco 7505 router are described in the following sections: Warning • Removing and Replacing the Cisco 7505 Cover Panel, page 5-3 • Removing and Replacing the Cisco 7505 Fan Tray, page 5-5 • Removing and Replacing the Cisco 7505 Power Harness Cover, page 5-7 • Removing and Replacing the Cisco 7505 Backplane Cover, page 5-9 •
Chapter 5 Maintaining Your Cisco 7505 Router Maintenance Procedures for the Cisco 7505 Use the following procedure to remove the chassis cover panel: Removing and Replacing the Cisco 7505 Cover Panel H2869 Figure 5-1 Captive screws Step 1 Use a 3/16-inch flat-blade screwdriver to loosen the two captive screws on the front of the cover panel. Step 2 Pull the top of the panel out about 3 inches (7.62 cm); then grasp the sides of the panel and pull it upward and away from the chassis.
Chapter 5 Maintaining Your Cisco 7505 Router Maintenance Procedures for the Cisco 7505 Removing and Replacing the Cisco 7505 Fan Tray The fans on the fan tray provide cooling air to the internal system components. If the system detects that a fan has failed, it will display a 2-minute warning and then shut down the system until all of the fans are operational. Note You cannot replace individual fans; if a fan fails, you must replace the entire fan tray assembly.
Chapter 5 Maintaining Your Cisco 7505 Router Maintenance Procedures for the Cisco 7505 Figure 5-3 Fan Tray Tracks and Guides in the Cisco 7505 L-bracket Fan tray, side view Fan tray, side view Card cage Chassis enclosure Bottom runner H2870 Track Warning Before working on the chassis or near power supplies, disconnect the power cable on AC units or disconnect the power at the circuit breaker on DC units.
Chapter 5 Maintaining Your Cisco 7505 Router Maintenance Procedures for the Cisco 7505 Use the following procedure to replace the fan tray: Step 1 Replace the fan tray. Hold the fan tray assembly in the position shown in Figure 5-2. Keep the tray as straight as possible, or you might have trouble inserting it into the chassis. Note Before inserting the fan tray, compare the hardware inside the chassis to Figure 5-3. The runner on the bottom of the fan tray has to slide along in the track on the floor.
Chapter 5 Maintaining Your Cisco 7505 Router Maintenance Procedures for the Cisco 7505 Removing the Cisco 7505 Power Harness Cover H2867 Figure 5-4 Removing power harness cover Power harness cover Arbiter/chassis interface board cover Power supply Fan tray Step 3 Remove the M3 screw that secures the top of the harness cover to the backplane using a number 1 Phillips screwdriver. (See the cutaway in Figure 5-4.
Chapter 5 Maintaining Your Cisco 7505 Router Maintenance Procedures for the Cisco 7505 Removing and Replacing the Cisco 7505 Backplane Cover The backplane cover provides EMI and ground protection for the backplane, the arbiter, and the chassis interface (CI). To access the CI, you must remove the backplane cover using number 1 and number 2 Phillips screwdrivers. Following is the procedure for removing and replacing the backplane cover.
Chapter 5 Maintaining Your Cisco 7505 Router Maintenance Procedures for the Cisco 7505 Figure 5-5 Removing and Replacing the Cisco 7505 Backplane Cover Six 10-mm M3 screws on top, five on bottom Guide pin hole Four 20-mm M3 screws Guide pin hole H2872 Two 10-mm M3 screws each side Four 20-mm M3 screws Note See the appropriate sections depending on the replacement procedures you need to perform. Then, to replace the backplane cover, proceed to the following procedure.
Chapter 5 Maintaining Your Cisco 7505 Router Maintenance Procedures for the Cisco 7505 Step 7 Replace the power harness cover. (Follow Step 1 through Step 5 in the procedure for replacing the power harness cover in the “Removing and Replacing the Cisco 7505 Power Harness Cover” section on page 5-7.) Step 8 Replace the cover panel. (Follow Step 1 through Step 4 in the procedure for replacing the cover panel in the “Removing and Replacing the Cisco 7505 Cover Panel” section on page 5-3.
Chapter 5 Maintaining Your Cisco 7505 Router Maintenance Procedures for the Cisco 7505 Figure 5-7 Removing and Replacing the CI (Cisco 7505) H2874 Chassis interface standoffs (4) Step 4 Place the CI in an antistatic bag. Use the following procedure to replace the CI: Step 1 Attach an ESD-preventive strap (your own or the one supplied with the FRU) between you and an unpainted chassis surface.
Chapter 5 Maintaining Your Cisco 7505 Router Maintenance Procedures for the Cisco 7505 Removing and Replacing the Cisco 7505 Power Supply The power supply rests on the floor of the chassis under the card cage and backplane. To remove the power supply, you must remove the chassis access cover at the noninterface processor end of the router, remove the power harness cover, and disconnect the harness from the backplane receptacle. Always pull the harness out by the connector, not by the wires.
Chapter 5 Maintaining Your Cisco 7505 Router Maintenance Procedures for the Cisco 7505 Figure 5-9 Removing and Replacing the Cisco 7505 Power Supply Power supply ears a Power harness Phillips screws (2 places) b Backplane power receptacle H9767 Removing/replacing power supply c Handling the power supply Step 5 Disconnect the power harness plug from the backplane receptacle by pulling the polarized plug out of the receptacle; do not pull on the wires. (See Figure 5-9a.
Chapter 5 Maintaining Your Cisco 7505 Router Maintenance Procedures for the Cisco 7505 Use the following procedure to replace the power supply: Step 1 Warning Before inserting a power supply, remove the cable retention clip from the AC receptacle on the power supply, otherwise it can catch on the floor of the chassis during the installation. Pinch the sides of the clip together until they clear the jackscrews. See Figure 5-8.
Chapter 5 Maintaining Your Cisco 7505 Router Maintenance Procedures for the Cisco 7505 Cisco 7500 Series Installation and Configuration Guide 5-16 OL-5008-03 B0
C H A P T E R 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Your Cisco 7507 or Cisco 7507-MX router is configured to your order and is ready for installation and startup when it leaves the factory. After you install and configure your router, you might have to perform specific maintenance procedures and operations to ensure that the router is operating properly, to upgrade specific system components, or to replace components with spare parts or field-replaceable units (FRUs).
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Tools Required for Maintenance Procedures Note Interface processor-specific configuration information is included in the companion Interface Processor Installation and Configuration Guide, which shipped with your Cisco 7507 or Cisco 7507-MX router, as well as in the individual configuration notes that shipped with your spare interface processors.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX The specific maintenance procedures for your Cisco 7507 or Cisco 7507-MX router are described in the following sections: • Removing Cisco 7507 and Cisco 7507-MX Power Supplies, page 6-3 To install power supplies in the Cisco 7507 or Cisco 7507-MX, see the “Installing Cisco 7507 and Cisco 7507-MX Power Supplies” section on pa
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Figure 6-1 Power Supply Interlock (Cisco 7507 and Cisco 7507-MX AC-Input Power Supply Shown) I H1315a O Cable-retention clip Safety interlock switch Locking device in ON and locked positions Step 3 Disconnect the power cable from the power source. Step 4 For the AC-input power supply: Lift up the cable retention clip and remove the power cable from the AC receptacle.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Figure 6-3 Power Supply Captive Installation Screw (Cisco 7507 and Cisco 7507-MX AC-Input Power Supply Shown) Captive installation screw DC DC IL FA POW AC WE IL FA C PO A ER R LEDs Power supply front panel AC power receptacle I On/off switch Step 6 Warning H1314a O Locking device Grasp the power supply handle with one hand and place your other hand underneath to supp
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Step 8 Note If the power supply bay is to remain empty, install a power-supply filler plate over the opening and secure it with a mounting screw. This protects the inner chassis and the connectors in the rear of the bay from dust and exposed current levels when the chassis is powered on.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Figure 6-5 Removing the Cisco 7507 and Cisco 7507-MX Bottom Front Panel . LOWER POWER NORMAL H3132 UPPER POWER Step 2 On the top front panel, use a number 1 Phillips or a 3/16-inch flat-blade screwdriver to loosen the two captive screws at the bottom edge of the panel frame. (See Figure 6-6.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Figure 6-6 Removing the Cisco 7507 and Cisco 7507-MX Top Front Panel a b LOWER POWER NORMAL UPPER POWER LOWER POWER NORMAL H3133 UPPER POWER Step 3 Place one hand against the top front center of the panel to brace it. (See Figure 6-6a.) The top of the panel acts as a pivot point when you pull the bottom out and away from the chassis.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Step 4 Push the panel upward to push the tabs into the slots and pivot the bottom of the panel toward the chassis until the panel frame meets the chassis. Maintain a steady upward pressure to keep the guide tabs in the chassis slots.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Cleaning and Replacing the Cisco 7507 and Cisco 7507-MX Air Filter In the Cisco 7507 and Cisco 7507-MX, the air filter removes dust from the air drawn in by the blower. The edges of the air filter fit into the lower frame of the top front chassis panel. You should remove and vacuum the air filter at least once every 2 weeks, or more often in unusually dusty environments.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Replacing Cisco 7507 and Cisco 7507-MX Internal Components The replaceable internal components in the Cisco 7507 and Cisco 7507-MX are accessible by removing the top and bottom front chassis panels. Always turn off the system power before removing the chassis top front panel.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Warning Before working on a chassis or working near power supplies, unplug the power cord on AC units; disconnect the power at the circuit breaker on DC units. Removing and Replacing the Chassis Interface in the Cisco 7507 and Cisco 7507-MX The chassis interface (CI) (shown in Figure 6-9) provides environmental monitoring and logic functions for the Cisco 7507 and Cisco 7507-MX.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Use the following procedure to replace the CI: Step 1 Attach an ESD-preventive strap (your own or the one supplied with the FRU) between you and an unpainted chassis surface. Step 2 Position the CI in the vertical orientation shown in Figure 6-8, with the connector along the edge of the CI facing the CI backplane connector.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Figure 6-10 LED Board (Cisco 7507 and Cisco 7507-MX) LED board spring Backplane connector LED board LED board brackets LEDs Caution H1387a Board locking pin To avoid damage from ESD, handle the LED board by the edges only. Step 5 Grasp the edges of the board and place a finger on the top of the LED board spring to depress it.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX This completes the LED board installation procedure. Use the following procedure to verify that the new LED board is installed correctly: Step 1 Turn on the power switches on all installed power supplies. Step 2 After the system boots successfully, verify that the normal LED goes on. If it does not, do the following: Step 3 Step 4 a. Check the normal LED on the RSP.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Figure 6-11 Chassis Blower (Cisco 7507 and Cisco 7507-MX) Blower power connection Purple (+24V) Black (ground) H1386a Blower Captive Allen-head screws Warning Before working on a chassis or working near power supplies, unplug the power cord on AC units; disconnect the power at the circuit breaker on DC units.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Figure 6-12 Blower Power Connection (Cisco 7507 and Cisco 7507-MX) Backplane Blower power connection Black (ground) H1385a Purple (+24V) Blower Step 4 Disconnect the blower 24V DC power connector from the backplane by pinching the sides of the connector inward and pulling the connector out and away from the backplane.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Use the following procedure to install a new chassis blower assembly: Step 1 Warning Ensure that the power supplies are turned off. Before working on a chassis or working near power supplies, unplug the power cord on AC units; disconnect the power at the circuit breaker on DC units.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Step 2 Step 3 Listen for the blower; you should immediately hear it operating. In a noisy environment, it might not be possible to hear the blower operating. If this is the case, place your hand near the exhaust vent and feel for air coming from the vent. If you do not hear the blower or feel any air coming from the exhaust vent, turn off the system power and do the following: a.
Chapter 6 Maintaining Your Cisco 7507 and Cisco 7507-MX Router Maintenance Procedures for the Cisco 7507 and Cisco 7507-MX Cisco 7500 Series Installation and Configuration Guide 6-20 OL-5008-03 B0
C H A P T E R 7 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Your Cisco 7513, Cisco 7513-MX, or Cisco 7576 router is configured to your order and is ready for installation and startup when it leaves the factory.
Chapter 7 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Tools Required for Maintenance Procedures Note Interface processor-specific configuration information is included in the companion Interface Processor Installation and Configuration Guide, which shipped with your Cisco 7513, Cisco 7513-MX, or Cisco 7576 router, as well as in the individual configuration notes that shipped with your spare interface processors.
Chapter 7 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Warning • Removing and Replacing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Chassis Cover Panels, page 7-11 • Removing and Replacing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Backplane Maintenance Cover, page 7-13 • Removing and Replacing the Chassis Interface in the Cisco 7513, Cisco 7513-MX, and Cisco 7576, page 7-14 Before working on a system
Chapter 7 Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Step 3 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Use a flat-blade screwdriver to loosen the captive screw that secures the power supply to the chassis frame.
Chapter 7 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Power Supply Blank (Cisco 7513, Cisco 7513-MX, and Cisco 7576) H3539 Figure 7-3 Captive screw This completes the power supply removal procedure. For the procedure for installing power supplies in the Cisco 7513, Cisco 7513-MX, and Cisco 7576, see the “Installing Cisco 7513, Cisco 7513-MX, and Cisco 7576 Power Supplies” section on page 3-27.
Chapter 7 Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Figure 7-4 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Removing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Card Cage Assembly Captive screw Captive screw Card cage side flange Card cage side flange Captive screw Captive screw Air intake grill POWER A POWER H3096 B Caution Unless the chassis is mounted in a rack, or otherwise anchored, the chassis might move toward you when you pull the ca
Chapter 7 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Note If you plan to replace your existing card cage assembly with a new one, you must first perform the procedure in the “Exchanging the EEPROM Devices” section on page 7-7 before you install your new card cage assembly.
Chapter 7 Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Figure 7-5 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Location of the EEPROM Device on the Rear of the Card Cage (Cisco 7513 and Cisco 7513-MX) H8818 Chassis interface board EEPROM device Pin 1 Figure 7-6 Location of the EEPROM Devices on the Rear of the Card Cage (Cisco 7576) EEPROM B Chassis interface board A 15271 Chassis interface board B EEPROM A EEPROM device Pin 1 Step 5 Remove the o
Chapter 7 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Installing the Card Cage Assembly Use the following procedure to install the card cage assembly. Caution The electronic components on the rear of the backplane are completely exposed when the card cage and backplane assembly is removed from the chassis. To prevent damaging these components, carefully slide the assembly into the chassis opening.
Chapter 7 Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Removing and Replacing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Blower Module In the Cisco 7513, Cisco 7513-MX, and Cisco 7576, the blower provides cooling air to the internal system components. When you view the chassis from the noninterface processor end, the blower module is located above the card cage. (See Figure 1-11.
Chapter 7 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Step 4 When the blower is all the way into the chassis opening, tighten the captive installation screws on the front of the blower module. This completes the blower module removal and replacement procedure.
Chapter 7 Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Figure 7-9 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Removing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Cover Panels POWER B NORMAL H9728 POWER A Step 3 Starting with the bottom cover panel, replace the cover panels by aligning the pins on the bottom panel with the holes in the chassis and pushing the panel against the chassis. Repeat this for the top panel.
Chapter 7 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Figure 7-10 Replacing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Cover Panels POWER B NORMAL H9727 POWER A Removing and Replacing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Backplane Maintenance Cover The backplane maintenance cover provides EMI and ground protection for the chassis interior.
Chapter 7 Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Figure 7-11 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Removing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Backplane Maintenance Cover H3097 Loosen these screws (10) Step 3 Note Carefully guide the cover up and away from the chassis. See the appropriate sections depending on the replacement procedures you need to perform. Then, to replace the maintenance cover, proceed to Step 4.
Chapter 7 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Figure 7-12 Cisco 7500 Series Chassis Interface Standoff screw holes H2877 Standoff screw holes Chassis interface The CI is a printed circuit board mounted to the noninterface processor side of the backplane, behind the backplane maintenance cover. The Cisco 7513 and Cisco 7513-MX have one dual arbiter and one chassis interface.
Chapter 7 Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Figure 7-14 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Location of the CIs with Maintenance Cover Removed (Cisco 7576 shown) Dual arbiters B B A 14866 Chassis interfaces A Note When you view the rear of the card cage, the dual arbiter and chassis interface on the right side are used with router A, and the dual arbiter and chassis interface on the left side are used with router B.
Chapter 7 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Step 4 Grasp the edges of the CI (as shown in Figure 7-15 for the Cisco 7513 and Cisco 7513-MX, and Figure 7-16 for the Cisco 7576) and pull it away from the backplane, up and out from behind the chassis panel. If necessary, gently rock the CI from side to side very slightly to dislodge its connector pins from the backplane connector.
Chapter 7 Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Figure 7-16 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Removing and Replacing the Cisco 7576 CI (Cutaway View) 14870 Chassis interface standoffs (4) Step 5 Place the CI in an antistatic bag. This completes the CI removal procedure. Use the following procedure to replace the CI: Step 1 Attach an ESD-preventive strap between you and an unpainted chassis surface.
Chapter 7 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Step 5 Replace the backplane maintenance cover. (Follow Step 4 and Step 5 in the “Removing and Replacing the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Backplane Maintenance Cover” section on page 7-13.) Step 6 Replace the chassis cover panels.
Chapter 7 Maintenance Procedures for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Maintaining Your Cisco 7513, Cisco 7513-MX, and Cisco 7576 Router Cisco 7500 Series Installation and Configuration Guide 7-20 OL-5008-03 B0
C H A P T E R 8 Troubleshooting a Cisco 7500 Series Router Your Cisco 7500 series router went through extensive testing and burn-in before leaving the factory; however, if you encounter problems starting up the router, use the information in this chapter to help isolate the cause. Problems with the initial startup will most likely be caused by the source power or a processor module that has become dislodged from the backplane.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Overview REVIEW DRAFT—CISCO CONFIDENTIAL The following sections pertain to all of the Cisco 7500 series routers.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Problem Solving with Cisco 7500 Series Subsystems REVIEW DRAFT—CISCO CONFIDENTIAL Problem Solving with Cisco 7500 Series Subsystems The key to solving problems in the system is to try to isolate the problem to a specific subsystem. The first step in solving startup problems is to compare what the system is doing to what it should be doing.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Guidelines for the Cisco 7505 REVIEW DRAFT—CISCO CONFIDENTIAL Troubleshooting Guidelines for the Cisco 7505 Figure 8-1 shows the general troubleshooting strategy for the Cisco 7505. Refer to this chart to isolate problems and resolve a problem, if possible.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Guidelines for the Cisco 7505 REVIEW DRAFT—CISCO CONFIDENTIAL When you start up the system by turning on the main system power switch on the interface processor end of the power supply, the following should occur: • The DC OK LED should go on immediately and should remain on as long as the system is receiving source power and the power switch is in the on (|) position.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Guidelines for the Cisco 7505 REVIEW DRAFT—CISCO CONFIDENTIAL – If the DC OK LED is on but the fans are not operating, there is a problem with the fan tray or with one of the fans. (The system will shut itself down if it detects that any of the fans are not functioning properly.) Proceed to the “Troubleshooting the Cisco 7505 Cooling Subsystem” section on page 8-7.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Guidelines for the Cisco 7505 REVIEW DRAFT—CISCO CONFIDENTIAL Troubleshooting the Cisco 7505 Power Subsystem This section provides information on troubleshooting the Cisco 7505 power subsystem. Check the following to help isolate the problem: On the interface processor end of the power supply, is the DC OK LED on? • If yes, the AC or DC source is good, and the power supply is functional.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Guidelines for the Cisco 7507 and Cisco 7507-MX REVIEW DRAFT—CISCO CONFIDENTIAL – If no and the DC OK LED is on, ensure that the fan tray is seated properly. See the “Removing and Replacing the Cisco 7505 Fan Tray” section on page 5-5 to remove and reseat the fan tray. Ensure that the fan control board edge connector is inserted fully in the backplane socket. After you replace the chassis cover panel, try starting the system again.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Guidelines for the Cisco 7507 and Cisco 7507-MX REVIEW DRAFT—CISCO CONFIDENTIAL Figure 8-2 Troubleshooting Strategy for Cisco 7507 and Cisco 7507-MX Startup Problems AC or DC OK LED on ? Turn on system power No Troubleshoot power subsystem Yes Blower operating ? AC or DC OK LED on ? No Yes No Reseat blower and restart Blower operating ? No Yes Yes Check system state with RSP LEDs RSP LEDs OK No RSP LEDs OK ? Reseat RS
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Guidelines for the Cisco 7507 and Cisco 7507-MX REVIEW DRAFT—CISCO CONFIDENTIAL • The power supply LEDs located on each power supply in the rear of the chassis, and the upper power and lower power LEDs on the front of the chassis, should come on as follows: – The green AC power LED on the AC-input power supply (or the green input power LED on the DC-input power supply) should come on immediately when you turn the power supply switch t
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Guidelines for the Cisco 7507 and Cisco 7507-MX REVIEW DRAFT—CISCO CONFIDENTIAL – If the AC power (or input power) and DC fail (or out fail) LEDs both remain off and the switch is correctly set, suspect the power source or the power cable. Turn the switch off, connect the power cable to another power source if available, and turn the switch back on. If the LED then comes on, the problem is the first power source.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Guidelines for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL unlikely at initial startup, ensure that heated exhaust air from other equipment is not entering the inlet vents, and that there is sufficient clearance around the sides of the chassis to allow cooling air to flow. See the “Cisco 7507 and Cisco 7507-MX Airflow Considerations” section on page 2-14 for preventive site configurations.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Guidelines for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL Identifying Cisco 7513, Cisco 7513-MX, and Cisco 7576 Startup Problems When you start up the router for the first time, you should observe the startup sequence described in the “Starting the System and Observing Initial Conditions” section on page 4-2.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Guidelines for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL – If the AC (or DC) OK LED goes on and the system starts up as expected but then displays the following message and shuts down after 2 minutes, there is a problem with the blower. Proceed to the “Troubleshooting the Cisco 7513, Cisco 7513-MX, and Cisco 7576 Cooling Subsystem” section on page 8-16.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Guidelines for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL RSP2 processor with 16384 Kbytes of memory (additional text omitted from this example) F3: 2012356+47852+194864 at 0x1000 Restricted Rights Legend Use, duplication, or disclosure by the Government is subject to restrictions as set forth in subparagraph (c) of the Commercial Computer Software - Restricted Rights clause at FAR sec. 52.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Guidelines for the Cisco 7513, Cisco 7513-MX, and Cisco 7576 REVIEW DRAFT—CISCO CONFIDENTIAL If you are unable to resolve the problem or if you determine that either the power supply or power cable is faulty, contact a service representative for instructions.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting Blower Operation REVIEW DRAFT—CISCO CONFIDENTIAL This message could also indicate a faulty component or temperature sensor. Before the system shuts down, use the show environment or show environment table commands to display the internal chassis environment. (For detailed descriptions of show commands, see the “Cisco 7513 and Cisco 7513-MX Environmental show Command Examples” section on page 2-31.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Troubleshooting the Cisco 7500 Series Processor Subsystem REVIEW DRAFT—CISCO CONFIDENTIAL Troubleshooting the Cisco 7500 Series Processor Subsystem The Cisco 7500 series processor subsystem comprises the RSPs and interface processors. The RSPs are required system components in the Cisco 7500 series.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Using Cisco 7500 Series System LEDs REVIEW DRAFT—CISCO CONFIDENTIAL Troubleshooting the Interface Processors This section provides information on troubleshooting the interface processors. Check the following to help isolate the problem: • Are all interface processor enabled LEDs on? If yes, the system is operational. Proceed to the instructions for configuring the interfaces in the appropriate software documentation.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Using Cisco 7500 Series System LEDs REVIEW DRAFT—CISCO CONFIDENTIAL Cisco 7507 and Cisco 7507-MX LEDs Three system status LEDs on the front of the Cisco 7507 and Cisco 7507-MX (see Figure 8-4) indicate the status of the system and the power supplies. The normal LED goes on to indicate that the system is in a normal operating state.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Using Cisco 7500 Series System LEDs REVIEW DRAFT—CISCO CONFIDENTIAL Note The Cisco 7576 features two routers on one backplane. These are identified as router A and router B. These designations have no relationship to the power bays that are identified as power A and power B. The power LEDs go out if the power supply in the corresponding bay reaches an out-of-tolerance temperature or voltage condition.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Using Cisco 7500 Series System LEDs REVIEW DRAFT—CISCO CONFIDENTIAL Caution Note The reset switch resets the RSP2 and the entire system. To prevent system errors and problems, use it only at the direction of your service representative. The function of the master/slave switch, not available with the first release of the RSP2, allows you to designate which RSP2 acts as the system master and which as the slave.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Using Cisco 7500 Series System LEDs REVIEW DRAFT—CISCO CONFIDENTIAL Using the Power Supply LEDs This section describes the indications of the LEDs on the Cisco 7500 series power supplies.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Using Cisco 7500 Series System LEDs REVIEW DRAFT—CISCO CONFIDENTIAL Figure 8-9 AC-Input Power Supply LEDs (Cisco 7507 and Cisco 7507-MX) Captive installation screw DC R WE IL FA PO DC AC ER IL FA POW AC LEDs Power supply front panel AC power receptacle O On/off switch H1314a I Locking device The DC-input power supply LEDs include the input power LED and the out fail LED. See Figure 8-10.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Using Cisco 7500 Series System LEDs REVIEW DRAFT—CISCO CONFIDENTIAL In systems with a single DC-input power supply, and in systems with redundant power, when both power supplies are shutting down, the out fail LED goes on momentarily as the system ramps down, but goes out when the power supply has completely shut down.
Chapter 8 Troubleshooting a Cisco 7500 Series Router Additional Reference Information for Troubleshooting REVIEW DRAFT—CISCO CONFIDENTIAL Figure 8-12 DC-Input Power Supply LEDs (Cisco 7513, Cisco 7513-MX, and Cisco 7576) For the DC-input power supply DC FAN OUTPUT OK DC FAN OUTPUT OK OK OK FAIL FAIL I H4285 0 In systems with a single power supply, and in systems with redundant power when both power supplies are being shut down, the output fail LED lights momentarily as the system ramps dow
C H A P T E R 9 Replacing DRAM on the Route Switch Processor This chapter describes the procedures for upgrading or replacing dynamic random-access memory (DRAM) on each of the RSPs used in the Cisco 7500 series routers. The RSP2 uses DRAM single in-line memory modules (SIMMS), and the RSP4 and RSP8 use DRAM dual in-line memory modules (DIMMS).
Chapter 9 Replacing DRAM on the Route Switch Processor Upgrading or Replacing DRAM SIMMs on the RSP2 The system DRAM resides in up to four SIMM sockets in two memory banks, 0 and 1. The DRAM SIMM sockets are U21 and U33 for bank 0, and U4 and U12 for bank 1. (See Figure 9-1.) The default DRAM configuration is 16 MB (two 8-MB SIMMs in bank 0). The total number of memory devices per SIMM differs for each manufacturer.
Chapter 9 Replacing DRAM on the Route Switch Processor Upgrading or Replacing DRAM SIMMs on the RSP2 Removing RSP2 SIMMs This section describes the procedure for removing RSP2 SIMMs. Caution To prevent ESD damage, handle SIMMs by the card edges only. Figure 9-2 Releasing the RSP2 SIMM Spring Clips Faceplate edge of the system card Pull the tabs away with your thumbs, bracing your forefingers against the posts. Raise the SIMM to a vertical position.
Chapter 9 Replacing DRAM on the Route Switch Processor Upgrading or Replacing DRAM SIMMs on the RSP2 Step 6 Place the SIMM in an antistatic bag to protect it from ESD damage. You can use the SIMMs that you remove in compatible equipment. Step 7 Repeat Step 4 through Step 6 for the remaining SIMMs, as required for your upgrade. This completes the SIMM removal procedure. Proceed to the next section to install the new SIMMs.
Chapter 9 Replacing DRAM on the Route Switch Processor Upgrading or Replacing DRAM DIMMs on the RSP4 and RSP8 Step 7 When all SIMMs are installed, check all alignment holes (two on each SIMM) to ensure that the spring retainer is visible. If it is not, the SIMM is not seated properly. If any SIMM appears misaligned, carefully remove it and reseat it in the socket. Push the SIMM firmly back into the socket until the retainer springs snap into place. Step 8 Replace the RSP2.
Chapter 9 Replacing DRAM on the Route Switch Processor Upgrading or Replacing DRAM DIMMs on the RSP4 and RSP8 by your DRAM upgrade requirements, or to the Cisco part numbers on the DIMMs. DRAM upgrades require the removal of the RSP4 or RSP8, so plan your DRAM upgrade to minimize your system downtime.
Chapter 9 Replacing DRAM on the Route Switch Processor Upgrading or Replacing DRAM DIMMs on the RSP4 and RSP8 Figure 9-5 RSP8 DRAM DIMM Locations 2 1 3 MAL NOR U15 H7188 9 U12 T1 SLO T0 SLO U7 AUX RO 8 SOLE CON 7 UT ES WIT CH PR OC ES SO R1 6 6 4 5 Note Caution 1 MEMD SRAM 6 Flash EPROM (ROMmon) 2 Bus connectors 7 Auxiliary port 3 CPU 8 Flash memory SIMM holder 4 DRAM DIMMs (bank 0: bottom) DRAM DIMMs (bank 1: top) 9 PC Card slot 0: bottom PC Card slot 1: top (f
Chapter 9 Replacing DRAM on the Route Switch Processor Upgrading or Replacing DRAM DIMMs on the RSP4 and RSP8 Note Depending on your router configuration and the protocols and features your system is running, you might require more than the 32 MB of default DRAM for your RSP4, and more than the 64 MB of default DRAM for your RSP8. Upgrade your system DRAM based on your current configuration, this potential requirement, and the information in Table 9-2 and Table 9-3.
Chapter 9 Replacing DRAM on the Route Switch Processor Upgrading or Replacing DRAM DIMMs on the RSP4 and RSP8 Removing RSP4 and RSP8 DIMMs This section describes the procedure for removing RSP4 and RSP8 DIMMs. If you are upgrading from 64 MB to 256 MB, you must replace both DRAM DIMMs; therefore, the following procedure is required; however, this procedure is not required if you want to add one DIMM to a DRAM configuration that uses only one DIMM.
Chapter 9 Replacing DRAM on the Route Switch Processor Upgrading or Replacing DRAM DIMMs on the RSP4 and RSP8 Installing New RSP4 or RSP8 DIMMs This section describes the procedure for installing new RSP4 or RSP8 DIMMs. Note If you are upgrading from 32 MB to 64 MB or from 128 MB to 256 MB, you need to add one DRAM DIMM to U13 (RSP4), or U15 (RSP8); therefore, the following procedure is required.
Chapter 9 Replacing DRAM on the Route Switch Processor Upgrading or Replacing DRAM DIMMs on the RSP4 and RSP8 Installing an RSP4 or RSP8 DRAM DIMM in the Socket H6512 Figure 9-8 Step 7 When the DIMM is installed, check that the release lever is flush against the side of the DIMM socket. If it is not, the DIMM might not be seated properly. If the DIMM appears misaligned, carefully remove it according to the removal procedure, and reseat it in the socket.
Chapter 9 Replacing DRAM on the Route Switch Processor Upgrading or Replacing DRAM DIMMs on the RSP4 and RSP8 Cisco 7500 Series Installation and Configuration Guide 9-12 OL-5008-03 B0
A P P E N D I X A Configuration Register Information The following information is found in this appendix: • Configuration Bit Meanings, page A-1 • Displaying the Configuration Register While Running Cisco IOS, page A-5 • Displaying the Configuration Register While Running ROM Monitor, page A-5 • Setting the Configuration Register While Running Cisco IOS, page A-6 • Setting the Configuration Register While Running ROM Monitor, page A-6 Configuration Bit Meanings Use the processor configuration re
Appendix A Configuration Register Information Configuration Bit Meanings Table A-1 Configuration Register Bit Settings (continued) Bit No. Hex Meaning 11–12 0x800–0x1000 Console line speed 13 0x2000 Boots default ROM software if initial boot fails 14 0x4000 IP broadcasts do not have network numbers 15 0x8000 Enables diagnostic messages and ignores NVRAM contents Bits 0–3 The lowest four bits of the processor configuration register (bits 3, 2, 1, and 0) form the boot field.
Appendix A Configuration Register Information Configuration Bit Meanings in ROMmon. If bit 13 is not set, the router will continue to netboot images indefinitely. The default setting for bit 13 is 0. If bit 13 is set, the system boots the boot helper image found in boot flash memory without any retries. The server creates a default filename as part of the automatic configuration processes.
Appendix A Configuration Register Information Configuration Bit Meanings Bit 8 Bit 8 controls the console Break key. Setting bit 8 (the factory default) causes the processor to ignore the console Break key. Clearing bit 8 causes the processor to interpret Break as a command to force the system into the bootstrap monitor, halting normal operation. A Break can be sent in the first sixty seconds while the system reboots, regardless of the configuration settings.
Appendix A Configuration Register Information Displaying the Configuration Register While Running Cisco IOS Bit 15 Bit 15 enables diagnostic messages and ignores NVRAM contents. Displaying the Configuration Register While Running Cisco IOS The configuration register can be viewed by using the show version or show hardware command. The following is sample output of the show version command. Router# show version Cisco Internetwork Operating System Software IOS (tm) RSP Software (RSP-JSV-M), Version 12.
Appendix A Configuration Register Information Setting the Configuration Register While Running Cisco IOS 09 08 07 06 05 04 03-00 Do not use secondary bootstrap Break disabled OEM disabled Ignore configuration disabled Fast boot disabled Fan boot disabled Boot to ROM monitor If the prompt is “rommon1”, the confreg command displays the virtual configuration register currently in effect. It includes a description of the bits.
Appendix A Configuration Register Information Setting the Configuration Register While Running ROM Monitor enable “ignore system config info”? y/n [n]: change console baud rate? y/n [n]: n change the boot characteristics? y/n [n]:y enter to boot: 0 = ROM Monitor 1 = the boot helper image 2 - 15 = boot system [0]: 2 n Configuration Summary: enabled are: load rom after netboot fails console baud: 9600 boot: image sepcified by the boot system commands or default to: cisco2-c7500 do you wish to change the c
Appendix A Configuration Register Information Setting the Configuration Register While Running ROM Monitor Cisco 7500 Series Installation and Configuration Guide A-8 OL-5008-03 B0
I N D EX Cisco 7513-MX Numerics Cisco 7576 2-minute blower failure shutdown 1-30 airflow See blower, shutdown clearance 2-minute fan failure shutdown for circulation around Cisco 7505 See fan, shutdown 2-post equipment racks 1-24 2-17 for circulation around Cisco 7507 and Cisco 7507-MX 2-19 2-20 for circulation around Cisco 7513, Cisco 7513-MX, and Cisco 7576 2-22 A considerations Cisco 7505 AC-input 2-13 Cisco 7507 and Cisco 7507-MX power supply installation, Cisco 7505 Cisco 7513, Ci
Index Cisco 7513, Cisco 7513-MX, and Cisco 7576 B Break key (interrupt) backplane bus Cisco 7505 1-5 Cisco 7507 1-10 Cisco 7507-MX Cisco 7513 See CyBus 1-14 1-19 Cisco 7513-MX Cisco 7576 C 1-24 cable-management bracket 1-30 Cisco 7505 cover removal Cisco 7505 description, Cisco 7505 power distribution 7-13 banner, system 5-2, 8-5, 8-13 cables Cisco 7505 1-5 Cisco 7507 1-10 Cisco 7507-MX 1-43 Cisco 7513 4-2, 8-6, 8-14 batteries, lithium backup for NVRAM 1-43 Cisco 7513-MX 1-2
Index power supply Cisco 7507 1-6 Cisco 7505 1-6 Cisco 7507-MX Cisco 7507 1-10 Cisco 7513 Cisco 7507-MX Cisco 7513 Cisco 7576 1-19 Cisco 7513-MX Cisco 7576 1-15 Cisco 7513-MX 1-14 1-30 5-13 1-25 Cisco 7505 1-5 Cisco 7507 1-10 safety guidelines 2-3 Cisco 7507-MX swapping power 8-11, 8-15 Cisco 7513 ungrounded and uninsulated Cisco 7576 1-45 card cage assembly replacement, Cisco 7513, Cisco 7513-MX, and Cisco 7576 7-5 CD-ROM, ordering documentation 2-13 Cisco 7505 1-5 Cisco
Index description site environment guidelines 1-52 replacement procedures Flash memory, using system software 5-5 4-20 to 4-32 installation description 1-56 troubleshooting preparation 2-1 to 2-29 cooling subsystem procedures 3-4 to 3-11 guidelines interface processor description maintenance procedures overview 1-54 ?? to 5-14 8-4 to 8-6 2-10 1-50 1-6 to ?? RSP2 2-7 DRAM, upgrading 8-23 9-2 to 9-5 RSP4 5-13 replacement description 5-15 rack-mounting 1-33 to 1-35 RSP4 and R
Index installation LEDs RSP2 3-14 DRAM, upgrading 8-23 removing 9-2 to 9-5 RSP4 air filter description 6-10 blower RSP4 and RSP8 6-15 chassis interface cover panels DRAM, upgrading 6-12 blower 6-13 power supplies 9-5 to 9-11 Cisco 7513, Cisco 7513-MX, and Cisco 7576 6-6 LED board 1-34 to 1-35 replacement 6-3 replacing 7-10 chassis interface air filter replacement 6-10 blower EEPROM exchange, backplane 6-18 chassis interface cover panels procedures 3-19 to 3-31 mainten
Index common RSP features Flash memory, using 1-42 Flash memory, using installation 4-20 to 4-32 preparation installation preparation 1-54 power supply guidelines 2-9 LEDs 3-27 1-47 2-9 8-25 rack-mounting guidelines 8-25 rack-mounting guidelines DRAM, upgrading LEDs LEDs 8-21 RSP4 and RSP8 LEDs 2-12 to 2-35 system software DRAM, upgrading LEDs 8-22 description 8-12 8-15 startup problems 8-13 to 8-14 1-56 requirements 1-30 troubleshooting cooling subsystem 8-20 wiring gu
Index modifications notes Cisco 7507 and Cisco 7507-MX 4-19 Cisco 7513, Cisco 7513-MX, and Cisco 7576 5-1, 6-1, 7-1 register boot field connecting devices to 4-5 to 4-7, A-1 description 4-5, A-2 boot filename pinout 4-6, A-3 broadcast address settings changing settings configuration 4-6, A-4 1-44 4-7 8-6, 8-14 cooling subsystem 4-4 to 4-7 displaying the configuration register while running ROM monitor A-5 setting the configuration register while running Cisco IOS A-6 setting the configur
Index Cisco 7513-MX clock 4-32 DRAM 1-50 description 1-2, 1-5 global lock 1-50 traffic Documentation CD-ROM, ordering 1-23 locations 1-50 See also backplane RSP2 9-1 RSP4 9-6 RSP4 and RSP8 configurations upgrade procedures dual arbiter D 9-8 9-1 to 9-11 1-50 dual CyBus damage from overheating 2-22 data transmission-rate settings dBus description 4-7 1-2 1-4 Cisco 7507 1-8 Cisco 7507-MX DC fail LED on power supply Cisco 7513 See LEDs 1-12 1-17 Cisco 7513-MX DC-input po
Index enable password command environment, site Cisco 7576 4-8 field-replaceable unit 2-12 See FRU environmental displays 1-30 filenames, for booting over the network 2-26 to 2-35 monitor descriptions filter, cleaning, air 2-26 to 2-35 status 6-10 Flash memory Cisco 7505 additional commands 2-27 to 2-29 Cisco 7507 and Cisco 7507-MX 2-29 to 2-31 Cisco 7513, Cisco 7513-MX, and Cisco 7576 2-31 to 2-35, 2-35 to ?? environmental reports 2-26 to ?? ESD 4-26 card installation and removal
Index Cisco 7507 and Cisco 7507-MX H Hall Effect signal Cisco 7513, Cisco 7513-MX, and Cisco 7576 3-27 to 3-29, 7-3 to 7-5 2-29 rack-mounting, Cisco 7505 humidity specifications Cisco 7505 1-6 Cisco 7507 1-10 Cisco 7507-MX Cisco 7513 Cisco 7576 system troubleshooting 3-7 to ?? 8-1 installing backplane cover, Cisco 7505 1-14 5-9 backplane maintenance cover, Cisco 7513, Cisco 7513-MX, and Cisco 7576 7-13 1-19 Cisco 7513-MX 3-14 to 3-19, 6-3 to 6-6 1-24 blower 1-30 Cisco 7507 and Cisco
Index overview power A and power B 1-54 to 1-55 removing and installing in Cisco 7505 8-20 power supply 3-6 removing and installing in Cisco 7507 and Cisco 7507-MX 3-13 Cisco 7505 removing and installing in Cisco 7513, Cisco 7513-MX, and Cisco 7576 3-23 Cisco 7513, Cisco 7513-MX, and Cisco 7576 troubleshooting types 8-23 8-25 8-6, 8-10, 8-14, 8-18 system 1-54 types supported Cisco 7507 and Cisco 7507-MX 1-1 Interior Gateway Routing Protocol, configuring interior routing protocol, setting
Index normal status level, environmental monitor Cisco 7505 PFC all AC-input power supplies 2-24 Cisco 7507 and Cisco 7507-MX Cisco 7505 power supply 2-25, 2-29 Cisco 7513, Cisco 7513-MX, and Cisco 7576 2-25, 2-31, 2-35 number of VIPs supported, 7505 1-3 number of VIPs supported, 7507 1-6 number of VIPs supported, 7507-MX number of VIPs supported, 7513 number of VIPs supported, 7576 1-11 description 1-20 1-25 pinout 1-44 1-45 console pinout 1-43 1-44 1-44 power 1-43 backplane harn
Index service Cisco 7505 3-2 site guidelines specifications status Cisco 7507 and Cisco 7507-MX 2-7 8-5, 8-13 subsystem for troubleshooting LEDs 8-3 Cisco 7505 2-11 8-10 Cisco 7513 and Cisco 7513-MX 8-15 ungrounded Cisco 7505 6-3 to 6-6 Cisco 7513, Cisco 7513-MX, and Cisco 7576 7-3 to 7-5 2-3 1-10, 1-14 safety interlock on Cisco 7507, Cisco 7507-MX, Cisco 7513, Cisco 7513-MX, and Cisco 7576 2-7 8-23 shutdown bays 2-23, 8-23, 8-25, 8-26 specifications Cisco 7507 1-6 Cisco 7507-MX
Index making images bootable using replacing 4-25 Cisco 7505 cover panel 4-20 to 4-32 global parameters, configuring installation Cisco 7505 fan tray 4-12 to 4-15 3-11 to 3-19 Cisco 7513, Cisco 7513-MX, and Cisco 7576 3-24 to 3-31 Cisco 7505 cable-management bracket Cisco 7505 power supplies 3-9 5-13 to 5-14 Cisco 7507 and Cisco 7507-MX power supplies 3-14 to 3-19 Cisco 7513, Cisco 7513-MX, and Cisco 7576 cable-management bracket 3-26 Cisco 7513, Cisco 7513-MX, and Cisco 7576 power supplies 3-2
Index DRAM R location rack 9-6 system CPU recommendations, Cisco 7505 2-16 Y-cables recommendations, Cisco 7507 and Cisco 7507-MX 2-18 3.
Index System Configuration Dialog (example) using Cisco 7513, Cisco 7513-MX, and Cisco 7576 4-13 blower module 4-12 show environment command show version command card cage assembly 2-26, 2-28 show environment table command chassis interface 2-27, 2-29, 2-32, 2-35 4-7 shutdown blower failure 2-31, 2-35 environmental 2-22, 8-8, 8-16, 8-17 fan failure processor SIMM 2-23, 8-23, 8-25 7-3 spares definition 1-3 2-13 Cisco 7505 1-5 Cisco 7507 1-10 Cisco 7507-MX Cisco 7513 2-22 Simple N
Index Cisco 7576 1-30 weight Cisco 7505 1-5 Cisco 7507 1-10 Cisco 7505 1-5 Cisco 7507-MX Cisco 7507 1-10 Cisco 7513 Cisco 7507-MX Cisco 7513 startup, system Cisco 7576 1-19 Cisco 7576 startup 1-24 2-28, 2-32 8-1 to 8-26 T telco-type equipment racks 8-17 switch, emergency power telephone jacks 2-3 synchronous serial interfaces, configuring 2-3 internal chassis operating 1-4 booting for the first time sensors 4-8 settings 1-19, 1-24, 1-30 4-4 to 4-7 2-28, 2-30, 2-33, 2-36
Index traffic on CyBus 1-50 V transmission rate settings A-4 vacuuming, air filter troubleshooting cooling subsystem installation ventilation, rack 8-17 6-10 2-15 vibration specifications, system 8-1 2-13 voltage power Cisco 7505 out-of-tolerance condition, description of 8-7 Cisco 7507 and Cisco 7507-MX 8-10 specifications Cisco 7513 and Cisco 7513-MX 8-15 Cisco 7505 1-5 Cisco 7507 1-10 Cisco 7576 8-15 Cisco 7507-MX strategy Cisco 7505 Cisco 7513 8-4 Cisco 7507 and Cisco 7
Index Cisco 7507 and Cisco 7507-MX Cisco7507 and Cisco 7507-MX 2-8 2-8, 3-13 Cisco 7513, Cisco 7513-MX, and Cisco 7576 2-9 Cisco7513, Cisco 7513-MX, and Cisco 7576 3-23 guidelines interference plant 2-10 to 2-11 2-10 2-10 telephone 2-3 See also cables Y Y-cables, RSP2, RSP4, and RSP8 1-45 Cisco 7500 Series Installation and Configuration Guide OL-5008-03 B0 IN-19
