Cisco | Catalyst 4500 Series Switches | Catalyst 4500 Series Switches | Catalyst 4503-E Switch | Catalyst 4506-E Switch | Catalyst 4507R+E Switch | Catalyst 4510R+E Switch | Catalyst 4500 E-Series Installation Guide

Preface

This preface describes the audience, organization, and conventions of the Catalyst 4500 E-Series

Switches Installation Guide and provides information on how to obtain related documentation and technical assistance.

Audience

This guide is intended for technicians who will install a Catalyst 4500 E-series switch in a wiring closet rack. Only trained and qualified service personnel (as defined in IEC 60950 and AS/NZS3260) should install, replace, or service the equipment.

Organization

This publication is organized as follows:

Chapter

Title

Preparing for Installation

Describes how to prepare your site for the installation of the switch.

Installing the Switch

Describes how to install the Catalyst 4500 E-series switches in an equipment rack.

Removal and

Replacement Procedures

Troubleshooting

Description

Lists and describes the hardware features, components, interfaces, and specifications of the Catalyst 4500

E-series switches. The chapter also contains illustrations of the chassis.

Power Supply

Specifications

Describes how to remove and replace field-replaceable units (FRUs) such as power supplies and fan trays.

Provides troubleshooting guidelines for the initial hardware installation and suggests steps to help isolate and resolve problems.

Provides illustrations and specification tables for the available Catalyst 4500 E-series switch AC-input and

DC-input power supplies. Illustrations and specification tables are also provided for the supported AC power cords.

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Conventions

Chapter

Appendix B

Appendix C

Preface

Title

Repacking a Switch

Initial Configuration for the Switch

Description

Provides instructions for repacking your Catalyst 4500

E-series switch in the event that you need to move the chassis or have to return it to the factory.

Provides a very minimal configuration process. For full configuration of features and interfaces, refer to the software configuration guide for your software release.

Conventions

This document uses the following conventions:

Convention

boldface font

italic font

[ ]

{ x | y | z }

[ x | y | z ] string screen

font

boldface screen

font

italic screen font

Description

Commands, command options, and keywords are in boldface.

Arguments for which you supply values are in italics.

Elements in square brackets are optional.

Alternative keywords are grouped in braces and separated by vertical bars.

Optional alternative keywords are grouped in brackets and separated by vertical bars.

A nonquoted set of characters. Do not use quotation marks around the string or the string will include the quotation marks.

Terminal sessions and information the system displays are in screen

font.

Information you must enter is in

boldface screen

font.

Arguments for which you supply values are in italic screen font.

The symbol ^ represents the key labeled Control. For example, the key combination ^D in a screen display means hold down the Control key while you press the D key.

Nonprinting characters, such as passwords, are in angle brackets.

< >

Notes use the following conventions:

Note

Means reader take note. Notes contain helpful suggestions or references to material not covered in the publication.

Cautions use the following conventions:

Caution

Means reader be careful. In this situation, you might do something that could result in equipment damage or loss of data.

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Preface

Warnings use the following conventions:

Statement 1071—Warning Definition

Conventions

Warning

IMPORTANT SAFETY INSTRUCTIONS

This warning symbol means danger. You are in a situation that could cause bodily injury. Before you work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with standard practices for preventing accidents. Use the statement number provided at the end of each warning to locate its translation in the translated safety warnings that

accompanied this device. Statement 1071

SAVE THESE INSTRUCTIONS

Waarschuwing

BELANGRIJKE VEILIGHEIDSINSTRUCTIES

Dit waarschuwingssymbool betekent gevaar. U verkeert in een situatie die lichamelijk letsel kan veroorzaken. Voordat u aan enige apparatuur gaat werken, dient u zich bewust te zijn van de bij elektrische schakelingen betrokken risico's en dient u op de hoogte te zijn van de standaard praktijken om ongelukken te voorkomen. Gebruik het nummer van de verklaring onderaan de waarschuwing als u een vertaling van de waarschuwing die bij het apparaat wordt geleverd, wilt raadplegen.

BEWAAR DEZE INSTRUCTIES

Varoitus

Attention

TÄRKEITÄ TURVALLISUUSOHJEITA

Tämä varoitusmerkki merkitsee vaaraa. Tilanne voi aiheuttaa ruumiillisia vammoja. Ennen kuin käsittelet laitteistoa, huomioi sähköpiirien käsittelemiseen liittyvät riskit ja tutustu onnettomuuksien yleisiin ehkäisytapoihin. Turvallisuusvaroitusten käännökset löytyvät laitteen mukana toimitettujen käännettyjen turvallisuusvaroitusten joukosta varoitusten lopussa näkyvien lausuntonumeroiden avulla.

SÄILYTÄ NÄMÄ OHJEET

IMPORTANTES INFORMATIONS DE SÉCURITÉ

Ce symbole d'avertissement indique un danger. Vous vous trouvez dans une situation pouvant entraîner des blessures ou des dommages corporels. Avant de travailler sur un équipement, soyez conscient des dangers liés aux circuits électriques et familiarisez-vous avec les procédures couramment utilisées pour éviter les accidents. Pour prendre connaissance des traductions des avertissements figurant dans les consignes de sécurité traduites qui accompagnent cet appareil, référez-vous au numéro de l'instruction situé à la fin de chaque avertissement.

CONSERVEZ CES INFORMATIONS

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Catalyst 4500 E-Series Switches Installation Guide

Preface

Conventions

Warnung

Avvertenza

Advarsel

Aviso

¡Advertencia!

WICHTIGE SICHERHEITSHINWEISE

Dieses Warnsymbol bedeutet Gefahr. Sie befinden sich in einer Situation, die zu Verletzungen führen kann. Machen Sie sich vor der Arbeit mit Geräten mit den Gefahren elektrischer

Schaltungen und den üblichen Verfahren zur Vorbeugung vor Unfällen vertraut. Suchen Sie mit der am Ende jeder Warnung angegebenen Anweisungsnummer nach der jeweiligen

Übersetzung in den übersetzten Sicherheitshinweisen, die zusammen mit diesem Gerät ausgeliefert wurden.

BEWAHREN SIE DIESE HINWEISE GUT AUF.

IMPORTANTI ISTRUZIONI SULLA SICUREZZA

Questo simbolo di avvertenza indica un pericolo. La situazione potrebbe causare infortuni alle persone. Prima di intervenire su qualsiasi apparecchiatura, occorre essere al corrente dei pericoli relativi ai circuiti elettrici e conoscere le procedure standard per la prevenzione di incidenti. Utilizzare il numero di istruzione presente alla fine di ciascuna avvertenza per individuare le traduzioni delle avvertenze riportate in questo documento.

CONSERVARE QUESTE ISTRUZIONI

VIKTIGE SIKKERHETSINSTRUKSJONER

Dette advarselssymbolet betyr fare. Du er i en situasjon som kan føre til skade på person. Før du begynner å arbeide med noe av utstyret, må du være oppmerksom på farene forbundet med elektriske kretser, og kjenne til standardprosedyrer for å forhindre ulykker. Bruk nummeret i slutten av hver advarsel for å finne oversettelsen i de oversatte sikkerhetsadvarslene som fulgte med denne enheten.

TA VARE PÅ DISSE INSTRUKSJONENE

INSTRUÇÕES IMPORTANTES DE SEGURANÇA

Este símbolo de aviso significa perigo. Você está em uma situação que poderá ser causadora de lesões corporais. Antes de iniciar a utilização de qualquer equipamento, tenha conhecimento dos perigos envolvidos no manuseio de circuitos elétricos e familiarize-se com as práticas habituais de prevenção de acidentes. Utilize o número da instrução fornecido ao final de cada aviso para localizar sua tradução nos avisos de segurança traduzidos que acompanham este dispositivo.

GUARDE ESTAS INSTRUÇÕES

INSTRUCCIONES IMPORTANTES DE SEGURIDAD

Este símbolo de aviso indica peligro. Existe riesgo para su integridad física. Antes de manipular cualquier equipo, considere los riesgos de la corriente eléctrica y familiarícese con los procedimientos estándar de prevención de accidentes. Al final de cada advertencia encontrará el número que le ayudará a encontrar el texto traducido en el apartado de traducciones que acompaña a este dispositivo.

GUARDE ESTAS INSTRUCCIONES

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Preface

Varning!

Conventions

VIKTIGA SÄKERHETSANVISNINGAR

Denna varningssignal signalerar fara. Du befinner dig i en situation som kan leda till personskada. Innan du utför arbete på någon utrustning måste du vara medveten om farorna med elkretsar och känna till vanliga förfaranden för att förebygga olyckor. Använd det nummer som finns i slutet av varje varning för att hitta dess översättning i de översatta säkerhetsvarningar som medföljer denna anordning.

SPARA DESSA ANVISNINGAR

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Catalyst 4500 E-Series Switches Installation Guide

Preface

Conventions

Aviso

Advarsel

INSTRUÇÕES IMPORTANTES DE SEGURANÇA

Este símbolo de aviso significa perigo. Você se encontra em uma situação em que há risco de lesões corporais. Antes de trabalhar com qualquer equipamento, esteja ciente dos riscos que envolvem os circuitos elétricos e familiarize-se com as práticas padrão de prevenção de acidentes. Use o número da declaração fornecido ao final de cada aviso para localizar sua tradução nos avisos de segurança traduzidos que acompanham o dispositivo.

GUARDE ESTAS INSTRUÇÕES

VIGTIGE SIKKERHEDSANVISNINGER

Dette advarselssymbol betyder fare. Du befinder dig i en situation med risiko for legemesbeskadigelse. Før du begynder arbejde på udstyr, skal du være opmærksom på de involverede risici, der er ved elektriske kredsløb, og du skal sætte dig ind i standardprocedurer til undgåelse af ulykker. Brug erklæringsnummeret efter hver advarsel for at finde oversættelsen i de oversatte advarsler, der fulgte med denne enhed.

GEM DISSE ANVISNINGER

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Preface

Conventions

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Catalyst 4500 E-Series Switches Installation Guide

Related Documentation

Preface

Hardware Documents

Installation guides and notes including specifications and relevant safety information are available at the following URLs:

•

Catalyst 4500 Series Switches Installation Guide

•

http://www.cisco.com/en/US/docs/switches/lan/catalyst4500/hardware/installation/guide/78-14409

-08/4500inst.html

Catalyst 4500 E-series Switches Installation Guide

•

http://www.cisco.com/en/US/docs/switches/lan/catalyst4500/hardware/catalyst4500e/installation/g uide/Eseries.html

For information about individual switching modules and supervisors, refer to the Catalyst 4500

Series Module Installation Guide at: http://www.cisco.com/c/en/us/td/docs/switches/lan/catalyst4500/hardware/configuration/notes/OL

_25315.html

Regulatory Compliance and Safety Information for the Catalyst 4500 Series Switches

•

http://www.cisco.com/c/en/us/td/docs/switches/lan/catalyst4500/hardware/regulatory/compliance/

78_13233.html

Installation notes for specific supervisor engines or for accessory hardware http://www.cisco.com/en/US/products/hw/switches/ps4324/prod_installation_guides_list.html

Catalyst 4900 and Catalyst 4900M hardware installation information is available at: http://www.cisco.com/en/US/products/ps6021/prod_installation_guides_list.html

Cisco ME 4900 Series Ethernet Switches installation information http://www.cisco.com/en/US/products/ps7009/prod_installation_guides_list.html

Software Documentation

Software release notes, configuration guides, command references, and system message guides are available at the following URLs:

•

Catalyst 4500 Series release notes http://www.cisco.com/c/en/us/support/switches/catalyst-4500-series-switches/products-release-not es-list.html

•

Catalyst 4948 Series and Catalyst 4948E release notes http://www.cisco.com/en/US/products/ps6021/prod_release_notes_list.html

•

Cisco ME 4900 Series Ethernet Switch release notes http://www.cisco.com/en/US/docs/switches/lan/catalyst4500/release/note/OL_11511.html

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Catalyst 4500 E-Series Switches Installation Guide

Preface

Obtain Documentation and Submit a Service Request

Software documents for the Catalyst 4500 Classic, Catalyst 4500 E-Series, Catalyst 4900, and

Cisco ME 4900 Series Ethernet Switches

•

Catalyst 4500 Series Software Configuration Guide http://www.cisco.com/c/en/us/support/switches/catalyst-4500-series-switches/products-installation

-and-configuration-guides-list.html

•

Catalyst 4500 Series Software Command Reference

http://www.cisco.com/en/US/products/hw/switches/ps4324/prod_command_reference_list.html

•

Catalyst 4500 Series Software System Message Guide http://www.cisco.com/c/en/us/support/switches/catalyst-4500-series-switches/products-system-me ssage-guides-list.html

Cisco IOS Documentation

Platform-independent Cisco IOS documentation may also apply to the Catalyst 4500 and 4900 switches.

These documents are available at the following URLs:

•

Cisco IOS configuration guides, Release 12.x

•

http://www.cisco.com/en/US/products/ps6350/products_installation_and_configuration_guides_lis t.html

Cisco IOS command references, Release 12.x

•

http://www.cisco.com/en/US/products/ps6350/prod_command_reference_list.html

Command Lookup Tool http://tools.cisco.com/Support/CLILookup/cltSearchAction.do

Cisco IOS system messages, version 12.x

http://www.cisco.com/en/US/products/ps6350/products_system_message_guides_list.html

Error Message Decoder tool http://www.cisco.com/pcgi-bin/Support/Errordecoder/index.cgi

MIB information http://www.cisco.com/public/sw-center/netmgmt/cmtk/mibs.shtml

Obtain Documentation and Submit a Service Request

For information on obtaining documentation, using the Cisco Bug Search Tool (BST), submitting a service request, and gathering additional information, see

What’s New in Cisco Product Documentation

To receive new and revised Cisco technical content directly to your desktop, you can subscribe to the What’s New in Cisco Product Documentation RSS feed . The RSS feeds are a free service.

Catalyst 4500 E-Series Switches Installation Guide

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C H A P T E R

Product Overview

Revised: 08 August 2017

•

This chapter describes the Catalyst 4500 E-series switches and contains these sections:

•

Catalyst 4503-E Switch, page 1-2

Catalyst 4506-E Switch, page 1-6

Catalyst 4507R-E Switch, page 1-10

Catalyst 4510R-E Switch, page 1-14

Catalyst 4507R+E Switch, page 1-18

Catalyst 4510R+E Switch, page 1-22

Note

The Catalyst 4500 series switches are described in a separate publication.

Tip

For additional information about the Cisco Catalyst 4500 E-series switches (including configuration examples and troubleshooting information), see the documents listed on this page: http://www.cisco.com/en/US/products/hw/switches/ps4324/index.html

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Catalyst 4500 E-Series Switches Installation Guide

1-1

Chapter 1 Product Overview

Catalyst 4503-E Switch

Catalyst 4503-E Switch

The Catalyst 4503-E switch is a 3-slot horizontal chassis supporting redundant power supplies, a single supervisor engine, and slots for up to two modules.

Figure 1-1 shows a front view of the Catalyst 4503-E

switch with the chassis major features identified.

Figure 1-1 Catalyst 4503-E Switch Chassis (Front View)

4503

REMOVE LABEL

SYSTEM G

ROUND

Minimum

Cat4500

Version: I

Software Re quirement

(37)SG

Fan tray assembly

Switching modules (slots 2 and 3)

Supervisor engine (slot 1)

Redundant power supplies

1-2

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Chapter 1 Product Overview

Catalyst 4503-E Switch

Table 1-1

Feature

Chassis

Supervisor engines

Modules

Backplane

Fan tray

Table 1-1

describes the features of the Catalyst 4503-E switch chassis.

Catalyst 4503-E Switch Features

Description

Three horizontal slots. Slots are numbered from 1 (top) to 3 (bottom).

•

Note

Supports the following supervisor engines:

–

Supervisor Engine 9-E

Supervisor Engine 8L-E

Supervisor Engine 8-E

Supervisor Engine 7L-E

Supervisor Engine 7-E

Refer to your software release notes for the minimum software release versions required to support the supervisor engines.

•

Supervisor engines must be installed in slot 1.

•

Note

Supervisor engine redundancy is not supported in this chassis.

Check your software release notes for any restrictions on the type of module that can be installed.

•

Supports up to two Catalyst 4500 series modules.

Some Catalyst 4500 series modules may:

–

Not be supported

–

Require that you install a specific supervisor engine model

Have chassis slot restrictions

–

Require a specific software release level to operate

Note

Check your software release notes for specific support information.

48 Gbps full duplex per slot (96 Gbps)

•

The chassis supports one hot-swappable fan tray. One fan tray model is available:

–

WS-X4593-E

•

The fan tray contains six individual fans. The individual fans are not field replaceable; you must replace the fan tray in the event of a fan failure.

•

Air is drawn in on the right side of the chassis and exhausted on the left side of the chassis.

•

Fan tray STATUS LED (located on the fan tray front panel)

–

Red—One or more individual fans have failed.

–

Green—Fan tray is operating normally.

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Catalyst 4500 E-Series Switches Installation Guide

1-3

Chapter 1 Product Overview

Catalyst 4503-E Switch

Table 1-1

Feature

Power supply

Catalyst 4503-E Switch Features (continued)

Description

•

Supports one or two power supplies. The following power supplies are supported:

–

1000 W AC-input power supply (PWR-C45-1000AC)

–

1400 W AC-input power supply (PWR-C45-1400AC)

1300 W AC-input power supply (PWR-C45-1300ACV)

–

2800 W AC-input power supply (PWR-C45-2800ACV)

4200 W AC-input power supply (PWR-C45-4200ACV)

–

6000 W AC-input power supply (PWR-C45-6000ACV)

9000 W AC-input power supply (PWR-C45-9000ACV)

–

1400 W DC-input power supply, triple-input (PWR-C45-1400DC)

1400 W DC-input power supply with integrated PEM

(PWR-C45-1400DC-P)

–

External AC power shelf (WS-P4502-1PSU)

•

All Catalyst 4500 series AC-input power supplies require single-phase source AC.

•

Source AC can be out of phase between multiple power supplies or multiple AC-power plugs on the same power supply because all AC power supply inputs are isolated.

•

Note

Single power supplies are installed in the left power supply bay. The second power supply is installed in the right power supply bay.

For proper operation of the power supply OUTPUT FAIL LED, systems with single power supplies must be configured with a minimum of one fan tray and one supervisor engine. Systems with dual power supplies must have a minimum configuration of one fan tray, one supervisor engine, and one additional module. Failure to meet these minimum configuration requirements can cause a false power supply output fail signal.

1-4

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Chapter 1 Product Overview

Catalyst 4503-E Switch

Table 1-2 Catalyst 4503-E Switch Specifications

Item

Temperature, ambient

Table 1-2

lists the environmental and physical specifications of the Catalyst 4503-E switch.

Humidity (RH), ambient

(noncondensing)

Altitude, operating and nonoperating

Sound pressure level

Specification

•

Operating: 32° to 104°F (0° to 40°C)

Nonoperating and storage: –40 to 167°F (–40 to 75°C)

Operating: 10% to 90%

Nonoperating and storage: 5% to 95%

–196 to 6561 ft (–60 to 2000 m)

Dimensions (H x W x D) and rack units (RU)

Weight

Airflow

•

One PS: 63.6 dBA at low speed and 62.3 dBA at full speed

Two PS: 65 dBA at low speed and 65.4 dBA at full speed

12.25 x 17.31 x 12.50 in. (31.12 x 43.97 x 31.70 cm)

7 RU

32.25 lbs (14.63 kg) minimum weight

75 lbs (34 kg) maximum weight

Chassis fan tray: Right to left

Power supply fan: Front to back

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Catalyst 4500 E-Series Switches Installation Guide

1-5

Chapter 1 Product Overview

Catalyst 4506-E Switch

Catalyst 4506-E Switch

The Catalyst 4506-E switch is a 6-slot horizontal chassis supporting redundant power supplies, a single supervisor engine, and slots for up to five modules.

Figure 1-2 shows a front view of the Catalyst 4506-E

switch with the chassis major features identified.

Figure 1-2 Catalyst 4506-E Switch (Front View)

4506

REMOVE LABEL

FOR

ROUND

Minimum

Version: I

Software Re

OS: 12.2

(37)SG

Fan tray assembly

Switching modules (slots 2 to 6)

Supervisor engine (slot 1)

Power supplies

1-6

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Chapter 1 Product Overview

Catalyst 4506-E Switch

Table 1-3

Feature

Chassis

Supervisor engines

Modules

Backplane

Fan tray

Table 1-3

describes the features of the Catalyst 4506-E switch chassis.

Catalyst 4506-E Switch Features

Description

Six horizontal slots. Slots are numbered from 1 (top) to 6 (bottom).

•

Note

Supports the following supervisor engines:

–

Supervisor Engine 9-E

Supervisor Engine 8L-E

Supervisor Engine 8-E

Supervisor Engine 7L-E

Supervisor Engine 7-E

Refer to your software release notes for the minimum software release versions required to support the supervisor engines.

•

Supervisor engines must be installed in slot 1.

Supervisor engine redundancy is not supported in this chassis.

Supports up to five Catalyst 4500 series modules.

Some Catalyst 4500 series modules may:

–

Not be supported

Require that you install a specific supervisor engine

–

Have chassis slot restrictions

Require a specific software release level to operate

Check your software release notes for specific support information.

•

48 Gbps full duplex per slot (240 Gbps)

•

The chassis supports a single hot-swappable fan tray. One fan tray model is available:

–

WS-X4596-E

•

The fan tray contains four individual fans. The individual fans are not field replaceable; you must replace the fan tray in the event of a fan failure.

•

Air is drawn in on the right side of the chassis and exhausted on the left side of the chassis.

•

Fan tray STATUS LED (located on the fan tray front panel)

–

Red—One or more individual fans have failed.

Green—Fan tray is operating normally.

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Catalyst 4500 E-Series Switches Installation Guide

1-7

Chapter 1 Product Overview

Catalyst 4506-E Switch

Table 1-3

Feature

Power supply

Catalyst 4506-E Switch Features (continued)

Description

•

Supports one or two power supplies. The following power supplies are supported:

–

1000 W AC-input power supply (PWR-C45-1000AC)

–

1400 W AC-input power supply (PWR-C45-1400AC)

1300 W AC-input power supply (PWR-C45-1300ACV)

–

2800 W AC-input power supply (PWR-C45-2800ACV)

4200 W AC-input power supply (PWR-C45-4200ACV)

–

6000 W AC-input power supply (PWR-C45-6000ACV)

9000 W AC-input power supply (PWR-C45-9000ACV)

–

1400 W DC-input power supply, triple-input (PWR-C45-1400DC)

1400 W DC-input power supply with integrated PEM

(PWR-C45-1400DC-P)

–

External AC power shelf (WS-P4502-1PSU)

•

All Catalyst 4500 series AC-input power supplies require single-phase source AC.

•

Source AC can be out of phase between multiple power supplies or multiple AC-power plugs on the same power supply because all AC power supply inputs are isolated.

•

Note

Single power supplies are installed in the left power supply bay. The second power supply is installed in the right power supply bay.

1-8

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Chapter 1 Product Overview

Catalyst 4506-E Switch

Table 1-4 Catalyst 4506-E Switch Specifications

Item

Temperature, ambient

Table 1-4

lists the environmental and physical specifications of the Catalyst 4506-E switch.

Humidity (RH), ambient

(noncondensing)

Altitude, operating and nonoperating

Sound pressure level

Specification

•

Operating: 32° to 104°F (0° to 40°C)

Nonoperating and storage: –40° to 167°F (–40° to 75°C)

Operating: 10% to 90%

Nonoperating and storage: 5% to 95%

–196 to 6561 ft (–60 to 2000 m)

Dimensions (H x W x D) and rack units (RU)

Weight

Airflow

•

One PS: 60.8 dBA at low speed and 62.1 dBA at full speed

Two PS: 65 dBA at low speed and 65.6 dBA at full speed

17.38 x 17.31 x 12.50 in. (44.13 x 43.97 x 31.70 cm)

•

10 RU

40.50 lbs (18.37 kg) minimum weight

•

100 lbs (45.4 kg) maximum weight

Chassis fan tray: Right to left

Note

Power supply fan: Front to back

We recommend that you maintain a minimum air space of 6 inches

(16 cm) between walls and the chassis air vents and a minimum horizontal separation of 12 inches (30.5 cm) between two chassis to prevent overheating.

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Chapter 1 Product Overview

Catalyst 4507R-E Switch

Catalyst 4507R-E Switch

The Catalyst 4507R-E switch is a 7-slot horizontal chassis supporting redundant power supplies, redundant supervisor engines, and slots for up to six modules.

Figure 1-3 shows a front view of the

Catalyst 4507R-E switch with the chassis major features identified.

Figure 1-3 Catalyst 4507R-E Switch (Front View)

4506

REMOVE LABEL

SYSTEM G FOR

Minimum

Version: I

OS: 12.2

quirement

(37)SG

Fan tray

Switching modules (slots 1, 2, 5, 6, 7)

Supervisor engines (primary in slot 3 and secondary in slot 4)

Power supplies

Table 1-5 describes the features of the Catalyst 4507R-E switch.

1-10

Catalyst 4500 E-Series Switches Installation Guide

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Chapter 1 Product Overview

Catalyst 4507R-E Switch

Table 1-5

Modules

Backplane

Fan tray

Catalyst 4507R-E Switch Features

Feature

Chassis

Supervisor engines

Description

Seven horizontal slots. Slots are numbered from 1 (top) to 7 (bottom).

•

Supports the following supervisor engines:

–

Supervisor Engine 8L-E

–

Supervisor Engine 8-E

–

Supervisor Engine 7L-E

–

Supervisor Engine 7-E

Note

Refer to your software release notes for the minimum software release versions required to support the supervisor engines.

•

Supervisor engines must be installed in slot 3 and in slot 4.

•

Note

Supervisor engine redundancy is supported in this chassis.

The Catalyst 4507R-E switch supports 1+1 supervisor-engine redundancy for integrated resiliency. Redundant supervisor engines help minimize network downtime. With the support of stateful switchover (SSO), the secondary supervisor engine serves as a backup to immediately take over after a primary supervisor failure.

During the switchover, Layer 2 links are maintained transparently without the need to renegotiate sessions.

•

Supports up to five Catalyst 4500 series modules.

Some Catalyst 4500 series modules may:

–

Not be supported

–

Require that you install a specific supervisor engine

Have chassis slot restrictions

–

Require a specific software release level to operate

•

Check your software release notes for specific support information.

24 Gbps full duplex per slot (240 Gbps).

•

The chassis supports a single hot-swappable fan tray. One fan tray model is available:

–

WS-X4597-E

Note

The Catalyst 4507R-E switch and the Catalyst 4507R+E switch use the same fan tray.

•

The fan tray contains eight individual fans. The individual fans are not field replaceable; you must replace the fan tray in the event of a fan failure.

Air is drawn in on the right side of the chassis and exhausted on the left side of the chassis.

Fan tray STATUS LED (located on the fan tray front panel)

–

Red—One or more individual fans have failed.

–

Green—Fan tray is operating normally.

Catalyst 4500 E-Series Switches Installation Guide

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1-11

Chapter 1 Product Overview

Catalyst 4507R-E Switch

Table 1-5 Catalyst 4507R-E Switch Features (continued)

Feature

Power supply

Description

•

Supports one or two power supplies. The following power supplies are supported:

–

1000 W AC-input power supply (PWR-C45-1000AC)

–

1400 W AC-input power supply (PWR-C45-1400AC)

1300 W AC-input power supply (PWR-C45-1300ACV)

–

2800 W AC-input power supply (PWR-C45-2800ACV)

4200 W AC-input power supply (PWR-C45-4200ACV)

–

6000 W AC-input power supply (PWR-C45-6000ACV)

9000 W AC-input power supply (PWR-C45-9000ACV)

–

1400 W DC-input power supply, triple-input (PWR-C45-1400DC)

1400 W DC-input power supply with integrated PEM

(PWR-C45-1400DC-P)

–

External AC power shelf (WS-P4502-1PSU)

•

All Catalyst 4500 series AC-input power supplies require single-phase source AC.

•

Source AC can be out of phase between multiple power supplies or multiple AC-power plugs on the same power supply because all AC power supply inputs are isolated.

•

Note

Single power supplies are installed in the left power supply bay. The second power supply is installed in the right power supply bay.

To support Supervisor Engine 8-E and 8L-E, the Cisco Catalyst 4507R-E Switch chassis must have hardware revision 2.0 or higher.

Note that the hardware revision is with reference to the chassis and not the supervisor engine.

Table 1-6 lists the environmental and physical specifications of the Catalyst 4507R-E switch.

Table 1-6 Catalyst 4507R-E Switch Specifications

Item

Temperature, ambient

Humidity (RH), ambient

(noncondensing)

Altitude, operating and nonoperating

Specification

•

Operating: 32° to 104°F (0° to 40°C)

Nonoperating and storage: –40° to 167°F (–40° to 75°C)

Operating: 10% to 90%

Nonoperating and storage: 5% to 95%

–196 to 6561 ft (–60 to 2000 m)

1-12

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Chapter 1 Product Overview

Catalyst 4507R-E Switch

Table 1-6

Dimensions (H x W x D) and rack units (RU)

Weight

Airflow

Catalyst 4507R-E Switch Specifications (continued)

Item

Sound pressure level

Specification

•

One PS: 63.6 dBA at low speed and 68.3 dBA at full speed

Two PS: 65.4 dBA at low speed and 68.4 dBA at full speed

19.19 x 17.31 x 12.50 in. (48.74 x 43.97 x 31.70 cm)

11 RU

44.5 lbs (20.19 kg) minimum weight

100 lbs (45.4 kg) maximum weight

Chassis fan tray: Right to left

Power supply fan: Front to back

Note

We recommend that you maintain a minimum air space of 6 inches

(16 cm) between walls and the chassis air vents and a minimum horizontal separation of 12 inches (30.5 cm) between two chassis to prevent overheating.

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Catalyst 4500 E-Series Switches Installation Guide

1-13

Chapter 1 Product Overview

Catalyst 4510R-E Switch

Catalyst 4510R-E Switch

The Catalyst 4510R-E switch is a 10-slot horizontal chassis supporting redundant power supplies, redundant supervisor engines, and slots for up to nine modules.

Figure 1-4 shows a front view of the

Catalyst 4510R-E switch with the chassis major features identified.

Figure 1-4 Catalyst 4510R-E Switch Chassis (Front View)

4506

REMOVE LABEL

SYSTEM G FOR

Minimum

Cat4500

Version:

Softw

IOS: 12.

are Requ

2(37)SG irement

STATUS

2 3

5 6

9 10

13 14

10/100BAS

E-TX

3 4

7 8

11 12

15 16

10/100BAS

E-TX

17 18

20 21

24 25

27 28

31 32

MULTI-SP

SWITCHI

EED

NG MODU

34 35

37 38

41 42

18 19

21 22

25 26

28 29

MULTI-SP

SWITCHI

EED

NG MODU

35 36

39 40

45 46

46 47

Fan tray assembly

Switching modules (slots 1–4 and 7–10)

Supervisor engines (primary in slot 5 and secondary in slot 6)

Power supplies

Table 1-7 describes the features of the Catalyst 4510R-E switch.

1-14

Catalyst 4500 E-Series Switches Installation Guide

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Chapter 1 Product Overview

Catalyst 4510R-E Switch

Table 1-7

Modules

Backplane

Fan tray

Catalyst 4510R-E Switch Features

Feature

Chassis

Supervisor engines

Description

Ten horizontal slots. Slots are numbered from 1 (top) to 10 (bottom).

•

Supports the following supervisor engines:

–

Supervisor Engine 8-E

–

Supervisor Engine 7-E

Note

Refer to your software release notes for the minimum software release versions required to support the supervisor engines.

•

Supervisor engines must be installed in slot 5 or in slot 6.

•

Note

Supervisor engine redundancy is supported in this chassis.

The Catalyst 4510R-E switch supports 1+1 supervisor-engine redundancy for integrated resiliency. With the support of stateful switchover (SSO), the secondary supervisor engine serves as a backup to immediately take over after a primary supervisor failure.

During the switchover, Layer 2 links are maintained transparently without the need to renegotiate sessions.

•

Supports up to eight Catalyst 4500 series modules.

Some Catalyst 4500 series modules may:

–

Not be supported

–

Require that you install a specific supervisor engine

Have chassis slot restrictions

–

Require a specific software release level to operate

•

Check your software release notes for specific support information.

24 Gbps full duplex per slot on five slots, plus 12 Gbps full duplex per slot on three slots (276 Gbps) with Supervisor Engine 6-E

•

The chassis supports one hot-swappable fan tray. One fan tray model is available:

–

WS-X4582-E (located on the fan tray front panel)

Note

The Catalyst 4510R-E and the Catalyst 4510R+E switches use the same fan tray.

•

The fan tray contains ten individual fans. The individual fans are not field replaceable; you must replace the fan tray in the event of a fan failure.

Air is drawn in on the right side of the chassis and exhausted on the left side of the chassis.

Fan tray STATUS LED (located on the fan tray front panel)

–

Red—One or more individual fans have failed.

–

Green—Fan tray is operating normally.

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Chapter 1 Product Overview

Catalyst 4510R-E Switch

Table 1-7

Feature

Power supply

Catalyst 4510R-E Switch Features (continued)

Description

•

Supports one or two power supplies. The following power supplies are supported:

–

1000 W AC-input power supply (PWR-C45-1000AC)

–

1400 W AC-input power supply (PWR-C45-1400AC)

1300 W AC-input power supply (PWR-C45-1300ACV)

–

2800 W AC-input power supply (PWR-C45-2800ACV)

4200 W AC-input power supply (PWR-C45-4200ACV)

–

6000 W AC-input power supply (PWR-C45-6000ACV)

9000 W AC-input power supply (PWR-C45-9000ACV)

–

1400 W DC-input power supply, triple-input (PWR-C45-1400DC)

1400 W DC-input power supply with integrated PEM

(PWR-C45-1400DC-P)

–

External AC power shelf (WS-P4502-1PSU)

•

All Catalyst 4500 series AC-input power supplies require single-phase source AC.

•

Source AC can be out of phase between multiple power supplies or multiple AC-power plugs on the same power supply because all AC power supply inputs are isolated.

•

Note

Single power supplies are installed in the left power supply bay. The second power supply is installed in the right power supply bay.

1-16

Catalyst 4500 E-Series Switches Installation Guide

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Chapter 1 Product Overview

Catalyst 4510R-E Switch

Table 1-8

Item

Temperature, ambient

Humidity (RH), ambient

(noncondensing)

Altitude, operating

Sound pressure level

Dimensions (H x W x D) and rack units (RU)

Weight

Airflow

Table 1-8

lists the environmental and physical specifications of the Catalyst 4510R-E switch.

Catalyst 4510R-E Switch Specifications

Specification

•

Operating: 32° to 104°F (0° to 40°C)

Nonoperating and storage: –40° to 167°F (–40° to 75°C)

Operating: 10% to 90%

Nonoperating and storage: 5% to 95%

–196 to 6561 ft (–60 to 2000 m)

•

One PS—63.6 dBA at low speed and 68.3 dBA at full speed

•

Two PS—65.4 dBA at low speed and 68.4 dBA at full speed

•

24.35 x 17.31 x 12.50 in. (61.84 x 43.97 x 31.70 cm)

•

14 RU

54.5 lbs (24.77 kg) minimum

•

108 lbs (45.4 kg) maximum

Chassis fan tray: Right to left

Note

Power supply fan: Front to back

We recommend that you maintain a minimum air space of 6 inches

(16 cm) between walls and the chassis air vents and a minimum horizontal separation of 12 inches (30.5 cm) between two chassis to prevent overheating.

OL-13972-02

Catalyst 4500 E-Series Switches Installation Guide

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Chapter 1 Product Overview

Catalyst 4507R+E Switch

Catalyst 4507R+E Switch

The Catalyst 4507R+E switch is a 7-slot horizontal chassis supporting redundant power supplies,

redundant supervisor engines, and slots for up to five modules. Figure 1-5

shows a front view of the

Catalyst 4507R+E switch with the chassis major features identified.

Figure 1-5 Catalyst 4507R+E Switch Chassis

+E Series

REMOVE LABEL

FOR

ROUND

4506

Minim um Cat45

Version: I

00 Software

OS: 12.

Requirement

Fan tray

Switching modules (slots 1, 2, 5, 6, 7)

Supervisor engines (primary in slot 3 and secondary in slot 4)

Power supplies

Table 1-9 describes the features of the Catalyst 4507R+E switch.

1-18

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Chapter 1 Product Overview

Catalyst 4507R+E Switch

Table 1-9

Modules

Backplane

Fan tray

Catalyst 4507R+E Switch Features

Feature

Chassis

Supervisor engines

Description

Seven horizontal slots. Slots are numbered from 1 (top) to 7 (bottom).

•

Supports the following supervisor engines:

–

Supervisor Engine 9-E

–

Supervisor Engine 8L-E

Supervisor Engine 8-E

–

Supervisor Engine 7L-E

Supervisor Engine 7-E

Note

Refer to your software release notes for the minimum software release versions required to support the supervisor engines.

•

Supervisor engines must be installed in slot 3 or in slot 4.

Note

Supervisor engine redundancy is supported in this chassis.

The Catalyst 4507R+E switch supports 1+1 supervisor-engine redundancy. With the support of stateful switchover (SSO), the secondary supervisor engine serves as a backup to immediately take over after a primary supervisor failure. During the switchover,

Layer 2 links are maintained transparently without the need to renegotiate sessions.

Supports up to five Catalyst 4500 series modules.

Some Catalyst 4500 series modules may:

–

Not be supported

Require that you install a specific supervisor engine

–

Have chassis slot restrictions

Require a specific software release level to operate

•

Check your software release notes for specific support information.

48 Gbps full duplex per slot

•

The chassis supports a single hot-swappable fan tray. One fan tray model is available:

–

WS-X4597+E

•

The fan tray contains eight individual fans. The individual fans are not field replaceable; you must replace the fan tray in the event of a fan failure.

•

Air is drawn in on the right side of the chassis and exhausted on the left side of the chassis.

•

Fan tray STATUS LED (located on the fan tray front panel)

–

Red—One or more individual fans have failed.

Green—Fan tray is operating normally.

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Chapter 1 Product Overview

Catalyst 4507R+E Switch

Table 1-9

Feature

Power supply

Catalyst 4507R+E Switch Features (continued)

Description

•

Supports one or two power supplies. The following power supplies are supported:

–

1000 W AC-input power supply (PWR-C45-1000AC)

–

1400 W AC-input power supply (PWR-C45-1400AC)

1300 W AC-input power supply (PWR-C45-1300ACV)

–

2800 W AC-input power supply (PWR-C45-2800ACV)

4200 W AC-input power supply (PWR-C45-4200ACV)

–

6000 W AC-input power supply (PWR-C45-6000ACV)

9000 W AC-input power supply (PWR-C45-9000ACV)

–

1400 W DC-input power supply, triple-input (PWR-C45-1400DC)

1400 W DC-input power supply with integrated PEM

(PWR-C45-1400DC-P)

–

External AC power shelf (WS-P4502-1PSU)

•

All Catalyst 4500 series AC-input power supplies require single-phase source AC.

•

Source AC can be out of phase between multiple power supplies or multiple AC-power plugs on the same power supply because all AC power supply inputs are isolated.

•

Note

Single power supplies are installed in the left power supply bay. The second power supply is installed in the right power supply bay.

1-20

Catalyst 4500 E-Series Switches Installation Guide

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Chapter 1 Product Overview

Catalyst 4507R+E Switch

Table 1-10 Catalyst 4507R+E Switch Specifications

Item

Temperature, ambient

Table 1-10

lists the environmental and physical specifications of the Catalyst 4507R+E switch.

Humidity (RH), ambient

(noncondensing)

Altitude, operating and nonoperating

Sound pressure level

Specification

•

Operating: 32° to 104°F (0° to 40°C)

Nonoperating and storage: –40° to 167°F (–40° to 75°C)

Operating: 10% to 90%

Nonoperating and storage: 5% to 95%

–196 to 6561 ft (–60 to 2000 m)

Dimensions (H x W x D) and rack units (RU)

Weight

Airflow

•

One PS: 63.6 dBA at low speed and 68.3 dBA at full speed

Two PS: 65.4 dBA at low speed and 68.4 dBA at full speed

19.19 x 17.31 x 12.50 in. (48.74 x 43.97 x 31.70 cm)

•

11 RU

44.50 lb (20.19 kg)

Chassis fan tray: Right to left

•

Note

Power supply fan: Front to back

We recommend that you maintain a minimum air space of 6 inches

(16 cm) between walls and the chassis air vents and a minimum horizontal separation of 12 inches (30.5 cm) between two chassis to prevent overheating.

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Catalyst 4500 E-Series Switches Installation Guide

1-21

Chapter 1 Product Overview

Catalyst 4510R+E Switch

Catalyst 4510R+E Switch

The Catalyst 4510R+E switch is a 10-slot horizontal chassis supporting redundant power supplies, redundant supervisor engines, and slots for up to nine modules.

Figure 1-6 shows a front view of the

Catalyst 4510R+E switch with the chassis major features identified.

Figure 1-6 Catalyst 4510R+E Switch Chassis (Front View)

+E Series

REMOVE LABEL

FOR

ROUND

4506

Minimum

Cat4500

Version:

IOS: 12.

are Requ

2(37)SG irement

Fan tray

STATUS

3 4

7 8

11 12

15 16

10/100BAS

E-TX

ETHERN

1 2

4 5

8 9

13 14

10/100BAS

E-TX

21 22

25 26

28 29

GIGABIT E EED

NG MODU

19 20

23 24

26 27

30 31

GIGABIT E

SWITCHI

EED

NG MODU

33 34

35 36

38 39

42 43

46 47

36 37

40 41

43 44

47 48

Switching modules (slots 1–4, 7–10)

Supervisor engines (primary in slot 5 and secondary in slot 6)

Power supplies

1-22

Catalyst 4500 E-Series Switches Installation Guide

OL-13972-02

Chapter 1 Product Overview

Catalyst 4510R+E Switch

Table 1-11

Feature

Chassis

Supervisor engines

Modules

Backplane

Fan tray

Table 1-11

describes the features of the Catalyst 4510R+E switch.

Catalyst 4510R+E Switch Features

Description

Ten horizontal slots. Slots are numbered from 1 (top) to 10 (bottom).

•

Note

Supports the following supervisor engines:

–

Supervisor Engine 9-E

Supervisor Engine 8-E

Supervisor Engine 7-E

Refer to your software release notes for the minimum software release versions required to support the supervisor engines.

•

Supervisor engines must be installed in slot 5 or in slot 6.

•

Note

Supervisor engine redundancy is supported in this chassis.

The Catalyst 4510R+E switch supports 1+1 supervisor engine redundancy for integrated resiliency. With the support of stateful switchover (SSO), the secondary supervisor engine serves as a backup to immediately take over after a primary supervisor failure.

During the switchover, Layer 2 links are maintained transparently without the need to renegotiate sessions.

•

Supports up to eight Catalyst 4500 series modules.

Some Catalyst 4500 series modules may:

–

Not be supported

–

Require that you install a specific supervisor engine

Have chassis slot restrictions

–

Require a specific software release level to operate

•

Check your software release notes for specific information.

48 Gbps full duplex per slot

•

The chassis supports a single hot-swappable fan tray. One fan tray model is available:

–

WS-X4582+E

•

The fan tray contains ten individual fans. The individual fans are not field replaceable; you must replace the fan tray in the event of a fan failure.

•

Air is drawn in on the right side of the chassis and exhausted on the left side of the chassis.

•

Fan tray STATUS LED (located on the fan tray front panel)

–

Red—One or more individual fans have failed.

–

Green—Fan tray is operating normally.

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1-23

Chapter 1 Product Overview

Catalyst 4510R+E Switch

Table 1-11

Feature

Power supply

Catalyst 4510R+E Switch Features (continued)

Description

•

Supports one or two power supplies. The following power supplies are supported:

–

1000 W AC-input power supply (PWR-C45-1000AC)

–

1400 W AC-input power supply (PWR-C45-1400AC)

1300 W AC-input power supply (PWR-C45-1300ACV)

–

2800 W AC-input power supply (PWR-C45-2800ACV)

4200 W AC-input power supply (PWR-C45-4200ACV)

–

6000 W AC-input power supply (PWR-C45-6000ACV)

9000 W AC-input power supply (PWR-C45-9000ACV)

–

1400 W DC-input power supply, triple-input (PWR-C45-1400DC)

1400 W DC-input power supply with integrated PEM

(PWR-C45-1400DC-P)

–

External AC power shelf (WS-P4502-1PSU)

•

All Catalyst 4500 series AC-input power supplies require single-phase source AC.

•

Source AC can be out of phase between multiple power supplies or multiple AC-power plugs on the same power supply because all AC power supply inputs are isolated.

•

Note

Single power supplies are installed in the left power supply bay. The second power supply is installed in the right power supply bay.

1-24

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OL-13972-02

Chapter 1 Product Overview

Catalyst 4510R+E Switch

Table 1-12 Catalyst 4510R+E Switch Specifications

Item

Temperature, ambient

Table 1-12

lists the environmental and physical specifications of the Catalyst 4510R+E switch.

Humidity (RH), ambient

(noncondensing)

Altitude, operating and nonoperating

Sound pressure level

Specification

•

Operating: 32° to 104°F (0° to 40°C)

Nonoperating and storage: –40° to 167°F (–40° to 75°C)

Operating: 10% to 90%

Nonoperating and storage: 5% to 95%

–196 to 6561 ft (–60 to 2000 m)

Dimensions (H x W x D) and rack units (RU)

Weight

Airflow

•

One PS: 63.6 dBA at low speed and 68.3 dBA at full speed

Two PS: 65.4 dBA at low speed and 68.4 dBA at full speed

24.35 x 17.31 x 12.50 in. (61.84 x 43.97 x 31.70 cm)

•

14 RU

54.50 lb (24.73 kg)

Chassis fan tray: Right to left

•

Note

Power supply fan: Front to back

We recommend that you maintain a minimum air space of 6 inches

(16 cm) between walls and the chassis air vents and a minimum horizontal separation of 12 inches (30.5 cm) between two chassis to prevent overheating.

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Catalyst 4510R+E Switch

Chapter 1 Product Overview

1-26

Catalyst 4500 E-Series Switches Installation Guide

OL-13972-02

C H A P T E R

Preparing for Installation

Revised: October 2015

Planning a proper location for the switch and the layout of your equipment rack or wiring closet is essential for successful system operation. You should install the switch in an enclosed, secure area, ensuring that only qualified personnel have access to the switch and control of the environment.

Equipment placed too close together or inadequately ventilated can cause system overtemperature conditions. In addition, poor equipment placement can make chassis panels inaccessible and difficult to maintain.

Tip

•

This chapter describes how to prepare your site for switch installation and contains these sections:

•

Safety, page 2-1

Site Requirements, page 2-2

Power Requirements, page 2-12

Cabling Requirements, page 2-14

Site Preparation Checklist, page 2-14

Safety

Safety warnings appear throughout this publication in procedures that may harm you if performed incorrectly. A warning symbol precedes each warning statement. The warnings listed below are general warnings that are applicable to the entire publication.

Warning

This unit is intended for installation in restricted access areas. A restricted access area can be

accessed only through the use of a special tool, lock and key, or other means of security.

Statement 1017

Catalyst 4500 E-Series Switches Installation Guide

2-1

OL-13972-02

Chapter 2 Preparing for Installation

Site Requirements

Warning

Only trained and qualified personnel should be allowed to install, replace, or service

this equipment. Statement 1030

Warning

This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority or an electrician if you are uncertain that suitable grounding is available.

Statement 1024

Warning

Class 1 laser product. Statement 1008

If you are using your switch as a source for Power over Ethernet (PoE), the following warning applies:

Warning

Voltages that present a shock hazard can exist on inline power circuits if interconnections are made by using uninsulated exposed metal contacts, conductors, or terminals. Avoid using such interconnection methods unless the exposed metal parts are in a restricted access location and users and service people who are authorized to access the location are made aware of the hazard.

A restricted access area can be accessed only through the use of a special tool, lock and key, or

other means of security. Statement 1072

Site Requirements

These sections describe some of the basic site requirements that you should be aware of as you prepare to install your Catalyst 4500 E-series switch. Environmental factors can adversely affect the performance and longevity of your system. Planning a proper location for the switch and layout of your equipment rack or wiring closet is essential for successful system operation. You should install the switch in an enclosed, secure area, ensuring that only qualified personnel have access to the switch and control of the environment. Equipment that is placed too closely together or that is inadequately ventilated can cause system overtemperature conditions leading to premature component failures. In addition, poor equipment placement can make chassis panels inaccessible and difficult to maintain.

The switch requires a dry, clean, well-ventilated, and air-conditioned environment. To ensure normal operation, maintain ambient airflow. If the airflow is blocked or restricted, or if the intake air is too warm, an overtemperature condition can occur. The switch environmental monitor can then shut down the system to protect the system components.

Multiple switches can be rack-mounted with little or no clearance above and below the chassis. However, when mounting a switch in a rack with other equipment, or when placing it on the floor near other equipment, ensure that the exhaust from other equipment does not blow into the air intake vent of the switch chassis.

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Catalyst 4500 E-Series Switches Installation Guide

OL-13972-02

Chapter 2 Preparing for Installation

Site Requirements

Temperature

•

Temperature extremes can cause a system to operate at reduced efficiency and cause a variety of problems, including premature aging and failure of chips, and failure of mechanical devices. Extreme temperature fluctuations can cause chips to become loose in their sockets. Observe the following guidelines:

•

Ensure that the system is operating in an environment no colder than 50°F (10°C) or hotter than 95°F

(35°C).

Ensure that the chassis has adequate ventilation.

Do not place the chassis within a closed-in wall unit or on top of cloth, which can act as insulation.

Do not place it where it will receive direct sunlight, particularly in the afternoon.

Do not place it next to a heat source of any kind, including heating vents.

•

Adequate ventilation is particularly important at high altitudes. Make sure that all slots and openings on the system remain unobstructed, especially the fan vent on the chassis.

•

Clean the installation site at regular intervals to avoid buildup of dust and debris, which can cause a system to overheat.

•

If the system has been exposed to abnormally cold temperatures, allow a 2-hour warm-up period to bring it up to normal operating temperature before turning it on.

Failure to observe these guidelines can damage internal components.

Note

The Catalyst 4500 E-series switches are equipped with internal air temperature sensors that are triggered at 104°F (40°C) generating a minor alarm and at 131°F (55°C) generating a major alarm.

Airflow

The Catalyst 4500 E-series switch is designed to be installed in an environment where there is a sufficient volume of air available to cool the supervisor engines, modules, and power supplies. Any constraints placed on the free flow of air through the chassis or an elevated ambient air temperature can cause the switch to overheat and shut down.

To maintain proper air circulation through the Catalyst 4500 E-series switch chassis, we recommend that you maintain a minimum 6-inch (15 cm) separation between a wall and the chassis air intake or a wall and the chassis hot air exhaust. In situations where the switch chassis are installed in adjacent racks, you should allow a minimum of 12-inches (30.5 cm) between the air intake of one chassis and the hot air exhaust of another chassis. Failure to maintain adequate spacing between chassis can cause the switch chassis that is drawing in the hot exhaust air to overheat and fail.

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2-3

Site Requirements

Chapter 2 Preparing for Installation

If you are installing your Catalyst 4500 E-series switch in an enclosed or partially enclosed rack, we strongly recommend that you verify that your site meets the following guidelines:

•

Verify that there is a minimum of 6 inches (15 cm) of clearance between the sides of the rack and both the chassis air intake grill and the chassis air exhaust grill.

•

Verify that the ambient air temperature within the enclosed or partially enclosed rack is within the chassis operating temperature limits. After installing the chassis in the rack, power up the chassis and allow the chassis temperature to stabilize (approximately 2 hours). Measure the ambient air temperature at the chassis air intake grill and at the chassis air exhaust grill by positioning an external temperature probe approximately 1 inch (2.5 cm) away from the grills, in line with the chassis slot occupied by the supervisor engine.

–

If the ambient intake air temperature is less than 104°F (40°C), the rack meets the intake air temperature criterion.

–

If the ambient intake air temperature exceeds 104°F (40°C), the system might experience minor temperature alarms and is in danger of overheating.

–

If the ambient intake air temperature equals or is greater than 131°F (55°C), the system will experience a major temperature alarm and shut down.

•

Verify that the enclosed or partially enclosed rack allows an adequate flow of air through the switch chassis as follows:

–

If the difference between the measured intake air temperature and the exhaust air temperature does not exceed 10°C (18°F), there is sufficient airflow in the rack.

–

If the difference in air temperature exceeds 10°C (18°F), there is insufficient airflow to cool the chassis.

Note

The 10°C (18°F) temperature differential between the intake and the exhaust must be determined by taking measurements using external digital temperature probes. Do not use the chassis internal temperature sensors to measure the temperature differential.

•

Plan ahead. Your Catalyst 4500 E-series switches currently installed in an enclosed or partially enclosed rack might meet ambient air temperature and airflow requirements now. However, if you add more chassis to the rack or you add more modules to a chassis in the rack, the additional heat generated might cause the ambient air temperature within the rack to exceed 104°F (40°C) and can cause minor alarms.

Humidity

High-humidity conditions can cause moisture migration and penetration into the system. This moisture can cause corrosion of internal components and degradation of properties such as electrical resistance, thermal conductivity, physical strength, and size. Extreme moisture buildup inside the system can result in electrical shorts, which can cause serious damage to the system. Each system is rated to operate at 8 to 80 percent relative humidity, with a humidity gradation of 10 percent per hour. In storage, a system can withstand from 5 to 95 percent relative humidity. Buildings in which climate is controlled by air-conditioning in the warmer months and by heat during the colder months usually maintain an acceptable level of humidity for system equipment. However, if a system is located in an unusually humid location, a dehumidifier can be used to maintain the humidity within an acceptable range.

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Altitude

Dust and Particulates

•

Fans cool power supplies and system components by drawing in room temperature air and exhausting heated air out through various openings in the chassis. However, fans also ingest dust and other particles, causing contaminant buildup in the system and increased internal chassis temperature. A clean operating environment can greatly reduce the negative effects of dust and other particles, which act as insulators and interfere with the mechanical components in the system. The standards listed below provide guidelines for acceptable working environments and acceptable levels of suspended particulate matter:

Network Equipment Building Systems (NEBS) GR-63-CORE

National Electrical Manufacturers Association (NEMA) Type 1

•

International Electrotechnical Commission (IEC) IP-20

Corrosion

Operating a system at high altitude (low pressure) reduces the efficiency of forced and convection cooling and can result in electrical problems related to arcing and corona effects. This condition can also cause sealed components with internal pressure, such as electrolytic capacitors, to fail or perform at reduced efficiency. Each system is rated to operate at altitudes from –50 to 6500 feet (–16 to

1981 meters) and can be stored at altitudes of –50 to 35,000 feet (–16 to 10,668 meters).

Corrosion of system connectors is a gradual process that can eventually lead to intermittent failures of electrical circuits. The oil from a person’s fingers or prolonged exposure to high temperature or humidity can corrode the gold-plated edge connectors and pin connectors on various components in the system.

To prevent corrosion, avoid touching contacts on boards and cards, and protect the system from extreme temperatures and moist, salty environments.

Electromagnetic and Radio Frequency Interference

Electromagnetic interference (EMI) and radio frequency interference (RFI) from a system can adversely affect devices such as radio and television (TV) receivers operating near the system. Radio frequencies emanating from a system can also interfere with cordless and low-power telephones. Conversely, RFI from high-power telephones can cause spurious characters to appear on the system monitor. RFI is defined as any EMI with a frequency above 10 kilohertz (kHz). This type of interference can travel from the system to other devices through the power cable and power source or through the air like transmitted radio waves. The Federal Communications Commission (FCC) publishes specific regulations to limit the amount of EMI and RFI emitted by computing equipment. Each system meets these FCC regulations. To reduce the possibility of EMI and RFI, follow these guidelines:

•

Only operate the system with the chassis covers installed.

•

Ensure that all chassis slots are covered by a metal filler bracket and that an unused power supply bay has a metal cover plate installed.

•

Ensure that the screws on all peripheral cable connectors are securely fastened to their corresponding connectors on the back of the chassis.

•

Always use shielded cables with metal connector shells for attaching peripherals to the system.

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•

When wires are run for any significant distance in an electromagnetic field, interference can occur between the field and the signals on the wires. This fact has two implications for the construction of plant wiring:

Bad wiring practice can result in radio interference emanating from the plant wiring.

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

Note

To predict and remedy strong EMI, you may also 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. If you exceed the recommended distances, use a high-quality twisted-pair cable with one ground conductor for each data signal when applicable.

Caution

Category 5e, Category 6, and Category 6a cables can store large levels of static electricity because of the dielectric properties of the materials used in their construction. Always ground the cables (especially in new cable runs) to a suitable and safe earth ground before connecting them to the module.

If the wires exceed the recommended distances, or if wires pass between buildings, give special consideration to the effect of a lightning strike in your vicinity. The electromagnetic pulse caused by lightning or other high-energy phenomena can easily couple enough energy into unshielded conductors to destroy electronic devices. If you have had problems of this sort in the past, you may want to consult experts in electrical surge suppression and shielding.

Shock and Vibration

Catalyst 4500 E-series switches have been shock- and vibration-tested for operating ranges, handling, and earthquake standards to NEBS (Zone 4 per GR-63-Core). These tests have been conducted in earthquake environment and criteria, office vibration and criteria, transportation vibration and criteria, and packaged equipment shock.

Power Source Interruptions

•

Systems are especially sensitive to variations in voltage supplied by the AC power source. Overvoltage, undervoltage, and transients (or spikes) can erase data from memory or even cause components to fail.

To protect against these types of problems, power cables should always be properly grounded. Also, place the system on a dedicated power circuit (rather than sharing a circuit with other heavy electrical equipment). In general, do not allow the system to share a circuit with any of the following:

•

Copy machines

Air conditioners

Vacuum cleaners

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•

Space heaters

Power tools

Teletype machines

Laser printers

Facsimile machines

Any other motorized equipment

Besides these appliances, the greatest threats to a system power supply are surges or blackouts that are caused by electrical storms. Whenever possible, turn off the system and any peripherals, and unplug them from their power sources during thunderstorms. If a blackout occurs—even a temporary one—while the system is turned on, turn off the system immediately and disconnect it from the electrical outlet. Leaving the system on may cause problems when the power is restored; all other appliances left on in the area can create large voltage spikes that can damage the system.

System Grounding

You must install a NEBS-compliant system ground as part of the chassis installation process. Chassis installations that rely only on the AC third-prong ground are insufficient to properly and adequately ground the systems.

The system (NEBS) ground is different than the source power ground (AC third-prong ground on an AC power plug). The source power ground is designed for safety in the case of a short circuit in the power supply or a connection between the live voltage wire and the chassis. The resulting short circuit causes the source power circuit breaker to trip, which minimizes the damage to the chassis and the possible shock hazard to anyone in physical contact with the chassis. The source power ground usually does not have low impedance, it might be shared across many different types of devices, and it can have a floating voltage with reference to true earth ground.

The system (NEBS) ground should have the lowest possible impedance to true earth ground to ensure that there is no floating voltage. The system (NEBS) ground should have only communications equipment connected to it and should be free of induction or capacitance-induced voltages. In order to reduce the possibility of spurious signals and floating voltages from disrupting data transmissions, it might be necessary to install a new dedicated system (NEBS) ground in your data center.

You must observe the following system grounding guidelines for your chassis:

•

You must install the system (NEBS) ground connection with any other rack or system power ground connections that you make. The system (NEBS) ground connection is required if FXS modules are installed or if this equipment is installed in a U.S. or European central office.

•

You must connect both the system (NEBS) ground connection and the power supply ground connection to earth grounds.

Caution

Installations that rely solely on system grounding using only an AC third-prong ground run a substantially greater risk of equipment problems and data corruption than those installations that use both the AC third-prong ground and a properly installed system (NEBS compliant) ground.

Table 2-1

lists some general grounding practice guidelines.

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Table 2-1 Grounding Practice Guidelines

Environment

Commercial building is subjected to direct lightning strikes.

For example, some places in the

United States, such as Florida, are subject to more lightning strikes than other areas.

Electromagnetic

Noise Severity

Level

High

Commercial building is located in an area where lightning storms frequently occur but is not subject to direct lightning strikes.

Commercial building contains a mix of information technology equipment and industrial equipment, such as welding.

High

Medium to High

Existing commercial building is not subject to natural environmental noise or man-made industrial noise. This building contains a standard office environment. This installation has a history of malfunction due to electromagnetic noise.

Medium

New commercial building is not subject to natural environmental noise or man-made industrial noise. This building contains a standard office environment.

Low

Existing commercial building is not subject to natural environmental noise or man-made industrial noise. This building contains a standard office environment.

Low

Grounding Recommendation

All lightning protection devices must be installed in strict accordance with manufacturer recommendations. Conductors carrying lightning current should be spaced away from power and data lines in accordance with applicable recommendations and codes. Best grounding practices must be closely followed.

Best grounding practices must be closely followed.

Best grounding practices must be closely followed. Determine source and cause of noise if possible, and mitigate as closely as possible at the noise source or reduce coupling from the noise source to the victim equipment.

Best grounding practices should be followed as closely as possible. Electromagnetic noise problems are not anticipated, but installing a best practice grounding system in a new building is often the least expensive route and the best way to plan for the future.

Best grounding practices should be followed as much as possible. Electromagnetic noise problems are not anticipated, but installing a best practice grounding system is always recommended.

2-8

Note

In all situations, grounding practices must comply with Section 250 of the National Electric Code (NEC) requirements or local laws and regulations. A 6 AWG grounding wire is preferred from the chassis to the rack ground or directly to the common bonding network (CBN). The equipment rack should also be connected to the CBN with 6 AWG grounding wire.

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Note

In installations where FXS modules are installed, supplemental grounding is required.

Note

Always ensure that all of the modules are completely installed and that the captive installation screws are fully tightened. In addition, ensure that all I/O cables and power cords are properly seated. These practices are normal installation practices and must be followed in all installations.

Caution

Maintaining Safety with Electricity

•

When working on electrical equipment, follow these guidelines:

•

Do not work alone if potentially hazardous conditions exist anywhere in your work space.

•

Never assume that power is disconnected from a circuit; always check the circuit before working on it.

•

Look carefully for possible hazards in your work area, such as damp floors, ungrounded power extension cables, frayed or damaged power cords, and missing safety grounds.

•

If an electrical accident occurs, proceed as follows:

–

Use extreme caution; do not become a victim yourself.

–

Disconnect power from the system.

If possible, send another person to get medical aid. Otherwise assess the condition of the victim, and then call for help.

–

Determine if the person needs rescue breathing or external cardiac compressions; then take appropriate action.

•

Use the product within its marked electrical ratings and product usage instructions.

Install the product in compliance with local and national electrical codes.

If any of the following conditions occur, contact the Cisco Technical Assistance Center:

–

The power cable or plug is damaged.

An object has fallen into the product.

–

The product has been exposed to water or other liquids.

The product has been dropped or shows signs of damage.

–

The product does not operate correctly when you follow the operating instructions.

•

Use the correct external power source. Operate the product only from the type of power source indicated on the electrical ratings label. If you are not sure of the type of power source required, consult the Cisco Technical Assistance Center or a local electrician.

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•

Use approved power cables only. You have been provided with one or more power cables with your chassis power supply that are intended for use in your country, based on the shipping location.

Should you need to purchase additional power cables, ensure that they are rated for the product and for the voltage and current marked on the product’s electrical ratings label. The voltage and current rating of the power cable should be greater than the ratings marked on the label.

To help prevent electrical shock, plug all power cables into properly grounded electrical outlets.

These power cables are equipped with three-prong plugs to help ensure proper grounding. Do not use adapter plugs or remove the grounding prong from a power cable.

Observe power strip ratings. Make sure that the total current rating of all products that are plugged into the power strip does not exceed 80 percent of the power strip rating.

Do not modify power cables or plugs yourself. Consult with a licensed electrician or your power company for site modifications. Always follow your local and national wiring codes.

Preventing Electrostatic Discharge Damage

Electrostatic discharge (ESD) damage, which can occur when modules or other FRUs are improperly handled, results in intermittent or complete failures. Modules consist of printed circuit boards that are fixed in metal carriers. Electromagnetic interference (EMI) shielding and connectors are integral components of the carrier. Although the metal carrier helps to protect the board from ESD, always use an ESD grounding strap when handling modules.

To prevent ESD damage, follow these guidelines:

•

Always use an ESD wrist strap and ensure that it makes maximum contact with bare skin. ESD grounding straps are available with banana plugs, metal spring clips, or alligator clips. All

Catalyst 4500 E-series chassis are equipped with a bare metal hole banana plug connector

(identified by the ground symbol next to the connector) somewhere on the front panel. We recommend that you use a personal ESD grounding strap equipped with a banana plug.

•

If you choose to use the disposable ESD wrist strap supplied with most FRUs or an ESD wrist strap equipped with an alligator clip, you must attach the system ground lug to the chassis in order to provide a proper grounding point for the ESD wrist strap.

Note

This system ground is also referred to as the network equipment building system (NEBS) ground.

•

If your chassis does not have the system ground attached, you must install the system ground. See the

“Establishing the System Ground Connection” section on page 3-7

for installation instructions and locations of the chassis system ground pads.

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After you install the system ground lug, follow these steps to correctly attach the ESD wrist strap:

Step 1

Step 2

Step 3

Attach the ESD wrist strap to bare skin as follows:

If you are using the ESD wrist strap supplied with the FRUs, open the wrist strap package and unwrap the ESD wrist strap. Place the black conductive loop over your wrist and tighten the strap so that it makes good contact with your bare skin.

If you are using an ESD wrist strap equipped with an alligator clip, open the package and remove the ESD wrist strap. Locate the end of the wrist strap that attaches to your body and secure it to your bare skin.

Grasp the spring or alligator clip on the ESD wrist strap and momentarily touch the clip to a bare metal spot (unpainted surface) on the rack. We recommend that you touch the clip to an unpainted rack rail so that any built-up static charge is then safely dissipated to the entire rack.

Attach either the spring clip or the alligator clip to the ground lug screw as follows:

If you are using the ESD wrist strap that is supplied with the FRUs, squeeze the spring clip jaws open, position the spring clip to one side of the system ground lug screw head, and slide the spring clip over the lug screw head so that the spring clip jaws close behind the lug screw head.

Note

The spring clip jaws do not open wide enough to fit directly over the head of the lug screw or the lug barrel.

If you are using an ESD wrist strap that is equipped with an alligator clip, attach the alligator clip directly over the head of the system ground lug screw or to the system ground lug barrel.

When handling modules, follow these guidelines:

•

Handle carriers by available handles or edges only; avoid touching the printed circuit boards or connectors.

•

Place a removed component board-side-up on an antistatic surface or in a static shielding container.

If you plan to return the component to the factory, immediately place it in a static shielding container.

•

Never attempt to remove the printed circuit board from the metal carrier.

Caution

For safety, periodically check the resistance value of the antistatic strap. The measurement should be between 1 and 10 megohm (Mohm).

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Power Requirements

When preparing your site for the switch installation, follow these requirements:

•

In systems configured with two power supplies, connect each of the two power supplies to a separate input power source. If you fail to do this task, your system might be susceptible to total power failure due to a fault in the external wiring or a tripped circuit breaker.

•

To prevent a loss of input power, be sure that the total maximum load on each source circuit is within the current ratings of the wiring and breakers.

•

In some systems, you may decide to use an uninterruptible power supply (UPS) to protect against power failures at your site. Be aware when selecting a UPS that some UPS models that use ferroresonant technology can become unstable when operating with the Catalyst 4500 E-series switch power supplies which use power factor correction (PFC). Ferroresonant technology can cause the output voltage waveform to the switch to become distorted resulting in an undervoltage situation in the system.

•

The AC-input power supply has a detachable power cord that allows you to connect each power supply to the site power source.

•

You can connect the DC-input power supply to the power source with heavy-gauge wiring connected to a terminal block. The wire gauge size is determined by local electrical codes and restrictions.

•

If you are using a 200/240 VAC power source in North America, the circuit must be protected by a two-pole circuit breaker.

•

The source AC outlet must be within 6 feet (1.8 meters) of the system and should be easily accessible.

•

The AC power receptacles used to plug in the chassis must be the grounding type. The grounding conductors that connect to the receptacles should connect to protective earth ground at the service equipment.

Power Connection Guidelines for AC-Powered Systems

This section provides the basic guidelines for connecting the Catalyst 4500 E-series switch AC power supplies to the site power source:

•

Each chassis power supply should have a separate, dedicated branch circuit.

For North America:

–

The 1000 W power supply requires a 15 A or 20 A circuit.

The 1300 W, 1400 W, and 2800 W power supplies require a 20 A circuit.

–

The 4200 W power supply requires one or two 15 A circuits.

–

The 6000 W power supply requires one or two 15 A circuits (low-line inputs) or one or two 20 A circuits (high-line inputs).

–

The 9000 W power supply requires up to three 15 A circuits (low-line inputs) or up to three

20 A circuits (high-line inputs).

•

For International:

–

Circuits should be sized according to local and national codes.

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•

If you are using a 200/240 VAC power source in North America, the circuit must be protected by a two-pole circuit breaker.

The source AC outlet must be within 6 feet (1.8 meters) of the system and should be easily accessible.

Power Connection Guidelines for DC-Powered Systems

•

This section provides the basic guidelines for connecting the Catalyst 4500 E-series switch DC-input power supplies to the site power source:

•

All power connection wiring should conform to the rules and regulations in the National Electrical

Code (NEC), as well as any local codes.

•

DC (–) and the DC return (+) terminals are evaluated for use with 1/0 AWG wire (1400 W DC supply only).

•

The ground terminal is evaluated for use with 6 AWG wire (10 AWG for the multi-input power supply).

The DC return must remain isolated from the system frame and the chassis (DC-I).

For DC power cables, we recommend that you use commensurately rated, high-strand-count copper wire cable. Connection to the DC-input power supply requires one earth ground cable, one source

DC (–), and one source DC return (+). The length of the cables depends on your switch location.

These cables are not available from Cisco Systems. They are available from any commercial cable vendor.

•

The color coding of the source DC power cable leads depends on the color coding of the site DC power source. Typically, green or green and yellow indicate that the cable is a ground cable. Because there is no color code standard for source DC wiring, you must ensure that the power cables are connected to the DC-input power supply terminal block in the proper (+) and (–) polarity. In some cases, the source DC cable leads might have a positive (+) or a negative (–) label. This label is a relatively safe indication of the polarity, but you must verify the polarity by measuring the voltage between the DC cable leads. When making the measurement, the positive (+) lead and the negative

(–) lead must always match the (+) and (–) labels on the DC-input power supply terminal block.

•

DC power cables must be terminated by cable lugs at the power supply end.

The circuit breaker is considered to be the disconnect device and should be easily accessible.

The circuit must be protected by a dedicated two-pole circuit breaker. The circuit breaker should be sized according to the power supply input rating and local or national code requirements.

•

For proper DC-input redundant power configurations on systems with multiple-input DC-input power supplies, all pairs of source DC cables for one DC-input power supply must come from the same battery system (A feed); all pairs of source DC cables for the second DC-input power supply must come from a different battery system (B feed).

•

For DC-input power supplies with multiple inputs, each DC input must be protected by a dedicated circuit breaker or a fuse. The circuit breaker or the fuse must be sized according to the power supply input rating and local or national electrical codes.

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Cabling Requirements

Cabling Requirements

Caution

The intrabuilding port(s) of the equipment or subassembly is suitable for connection to intrabuilding or unexposed wiring or cabling only. The intrabuilding port(s) of the equipment or subassembly must not be metallically connected to interfaces that connect to the Outside Plant (OSP) or its wiring. These interfaces are designed for use as intrabuilding interfaces only (Type 2 or Type 4 ports as described in

GR-1089-CORE, Issue 4) and require isolation from the exposed OSP cabling. The addition of Primary

Protectors is not sufficient protection to connect these interfaces metallically to OSP wiring.

When running power and data cables together in overhead cable trays or subfloor cable trays, be aware of the following caution:

Caution

We strongly recommend that power cabling runs and other potential noise sources be located as far away as practical from LAN cabling that terminates on Cisco equipment. In situations, where this type of long parallel cable runs exist which cannot be separated by at least 3.3 feet (1 meter), we recommend that you shield these potential noise sources. To avoid interference, the source should be shielded by housing it in a grounded metallic conduit.

Also be aware of the following caution concerning the use of Category 5e and Category 6 Ethernet cables:

Caution

Site Preparation Checklist

Table 2-2 lists the site-planning activities that you should complete before you install a Catalyst 4500

E-series switch. Completing each activity helps to ensure a successful switch installation.

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Table 2-2 Site-Planning Checklist

Task No.

Planning Activity

1 Space evaluation:

•

Space and layout

Floor covering

Impact and vibration

Lighting

Maintenance access

•

Environmental evaluation:

•

Ambient temperature

Humidity

•

Altitude

•

Atmospheric contamination

•

Airflow

Power evaluation:

Input power type

Receptacle proximity to the equipment

Dedicated (separate) circuits for redundant power supplies

•

UPS for power failures

•

Grounding evaluation:

•

Circuit breaker size

Cable and interface equipment evaluation:

•

Cable type

Connector type

Cable distance limitations

•

Interface equipment (transceivers)

EMI evaluation:

•

Distance limitations for signaling

Site wiring

•

RFI levels

Verified by Time Date

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C H A P T E R

Installing the Switch

Revised: October 2011

•

This chapter describes how to install Catalyst 4500 E-series switches in an equipment rack. The chapter contains the following sections:

•

Installation Process, page 3-2

Rack-Mounting Guidelines, page 3-2

Unpacking the Switch, page 3-4

Installing the Switch in a Rack, page 3-4

Establishing the System Ground Connection, page 3-7

Completing the Installation Process, page 3-9

Warning

This unit is intended for installation in restricted access areas. A restricted access area can be accessed only through the use of a special tool, lock and key, or other means of security.

Statement 1017

Warning Only trained and qualified personnel should be allowed to install, replace, or service

this equipment. Statement 1030

Warning To prevent personal injury or damage to the chassis, never attempt to lift or tilt the chassis using the handles on modules (such as power supplies, fans, or cards); these types of handles are not

designed to support the weight of the unit. Statement 1032

Note

Before starting the installation procedures in this chapter, complete the site-planning checklist in

Table 2-2

Chapter 2, “Preparing for Installation.”

Note

For information on installing the supervisor engine and switching modules and verifying switch operation, see the Catalyst 4500 Series Module Installation Guide. For information on configuring the switching modules, see the software configuration guide for your switch and software release.

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Chapter 3 Installing the Switch

Installation Process

Installation Process

The process of installing the switch can be broken down into a series of tasks. These tasks are listed in

Table 3-1 .

Table 3-1 Catalyst 4500 E-Series Switch Installation Process

Task

Unpacking the switch

Description

Remove the switch from the packaging materials.

Note

We recommend that you save the packaging material for use later if you need to move the chassis from one site to another.

Installing the switch

Connecting the chassis to system ground

All Catalyst 4500 E-series chassis are designed to be rack-mounted.

Construct and attach a system ground wire from the building (earth) ground to the system ground point on the chassis.

Installing and cabling the power supply or supplies

Cabling the supervisor engine and modules to the network

Powering up the chassis

Normally, one power supply is shipped installed in the chassis. The second power supply, if part of the switch configuration, is shipped separately. Install the second power supply and connect the power supplies to site source power, either AC or DC.

The various ports on the supervisor engine and on the modules that are installed in the chassis must be connected to the network. This process can involve only attaching a network interface cable to the module port, or it can include the installation of a transceiver of some type in the supervisor engine or module port, and then attaching the network interface cable to the transceiver.

After completing the network cabling and making sure that system ground is connected, the power supplies can be turned on. The system powers up and runs through a set of built-in diagnostics.

Tip

Rack-Mounting Guidelines

The Catalyst 4500 E-series switches are designed to be installed in both open and enclosed racks that meet ANSI/EIA-310-D and ETS 300 119-3 specifications. Before rack-mounting the switch, ensure that the equipment rack complies with the following guidelines:

•

The width of the rack, measured between the two front-mounting strips or rails, must be

17.75 inches (45.09 cm).

•

The depth of the rack, measured between the front- and rear-mounting strips, must be at least

19.25 inches (48.9 cm).

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Rack-Mounting Guidelines

Note

All of the Catalyst 4500 E-series switch chassis are designed to install in standard 19-inch racks.

•

The rack must have sufficient vertical clearance to insert the chassis. The chassis heights are as follows:

–

Catalyst 4503-E switch—12.25 inches (31.12 cm) (7 RU)

–

Catalyst 4506-E switch—17.38 inches (44.13 cm) (10 RU)

Catalyst 4507R-E switch—19.15 inches (49 cm) (10 RU)

–

Catalyst 4510R-E switch—24.35 inches (61.84 cm) (14 RU)

Catalyst 4507R+E switch—19.15 inches (49 cm) (10 RU)

–

Catalyst 4510R+E switch—24.35 inches (61.84 cm) (14 RU)

Note

Chassis height is sometimes measured in rack units (RU or just U) where 1 RU or 1 U equals 1.75 in

(44.45 mm). A typical server rack is 42 RU or 42 U in height.

Caution

If the equipment rack is on wheels, ensure that the brakes are engaged and that the rack is stabilized.

Warning

To prevent bodily injury when mounting or servicing this unit in a rack, you must take special precautions to ensure that the system remains stable. The following guidelines are provided to ensure your safety:

• This unit should be mounted at the bottom of the rack if it is the only unit in the rack.

• When mounting this unit in a partially filled rack, load the rack from the bottom to the top with the heaviest component at the bottom of the rack.

• If the rack is provided with stabilizing devices, install the stabilizers before mounting or servicing the unit in the rack.

Statement 1006

Note

To maintain proper air circulation through the Catalyst switch chassis, we recommend that you maintain a minimum 6-inch (15 cm) separation between a wall and the chassis air intake or a wall and the chassis air exhaust. You should also allow a minimum separation of 12 inches (30.5 cm) between the hot air exhaust on one chassis and the air intake on another chassis. Failure to maintain adequate air space can cause the chassis to overheat and the system to fail.

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Chapter 3 Installing the Switch

Unpacking the Switch

Unpacking the Switch

To check the contents of the shipping cartons, follow these steps:

Step 1

Step 2

Step 3

Check the contents of the accessories box against the accessories box components checklist and the packing slip that were included with your switch. Verify that you received all listed equipment, including the following:

•

Rack-mount kit, cable guide kit, and system ground kit

•

Optional equipment that you ordered, such as network interface cables, transceivers, or special connectors

Check the switching modules in each slot. Verify that the configuration matches the packing list and that all the specified interfaces are included.

Verify that the L brackets are securely attached to the ides of the chassis.

Note

Do not discard the shipping cartons and poly bag when you unpack the switch. Flatten and store them.

You will need the containers if you need to move or ship the switch in the future. Repacking instructions

are provided in Appendix B, “Repacking a Switch.”

Installing the Switch in a Rack

A rack-mount kit is included for mounting the switch in a standard 19-inch (48.3 cm) equipment rack with two unobstructed outer posts, with a nominal depth (between the front and rear mounting posts) of

19.25 inches (48.9 cm) and a maximum depth of 32 inches (81.3 cm). This kit is not suitable for racks with obstructions (such as a power strip) that could impair access to the field-replaceable units (FRUs) of the switch.

Determine if the rack post holes are prethreaded or unthreaded. If the rack post holes are unthreaded, you need to install 12-24 clip-nuts or cage-nuts over the rack post holes to accept the installation screws.

Note

Clip-nuts or cage-nuts are not included as part of the accessory kit that comes with the chassis.

You must obtain them yourself.

Required Installation Tools

You will need the following tools and equipment to install the chassis in a rack:

•

Number 1 and number 2 Phillips-head screwdrivers to tighten the captive installation screws on most systems

•

3/16-inch flat-blade screwdriver for the captive installation screws on the supervisor engine and switching modules on some systems

•

Antistatic mat or antistatic foam in case you need to remove switching modules to troubleshoot the installation

•

Rack-mount kit

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Chapter 3 Installing the Switch

Installing the Switch in a Rack

•

Tape measure

Level

Your own electrostatic discharge (ESD) grounding strap or the disposable ESD strap included with the system

Installing the Catalyst 4500 E-Series Switches in a Rack

To install a Catalyst 4500 E-series switch in an equipment rack, follow these steps:

Step 1

Step 2

Step 3

Place the chassis on the floor or on a sturdy table near the rack.

Use a tape measure to verify the interior dimensions of the rack:

•

Measure the depth of the rack from the outside of the front mounting posts to the outside of the rear mounting strip. The depth must be at least 19.25 inches (48.9 cm) but not greater than 32 inches

(81.3 cm).

•

Measure the space between the inner edges of the left front and right front mounting posts to ensure that it is 17.75 inches (45.09 cm) wide. (The chassis is 17.25 inches [43.8 cm] wide and must fit between the mounting posts.)

Carefully lift the chassis and position the rear of the chassis between the equipment rack mounting posts and slide the chassis into the rack until the L brackets on the sides of the chassis are flush with the equipment rack front posts. (See

Figure 3-1 .)

Note

Figure 3-1

illustrate the installation of a Catalyst 4506-E switch. The other Catalyst 4500

E-series switches are installed in the equipment rack the same way.

Step 4

Step 5

Align the mounting holes in the L bracket with the mounting holes in the equipment rack posts. Use a tape measure and level to ensure that the chassis is positioned in the rack straight and level. If necessary, install at least six clip-nuts or cage-nuts (three per side) on the rack post to receive the installation screws.

Secure the chassis using at least six (three per side) 12-24 x 3/4-inch screws through the elongated holes in the L bracket and into the threaded holes in the mounting post (or the clip-nuts or cage-nuts).

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3-5

Installing the Switch in a Rack

Figure 3-1

Chapter 3 Installing the Switch

Installing the Switch in the Rack (Catalyst 4506-E Switch Shown)

4506 a.

Attach the cable guide, if needed, using the M3 screws provided in the cable management kit. The cable guide attaches to prethreaded holes in either L bracket. (See

Figure 3-2 .)

Note

We recommend that you attach the cable guide to the right side of the switch chassis to prevent the network interface cables from obscuring switching module front panel LEDs.

3-6

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Chapter 3 Installing the Switch

Figure 3-2

Establishing the System Ground Connection

Attaching the Cable Guide to the Chassis (Catalyst 4506-E Switch Shown)

4506

Step 6

Verify that on all installed supervisor engines and switching modules, the ejector levers are completely closed and that the captive installation screws are tight.

Establishing the System Ground Connection

The system (NEBS) ground provides additional grounding for EMI shielding requirements and grounding for the low voltage supplies (DC-DC converters) on the modules and is intended to satisfy the

Telcordia Technologies NEBS requirements for supplemental bonding and grounding connections.

Proper grounding practices ensure that the buildings and the installed equipment within them have low-impedance connections and low-voltage differentials between chassis. When you include

NEBS-compliant system grounds, you reduce or prevent shock hazards, greatly reduce the chances of equipment damage due to transients, and substantially reduce the potential for data corruption.

Without proper and complete system grounding, you run the risk of increased component damage due to

ESD. Additionally, you have a greatly increased chance of data corruption, system lockup, and frequent system reboot situations by not using a system (NEBS compliant) ground.

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Chapter 3 Installing the Switch

Establishing the System Ground Connection

Required Tools and Parts

•

To connect the system ground, you need the following tools and parts:

•

Grounding lug—A two-hole standard barrel lug that supports up to 6 AWG wire. The grounding lug is upplied as part of accessory kit.

•

Grounding screws—Two M4 x 8 mm (metric) pan-head screws that are supplied as part of the accessory kit.

•

Grounding wire—Not supplied as part of the accessory kit. The grounding wire should be sized according to local and national installation requirements. Depending on the power supply and system, a 12 AWG to 6 AWG copper conductor is required for U.S. installations. Commercially available 6 AWG wire is recommended. The length of the grounding wire depends on the proximity of the switch to proper grounding facilities.

No. 1 Phillips-head screwdriver.

Crimping tool to crimp the grounding wire to the grounding lug.

•

Wire-stripping tool to remove the insulation from the grounding wire.

Connecting System Ground

Caution

To attach the grounding lug and cable to the grounding pad, follow these steps:

Step 1

Step 2

Step 3

Step 4

Use a wire-stripping tool to remove approximately 0.75 inch (19 mm) of the covering from the end of the grounding wire.

Insert the stripped end of the grounding wire into the open end of the grounding lug.

Crimp the grounding wire in the barrel of the grounding lug. Verify that the ground wire is securely attached to the ground lug by holding the ground lug and gently pulling on the ground wire.

Locate and remove the adhesive label covering the system grounding pad on the switch chassis. (See

Figure 3-3

Note

All Catalyst 4500 E-series chassis have the system ground pad in the same location.

3-8

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Chapter 3 Installing the Switch

Figure 3-3 Connecting System Ground on the Switch

Completing the Installation Process

4503

2 2

System grounding wire

Screws (M4)

Grounding lug

Chassis grounding pad

Step 5

Step 6

Step 7

Place the grounding lug against the grounding pad making sure there is good metal-to-metal contact between the lug and the bare metal of the chassis and that the grounding lug and the attached wire will not interfere with other switch hardware or rack equipment.

Secure the system ground lug to the chassis with the two M4 screws.

Prepare the other end of the grounding wire and connect it to an appropriate grounding point at your site to ensure adequate earth ground for the switch. Consult with your local electrician to determine the appropriate place to attach the gound wire.

Completing the Installation Process

Perform the following procedures to complete the installation process.

Attaching the Power Cords

Verify that you have the correct power supply (AC-input or DC-input and the correct wattage) for your configuration. Connect the chassis power supplies to the site power by referring to the

“Removing and

Installing the AC-Input Power Supplies” section on page 4-2 or the

“Removing and Installing the

DC-Input Power Supplies” section on page 4-8

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Chapter 3 Installing the Switch

Completing the Installation Process

Connecting the Supervisor Engine Console Port

•

This section describes how to connect a terminal or modem to the supervisor engine console port. The console port on the supervisor engine allows you to perform the following functions:

•

Configure the switch from the CLI.

Monitor network statistics and errors.

Configure SNMP agent parameters.

•

Download software updates to the switch, or distribute software images residing in flash memory to attached devices.

The console port is located on the front panel of the supervisor engine.

Note

The accessory kit that shipped with your Catalyst 4500 E-series switch contains the RJ-45-to-DB-25

DTE adapter, but does not contain the console cable. The console cable is available as an option.

To connect a terminal to the console port, follow these steps:

Step 1

Step 2

Step 3

Step 4

Place the console port mode switch in the in position (factory default).

Connect to the port using an RJ-45-to-RJ-45 cable and RJ-45-to-DB-25 DTE adapter or RJ-45-to-DB-9

DTE adapter (labeled “Terminal”).

Position the cable in the cable guide (if installed). Make sure there are no sharp bends in the cable.

•

Check the terminal documentation to determine the baud rate. The baud rate of the terminal must match the default baud rate (9600 baud) of the console port. Set up the terminal as follows:

•

9600 baud

8 data bits

No parity

•

2 stop bits

With this console connection, you can configure the switch as described in

Appendix C, “Initial

Configuration for the Switch,”

and then as discussed in the software configuration guide appropriate for your switch’s software release, and monitor the software as the switch goes through its startup routine.

Note

If you move a supervisor engine from a Catalyst 4500 series chassis to a Catalyst 4503-E chassis or

Catalyst 4506-E chassis, the supervisor engine must use Cisco IOS Release 12.2(37)SG or later releases.

See your release notes for software upgrade procedures if needed: http://www.cisco.com/en/US/docs/switches/lan/catalyst4500/release/note/OL_5184.html#wp305142

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Chapter 3 Installing the Switch

Completing the Installation Process

Connecting the Supervisor Engine Uplink Ports

This section describes how to connect to the supervisor engine uplink ports. Some supervisor engine uplink ports may require the installation of transceivers into the supervisor engine port sockets. Refer to the applicable transceiver installation notes for instructions on how to correctly install the transceiver into your supervisor engine uplink port.

Warning

Invisible laser radiation may be emitted from disconnected fibers or connectors. Do not stare into

beams or view directly with optical instruments. Statement 1051

Warning

Class 1 laser product. Statement 1008

Note

In a redundant configuration with two supervisor engines, the uplink ports on the redundant (standby) supervisor engine are active and can be used for normal traffic like any other ports in the chassis.

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Completing the Installation Process

Chapter 3 Installing the Switch

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Catalyst 4500 E-Series Switches Installation Guide

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C H A P T E R

Removal and Replacement Procedures

Revised: March 2013

•

This chapter provides removal and replacement procedures for the following Catalyst 4500-E series field-replaceable units (FRUs):

•

Removing and Installing the AC-Input Power Supplies, page 4-2

Removing and Installing the DC-Input Power Supplies, page 4-8

Removing and Installing the Chassis Fan Tray Assembly, page 4-14

Removing and Installing the Backplane Modules, page 4-16

•

Installing the Remote Power Cycling Feature Control Wires (Optional), page 4-20

Tip

Warning

Read the installation instructions before connecting the system to the power source. Statement

1004

Warning

Only trained and qualified personnel should be allowed to install, replace, or service

this equipment. Statement 1030

Warning

Statement 1024

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4-1

Chapter 4 Removal and Replacement Procedures

Removing and Installing the AC-Input Power Supplies

Warning

Before working on equipment that is connected to power lines, remove jewelry (including rings, necklaces, and watches). Metal objects will heat up when connected to power and ground and can

cause serious burns or weld the metal object to the terminals. Statement 43

Warning Ultimate disposal of this product should be handled according to all national laws and

regulations. Statement 1040

For procedures to remove and replace switching modules, see the

Catalyst 4500 Series Module

Installation Guide

For procedures to remove and replace supervisor engines see

Supervisor Engine Notes

Removing and Installing the AC-Input Power Supplies

This section describes how to remove and install the AC-input power supplies for the Catalyst 4500-E series switches. The section is contains the following topics:

•

Required Tools, page 4-4

Removing an AC-Input Power Supply, page 4-5

•

Installing an AC-Input Power Supply, page 4-7

Warning

Hazardous voltage or energy is present on the backplane when the system is operating. Use

caution when servicing. Statement 1034

Figure 4-1

shows a single-input AC-input power supply,

Figure 4-2 shows a dual-input AC-input power

supply, and

Figure 4-3 shows a triple-input AC-input power supply.

Note

The power supplies are hot-swappable, so in redundant mode, you will not need to power down the switch to replace or upgrade most power supplies. With dual power supplies running in combined mode, some chassis slots may lose power during an upgrade or power supply replacement.

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Chapter 4 Removal and Replacement Procedures

Figure 4-1 AC-Input Power Supply (Single-Input)

Removing and Installing the AC-Input Power Supplies

AC in receptacle

Power on/off switch

Figure 4-2

Captive installation screws

Dual-Input AC-Input Power Supply (4200 W and 6000 W)

100-120V

12A

50/60Hz

OUTP{UT F

AI:

FAN OK

INPUT 1

INPUT 2

POE ENABLED

100-120V

12A

50/60Hz

4600A

AC input 2 receptacle

AC input 2 on/off switch

AC input 1 on/off switch

AC input 1 receptacle

Captive installation screws

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Removing and Installing the AC-Input Power Supplies

Figure 4-3 Triple-Input AC-Input Power Supply (9000 W)

Chapter 4 Removal and Replacement Procedures

Power supply status LEDs

AC in connectors (IE60320/C20) (3 inputs)

Remote power cycling feature terminal block 6 AC power switches (3 switches)

Handle

Power cord connector retention clips

Captive installation screws (2X)

Required Tools

You need a flathead or Phillips-head screwdriver to perform these procedures.

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Chapter 4 Removal and Replacement Procedures

Removing and Installing the AC-Input Power Supplies

Removing an AC-Input Power Supply

To remove the AC-input power supply, follow these steps:

Step 1

Set the AC-input power supply power switch to the off (0) position (see

Figure 4-4

Figure 4-4 Powering Off the Power Switch (Single-Input Power Supply Shown)

Power switch

Note

There are two on/off switches on the 4200 W and the 6000 W AC-input power supplies and three on/off switches on the 9000 W AC-input power supply. Each switch controls one of the source

AC inputs.

Step 2

Loosen the side-clamp screw on the power cord plug (see

Figure 4-5 ).

Figure 4-5 Loosening the Side-Clamp Screw (Single-Input Power Supply Shown)

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Step 3

Step 4

Disconnect the power cord appliance plug from the AC-in receptacle.

Loosen the two captive screws on the power supply (see Figure 4-6

Catalyst 4500 E-Series Switches Installation Guide

4-5

Removing and Installing the AC-Input Power Supplies

Figure 4-6 Loosening the Captive Screws

Captive screws

Chapter 4 Removal and Replacement Procedures

Caution

Use both hands to grasp and support a power supply.

Step 5

Grasp the power supply handle with one hand. Place your other hand underneath to support the bottom of the power supply, as shown in

Figure 4-7 .

Figure 4-7 Handling an AC-Input Power Supply

Step 6

Step 7

Slide the power supply out of the bay and set it aside.

If the power supply bay is to remain empty, install a blank power supply cover (WS-C4K-PS-CVR) over the opening. Secure the blank power supply cover with the two mounting screws.

Warning Blank faceplates and cover panels serve three important functions: they prevent exposure to hazardous voltages and currents inside the chassis; they contain electromagnetic interference

(EMI) that might disrupt other equipment; and they direct the flow of cooling air through the chassis. Do not operate the system unless all cards, faceplates, front covers, and rear covers are

in place. Statement 1029

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Chapter 4 Removal and Replacement Procedures

Installing an AC-Input Power Supply

Removing and Installing the AC-Input Power Supplies

Warning The plug-socket combination must be accessible at all times, because it serves as the main

disconnecting device. Statement 1019

To install an AC-input power supply, follow these steps:

Step 1

Step 2

Step 3

Remove the replacement power supply from its shipping packaging.

Verify that the replacement power supply power switch is in the off (0) position.

If necessary, remove the blank power supply cover from the empty power supply bay by removing the two Phillips-head screws. Save the blank faceplate and the two screws for future use.

Caution

Use both hands to handle a power supply.

Step 4

Step 5

Step 6

Step 7

Step 8

Grasp the power supply handle with one hand and place your other hand underneath to support the bottom of the power supply, as shown in

Figure 4-7 , and slide the power supply all the way into the

power supply bay. Make sure that the power supply is fully seated in the bay.

Tighten the two captive installation screws (see

Figure 4-1

) on the front panel of the AC-input power supply.

Before you connect the power supply to a power source, verify that all site power and grounding requirements have been met.

Verify that you have the correct AC power cord for your location and power supply rating. See

Appendix A, “Power Supply Specifications,” for a list of supported AC power cords for your particular

AC-input power supply.

Plug the power cord appliance connector into the power supply AC-in receptacle (see

Figure 4-8

) and tighten the screw on the power cord retention clip.

Figure 4-8 Plugging the Power Cord into the Power Supply (Single-Input Power Supply Shown)

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Step 9

Plug the other end of the power cord to source AC.

Note

In a chassis with dual power supplies or power supplies with multiple AC inputs, it is recommended that you connect each AC power cord to a separate source AC circuit.

Catalyst 4500 E-Series Switches Installation Guide

4-7

Chapter 4 Removal and Replacement Procedures

Removing and Installing the DC-Input Power Supplies

Step 10

Set the power switch to the on (|) position (see

Figure 4-9 ).

Figure 4-9 Powering On the Power Supply (Single-Input Power Supply Shown)

Power switch

Step 11

Step 12

Step 13

Verify the power supply operation by checking the power supply’s front-panel LEDs. You should see the following:

•

The LED labeled GOOD or INPUT OK is green.

The LED labeled OUTPUT FAIL is not lit.

•

The LED labeled FAN OK is green.

Check the power supply and system status from the system console by entering show power command.

For more information on this command, see the command reference publication for your switch.

If the LEDs or show power command output indicate a power problem or other system problem, see

Chapter 5, “Troubleshooting,” for more information.

Removing and Installing the DC-Input Power Supplies

•

This section describes how to remove and install the DC-input power supplies and contains the following topics:

•

Required Tools, page 4-8

Removing a DC-Input Power Supply, page 4-9

Installing a DC-Input Power Supply, page 4-12

Required Tools

•

You need the following tools to perform this procedure:

•

A Phillips-head screwdriver

A 10-mm wrench/socket

Wire cutters (you might need to cut any cable ties that are installed on the power supply)

4-8

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Chapter 4 Removal and Replacement Procedures

Removing a DC-Input Power Supply

Removing and Installing the DC-Input Power Supplies

Warning Before performing any of the following procedures, ensure that power is removed from the

DC circuit. Statement 1003

To remove a DC-input power supply, follow these steps:

Step 1

Step 2

Step 3

Turn off the in-line power switch on the DC-input power supply front panel. (This step applies to the single input power supply only, PWR-C45-1400DC-P; the triple-input power supply,

PWR-C45-1400DC, does not have this switch.)

Verify that power is off to the DC circuit on the power supply that you are removing. As an added precaution, place the appropriate safety flag and lockout devices at the source power circuit breaker, or place a piece of adhesive tape over the circuit breaker handle to prevent accidental power restoration while you are working on the circuit.

Loosen the screw on the terminal block cover, remove the cover from the terminal block, and set it aside

(see Figure 4-10

Figure 4-11 ).

Note

The triple-input power supply has two screws securing the terminal block cover.

Figure 4-10 DC-Input Power Supply

Main power switch

In-line power switch

Captive screw

Serial communication connector

Captive screw

Terminal block

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Chapter 4 Removal and Replacement Procedures

Removing and Installing the DC-Input Power Supplies

Figure 4-11 DC Triple-Input Power Supply

Captive screw

Output Fail LED

Fan OK LED

Input OK 1, 2, 3 LEDs

Plus (+)

Minus (-)

Captive screw

Step 4

Power switch 1, 2, 3

Terminal block

Ground lugs

Disconnect the DC-input wires from the terminal block. Disconnect the ground wire last (see

Figure 4-12

Figure 4-13 ).

Warning

When installing or replacing the unit, the ground connection must always be made first and

disconnected last. Statement 1046

Figure 4-12 Connecting the DC-Input Wires

RS-485 serial communnication connector

DC-input wires

Negative

Positive

Ground

Grounding lug

Grounding lug nuts

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Chapter 4 Removal and Replacement Procedures

Figure 4-13

Removing and Installing the DC-Input Power Supplies

Connecting the DC-Input Wires (Triple-Input Power Supply)

DC-input wires

Negative

Positive

Grounding lugs (2)

Grounding lug nut

Ground

Step 5

Loosen the two captive screws on the power supply. (See

Figure 4-14 , which shows the single-input

power supply. The triple-input power supply has captive screws in the same location.)

Figure 4-14 Loosening the Captive Screws

Captive screws

Step 6

Grasp the power supply handle with one hand. Place your other hand underneath as you slowly pull the power supply out of the chassis power supply bay (see

Figure 4-15 ).

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Removing and Installing the DC-Input Power Supplies

Figure 4-15 Handling a DC-Input Power Supply

Chapter 4 Removal and Replacement Procedures

Step 7

If the chassis power supply bay is to remain empty, install a blank power supply filler plate

(WS-C4KE-PS-CVR) over the opening and secure it with the mounting screws. The blank power supply filler plate protects the inner chassis from dust and prevents accidental contact with the live voltage at the rear of the bay.

Warning

Blank faceplates and cover panels serve three important functions: they prevent exposure to hazardous voltages and currents inside the chassis; they contain electromagnetic interference

(EMI) that might disrupt other equipment; and they direct the flow of cooling air through the chassis. Do not operate the system unless all cards, faceplates, front covers, and rear covers are

in place. Statement 1029

Installing a DC-Input Power Supply

Warning

Before performing any of the following procedures, ensure that power is removed from the

DC circuit. Statement 1003

Warning

A readily accessible two-poled disconnect device must be incorporated in the fixed wiring.

Statement 1022

Warning

This product requires short-circuit (overcurrent) protection, to be provided as part of the building installation. Install only in accordance with national and local wiring regulations.

Statement 1045

Warning

Use copper conductors only. Statement 1025

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Chapter 4 Removal and Replacement Procedures

Removing and Installing the DC-Input Power Supplies

Warning

When stranded wiring is required, use approved wiring terminations, such as closed-loop or spade-type with upturned lugs. These terminations should be the appropriate size for the wires

and should clamp both the insulation and conductor. Statement 1002

To install a DC-input power supply, follow these steps:

Step 1

Step 2

Step 3

Step 4

Step 5

Step 6

Grasp the power supply handle with one hand. Place your other hand underneath it as you slowly insert the power supply into the bay (see

Figure 4-15

). Make sure that the power supply is fully seated in the bay.

Tighten the captive screws on the power supply (see

Figure 4-14

Before you connect the power supply to a power source, ensure that all site power and grounding requirements have been met.

Remove the terminal block cover from the terminal block.

Connect the source DC cables to the power supply terminal block. The proper wiring sequence is ground to ground, positive to positive, and negative to negative (see

Figure 4-12

Figure 4-13

depending on your installation).

The 1400W triple-input power supply has two grounding posts; use the one that is most convenient for your installation.

Warning

When installing or replacing the unit, the ground connection must always be made first and

disconnected last. Statement 1046

Step 7

After ensuring that all wire connections are secure, reinstall the terminal block cover.

Caution

In a system with multiple power supplies or a single triple-input power supply, connect each power supply to a separate DC power source. In the event of a power source failure, if the second source is still available, it can maintain maximum overcurrent protection for each power connection.

Step 8

Step 9

Remove any safety flag and lockout devices or any tape from the source DC circuit breaker switch handle and restore power by moving the circuit breaker switch handle to the on (|) position.

Turn the power supply power switch to the on (|) position.

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Chapter 4 Removal and Replacement Procedures

Removing and Installing the Chassis Fan Tray Assembly

Step 10

Step 11

Step 12

Verify power supply operation by checking the power supply’s front-panel LEDs. You should see the following:

•

The LED labeled INPUT OK is green.

The LED labeled OUTPUT FAIL is not lit.

Check the power supply and system status from the system console by entering the show power command. For more information on the commands, see the command reference publication for your switch and software.

If the LEDs or the show power command (Cisco IOS) output indicate a power problem or other system problem, see

Chapter 5, “Troubleshooting,”

for more information.

Removing and Installing the Chassis Fan Tray Assembly

•

This section describes how to remove and install the chassis fan tray assembly for the Catalyst 4500

E-series switches and is contains the following topics:

•

Required Tools, page 4-14

Removing the Fan Tray Assembly, page 4-14

Installing the Fan Tray Assembly, page 4-15

Figure 4-16

illustrates the Catalyst 4506-E system fan tray assembly. The fan tray assemblies for the other chassis attach in a very similar way.

Required Tools

You will need a Phillips-head screwdriver for the following two procedures.

Removing the Fan Tray Assembly

Warning When removing the fan tray, keep your hands and fingers away from the spinning fan blades. Let

the fan blades completely stop before you remove the fan tray. Statement 258

Caution

Never operate the system for an extended period if the fan tray assembly is removed or if it is not functioning properly. An overtemperature condition can cause severe equipment damage.

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Chapter 4 Removal and Replacement Procedures

Removing and Installing the Chassis Fan Tray Assembly

To remove the existing fan tray assembly, follow these steps:

Step 1

Loosen the two captive installation screws on the fan tray assembly.

Figure 4-16 Catalyst 4506-E System Fan Tray Assembly

4506

Captive installation screws

Fan tray assembly

Step 2

Grasp the fan tray assembly handle and slide the fan tray assembly out of the chassis; gently move it side to side if necessary to unseat it from the backplane. Remove the fan tray assembly from the chassis and set it aside.

Installing the Fan Tray Assembly

To install the replacement fan tray assembly, follow these steps:

Step 1

Step 2

Step 3

Remove the replacement fan tray assembly from the shipping packaging.

Hold the fan tray assembly with the fans facing to the right.

Place the fan tray assembly into the fan tray assembly bay so it rests on the chassis, and then lift the fan tray assembly up slightly, aligning the top and bottom guides.

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Chapter 4 Removal and Replacement Procedures

Removing and Installing the Backplane Modules

Step 4

Step 5

Slide the fan tray assembly into the chassis until the two captive installation screws make contact with the chassis.

Tighten the two captive installation screws to secure the fan tray assembly in the chassis.

Verifying the Installation

Note

To check the operation of the fans, you need to power up the chassis.

To verify that the new fan tray assembly is installed correctly and is operating properly, follow these steps:

Step 1

Step 2

Step 3

Listen for the fans; you should immediately hear them operating. If you do not hear them, ensure that the fan tray assembly is inserted completely in the chassis and that the faceplate is flush with the switch back panel.

The fan tray assembly LED should light and be green.

If after several attempts the fans do not operate, or if you experience trouble with the installation (for instance, if the captive installation screws do not align with the chassis holes), contact the Cisco TAC for assistance.

Removing and Installing the Backplane Modules

There are five redundancy modules (also called mux buffers) and one clock module on the

Catalyst 4507R-E and the Catalyst 4507R+E switch chassis backplane. The Catalyst 4510R-E and the

Catalyst 4510R+E have eight redundancy modules on their backplane. They are accessible from the front of the chassis by removing all of the supervisor engines, switching modules, and blank slot covers. There are two types of redundancy modules, and they are interchangeable.

The clock module replacement procedure is identical to the redundancy module replacement procedure.

Both the redundancy modules and the clock modules are not hot-swappable; the switch must be shut down to replace them.

To replace the backplane modules, follow these steps:

Step 1

Step 2

Step 3

Step 4

Step 5

Make sure that you are grounded with an ESD strap.

Turn off the power to the chassis.

Make a record of all network interface cable connections to the switch. Also, make a record of the switching modules and their slot assignments. This step will aid you when you return the system to operation after the removal and replacement procedure is completed.

Disconnect all of the network interface cables to the switch and carefully set them aside.

Remove all supervisor engines and switching modules from the chassis and carefully place each one in a separate antistatic bag or on an individual antistatic mat.

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Chapter 4 Removal and Replacement Procedures

Removing and Installing the Backplane Modules

Caution

Do not stack modules on top of each other. This action can cause serious damage to the modules.

Note

Generic switching module replacement procedures are documented at http://www.cisco.com/en/US/docs/switches/lan/catalyst4500/hardware/configuration/notes/gM dCf_nt.html

Step 6

Locate the backplane modules that you need to replace.

Figure 4-17 shows a front view of the backplane

with the supervisor engines and switching modules removed.

Figure 4-17 Catalyst 4507R-E Backplane

Clock module

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Mux buffers

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Chapter 4 Removal and Replacement Procedures

Removing and Installing the Backplane Modules

Step 7

Step 8

If you are removing a clock module, remove the two screws that secure the clock module to the backplane.

Locate the seating levers on both sides of the connector for the module that you want to replace. (See

Figure 4-18

Figure 4-18 Finding the Seating Levers

Step 9

To release the module from its connector, pull the levers outward with your fingernails. The module will

pop out slightly. (See Figure 4-19 .)

Figure 4-19 Releasing the Module

Step 10

Pull the module out of the connector by grasping the top left and right corners. (See

Figure 4-20 .) Place

the old module in an antistatic bag or on an antistatic foam pad.

Note

When handling the modules, do not touch the chips or the gold edge contacts on the module.

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Chapter 4 Removal and Replacement Procedures

Figure 4-20 Removing the Module

Removing and Installing the Backplane Modules

Step 11

Step 12

Remove the replacement module from its packaging. Be careful not to touch the chips or the gold edge contacts on the module.

Carefully position the replacement module in the socket, and gently push the module down to seat it in the socket. Make sure that you apply force evenly on both the left and right side of the module. (See

Figure 4-21 .)

Figure 4-21 Seating the Replacement Module

Step 13

Make sure that the module is fully seated and that it is clipped in by the levers on both sides. (See

Figure 4-22 .)

Figure 4-22 Correct Module Seating

Good Bad

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Step 14

Repeat Step 6 through Step 13 for any other modules that you need to replace.

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Chapter 4 Removal and Replacement Procedures

Installing the Remote Power Cycling Feature Control Wires (Optional)

Step 15

Step 16

Step 17

Step 18

If you are installing a clock module, secure the module to the backplane using the two screws from the earlier removal.

Reinstall the supervisor engines and the switching modules in their previous slots.

Reconnect all of the network interface cables to the switching modules.

Restore power to the switch.

Verifying the New Modules

After the switch is reassembled and power is restored, connect a terminal to the supervisor engine and monitor the boot process. Look for the following messages (or any others), which may indicate a problem with the replaced modules:

00:00:20: %C4K_SUPERVISOR-2-MUXBUFFERNOTPRESENT: Mux buffer (WS-X4K-MUX) 3 is not present

00:00:20: %C4K_SUPERVISOR-2-MUXBUFFERNOTPRESENT: Mux buffer (WS-X4K-MUX) 4 is not present

00:00:20: %C4K_SUPERVISOR-2-MUXBUFFERNOTPRESENT: Mux buffer (WS-X4K-MUX) 7 is not present

The above messages (either at startup or output from a show logging command) indicate that the mux-buffer is not present in slots 3, 4 and 7. You need to reinsert and reseat the modules in those slots.

If the switch has already started up, you may also verify the correct function of the new modules with the show logging command.

Installing the Remote Power Cycling Feature Control Wires

(Optional)

The remote power cycling feature allows you to power down and power up a switch chassis through the network rather than being physically present to turn the power supply power switch off and on. The remote power cycling feature is only available on the 6000 W and the 9000 W AC-input power supplies.

Several vendors make remote power cycling relay controller boxes that can be used to power cycle the

Catalyst 4500 E-series switch chassis. Most of these relay controller boxes have the capability of controlling multiple power supplies. The relay controller boxes have a network interface that allows the user to remotely access the relay controller box and toggle a built-in relay. The built-in relay can be either a normally open (NO) type or an RS-232 type of relay. We strongly recommend that you purchase a relay controller box that uses a NO relay. The relay controller box is installed near the switch chassis and is attached to the network. Two control wires extend from the relay controller box to a four-position terminal block located on the front panel of the 6000 W and 9000 W power supplies. A signal from the relay controller box travels through the control wires to toggle the power supply on or off.

This section only describes how to install the remote power cycling feature control wires; relay controller box installation instructions should be provided by the maker of the relay controller box.

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Chapter 4 Removal and Replacement Procedures

Installing the Remote Power Cycling Feature Control Wires (Optional)

Required Tools and Components

•

The following tools and components are required to perform this procedure:

•

Relay controller box.

We strongly recommend that you purchase a relay controller box that uses a NO (normally open) relay to control the remote power cycling.

Small flat-blade screwdriver

18 AWG (maximum) control wire

Wire cutter

Wire stripper

Installing the Remote Power-Cycling Control Wires

To install the two control wires from the relay controller box to the 6000 W or the 9000 W power supply, follow these steps:

Step 1

Step 2

Step 3

Step 4

Step 5

Step 6

Step 7

Remove the relay controller box from its shipping packaging.

Install the relay controller box following the installation documentation supplied with the product.

Measure and cut two pieces of 18 AWG control wire long enough to run between the relay controller box terminals and the terminal block on the power supply.

Strip approximately 1/4-inch of insulation from each end of both control wires.

Connect the two control wires to the relay controller box terminals following the instruction documentation supplied with the relay controller box.

Identify which pair of terminals on the power supply terminal block (either terminals +V and IN for a

NO relay (recommended) or terminals IN and GND for an RS-232 relay) where you need to connect the control wires. Using a small flat-blade screwdriver, depress the wire release mechanism for one of the terminals on the power supply terminal block and insert the bare wire into the terminal. (See

Figure 4-23 .) Remove the screwdriver to secure the wire. Gently tug on the wire to verify that it is secure

in the terminal block.

Repeat Step 6 for the second control wire.

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Chapter 4 Removal and Replacement Procedures

Installing the Remote Power Cycling Feature Control Wires (Optional)

Figure 4-23 Installing the Relay Control Wires (6000 W Power Supply Shown)

6000 Watt power supply

Relay controller

Remote power on/off terminal block

Relay controller power

Network

Ferrite bead

You are now ready to install the ferrite bead on the control wires. Follow the installation instructions supplied in the package containing the ferrite bead or the installation procedure in the next section.

Installing the Ferrite Bead

The ferrite bead is a passive device that limits high-frequency interference on interface and control cables, and it is only required when you install the remote power-cycling feature. The ferrite bead is installed on the two control wires that link the external relay controller box with the remote power-cycling terminal block on the 6000 W or the 9000 W power supply.

To install the ferrite bead on the remote power-cycling control wires, follow these steps:

Step 1

Step 2

Step 3

Step 4

Step 5

Step 6

Remove the ferrite bead and the two plastic ties from the plastic bag.

Open the ferrite bead as shown in

Figure 4-24

, View A.

Place the two remote power-cycling control wires (18 AWG maximum) in the ferrite bead as shown in

Figure 4-24

, View B. Close the ferrite bead making sure that the two halves have completely snapped together and are secure.

Locate a point on the remote power-cycling control wires that leaves approximately 1 to 2 inches (2.5 to

5 cm) of exposed wire from the remote power cycling terminal block located on the front of the power supply. Wrap one of the 4-inch plastic ties around the remote power-cycling control wires at that point.

Tighten the plastic tie so that it is snug against the control wires and cannot slide. See Figure 4-24

View C.

Slide the ferrite bead so that it is positioned just behind the first plastic tie wrap. Take the second plastic tie and wrap it around the control wires directly behind the ferrite bead and tighten it so that the ferrite bead cannot slide up or down the control wires. See

Figure 4-24 , View C.

To finish the procedure, trim the excess plastic strap from the two plastic tie wraps.

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Chapter 4 Removal and Replacement Procedures

Figure 4-24

Installing the Remote Power Cycling Feature Control Wires (Optional)

Installing the Ferrite Bead

View A View B

Ferrite bead open

View C

Approximately

1 to 2 inches (2.5 to 5 cm)

To power supply remote power on/off terminal block

Tie wrap

Ferrite bead

Tie wrap

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Installing the Remote Power Cycling Feature Control Wires (Optional)

Chapter 4 Removal and Replacement Procedures

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C H A P T E R

Troubleshooting

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This chapter describes how to perform basic troubleshooting on the Catalyst 4500 E-series switch.

Problems with the initial startup are often caused by a switching module that has become dislodged from the backplane or a power cord that is disconnected from the power supply.

Although temperature conditions above the maximum acceptable level rarely occur at initial startup, some environmental monitoring functions are included in this chapter because they also monitor power supply output voltages.

Note

Information about troubleshooting software features and configuration problems is not discussed in this chapter.

More up to date information can be found in the release notes or Error Message Decoder tool.

Information specific to your software release can be found in the software configuration guide for that release, or in the system message guide for your release. The following links may be useful in combination with this chapter:

•

Release notes

•

http://www.cisco.com/en/US/products/hw/switches/ps4324/prod_release_notes_list.html

Error Message Decoder

•

http://www.cisco.com/cgi-bin/Support/Errordecoder/index.cgi

Software configuration guide

•

http://www.cisco.com/en/US/products/hw/switches/ps4324/products_installation_and_configurati on_guides_list.html

System message guide http://www.cisco.com/en/US/products/hw/switches/ps4324/products_system_message_guides_list

.html

•

This chapter presented in the following sections:

•

System Boot Verification, page 5-2

Using LEDs to Identify Startup Problems, page 5-3

System Messages, page 5-4

Troubleshooting with Software, page 5-4

•

Troubleshooting the Power Supply, page 5-4

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Chapter 5 Troubleshooting

System Boot Verification

•

Troubleshooting the Fan Assembly, page 5-6

Troubleshooting Backplane Modules, page 5-7

Troubleshooting Switching Modules, page 5-8

Troubleshooting Supervisor Engines, page 5-10

Some Problems and Solutions, page 5-16

Note

This chapter covers only the chassis component hardware aspects of troubleshooting. For software configuration issues, refer to the software configuration guide http://www.cisco.com/en/US/products/hw/switches/ps4324/products_installation_and_configuration_g uides_list.html

or command reference http://www.cisco.com/en/US/products/hw/switches/ps4324/prod_command_reference_list.html

for your software release.

System Boot Verification

When the initial system boot is complete, verify the following:

•

That the system software boots successfully

Hook up a terminal and view the startup banner. Use an RJ-45-to-RJ-45 rollover cable to connect the console port to a PC with terminal emulation software set for 9600 baud, 8 data bits, no parity, and 1 stop bit. Watch for any system messages after startup.

•

That the power supplies are supplying power to the system

The power supply’s LEDs should be green. Use the show environment Cisco IOS command to view power supply activity.

That the system fan assembly is operating

Listen for fan activity. The Fan tray LED should be green during operation. Use the show

environment Cisco IOS command to view fan tray activity.

•

That the supervisor engine and all switching modules are installed properly in their slots, and that each initialized without problems

If all of these conditions are met and the hardware installation is complete, refer to the software configuration guide and command reference publications for your switch so that you can troubleshoot the software.

If any of these conditions is not met, use the procedures in this chapter to isolate and, if possible, resolve the problem.

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Chapter 5 Troubleshooting

Using LEDs to Identify Startup Problems

Using LEDs to Identify Startup Problems

The key to success when troubleshooting the system is to isolate the problem to a specific system component. Your first step is to compare what the system is doing to what it should be doing. All system states in the startup sequence are indicated by LEDs. By checking the LEDs, you can determine when and where the system failed in the startup sequence. If you have problems after the switch is on, refer to the following subsystem troubleshooting information and the configuration procedures in the software configuration guide for your switch.

After you connect the power cords to your Catalyst 4500 series switch, follow these steps to determine whether your system is operating properly:

Step 1

Check the power supply LEDs:

•

The LED labeled GOOD should turn green when power is applied to the supply. The LED should remain on during normal system operation.

•

If the LED labeled GOOD does not light, or if the LED labeled FAIL lights, see the

“Troubleshooting the Power Supply” section on page 5-4 .

Note

If a power supply is installed and not connected to a power source, power supply LEDs indicate a failure.

Step 2

Step 3

Step 4

Listen for the system fan assembly. The system fan assembly should be operating whenever system

power is on. If you do not hear it when the switch is on, see the “Troubleshooting the Fan Assembly” section on page 5-6 .

Check that the LEDs on the supervisor engine light as follows:

•

The LED labeled STATUS flashes orange once and stays orange during diagnostic boot tests.

–

It turns green when the module is operational (online).

If the system software is unable to start up, this LED stays orange.

–

If the LED labeled STATUS on the supervisor engine front panel is red or orange, connect a console to the management port and use the show environment command to check for possible problems.

•

The Ethernet management port LED turns green when the module is operational (online) and a link is established with another network device. If no signal is detected, the LED labeled LINK turns off.

If there is a problem with the supervisor engine, try reseating the supervisor engine in the chassis

and restarting the switch. For more troubleshooting information, see the “Troubleshooting

Supervisor Engines” section on page 5-10 .

Verify that the LEDs labeled STATUS on each switching module are green when the supervisor engine completes initialization.

This LED indicates that the supervisor engine and switching modules are receiving power, have been recognized by the supervisor engine, and contain a valid Flash code version. However, this LED does not indicate the state of the individual interfaces on the switching modules. If an LED labeled STATUS is red or orange, try reseating the switching module or supervisor engine and restarting the switch. For more information, see the

“Troubleshooting Switching Modules” section on page 5-8 . If you determine

that the switching module is not operating, contact Cisco TAC as described in the

“Some Problems and

Solutions” section on page 5-16 .

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Chapter 5 Troubleshooting

System Messages

Step 5

If the boot information and system banner are not displayed, verify that the terminal is set for 9600 baud,

8 data bits, no parity, and 1 stop bit and connected properly to the console port.

System Messages

System messages appear on the console if you have enabled console logging or appear in the syslog if you have enabled syslog. Many messages are for informational purposes only and do not indicate an error condition. Enter the show logging command to display the log messages. To better understand a specific system message, refer to the system message guide for your software release. Most messages are also documented in the Error Message Decoder tool at: http://www.cisco.com/cgi-bin/Support/Errordecoder/index.cgi

System messages specific to the system components are mentioned in the corresponding sections that follow. If you see one of these messages, use the Decoder tool and follow the suggestion provided there.

Troubleshooting with Software

Many problems can be identified with CLI commands, and following sections will mention them as appropriate.

Certain problems can be due to not having the right software to support your hardware. For the most recent software release to get the current recommended version for a particular system component, please refer to the release notes at http://www.cisco.com/en/US/products/hw/switches/ps4324/prod_release_notes_list.html

Troubleshooting the Power Supply

To help isolate a power subsystem problem, follow these steps:

Step 1

Step 2

Step 3

Step 4

Check whether the power supply LED labeled GOOD is on or the LED labeled FAIL is on. (on the DC multi-input power supply, the LEDs are labeled INPUT 1, 2, or 3 or OUTPUT FAIL.)

If the LED labeled GOOD is off or if the LED labeled FAIL is on, take the following steps:

•

Ensure that the power supply is flush with the back of the chassis.

•

Unplug the power cord, loosen and reinstall the power supply, tighten the captive installation screws, and then plug in the power cord.

If the LED labeled GOOD remains off, there might be a problem with the AC source or the power cable.

Connect the power cord to another power source if one is available. Verify that the source power is acceptable within the specifications of the power supply.

If the LED labeled GOOD fails to light after you connect the power supply to a new power source, replace the power cord.

Note

If this unit has more than one power cord, repeat Step 1 through Step 4 for each power input.

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Chapter 5 Troubleshooting

Troubleshooting the Power Supply

Step 5

Step 6

Step 7

Step 8

Step 9

If the LED labeled GOOD still fails to light when the switch is connected to a different power source with a new power cord, the power supply is probably faulty. See the

“System Messages and Power

Problems” section on page 5-5 . You may need to replace the power supply.

If the LED labeled FAN OK fails to light when the switch is connected to a good power source with a known good power cord, there is a malfunction in the fan that cools the power supply. Replace the power supply.

If a second power supply is available, install it in the second power supply bay.

Check that the LED labeled GOOD is on for the additional power supply. Check that the LED labeled

FAIL is off.

If the LEDs are not on, repeat the previous procedure to troubleshoot the second power supply.

If you are unable to resolve the problem, or if you determine that either a power supply or backplane connector is faulty, contact Cisco Technical support for instructions.

System Messages and Power Problems

Check for system messages related to the power supply, and refer to the system message guide for your software release. You may need to add a power supply or upgrade to a larger one for your current configuration or verify that the switches are set properly on the power supply. Connect a terminal to the console port, and look for any of the following system messages (there may be others, depending on the software release):

C4K_CHASSIS-2-INLINEPOWEROFF

C4K_IOSMODPORTMAN-4-INLINEPOWERSUPPLYBAD

C4K_IOSMODPORTMAN-4-INLINEPOWEROVERMAX

C4K_CHASSIS-2-INSUFFICIENTPOWERDETECTED

C4K_CHASSIS-2-INSUFFICIENTPOWERSHUTDOWN

C4K_CHASSIS-3-INSUFFICIENTPOWER

C4K_CHASSIS-3-INSUFFICIENTPOWERSUPPLIESDETECTED

C4K_CHASSIS-3-MIXINPOWERDETECTED

C4K_IOSMODPORTMAN-3-UNKNOWNPOWERSUPPLY

C4K_IOSMODPORTMAN-4-POWERSUPPLYBAD

C4K_IOSMODPORTMAN-4-POWERSUPPLYFANBAD

C4K_SUPERVISOR-3-POWERSUPPLYSTATUSREADFAILED

C4K_SUPERVISOR-3-POWERSUPPLYSEEPROMREADFAILED

C4K_SUPERVISOR-3-POWERSUPPLYSEEPROMINVALID

If you see any of these messages or other messages, go to the following location and enter the message text to find recommendations for your situation.

http://www.cisco.com/cgi-bin/Support/Errordecoder/index.cgi

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Chapter 5 Troubleshooting

Troubleshooting the Fan Assembly

Useful CLI Commands

You may also use the show environment status powersupply, show module all, and show power commands to monitor PS status, load, and activity.

If the show module command output shows a message that states "not enough power for module," check

Appendix A, “Power Supply Specifications,”

for the minimum power requirements for the power supply.

There may be a problem with the power source itself.

Power Supply Mixing

The 1400 W DC multi-input supply can not be used with other power supply types, but other power supplies in this product line work with the other types during an upgrade. If you mix power supplies in a Catalyst 4500 series chassis, the switch detects the type of power supply in power supply bay 1 (PS1) and ignores the power supply in power supply bay 2 (PS2) while issuing system messages and showing the power supply in bay 2 as in the err-disable state in the output of the show power command. When the power supply in bay 1 is removed, the switch recognizes the power supply in bay 2, and you may then put a new matching power supply in bay 1. Both supplies should resume normal function.

Troubleshooting the Fan Assembly

Note

All fans must be operating or a failure will occur.

Environmental problems may initially appear to be problems with the fan tray. To help isolate a fan assembly problem, follow these steps:

Step 1

Step 2

Step 3

Step 4

Step 5

Step 6

Step 7

Check the status LED on the fan tray.

•

If the LED is off and the rest of the system is functioning, the fan tray is not getting power or is not seated correctly on the backplane.

•

If the LED is green, the fans are operating normally. There may be conditions impairing fan performance, but they are minimal in impact.

•

If the LED is red, one or more fans have failed.

Connect a terminal and determine the fan tray status shown by the show environment status CLI command. The status and sensor columns should say good.

Determine whether the airflow is restricted or if the ambient temperature in the room is too warm.

Determine whether the power supply is functioning properly. See the

“Troubleshooting the Power

Supply” section on page 5-4

Verify that the fan assembly is properly seated in the backplane by loosening the captive installation screws, removing the fan assembly, and reinstalling it.

Restart the system.

Verify that all fans are operating. You should hear the fans at system start.

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Chapter 5 Troubleshooting

Troubleshooting Backplane Modules

Step 8

If the system is still detecting a fan assembly failure, check for details using the CLI and contact the

Cisco TAC for assistance.

System Messages and Fan Problems

Look for system messages reporting a temperature problem or problem with the fans. Individual messages may suggest different solutions. Connect a terminal to the console port, and look for any of the following system messages:

C4K_CHASSIS-2-INSUFFICIENTFANSDETECTED

C4K_CHASSIS-2-INSUFFICIENTFANSSHUTDOWN

C4K_IOSMODPORTMAN-4-CRITICALTEMP

C4K_IOSMODPORTMAN-4-FANTRAYBAD

C4K_IOSMODPORTMAN-4-FANTRAYPARTIALFAILURE

C4K_IOSMODPORTMAN-4-FANTRAYREMOVED

C4K_SUPERVISOR-3-FANTRAYREADFAILED

C4K_SUPERVISOR-3-FANTRAYSEEPROMREADFAILED

C4K_SUPERVISOR-3-FANTRAYSEEPROMINVALID

C4K_IOSMODPORTMAN-4-TEMPHIGH

C4K_IOSMODPORTMAN-4-TEMPUNDERCRITICAL

C4K_CHASSIS-2-OVERHEATINGSHUTDOWN

If you see any of these messages or other messages related to fans, go to the following location and enter the message text to find recommendations for your situation.

http://www.cisco.com/cgi-bin/Support/Errordecoder/index.cgi

Useful CLI Commands

The show environment status fantray command can give additional information useful in diagnosing fan tray problems.

Troubleshooting Backplane Modules

The Cisco Catalyst 4500 E-series redundancy scheme uses removable redundancy modules (also called mux-buffers), on the passive backplane to switch traffic to the active supervisor engine. There is one redundancy module per switching module. Redundancy modules and a redundant clock ship standard with every Cisco Catalyst 4507R-E and 4510R-E chassis. Spare redundancy modules (WS-X4590-E=) and a clock module (WS-X4K-CLOCK-E=) are available for serviceability.

The following conditions indicate that you may need to replace the redundancy modules and clock module:

•

The switch powers down and stays down for a few minutes to a few days for no clear reason.

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Chapter 5 Troubleshooting

Troubleshooting Switching Modules

•

The output-fail LED on the power supplies are red and no power is delivered to the chassis. The other LEDs on the power supply are green.

The Status LEDs on the switching modules and the supervisor engine are flashing green.

CPU Utilization LEDs are flashing green or off.

If you observe these conditions, contact the Cisco TAC for assistance in ordering replacement redundancy modules and a clock.

Troubleshooting Switching Modules

Each switching module has one LED labeled STATUS that provides information about the module and

one numbered LED labeled LINK for each port on the module. Figure 5-1

shows the Gigabit Ethernet port and status LEDs.

Figure 5-2 shows the 10/100BASE-T port LEDs. Table 5-1 describes the

switching module LEDs and their expected behavior.

Figure 5-1 Gigabit Ethernet Port and Status LEDs

WS-X4306-GB GIGABIT ETHERNET

STATUS

1000BASE-X SWITCHING MODULE

1 2

Figure 5-2 10/100BASE-T Port LEDs

WS-X4148-RJ

5-8

STATUS

4 5 6 7 8 9

10 11 12

4 PORT

10/100 B

Table 5-1

LED

STATUS

LINK

Switching Module LEDs

Color/Stat e

Green

Red

Orange

Green

Description

Indicates the results of a series of self-tests and diagnostic tests performed by the switch.

All the tests pass.

A test other than an individual port test failed.

System boot, self-test diagnostics running, or the module is disabled.

Indicates the status of the port.

The port is operational (a signal is detected).

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Table 5-1 Switching Module LEDs (continued)

LED

Color/Stat e

Orange

Flashing orange

Off

Description

The link has been disabled by software.

The link has been disabled due to a hardware failure.

Port

Status

No signal is detected.

Indicates individual port status.

Green

Orange

Flashing orange

Off

The port is operational (a signal is detected).

The link has been disabled by software.

The link has been disabled due to a hardware failure.

No signal is detected.

LEDs labeled 1 through the number of ports on the switching module are the individual port link

LEDs.

System Messages and Switching Modules

Connect a terminal to the console port, and look for any of the following system messages:

C4K_CHASSIS-3-LINECARDMUXBUFFERTOSUPALIGNMENTWRONG

C4K_CHASSIS-3-LINECARDNOTVALIDINSLOT

C4K_CHASSIS-3-MODULENOTSUPPORTHALF

C4K_IOSINTF-5-STALEPHYPORT

C4K_IOSMODPORTMAN-4-INLINEPOWEROVERMAX

If you see any of these messages or other messages, go to the following location and enter the message text to find recommendations for your situation.

http://www.cisco.com/cgi-bin/Support/Errordecoder/index.cgi

Useful CLI Commands

Some problems can be solved by resetting the switching module. Use the hw-module module <n> reset command to reset a switching module, or remove and re-insert the switching module, which resets, restarts, and power cycles the switching module. The show module and show diagnostics online

module commands can also provide information useful in solving problems with ports on individual modules.

Not all software versions support all switching modules. If you are having trouble with a module, refer to the software release notes to be sure that it is supported by your software.

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Troubleshooting Supervisor Engines

This section only addresses problems with hardware. Problems with features or configuration are not covered here. Refer for your software configuration guide and release notes for information on configuring features or identifying known problems.

Table 5-2 describes the supervisor engine LEDs. Check the LEDs on your supervisor and compare them

to the described LED behaviors.

Table 5-2 Supervisor Engine LEDs

LED

STATUS

Color/State

Green

Red

Description

Indicates the results of a series of self-tests.

All diagnostic tests passed.

A test failed.

Orange System boot or diagnostic test is in progress.

Module is disabled.

Off

UTILIZATION Green 1–100% If the switch is operational, this display indicates the current traffic load over the backplane (as an approximate percentage).

LINK Indicates the status of the 10/100BASE-T

Ethernet management port or uplink ports.

ACTIVE

Green

Orange

Green

Off

The link is operational.

The link is disabled by user.

Flashing orange The power-on self-test indicates a faulty port.

Off No signal is detected or there is a link configuration failure.

Indicates whether the uplink port is active or not.

The port is active.

The port is not active.

The LED to the right of the uplink ports is used to identify the active supervisor engine in switches with two supervisor engines.

The Supervisor Engine LED would turn amber or orange under the following conditions:

•

Power supply failure (not the same as removal of power supply)

•

Power supply fan failure

Removal or failure of fan tray

•

Mismatched power supplies in the chassis

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System Messages and Supervisor Engines

Connect a terminal to the console port, and look for any of the following system messages:

C4K_CHASSIS-3-LINECARDMUXBUFFERTOSUPALIGNMENTWRONG

C4K_SUPERVISOR-3-MUXBUFFERREADSUPERVISORSELECTIONFAILED

C4K_CHASSIS-3-TEMPERATURESENSORREADFAILED

C4K_HW-3-X2IDENTIFICATIONFAILURE

C4K_HW-3-X2OUIREGREADFAILURE

C4K_HWACLMAN-4-CLASSIFCAMPARITYERROR

C4K_HWACLMAN-4-CLASSIFCAMREPLYPARITYERROR

C4K_HWACLMAN-4-CLASSIFCAMREQPARITYERROR

C4K_HWNETFLOWMAN-3-NETFLOWSTOPPED

C4K_HWNETFLOWMAN-4-FATALERRORINTERRUPTSEEN

C4K_HWNETFLOWMAN-4-NONFATALPARITYERRORINTERRUPTSEEN

C4K_IOSMODPORTMAN-4-NFLABSENT

C4K_IOSMODPORTMAN-4-NFLIDPROMINVALID

C4K_IOSMODPORTMAN-4-NFLMISMATCH

C4K_REDUNDANCY-2-HANDSHAKE_TIMEOUT

C4K_REDUNDANCY-2-POSTFAIL_RESET

C4K_REDUNDANCY-2-INCOMPATIBLE_SUPERVISORS

C4K_REDUNDANCY-2-IOS_VERSION_CHECK_FAIL

C4K_REDUNDANCY-2-IOS_VERSION_INCOMPATIBLE

C4K_REDUNDANCY-2-NON_SYMMETRICAL_REDUNDANT_SYSTEM

C4K_REDUNDANCY-2-POSTFAIL

C4K_REDUNDANCY-2-POSTFAIL_RESET

C4K_REDUNDANCY-4-CONFIGSYNCFAIL

C4K_SUPERVISOR-2-SUPERVISORSEEPROMINVALID

C4K_SUPERVISOR-3-RETIMERDISABLEFAILED

C4K_SUPERVISOR-3-RETIMERINITFAILED

C4K_SUPERVISOR-3-SEEPROMREADFAILED

C4K_SUPERVISOR-4-INLINEVOLTAGEOUTOFRANGE

C4K_SUPERVISOR-7-SEEPROMWRITEFAILED

C4K_SWITCHMANAGER-3-SSOACTIVEPORTACKTIMEOUT

C4K_SYSMAN-2-POWERONSELFTESTFAIL

These system messages indicate a problem with the supervisor engine. Some problems will prevent a console connection and will not allow you to use messages in diagnosing a problem. If you are unable to establish a terminal connection and the STATUS LED is red, contact Cisco TAC immediately to order a replacement.

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Problems with redundant supervisor systems are often due to mismatched active and standby supervisor engines. Redundancy requires that both supervisor engines be the same model, have the same amount of

SDRAM memory and running the same Cisco IOS release. If one supervisor has a NetFlow service card, the other must as well.

Some problems with supervisor engines are due to backplane connections that are not fully seated. If removing and reinserting the supervisor engine and then restarting the switch does not solve the problem, you may need to call Cisco TAC and replace the supervisor engine.

Useful CLI Commands

Some problems can be solved by resetting the supervisor engine. Use the hw-module module <n> reset

power-cycle command to reset a switching module, or remove and re-insert the switching module, which resets, restarts and power cycles the switching module. Pressing the reset button on the supervisor engine causes the software to reload, but does not power cycle the supervisor engine.

Note

When you power-cycle or remove a supervisor engine in a redundant system the other supervisor engine becomes the active supervisor and the ports retain connectivity. In a non-redundant system, all of the switching modules lose connectivity until the supervisor engine is reinserted and completely restarted.

The show diagnostics power-on command may provide useful information for some supervisor engine problems.

Not all software versions support all supervisor engines. If you are having trouble with a supervisor engine, refer to the software release notes to be sure that it is supported by your software.

Standby Supervisor Engine Problems

If the standby supervisor engine module is not online or status indicates “other” or “faulty” in the output of the show module command or an amber status LED, create a console connection to the standby supervisor engine and verify that it is in ROMmon mode or in continuous reboot. If the standby supervisor engine is in either of these two states, refer to: http://www.cisco.com/en/US/products/hw/switches/ps663/products_configuration_example09186a008

0094ecf.shtml switch# show module

Mod Ports Card Type Model Serial No.

----+-----+--------------------------------------+-----------------+-----------

1 2 1000BaseX (GBIC) Supervisor(active) WS-X4515 JAB0627065V

2 Standby Supervisor

3 48 10/100/1000BaseTX (RJ45) WS-X4448-GB-RJ45 JAB053606AG

4 48 10/100BaseTX (RJ45)V WS-X4148-RJ45V JAE060800BL

M MAC addresses Hw Fw Sw Status

--+--------------------------------+---+------------+----------------+---------

1 0009.e845.6300 to 0009.e845.6301 0.4 12.1(12r)EW( 12.1(12c)EW, EAR Ok

2 Unknown Unknown Unknown Other

3 0001.6443.dd20 to 0001.6443.dd4f 0.0 Ok

4 0008.2138.d900 to 0008.2138.d92f 1.6 Ok

Make sure that the supervisor engine module properly seats in the backplane connector and that you have completely screwed down the captive screws for the supervisor engine.

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In order to determine whether the standby supervisor engine is faulty, enter the redundancy reload peer command from the active supervisor engine and through the console to the standby supervisor engine.

Observe the bootup sequence in order to identify any hardware failures. Currently, the active supervisor engine cannot access the power-on diagnostics results of the standby supervisor engine.

•

Make sure that these configurations are synchronized between the active and redundant supervisor engines:

•

Startup configuration

Boot variable

Configuration register

Calendar

VLAN database

If a software upgrade is performed on both the active and standby supervisor engines, verify that both supervisor engines are running the same new software image. If the software images are not the same, upgrade the software image. Use the procedure in the software configuration guide for your release.

If the standby supervisor engine still does not come on line, create a service request with Cisco Technical

Support. Use the log of the switch output that you collected from the previous troubleshooting steps.

Switch Self-reset

If the switch has reset or rebooted on its own, verify that the power source for the switch did not fail. If you use an uninterruptable power supply (UPS), make sure that the UPS does not have any problems.

The switch might have had a software crash. Enter the more crashinfo:data command to display the crash information including date and time of the last time that the switch crashed. To display the standby supervisor engine crash data, enter the more slavecrashinfo:data command. The crash data are not present if the switch has never crashed.

Switch# more crashinfo:data

Current time: 04/21/2000 19:58:10

Last crash: 04/21/2000 03:58:56

!--- Output suppressed.

•

If the output indicates a software crash at the time that you suspect that the switch rebooted, the problem can be something other than a hardware failure. Contact Cisco Technical Support with the output of these commands:

show tech-support show logging

• more crashinfo:data

If you are still unable to determine the problem, contact Cisco Technical Support.

Supervisor Ports Do Not Function

If you have dual supervisor engines in a Catalyst 4507R-E or a Catalyst 4510R-E chassis andsome uplink ports on the supervisor do not function, the system is functioning as designed, which is to have two uplinks operational at all times. The dual uplinks must also work when only one supervisor engine is present. This means that if only one supervisor engine is present and is in slot n, both ports n/1 and n/2 are functional. Also, if only one supervisor engine is present and is in slot n+1 , ports n+1/1 and N+1/2

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are functional. When dual supervisor engines are present, only ports n/1 and n+1/1 are functional and n/2 andn+1/2 are not functional. For more information, refer to the redundancy chapter in the software configuration guide.

Packet Loss

•

If your system exhibits partial or full loss of network connectivity or packet loss, perform basic troubleshooting procedures to eliminate the common causes. The common causes include:

•

Bad cabling

A bad port

Speed and duplex mismatch

Network interface card (NIC) issues

If you troubleshoot these common reasons and you are not able to narrow down the problem, follow the steps in this section and capture the output of commands at each step, then contact Cisco Technical

Support for additional troubleshooting assistance.

Step 1

Step 2

Enter the show platform software interface all command when you observe packet loss.

Enter the show platform software interface all | include DroppedBadPackets command multiple times and look for increments in the DroppedBadPackets counter, as seen in this example: cat4k#show platform software interface all | include DroppedBadPackets

DroppedBadPackets : 8004 cat4k# cat4k#show platform software interface all | include DroppedBadPackets

DroppedBadPackets : 8130 cat4k#

These counters are only visible if they have a nonzero value, so if you enter the command and do not see any output, your switch does not exhibit the problem. Here is an example:

Step 3

Step 4

cat4k#show platform software interface all | include DroppedBadPackets cat4k#

If you see increments in the TxCrcErrors or DroppedBadPackets counters, continue to Step 2.

Enter the show platform cpu packet statistics command multiple times and look for increments in the

VlanZeroBadCrc counter. Here is an example: cat4k#show platform cpu packet statistics | include VlanZeroBadCrc

VlanZeroBadCrc 94471 9 9 8

7 cat4k# cat4k#show platform cpu packet statistics | include VlanZeroBadCrc

VlanZeroBadCrc 94545 9 9 8

7 cat4k#

If both Step 2 and Step 3 show symptoms of packet loss, enter the reload command to soft reset the switch, and observe the power-on self test (POST) results at system reset. Capture all the output as a text file.

cat4k#reload

Proceed with reload? [confirm]

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1d21h: %SYS-5-RELOAD: Reload requested

Decompressing the image : ###################################################

#################################[OK] k2diags version 1.6

prod: WS-X4014 part: 73-6854-09 serial: JAB0620090U

Power-on-self-test for Module 1: WS-X4014

Status: (. = Pass, F = Fail)

Traffic using serdes loopback (L2; one port at a time)...

switch port 0: . switch port 1: . switch port 2: . switch port 3: . switch port 4: . switch port 5: . switch port 6: . switch port 7: . switch port 8: . switch port 9: . switch port 10: . switch port 11: . switch port 12: . switch port 13: . switch port 14: . switch port 15: . switch port 16: . switch port 17: . switch port 18: . switch port 19: . switch port 20: . switch port 21: . switch port 22: . switch port 23: . switch port 24: . switch port 25: . switch port 26: . switch port 27: . switch port 28: . switch port 29: . switch port 30: . switch port 31: .

Traffic using asic loopback (L2; all ports at once)...

switch port 0: F switch port 1: F switch port 2: F switch port 3: F switch port 4: F switch port 5: F switch port 6: F switch port 7: F switch port 8: F switch port 9: F switch port 10: F switch port 11: F switch port 12: F switch port 13: F switch port 14: F switch port 15: F switch port 16: F switch port 17: F switch port 18: F switch port 19: F switch port 20: F switch port 21: F switch port 22: F switch port 23: F switch port 24: F switch port 25: F switch port 26: F switch port 27: F switch port 28: F switch port 29: F switch port 30: F switch port 31: F

Traffic using asic loopback (L3; all ports at once)...

Module 1 Failed

Exiting to ios...

This example shows a supervisor engine module diagnostic failure.

Step 1

If Step 4 results in a supervisor engine module diagnostic failure, pPower cycle the switch and observe the POST results at bootup.

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Step 2

Enter the show diagnostics power-on command to verify the POST results from bootup and determine if diagnostics fail again. If diagnostics fail again, the problem is most likely hardware. Contact Cisco

Technical Support for further assistance. If the supervisor engine passes the diagnostic tests without any failure after the power cycle in Step 4, perform these steps:

Collect the output from the show tech-support command.

Remove all power supplies from the box, and collect the serial numbers, Cisco part number, and manufacturer of the power supplies.

Contact Cisco Technical Support with the information that you collected.

Note

If Cisco Technical Support did not assist with the troubleshoot procedure, you must provide the information in the order of these steps.

Some Problems and Solutions

Module Not Online

•

Part or all of the module can fail to come online. You may have a module failure if you see a red status

LED or if you see one of these statuses in the output of the show module command:

•

other faulty err-disable power-deny power-bad

Make sure that the module is properly seated and that you have completely screwed down the module.

If the module still does not come online, enter the hw-module slot slot number reset command. If the module still does not come online, try the module in a spare slot, swap the module with the slot of a module that works, or try the module in a different chassis.

If the status is “power-deny,” the switch does not have enough power available to power this module.

Enter the show power command in order to confirm whether enough power is available. For more information, refer to the “Environmental Monitoring and Power Management” chapter in the software configuration guide for your software release.

If the status is “power-bad,” the switch detects a switching module but is unable to allocate power. This situation is possible if the supervisor engine cannot able to access the serial PROM (SPROM) contents on the module in order to determine the identification of the line card. Enter the show idprom module

slot command to verify that the SPROM is readable. If the SPROM is not accessible, reset the module.

Enter the show diagnostics online module slot number command to identify hardware failures on the module. If the module still does not come online, create a service request with Cisco Technical Support in order to troubleshoot further. Use the log of the switch output that you collected in the above output and the troubleshooting steps that you performed.

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Interface Problems

If you see an error mentioned in the output of the show interface command, the reason could be:

•

A physical layer problem, such as a faulty cable or NIC

A configuration problem, such as a speed and duplex mismatch

•

A performance problem, such as an oversubscription

In order to understand and troubleshoot these problems, refer to Troubleshooting Switch Port and

Interface Problems at: l http://www.cisco.com/en/US/products/hw/switches/ps708/products_tech_note09186a008015bfd6.shtm

Workstation Is Unable to Log In to the Network

•

If you observe that a workstation is unable to log into the network during startup or unable to obtain the

DHCP address when you have powered up a client machine or rebooted, an initial connectivity delay that the switch introduced could be the problem. To verify this, check the following:

•

Microsoft network client displays "No Domain Controllers Available".

DHCP reports "No DHCP Servers Available."

A Novell Internetwork Packet Exchange (IPX) network workstation does not have the Novell login screen upon bootup.

•

An AppleTalk network client displays, "Access to your AppleTalk network has been interrupted. In order to reestablish your connection, open and close the AppleTalk control panel." The AppleTalk client chooser application can either fail to display a zone list or display an incomplete zone list.

•

IBM Network stations can have one of these messages:

–

NSB83619—Address resolution failed

NSB83589—Failed to boot after 1 attempt

–

NSB70519—Failed to connect to a server

The reason for these symptoms can be an interface delay that either Spanning Tree Protocol (STP),

EtherChannel, trunking, or an autonegotiation delay causes.

NIC Compatibility Issues

You can have NIC compatibility or misconfiguration issues with the switch if you experience one of these symptoms:

•

A server or client connection to the switch does not come up

Autonegotiation issues

•

Errors on the port

The reason for these symptoms can be a known NIC driver issue, speed and duplex mismatch, or autonegotiation or cabling problems. For more troubleshooting information, refer to: http://www.cisco.com/een/US/products/hw/switches/ps708/products_tech_note09186a00800a7af0.sht

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If you still have issues after you review and follow the procedure in the document Troubleshooting Cisco

Catalyst Switches to NIC Compatibility Issues, contact Cisco Technical Support for further assistance.

Interface Is in Errdisable

•

If the interface status is err-disable in the output of the show interface status command, some possible reasons include:

•

Duplex mismatch

Port channel misconfiguration

Bridge protocol data unit (BPDU) guard violation

UniDirectional Link Detection (UDLD) condition

Late-collision detection

Link-flap detection

Security violation

Port Aggregation Protocol (PAgP) flap

Layer Two Tunneling Protocol (L2TP) guard

DHCP snooping rate-limit

In order to troubleshoot these scenarios, refer to the specific feature information in the Catalyst 4500

Series Switch Cisco IOS Software Configuration Guide for your software release.

Faulty Supervisor Engine

If the supervisor engine STATUS LED is red, establish a console connection to the supervisor engine and enter the show diagnostics power-on command, if you can. If you are unable to get a console connection or the command output indicates a failure, contact Cisco Technical Support.

If the switch does not boot and fails self diagnostics during the boot sequence, capture the console output of the startup sequence then contact Cisco Technical Support.

If you do not see any hardware failure in the boot sequence or in the output of the show diagnostics

power-on command, contact Cisco Technical Support.

Boot Problems

If the switch is in a continuous boot loop, is in ROMmon mode, or does not have a system image, there is mostly likely not a hardware problem. The supervisor engine operates in a continuous loop if you have not set the boot variable correctly and you have set the configuration register to 0x2102. For instructions on how to recover the supervisor engine, refer to the “Recovering from a Continuous Reboot” section of the document at this location: http://www.cisco.com/en/US/products/hw/switches/ps663/products_configuration_example09186a008

0094ecf.shtml

The supervisor engine goes into ROMmon mode or fails to boot when the system image is either corrupt or absent. For instructions on how to recover the supervisor engine, refer to the “Recovering from a

Corrupt or Missing Image” section of the document at this location: http://www.cisco.com/en/US/products/hw/switches/ps663/products_configuration_example09186a008

0094ecf.shtml

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The supervisor engines have onboard system Flash memory (bootflash), which should easily hold multiple system images. Therefore, have a backup image. In addition to the bootflash, the supervisor engine supports up to 128 MB of compact Flash in the slot0: device. The supervisor engine also provides for transfer via TFTP of the image from ROMmon mode, which enables faster recovery of absent or corrupt images.

Cannot Connect to a Switch Through the Console Port

Make sure you are using the correct type of cable. Make sure the terminal configuration matches the switch console port configuration—default console port settings are 9600 baud, 8 data bits, no parity,

1 stop bit. Make sure the cable pinouts are correct for your supervisor engine (refer to the hardware documentation for your supervisor engine).

Cannot communicate with another device, Cannot Telnet to the switch, Cannot communicate with a local or remote host

Follow these steps:

Step 1

Step 2

Step 3

Step 4

Step 5

Step 6

Step 7

Step 8

Step 9

Step 10

Step 11

Step 12

Make sure the LINK LED for the port is green.

Check the cabling:

•

Host-to-switch 10BASET connections and router-to-switch 10BASET or 100BASETX connections typically are made using a straight-through cable.

•

Switch-to-switch connections typically are made using a rollover cable.

•

For SC- or ST-type fiber connections, make sure transmit (Tx) on one end of the link connects to receive (Rx) on the other end of the link.

Make sure the interface you are connecting to (sc0 or me1) is configured UP (use the show interface command to check).

Make sure the IP address, subnet mask, and VLAN membership of the switch interface (sc0 or me1) is correct (use the show interface command).

To prevent conflicts, make sure the me1 and sc0 interfaces are configured with IP addresses and subnet masks in different subnets (use the show interface command to check), or disable one of the interfaces using the set interface {sc0 | me1} disable command.

Make sure the host configuration (IP address, subnet mask, default gateway, speed, and duplex setting) is correct.

If you cannot connect to the switch through the me1 interface, make sure the connected device is configured for half-duplex 10-Mbps operation.

If the host is in the same subnet as the switch interface, make sure the switch interface and the switch port to which the host is connected are assigned to the same VLAN (use the show interface and show

port commands to check).

If the host is in a different subnet, make sure the default gateway (default route) on the switch is configured with the address of a router in the same subnet as the switch interface (use the show ip route command).

Check the status of the port connection—should be “connected” (use the show port command).

Check the spanning-tree state on the port (use the show spantree mod_num/port_num command)—if the port is in listening or learning mode, wait until the port is in forwarding mode and try to connect to the host again.

Make sure the speed and duplex settings on the host and the appropriate switch ports are correct (use the

show port command).

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Step 13

Step 14

Step 15

If the connected device is an end station:

Enable spanning-tree PortFast on the port (use the set spantree portfast enable command)—PortFast places the port in forwarding mode immediately, bypassing listening and learning modes (do not use this feature for connections to non-end station devices).

Disable trunking on the port (use the set trunk mod_num/port_num off command).

Disable channeling on the port (use the set port channel port_list off command)—you must specify a valid port range with this command—you cannot specify a single port.

Make sure the switch is learning the MAC address of the host (use the show cam dynamic command).

If possible, try connecting to another port.

Cannot autonegotiate the port speed/duplex

Make sure autonegotiation is configured on both ends of the link (use the show port command)—you cannot configure settings manually on one end of the link and configure the other end of the link for autonegotiation. If autonegotiation fails when you connect a client NIC to the switch, check the NIC and drivers to make sure that autonegotiation is supported.

If autonegotiation is supported and properly configured but you still cannot connect, turn off autonegotiation and set the speed and duplex manually (use the set port speed and set port duplex commands).

Contacting the Cisco Technical Assistance Center

If you are unable to solve a startup problem after using the troubleshooting suggestions in this chapter, contact a Cisco TAC representative for assistance and further instructions.

•

Before you call, have the following information ready to help the Cisco TAC assist you as quickly as possible:

•

Date you received the switch

Chassis serial number

Type of software and release number

Maintenance agreement or warranty information

Brief description of the problem

Console captures related to your problem

•

Brief explanation of the steps you have already taken to isolate and resolve the problem

See the “Obtain Documentation and Submit a Service Request” section on page 10

for more information about contacting the TAC.

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A P P E N D I X

Power Supply Specifications

Revised: March 2013

•

This appendix describes the power supplies supported by the Catalyst 4500 E-series switches. The appendix contains the following sections:

•

1000 W AC-Input Power Supply, page A-2

1300 W AC-Input Power Supply, page A-6

1400 W AC-Input Power Supply, page A-10

1400 W DC-Input Power Supply, page A-15

1400 W Triple-Input DC-Input Power Supply, page A-19

2800 W AC-Input Power Supply, page A-25

4200 W AC-Input Power Supply, page A-29

6000 W AC-Input Power Supply, page A-35

9000 W AC-Input Power Supply, page A-43

Environmental Monitoring Feature, page A-52

•

Power Redundancy, page A-52

Tip

Note

All Catalyst 4500 E-series switch AC-input power supplies require single-phase source AC. The source

AC can be out of phase between multiple power supplies or multiple AC-power plugs on the same power supply because all AC power supply inputs are isolated. Each chassis power supply should have its own dedicated branch circuit: 15 A or 20 A for North America and circuits sized to local and national codes for International locations.

For more information about power management and planning, see the “Environmental Monitoring and

Power Management” chapter in the Software Configuration Guide version appropriate for your software.

Catalyst 4500 E-Series Switches Installation Guide

A-1

Appendix A Power Supply Specifications

1000 W AC-Input Power Supply

1000 W AC-Input Power Supply

•

The 1000 W AC-input power supply (PWR-C45-1000AC), shown in

Figure A-1 , is supported in the

following Catalyst 4500 E-Series switches:

•

Catalyst 4503-E

Catalyst 4506-E

Catalyst 4507R-E

Catalyst 4507R+E

Catalyst 4510R-E (the 1000 W AC-input power supply can be installed in the Catalyst 4510R-E switch chassis; however power management is required)

•

Catalyst 4510R+E (the 1000 W AC-input power supply can be installed in the Catalyst 4510R+E switch chassis; however power management is required)

Figure A-1 1000 W AC-Input Power Supply Features

AC-input receptacle

Power on/off switch

Captive installation screws

A-2

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OL-13972-02

Appendix A Power Supply Specifications

1000 W AC-Input Power Supply

1000 W AC-Input Power Supply Specifications

Table A-1 lists the specifications for the 1000 W AC-input power supply.

Table A-1 1000 W AC-Input Power Supply Specifications

Item

AC-input type

AC-input voltage

AC-input current

Specification

•

Autoranging input with power factor correction (PFC)

Note

Power factor correction is a standard feature on all Catalyst 4500

E-series AC-input power supplies. PFC reduces the reactive component in the source AC current allowing higher power factors (typically 99 percent or better) and lower harmonic current components.

•

Low-line (120 VAC nominal)—85 VAC (min) to 132 VAC (max)

High-line (230 VAC nominal)—170 VAC (min) to 264 VAC (max)

12 A @ 120 VAC

5 A @ 240 VAC

AC-input frequency 50/60 Hz (nominal) (±3 Hz for full range)

Branch circuit requirement Each chassis power supply should have its own dedicated, fused-branch circuit:

•

For North America—15 A or 20 A

•

For International—Circuits sized to local and national codes

All Catalyst 4500 E-series AC-input power supplies require single-phase source AC.

•

All AC power supply inputs are fully isolated.

–

Source AC can be out of phase between multiple power supplies in the same chassis, which means that PS1 can be operating from phase A and PS2 can be operating from phase B.

–

For high-line operation, the power supply operates with the hot conductor wired to a source AC phase and the neutral conductor wired either to ground or to another source AC phase as long as the net input voltage is in the range of 170 to 264 VAC.

–

Source AC can be out of phase between AC inputs on power supplies that are equipped with multiple AC inputs, which means that power cord 1 can be plugged into phase A and power cord 2 can be plugged into phase B.

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A-3

Appendix A Power Supply Specifications

1000 W AC-Input Power Supply

Table A-1 1000 W AC-Input Power Supply Specifications (continued)

Item

Power supply output capacity

Power supply output

Specification

1050 W plus 40 W (fan)

Output holdup time

Maximum kVA rating

Max heat dissipation

Minimum software requirement

Power over Ethernet

83.4 A @ +12 VDC

12.2 A @ +3.3 VDC

20 ms minimum

1.32 kVA

943 BTUs/hr

Cisco IOS Release 12.1(12c)EW

Not supported

A Catalyst 4503 with a Catalyst 4500 series Supervisor Engine II-Plus TS and a 1000 W power supply will be able to provide

158.4 W of Power over Ethernet (PoE) to ports on the supervisor engine. Switching modules in the other slots will not be able to provide PoE.

Table A-2

lists the 1000 W AC-input power supply LEDs and their meanings.

Table A-2

LED

INPUT OK

FAN OK

OUTPUT FAIL

1000 W AC-Input Power Supply LEDs

•

Meaning

•

Green—Source AC voltage is OK. (Input voltage is 85 VAC or greater.)

•

Off—Source AC voltage falls below 70 VAC, is not present, or the power supply is turned off.

•

Green—Power supply fan is operating properly.

Off—Power supply fan failure is detected.

Red—Problem with one or more of the DC-output voltages of the power supply is detected.

•

Off—DC-output voltage with acceptable margins.

1000 W Power Supply AC Power Cords

Table A-3

lists the specifications for the regional AC power cords that are available for the 1000 W

AC-input power supply.

Note

All 1000 W power supply AC power cords have an IEC60320/C15 appliance plug at one end.

A-4

Catalyst 4500 E-Series Switches Installation Guide

OL-13972-02

Appendix A Power Supply Specifications

1000 W AC-Input Power Supply

Table A-3

Locale

Japan, North

America

1000 W AC Power Supply Power Cords

Power Cord Part

Number

CAB-US515-C15-US=

(was CAB-7KAC=)

Length Cordset Rating Plug Type

8.2 ft (2.5 m) 15 A, 125 VAC NEMA 5-15P

Australia,

New Zealand

CAB-AS3112-C15-AU=

(was CAB-7ACA=)

8.2 ft (2.5 m) 15 A, 250 VAC AS/NZS 3112-1993

Europe (except

Italy)

CAB-CEE77-C15-EU=

(was CAB-7ACE=)

8.2 ft (2.5 m) 16 A, 250 VAC CEE 7/7

Italy

United

Kingdom

CAB-C2316-C15-IT=

(was CAB-7ACI=)

8.2 ft (2.5 m) 16 A, 250 VAC 1/3/16 CEI 23-16

CAB-BS1363-C15-UK=

(was CAB-7ACU=)

8.2 ft (2.5 m) 13 A, 250 VAC BS 1363/A

Argentina CAB-IR2073-C15-AR=

(was CAB-7KACR=)

8.2 ft (2.5 m) 10 A, 250 VAC IRAM 2073

Plug contains a 13 A fuse.

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Catalyst 4500 E-Series Switches Installation Guide

A-5

Appendix A Power Supply Specifications

1300 W AC-Input Power Supply

1300 W AC-Input Power Supply

•

The 1300 W AC-input power supply (PWR-C45-1300ACV), shown in

Figure A-2 , is supported in the

following Catalyst 4500 E-series switches:

•

Catalyst 4503-E

Catalyst 4506-E

Catalyst 4507R-E

Catalyst 4507R+E

Catalyst 4510R-E (the 1300 W AC-input power supply can be installed in the Catalyst 4510R-E switch chassis; however power management is required)

•

Catalyst 4510R+E (the 1300 W AC-input power supply can be installed in the Catalyst 4510R+E switch chassis; however power management is required)

Figure A-2 1300 W AC-Input Power Supply Features

AC-input receptacle

Power on/off switch

Captive installation screws

1300 W AC-Input Power Supply Specifications

Table A-4

lists the specifications for the 1300 W AC-input power supply.

A-6

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OL-13972-02

Appendix A Power Supply Specifications

1300 W AC-Input Power Supply

Table A-4 1300 W AC-Input Power Supply Specifications

Item

AC-input type

AC-input voltage

AC-input current

Specification

•

Autoranging input with power factor corrector

Note

Power factor correction is a standard feature on all Catalyst 4500

E-series AC-input power supplies. PFC reduces the reactive component in the source AC current allowing higher power factors (typically 99 percent or better) and lower harmonic current components.

•

Low-line (120 VAC nominal)—85 VAC (min) to 132 VAC (max)

High-line (230 VAC nominal)—170 VAC (min) to 264 VAC (max)

16 A @ 100 VAC

7 A @ 240 VAC

AC-input frequency 50/60 Hz (nominal) (±3 Hz for full range)

Branch circuit requirement Each chassis power supply should have its own dedicated, fused-branch circuit:

•

For North America—15 A or 20 A

•

For International—Circuits sized to local and national codes

All Catalyst 4500 E-series AC-input power supplies require single-phase source AC.

•

All AC power supply inputs are fully isolated.

–

Source AC can be out of phase between multiple power supplies in the same chassis, which means that PS1 can be operating from phase A and PS2 can be operating from phase B.

–

Power supply output capacity

•

1300 W maximum

1050 W+ 40 W redundant mode (data)

•

1667 W maximum in combined mode (data)

•

800 W maximum each in redundant mode (PoE)

1333 W maximum in combined mode (PoE)

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A-7

Appendix A Power Supply Specifications

1300 W AC-Input Power Supply

Table A-4 1300 W AC-Input Power Supply Specifications (continued)

Item

Power supply output

Specification

•

84.7 A @ 12 V @ (data)

•

12.5 A @ 3.3 V (data)

•

16.7 A @ –50 V (PoE)

20 ms minimum

1.76 kVA

Output holdup time

Maximum kVA rating

Max heat dissipation

Minimum software requirement

1568 BTUs/hr

Cisco IOS Release 12.1(12c)EW

Power over Ethernet (PoE) Supported, up to 800 W (211 Cisco phones in combined mode)

Table A-5

lists the 1300 W AC-input power supply LEDs and their meanings.

Table A-5 1300 W AC-Input Power Supply LEDs

LED

INPUT OK

FAN OK

OUTPUT FAIL

Meaning

•

Green—Source AC voltage is OK. (Input voltage is 85 VAC or greater.)

•

Off—Source AC voltage falls below 70 VAC, is not present, or the power supply is turned off.

•

Green—Power supply fan is operating properly.

Off—Power supply fan failure is detected.

Red—Problem with one or more of the DC-output voltages of the power supply is detected.

•

Note

Off—DC-output voltage with acceptable margins.

For proper operation of the OUTPUT FAIL LED, systems with single power supplies must be configured with a minimum of one fan tray assembly and one supervisor engine. Systems with dual power supplies must have a minimum configuration of one fan tray assembly, one supervisor engine, and one additional module. Failure to meet these minimum configuration requirements can cause a false power supply output fail signal.

1300 W Power Supply AC Power Cords

Table A-6

lists the specifications for the AC power cords that are available for the 1300 W AC-input power supply. The table includes a power plug illustration for each power cord.

Note

All 1300 W power supply power cords have an IEC60320/C19 appliance plug at one end.

A-8

Catalyst 4500 E-Series Switches Installation Guide

OL-13972-02

Appendix A Power Supply Specifications

1300 W AC-Input Power Supply

Table A-6

Locale

Japan, North

America

1300 W AC-Input Power Supply Power Cords

Power Cord Part

Number

CAB-US520-C19-US=

(was CAB-7513AC=)

Length Cordset Rating

AC Source Plug

Type

14 ft (4.3 m) 20 A, 125 VAC NEMA 5-20

Australia,

New Zealand

CAB-A3112-C19-AUS=

(was CAB-7513ACA=)

14 ft (4.3 m) 15 A, 250 VAC SAA/3,

AS/NZZS 3112-1993

Europe (except

Italy)

CAB-CEE77-C19-EU=

(was CAB-7513ACE=)

14 ft (4.3 m) 16 A, 250 VAC CEE 7/7

Italy

United

Kingdom

CAB-C2316-C19-IT=

(was CAB-7513ACI=)

14 ft (4.3 m) 16 A, 250 VAC 1/3/16, CEI 23-16

CAB-BS1363-C19-UK=

(was CAB-7513ACU=)

14 ft (4.3 m) 13 A, 250 VAC BS 89/13

BS 1363/A

Argentina CAB-IR2073-C19-AR=

(was CAB-7513ACR=)

14 ft (4.3 m) 16 A, 250 VAC IRAM 2073

Japan, North

America

(locking)

200–240 VAC operation

CAB-AC-2800W-TWLK= 13.6 ft

(4.1 m)

16 A, 250 VAC NEMA L6-20

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A-9

Appendix A Power Supply Specifications

1400 W AC-Input Power Supply

Table A-6

Locale

Japan, North

America

(nonlocking)

200–240 VAC operation

1300 W AC-Input Power Supply Power Cords (continued)

Power Cord Part

Number

CAB-AC-2800W-6-20=

Length

13.2 ft

(4.0 m)

Cordset Rating

AC Source Plug

Type

16 A, 250 VAC NEMA 6-20 non-locking

Europe CAB-AC-2800W-EU= 13.2 ft

(4.0 m)

16 A, 250 VAC CEE 7/7

South Africa,

India

CAB-BS546-C15-SA=

(was CAB-7513ACSA)

13.6 ft

(4.1 m)

16 A, 250 VAC BS 456

International CAB-AC-2800W-INT= 13.6 ft

(4.1 m)

16 A, 250 VAC IEC 309

Israeli CAB-S132-C19-ISRL 14 ft (4.3 m) 16 A, 250 VAC SI32

UPS 220V CAB-C19-CBN 9 ft (2.74 m) 20 A, 250 VAC IEC-60320-C20

1400 W AC-Input Power Supply

•

The 1400 W AC-input power supply (PWR-C45-1400AC), shown in

Figure A-3 , is supported in the

following Catalyst 4500 E-series switches:

•

Catalyst 4503-E

Catalyst 4506-E

Catalyst 4507R-E

Catalyst 4507R+E

Catalyst 4510R-E

Catalyst 4510R+E

Catalyst 4500 E-Series Switches Installation Guide

A-10

OL-13972-02

Appendix A Power Supply Specifications

Figure A-3 1400 W AC-Input Power Supply Features

1400 W AC-Input Power Supply

AC-input receptacle

Power on/off switch

Captive installation screws

1400 W AC-Input Power Supply Specifications

Table A-7 lists the specifications for the 1400 W AC-input power supply.

Table A-7

Item

AC-input type

1400 W AC-Input Power Supply Specifications

AC-input voltage

AC-input current

AC-input frequency

Specification

Autoranging input with power factor corrector

Note

Power factor correction is a standard feature on all Catalyst 4500

E-series AC-input power supplies. PFC reduces the reactive component in the source AC current allowing higher power factors (typically 99 percent or better) and lower harmonic current components.

•

Low-line (120 VAC nominal)—85 VAC (min) to 132 VAC (max)

•

High-line (230 VAC nominal)—170 VAC (min) to 264 VAC (max)

16 A @ 120 VAC

•

7 A @ 240 VAC

50/60 Hz (nominal) (±3 Hz for full range)

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A-11

Appendix A Power Supply Specifications

1400 W AC-Input Power Supply

Table A-7 1400 W AC-Input Power Supply Specifications (continued)

Item Specification

Branch circuit requirement Each chassis power supply should have its own dedicated, fused-branch circuit:

•

For North America—15 A or 20 A

•

For International—Circuits sized to local and national codes

All Catalyst 4500 E-series AC-input power supplies require single-phase source AC.

•

All AC power supply inputs are fully isolated.

–

Source AC can be out of phase between multiple power supplies in the same chassis, which means that PS1 can be operating from phase A and PS2 can be operating from phase B.

–

Power supply output 2473 W maximum

1360 W + 40 W redundant mode (data)

Power supply output (AC supply)

Output holdup time

Max heat dissipation

Maximum kVA rating

Minimum software requirement

Power over Ethernet

113.4 A @ +12 V

12.2 A @ +3.3 V (data)

20 ms minimum

1048 BTUs/hr

1.76 kVA

Cisco IOS Release 12.2(18)EW

Not supported

A Catalyst 4503-E with a Catalyst 4500 E-series Supervisor Engine II-Plus TS and a 1400W AC power supply provides 158.4

W of PoE to ports on the supervisor engine. Switching modules in other slots will not be able to provide PoE.

Table A-8

list the 1400 W AC-input power supply LEDs and their meanings.

A-12

Catalyst 4500 E-Series Switches Installation Guide

OL-13972-02

Appendix A Power Supply Specifications

1400 W AC-Input Power Supply

Table A-8

LED

INPUT OK

FAN OK

OUTPUT FAIL

1400 W AC-Input Power Supply LEDs

Meaning

•

Green—Source AC voltage is OK. (Input voltage is 85 VAC or greater.)

•

Off—Source AC voltage falls below 70 VAC, is not present, or the power supply is turned off.

•

Green—Power supply fan is operating properly.

•

Off—Power supply fan failure is detected.

Red—Problem with one or more of the DC-output voltages of the power supply is detected.

•

Note

Off—DC-output voltage with acceptable margins.

1400 W Power Supply AC Power Cords

Table A-9 lists the specifications for the AC power cords that are available for the 1400 W AC-input

power supply. The table includes a power plug illustration for each power cord.

Note

All 1400 W power supply power cords have an IEC60320/C19 appliance plug at one end.

Table A-9

Locale

Japan, North

America

1400 W AC-Input Power Supply Power Cords

Power Cord Part

Number

CAB-US520-C19-US=

(was CAB-7513AC=)

Length Cordset Rating

AC Source Plug

Type

14 ft (4.3 m) 20 A, 125 VAC NEMA 5-20

Australia,

New Zealand

CAB-A3112-C19-AUS=

(was CAB-7513ACA=)

14 ft (4.3 m) 15 A, 250 VAC SAA/3,

AS/NZZS 3112-1993

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A-13

Appendix A Power Supply Specifications

1400 W AC-Input Power Supply

Table A-9

Locale

Europe (except

Italy)

1400 W AC-Input Power Supply Power Cords (continued)

Power Cord Part

Number

CAB-CEE77-C19-EU=

(was CAB-7513ACE=)

Length Cordset Rating

AC Source Plug

Type

14 ft (4.3 m) 16 A, 250 VAC CEE 7/7

Italy

United

Kingdom

CAB-C2316-C19-IT=

(was CAB-7513ACI=)

14 ft (4.3 m) 16 A, 250 VAC 1/3/16, CEI 23-16

CAB-BS1363-C19-UK=

(was CAB-7513ACU=)

14 ft (4.3 m) 13 A, 250 VAC BS 89/13

BS 1363/A

Argentina CAB-IR2073-C19-AR=

(was CAB-7513ACR=)

14 ft (4.3 m) 16 A, 250 VAC IRAM 2073

Japan, North

America

(locking)

200–240 VAC operation

Japan, North

America

(nonlocking)

200–240 VAC operation

CAB-AC-2800W-TWLK= 13.6 ft

(4.1 m)

CAB-AC-2800W-6-20 13.2 ft

(4.0 m)

Europe CAB-AC-2800W-EU= 13.2 ft

(4.0 m)

16 A, 250 VAC NEMA L6-20

16 A, 250 VAC NEMA 6-20 non-locking

16 A, 250 VAC CEE 7/7

South Africa,

India

CAB-BS546-C15-SA=

(was CAB-7513ACSA)

13.6 ft

(4.1 m)

16 A, 250 VAC BS 456

A-14

Catalyst 4500 E-Series Switches Installation Guide

OL-13972-02

Appendix A Power Supply Specifications

1400 W DC-Input Power Supply

Table A-9 1400 W AC-Input Power Supply Power Cords (continued)

Locale

Power Cord Part

Number

International CAB-AC-2800W-INT=

Length

13.6 ft

(4.1 m)

Cordset Rating

AC Source Plug

Type

16 A, 250 VAC IEC 309

Israel CAB-S132-C19-ISRL 14 ft (4.3 m) 16 A, 250 VAC SI32

UPS 220 VAC CAB-C19-CBN 9 ft (2.74 m) 20 A, 250 VAC IEC-60320-C20

1400 W DC-Input Power Supply

•

The 1400 W DC-input power supply (PWR-C45-1400DC-P), shown in

Figure A-4

, is supported in the following Catalyst 4500 E-series switches:

•

Catalyst 4503-E

Catalyst 4506-E

Catalyst 4507R-E

Catalyst 4510R-E

Catalyst 4507R+E

•

Catalyst 4510R+E

Caution

Do not install the 1400 W DC power supply with any other power supply under any circumstances.

Doing so can seriously damage your switch.

OL-13972-02

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A-15

1400 W DC-Input Power Supply

Figure A-4 1400 W DC-Input Power Supply

Appendix A Power Supply Specifications

The 1400W DC-input power supply can be used with the Catalyst 4500 Series AC Power Shelf

(PWR-P4502-1PSU). Documentation for the Catalyst 4500 Series AC Power Shelf is located at this url: http://www.cisco.com/en/US/docs/switches/lan/catalyst4500/hardware/configuration/notes/

78_15068.html

1400 W DC-Input Power Supply Specifications

Table A-10 lists the specifications for the 1400 W DC-input power supply.

Table A-10 1400 W DC-Input Power Supply Specifications

Item

DC-input voltage

DC-input current

Power supply output capacity

DC-input terminal block

Specification

–48 to –60 VDC (data only)

–48 to –56 VDC (inline devices)

31 A @ –60 VDC (data only)

180 A maximum @ –48 VDC input (data and inline devices)

The input power is configurable in the CLI. The Cisco IOS command is

power dc input. Configure the switch software to match the requirements of your switch.

•

Data

–

12 VDC @120 A,

–

3.3 VDC @ 10 A

140 A total maximum (35 A maximum each per 5 channels)

@–48 to –60 VDC input (inline devices)

•

1367 W+ 40 W redundant mode (data)

2267 W maximum in combined mode (data)

•

7500 W maximum each in redundant mode (PoE)

7280 W maximum in combined mode (PoE)

Accepts 10 to 12 AWG size copper wire. The actual size of the wire needed is determined by the installer or the local electrician. Terminal block material is rated at 150°C

A-16

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OL-13972-02

Appendix A Power Supply Specifications

Table A-10 1400 W DC-Input Power Supply Specifications (continued)

Item

Output holdup time

Heat dissipation

Specification

4 ms

159 BTUs/hr (data)

2905 BTUs/hr (data and voice)

1400 W DC-Input Power Supply

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A-17

Appendix A Power Supply Specifications

1400 W DC-Input Power Supply

Table A-11 list the 1400 W DC-input power supply LEDs and their meanings.

Table A-11 1400 W DC-Input Power Supply LEDs

LED

INPUT OK

FAN OK

OUTPUT FAIL

In-line PWR

•

Meaning

•

Green—Source DC voltage is OK. (Input voltage is –40.5 VDC or greater.)

•

Off—Source DC voltage falls below –-33 VDC, is not present, or the power supply is turned off.

Green—Power supply fan is operating properly.

Off—Power supply fan failure is detected.

Red—Problem with one or more of the DC-output voltages of the power supply is detected.

•

Off—DC-output voltage with acceptable margins.

Green—–48 VDC passthrough output voltage is enabled and is greater than –39 VDC and less than –60 VDC.

•

Off—Indicates any of the following:

–

Passthrough breakers are not enabled

–

DC input is less than –40.5 VDC

One or more –48 VDC outputs is less than –39 VDC

•

Amber—Passthrough breakers are enabled and input voltage exceeds –60 VDC

Table A-12

Chassis

Table A-12 lists the chassis specific power usage numbers for the 1400 W DC-input power supply.

Chassis-Specific Power Usage

Maximum

Draw (W)

Maximum

Input (W)

Catalyst 4503 specific power usage (data only)

Catalyst 4506 specific power usage (data only)

475

850

Catalyst 4507R-E specific power usage (data only)

1080

633

1133

1440

•

Current

15.6 A @ –40.5 VDC (min)

8.8 A @ –72 VDC (max)

28 A @ –40.5 VDC (min)

15.8 A @ –72 VDC (max)

35.6 A @ –40.5 VDC (min)

20 A @ –72 VDC (max)

Heat

Dissipation

(BTUs)

2160

3515

4910

A-18

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Appendix A Power Supply Specifications

1400 W Triple-Input DC-Input Power Supply

1400 W Triple-Input DC-Input Power Supply

•

The 1400 W triple-input DC-input power supply (PWR-C45-1400DC), shown in Figure A-5 , is

supported in the following Catalyst 4500 E-series switches.

•

Catalyst 4503-E

Catalyst 4506-E

Catalyst 4507R-E

Catalyst 4510R-E

Catalyst 4507R+E

•

Catalyst 4510R+E

Figure A-5 1400 W Triple-Input DC-Input Power Supply

1400 W Triple Input DC-Input Power Supply Specifications

Table A-13

lists the specifications for the 1400 W triple input DC-input power supply.

Table A-13

Power supply output capacity

1400 W DC Triple-Input Power Supply Specifications

Item

DC-input voltage

DC-input current

Specification

•

–48 VDC for nominal –48 V battery backup system (operating range: –40.5 VDC to –56 VDC)

–60 VDC for nominal –60 V battery backup system (operating range: –55 VDC to –72 VDC)

42.5 A maximum @ –48 VDC input

Input 1—12.5 A @ –48 to –60 VDC

Input 2—15 A @ –48 to –60 VDC

Input 3—15 A @ –48 to –60 VDC

1721 W—42.5 A @ –40.5 VDC (min voltage)

1800 W—25 A @ –72 VDC (max voltage)

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A-19

Appendix A Power Supply Specifications

1400 W Triple-Input DC-Input Power Supply

Table A-13 1400 W DC Triple-Input Power Supply Specifications (continued)

Item

Power supply output

DC input terminal block

Specification

•

8 A (min) to 115.3 A (max) @ +12 VDC

•

1.2 A (min) to 12.5 A (max) @ +3.3 VDC

•

1360 W+ 40 W redundant mode

2450 W maximum in combined mode

Accepts 10 to 12 AWG size copper wire. The actual size of the wire needed is determined by the installer or the local electrician. Terminal block material is rated at 302°F (150°C)

8 ms Output holdup time

Maximum kVA rating

Max heat dissipation

Minimum software requirement

Power over Ethernet

Catalyst 4503-E Specific

Power Usage

(data only)

Maximum draw

1.77 kVA (1400 W load)

1269 BTUs/hr

Cisco IOS Release 12.2(25)EW

Not supported

Two modules minimum required @ –40.5 VDC input

One 15 A module minimum required @ –44 VDC input

Maximum input

Current draw at –40.5 V

(min voltage)

Current draw at –72 V (max voltage)

Max heat dissipation at

609 W

Catalyst 4506-E Specific

Power Usage

(data only)

475 W

609 W total / # of modules = W per module

15 A total / # of modules = Amperes per module

8.5 A total / # of modules = Amperes per module

2078 BTUs

Two modules minimum required @ –44 VDC input

Three modules minimum required @ –40.5 VDC input

Maximum draw (data only) 850 W

Maximum input 1076 W total / # of modules = W per module

Current draw at –40.5 V

(min voltage)

Current draw at –72 V (max voltage)

Max heat dissipation at

1076 W

Catalyst 4507R-Specific

Power Usage

(data only)

26.6 A total / # of modules = Amperes per module

15 A total / # of modules = Amperes per module

3671 BTUs

Three modules minimum required

Maximum draw (data only) 1080 W

Max input is 1080 W 1367 W total / # of modules = W per module

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Catalyst 4500 E-Series Switches Installation Guide

OL-13972-02

Appendix A Power Supply Specifications

1400 W Triple-Input DC-Input Power Supply

Table A-13 1400 W DC Triple-Input Power Supply Specifications (continued)

Item

Current draw at –40.5 V

(min voltage)

Specification

33.75 A total / # of modules = Amperes per module

19 A total / # of modules = Amperes per module

Current draw at –72 V (max voltage)

Max heat dissipation

1367 W

4665 BTUs

The kVA rating listed for the power supply should be used as the sizing criteria for both UPS outputs as well as standard circuits and transformers to power a switch.

Table A-14

list the 1400 W triple-input DC-input power supply LEDs and their meanings.

Table A-14

LED

INPUT OK

FAN OK

OUTPUT FAIL

1400 W DC Triple-Input DC-Input Power Supply LEDs

Meaning

•

Green—Source DC voltage is OK. (Input voltage is –40.5 VDC or greater.)

•

Off—Source AC voltage falls below –33 VDC, is not present, or the power supply is turned off.

•

Green—Power supply fan is operating properly.

•

Off—Power supply fan failure is detected.

Red—Problem with one or more of the DC-output voltages of the power supply is detected.

•

Note

Off—DC-output voltage with acceptable margins.

Table A-15

lists the 1400 W triple-input DC-input power supply input modes and outputs.

Table A-15 1400 W DC Triple-Input Power Supply Input Modes and Output

Input

Mode

Source DC

Connections

2 or 3

1, 2 or 3

Input Configuration Maximum Total

Output Power

1 x 12.5 A 386 W @ –40.5 VDC

412 W @ –44.0 VDC

1 x 15 A

1 x 12.5 A and

1 x 15 A

466 W @ –40.5 VDC

495 W @ –44.0 VDC

845 W @ –40.5 VDC

908 W @ –44.0 VDC

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A-21

Appendix A Power Supply Specifications

1400 W Triple-Input DC-Input Power Supply

Table A-15

Input

Mode

1400 W DC Triple-Input Power Supply Input Modes and Output (continued)

Source DC

Connections

2, 3

1, 2, 3

Input Configuration Maximum Total

2 x 15 A

1 x 12.5 A and

2 x 15 A

Output Power

914 W @ –40.5 VDC

990 W @ –44.0 VDC

1294 W @ –40.5 VDC

1400 W @ –44.0 VDC

Power output also depends on whether two supplies are used, and whether they are in redundant or combined mode.

Table A-16 provides a matrix of possible outputs in combined mode depending on the

power provided to the supply.

Table A-16 Maximum Power with Two 1400 W DC Triple-Input Power Supplies in Combined Mode

PS1 input 1

PS1 input 2 or 3

PS1 input 1 and (2 or 3)

PS1 input

2 and 3

PS1 input

1 and 2 and 3

PS2 input 1 PS2 input

2 or 3

824 W

907 W

1320 W

1400 W

1700 W

907 W

990 W

1400 W

1450 W

1750 W

PS2 input

1 and (2 or 3)

1320 W

1400 W

1700 W

1750 W

1900 W

PS2 input

2 and 3

1400 W

1450 W

1750 W

PS2 input

1 and 2 and 3

1700 W

1750 W

1900 W

1820 W

2130 W

2450 W

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Appendix A Power Supply Specifications

1400 W Triple-Input DC-Input Power Supply

1400 W DC Triple-Input Power Supply Operational Modes

The 1400 W triple-input DC-input power supply (data only) allows added redundancy by providing terminals for two DC inputs rated at 15 A and one rated at 12.5 A per power supply.

This power supply has five operational modes depending on the inputs receiving power. When all three inputs are active, at input voltages greater than –44.0 V DC, the power supply delivers 1400 W

maximum total output. Table A-17 provides output information for these modes, given a single supply.

Table A-17

Input

Mode

Input Modes

Input

Number

2 OR 3

Input Configuration Maximum Total

Output Power

1 x 12.5 A 386 W @ –40.5 VDC

412 W @ –44.0 VDC

1 x 15 A

1, 2 OR 3 1 x 12.5 A and

2, 3

1 x 15 A

2 x 15A

466 W @ –40.5 VDC

495 W @ –44.0 VDC

845 W @ –40.5 VDC

908 W @ –44.0 VDC

1, 2, 3 1 x 12.5A and

2 x 15 A

914 W @ –40.5 VDC

990 W @ –44.0 V DC

1294 W @ –40.5 VDC

1400 W @ –44.0 VDC

The maximum total input current is 42.5 A and the maximum ambient temperature is 55 C. To determine the total maximum input power to a supply, add up the active individual module input power ratings.

Table A-18

provides output information for these modes, given two supplies working in combined mode.

Table A-19

provides output information for these modes, given two supplies working in redundant mode.

Table A-18 Combined Mode Power Supply Configuration

(2450 W Max Output Power)

Input

Number

Maximum Input Current Maximum Input

Power @ –44 VDC

12.5 A @ –44 VDC 550 W

15 A @ –44 VDC

660 W

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Appendix A Power Supply Specifications

1400 W Triple-Input DC-Input Power Supply

Table A-19

Input

Number

Dual Redundant Mode Power Supply Configuration

(1400 W Max Output Power)

Approximate

Input Current

6.25 A @

–40.5 / –44 VDC

7.5 A @ –40.5 /

–44 VDC

7.5 A @ –40.5 /

–44 VDC

Approximate

Input Power @

–40.5 VDC

253 W

304 W

Approximate Input

Power @ –44 VDC

275 W

330 W

Note

In a redundant configuration with all inputs supplied, there must be a 100 W minimum system load or the OUTPUT FAIL LED shows a false failure.

The 1400 W triple-input DC-input power supply requires a minimum draw from the system that it is

installed in. Table A-20 shows the minimum draw for the possible modes.

Table A-20 Minimum Load Table

PSU1 PSU2

Input 1 Input 2 Input 3 Input 1 Input 2 Input 3 12 VDC

Minimum

Load

Single Operation

Mode 1 ON

Mode 2 OFF

OFF

—

1.33 A

Mode 3

OFF

Mode 4 OFF

OFF

Mode 5 ON ON

Dual Redundant Operation

Mode 1 ON OFF

OFF

—

1.33 A

2.66 A

4 A

OFF

2.66 A

Mode 2 OFF

OFF

Mode 3 ON

Mode 4 OFF

Mode 5 ON

OFF

5.32 A

8 A

3.3 VDC

Minimum

Load

0.6 A

1.2 A

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Appendix A Power Supply Specifications

2800 W AC-Input Power Supply

2800 W AC-Input Power Supply

•

The 2800 W AC-input power supply (PWR-C45-2800ACV), shown in

Figure A-3

, is supported in the following Catalyst 4500 E-series switches:

•

Catalyst 4503-E

Catalyst 4506-E

Catalyst 4507R-E

Catalyst 4510R-E

Catalyst 4507R+E

•

Catalyst 4510R+E

Figure A-6 2800 W AC-Input Power Supply

AC-in receptacle

On/off power switch

Captive installation screws

2800 W AC-Input Power Supply Specifications

Table A-21

lists the specifications for the 2800 W AC-input power supply.

Table A-21 2800 W AC-Input Power Supply Specifications

Item

AC-input type

AC-input voltage

AC-input current

AC-input frequency

Specification

Autoranging input with power factor corrector

200 to 240 VAC (±10% for full range)

16 A maximum at 200 VAC

50/60 Hz (nominal) (±3% for full range)

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A-25

Appendix A Power Supply Specifications

2800 W AC-Input Power Supply

Table A-21 2800 W AC-Input Power Supply Specifications (continued)

Item Specification

Branch circuit requirement Each chassis power supply should have its own dedicated, fused-branch circuit:

•

For North America—15 A or 20 A

•

For International—Circuits sized to local and national codes

All Catalyst 4500 E-series AC-input power supplies require single-phase source AC.

•

All AC power supply inputs are fully isolated.

–

Source AC can be out of phase between multiple power supplies in the same chassis, which means that PS1 can be operating from phase A and PS2 can be operating from phase B.

–

Power supply output capacity

2800 W maximum

1360 W+ 40 W redundant mode (data)

2473 W maximum in combined mode (data)

Power supply output

Output holdup time

Maximum kVA rating

Max heat dissipation

Minimum software requirement

Power over Ethernet

•

1400 W maximum each in redundant mode (PoE)

2333 W maximum in combined mode (PoE)

•

113.3 A @ 12 VDC (data)

12.1 A @ 3.3 VDC (data)

28 A @ –50 VDC (PoE)

20 ms minimum

3.52 kVA

2387 BTUs/hr.

Cisco IOS Release 12.1(13)EW

Supported, up to 1400 W

(240 Cisco phones in combined mode)

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Appendix A Power Supply Specifications

2800 W AC-Input Power Supply

Table A-22

describes the 2800 W AC-input power supply LEDs and their meanings.

Table A-22 2800 W AC-Input Power Supply LEDs

LED

INPUT OK

Color/State

Green

Flashing

Off

Description

Indicates whether the input voltage is within the required range:

Input voltage is within the required range.

Input voltage is present, but is below required range.

Input voltage is below the required range or the power supply is off.

OUTPUT FAIL

FAN OK

Red

Off

Green

Off

Output voltage is not within the specified range.

Output voltage is within the specified range.

Indicates the status of the power supply fans:

The fans are operational.

The fans are not operational.

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Appendix A Power Supply Specifications

2800 W AC-Input Power Supply

2800 W Power Supply AC Power Cords

Table A-23 lists the specifications for the AC power cords that are available for the 2800 W AC-input

power supply.

Note

All 2800 W AC-input power supply power cords have an IEC60320/C19 appliance plug at one end.

Table A-23 2800 W AC-Input Power Supply Power Cords

Locale

Japan, North

America

(locking)

200–240 VAC operation

Japan, North

America

(nonlocking)

200–240 VAC operation

Power Cord Part

Number Length

CAB-AC-2800W-TWLK= 13.6 ft

(4.1 m)

CAB-AC-2800W-6-20 13.2 ft

(4.0 m)

Cordset Rating

AC Source Plug

Type

16 A, 250 VAC NEMA L6-20

16 A, 250 VAC NEMA 6-20 non-locking

Europe CAB-AC-2800W-EU= 13.2 ft

(4.0 m)

16 A, 250 VAC CEE 7/7

Argentina CAB-IR2073-C19-AR=

(was CAB-7513ACR=)

14 ft (4.3 m) 16 A, 250 VAC IRAM 2073

International CAB-AC-2800W-INT= 13.6 ft

(4.1 m)

16 A, 250 VAC IEC 309

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Catalyst 4500 E-Series Switches Installation Guide

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Appendix A Power Supply Specifications

4200 W AC-Input Power Supply

4200 W AC-Input Power Supply

•

The 4200 W AC-input power supply (PWR-C45-4200ACV), shown

Figure A-7

, is supported in the following Catalyst 4500 E-series switches:

•

Catalyst 4503-E

Catalyst 4506-E

Catalyst 4507R-E

Catalyst 4510R-E

Catalyst 4507R+E

•

Catalyst 4510R+E

Figure A-7 4200 W AC-Input Power Supply

100-120V

12A

50/60Hz

OUTP{UT F

AI:

FAN OK

INPUT 1

INPUT 2

POE ENABLED

100-120V

12A

50/60Hz

4600A

AC-input 2 receptacle

AC-input 2 power on/off switch

AC-input 1 power on/off switch

AC-input 1 receptacle

Captive installation screws

4200 W AC-Input Power Supply Specifications

Table A-24

lists the specifications for the 4200 W AC-input power supply.

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Appendix A Power Supply Specifications

4200 W AC-Input Power Supply

Table A-24 4200 W AC-Input Power Supply Specifications

Item

AC-input type

AC-input voltage

Specification

Autoranging input with power factor corrector

Note

Power factor correction is a standard feature on all Catalyst 4500

E-series AC-input power supplies. PFC reduces the reactive component in the source AC current allowing higher power factors (typically 99 percent or better) and lower harmonic current components.

•

Low-line (120 VAC nominal)—85 VAC (min) to 132 VAC (max)

•

High-line (230 VAC nominal)—170 VAC (min) to 264 VAC (max)

12 A (maximum) @ 120 VAC or 230 VAC for each input

50/60 Hz (nominal) (±3% for full range)

AC-input current

AC-input frequency

Branch circuit requirement Each chassis power supply should have its own dedicated, fused-branch circuit:

•

For North America—15 A or 20 A

For International—Circuits sized to local and national codes

•

All Catalyst 4500 E-series AC-input power supplies require single-phase source AC.

•

All AC power supply inputs are fully isolated.

–

Source AC can be out of phase between multiple power supplies in the same chassis, which means that PS1 can be operating from phase A and PS2 can be operating from phase B.

–

A-30

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Appendix A Power Supply Specifications

4200 W AC-Input Power Supply

Table A-24 4200 W AC-Input Power Supply Specifications (continued)

Item

Power supply output capacity

1050 W operation

2100 W operation

4200 W operation

Power supply output

Output holdup time

Maximum kVA rating

Specification

The power supply output capacity is dependent on the number of AC power cords (1 or 2) attached, the source AC voltage (110 VAC

[low-line] or 220 VAC [high-line] applied to the power supply inputs, and the number of power supply power switches switched on or off.

Note

If source AC is applied to both two inputs, both inputs should have the same AC voltage.

1050 W maximum with the following combinations of power cords and source AC voltage applied to the power supply inputs:

•

One AC input is connected to low-line (110 VAC nominal); the second AC input is not connected to source AC or is switched off.

2100 W maximum with the following combinations of power cords and source AC voltage applied to the power supply inputs:

•

Both AC inputs are connected to low-line (110 VAC nominal) and both inputs are switched on.

•

One AC input connected to high-line (220 VAC nominal); the second AC input is not connected or is switched off.

4200 W maximum with the following combinations of power cords and source AC voltage applied to the power supply inputs:

•

Both AC inputs are connected to high-line (220 VAC nominal) and both inputs are switched on.

•

1050 W operation (with one 110 VAC nominal input)

–

55.9 A @ 12 V (data only)

12.5 A @ 3.3 V (data only)

–

14.6 A @ –50 V (PoE if used)

•

2100 W operation (with two 110 VAC nominal inputs)

–

115.3 A @ 12 V (data only)

12.5 A @ 3.3 V (data only)

–

38.0 A @ –50 V (PoE if used)

•

2100 W operation (with one 220 VAC nominal input)

–

115.3 A @ 12 V (data only)

12.5 A @ 3.3 V (data only)

–

38.5 A @ –50 V (PoE if used)

•

4200 W operation (with two 220 VAC nominal inputs)

–

115.3 A @ 12 V (data only)

12.5 A @ 3.3 V (data only)

–

77.1 A @ –50 V (PoE if used)

20 ms minimum

5.25 kVA

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A-31

Appendix A Power Supply Specifications

4200 W AC-Input Power Supply

Table A-24

Item

4200 W AC-Input Power Supply Specifications (continued)

Max heat dissipation

Minimum software requirement

Power over Ethernet

Specification

3583 BTUs/hr.

Cisco IOS Release 12.2(25)EWA

Supported, up to 4200 W

Table A-25 describes the 4200 W AC-input power supply LEDs and their meanings.

Table A-25 4200 W AC-Input Power Supply LEDs

LED

INPUT OK

Color/State Description

Indicates whether the input voltage is within the required range:

Green

Flashing

Off

Input voltage is within the required range.

Input voltage is present, but is below required range.

Input voltage is below the required range or the power supply is off.

OUTPUT FAIL

FAN OK

Red

Off

Green

Off

Output voltage is not within the specified range.

Output voltage is within the specified range.

Indicates the status of the power supply fans:

The fans are operational.

The fans are not operational.

Note

The 4200 W AC power supply should not be used in mixed-voltage configurations. All the inputs in a chassis must be at the same voltage (110 VAC or 220 VAC).

Table A-26 shows the wattage output possible from a 4200 W power supply in redundant mode. In

redundant mode, the two power supplies must have the same number of inputs and all inputs must be the same voltage. If the input voltages to the power supplies are mismatched, choose the value matching the weaker of the two power supplies.

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Appendix A Power Supply Specifications

4200 W AC-Input Power Supply

Table A-26 Redundant Mode Output

Source AC to Power Supplies

110 VAC to one input on supply 1 and one

100 VAC to one input on power supply 2

+12 VDC

660 W

110 VAC to both inputs on power supply 1 and

110 VAC to both inputs on power supply 2, or one 220 VAC input to power supply 1 and one

220 VAC input to power supply 2

220 VAC to both inputs on power supply 1 and power supply 2

1360 W

+3.3 VDC –50 VDC

40 W

700 W

1850 W

3700 W

Total (W)

1050 W

2100 W

4200 W

Table A-27

shows the maximum output wattage with two 4200 W AC-input power supplies operating in combined mode.

Table A-27 4200 W Power Supplies in Combined Mode Output

Maximum

(W) Source AC to Power Supplies W @

+12 VDC

1200 W Both power supplies with one input at

110 VAC

One 110 VAC input to one power supply and two 110 VAC inputs to the other power supply

Both power supplies with two 110 VAC inputs

1800 W

2200 W

Both power supplies with one 220 VAC input

Two 220 VAC inputs to one power supply, one 220 VAC input to the other power supply

Both power supplies with two 220 VAC inputs

2200 W

W @

+3.3 VDC

40 W

W @

–50 VDC

1320 W

2000 W

3100 W

4700 W

6200 W

1870 W

2730 W

3800 W

5500 W

7600 W

4200 W Power Supply AC Power Cords

Table A-28

lists the specifications for the AC power cords that are available for the 4200 W AC-input power supply.

Note

All 4200 W power supply power cords have an IEC60320/C19 appliance plug at one end.

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A-33

Appendix A Power Supply Specifications

4200 W AC-Input Power Supply

Table A-28

Locale

Japan, North

America

120 VAC operation

4200 W AC-Input Power Supply Power Cords

Power Cord Part

Number

CAB-US515P-C19-US

Length

9.8 ft

(2.98 m)

Cordset Rating

AC Source Plug

Type

15 A, 125 VAC NEMA 5-15P

Japan, North

America

(locking)

200–240 VAC operation

Japan, North

America

(nonlocking)

200–240 VAC operation

CAB-L620P-C19-US

CAB-US620P-C19-US

14 ft (4.2 m) 20 A, 250 VAC NEMA L6-20

13.2 ft

(4.02 m)

20 A, 250 VAC NEMA 6-20 non-locking

Europe CAB-CEE77-C19-EU 13.2 ft

(4.0 m)

15 A, 250 VAC CEE 7/7

International

(including

Argentina and

South Africa)

CAB-I309-C19-INT 13.6 ft

(4.1 m)

16 A, 250 VAC IEC 309

Australia CAB-A3112-C19-AUS 14 ft (4.3 m) 15 A, 250 VAC AS/NZZS 3112

Argentina CAB-IR2073-C19-AR=

(was CAB-7513ACR=)

14 ft (4.3 m) 10 A, 250 VAC IRAM 2073

Italy CAB-C2316-C19-IT 14 ft (4.3 m) 16 A, 250 VAC CEI 23-16

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Appendix A Power Supply Specifications

6000 W AC-Input Power Supply

Table A-28

Locale

United

Kingdom

4200 W AC-Input Power Supply Power Cords (continued)

Power Cord Part

Number

CAB-BS1363-C19-UK

Length Cordset Rating

AC Source Plug

Type

14 ft (4.3 m) 13 A, 250 VAC BS 1363

Israeli CAB-S132-C19-ISRL 14 ft (4.3 m) 16 A, 250 VAC SI32

UPS 220V CAB-C19-CBN 9 ft (2.74 m) 20 A, 250 VAC IEC-60320-C20

6000 W AC-Input Power Supply

•

The 6000 W AC-input power supply (PWR-C45-6000ACV), shown in

Figure A-8

, is supported in following Catalyst 4500 E-series switch chassis:

•

Catalyst 4503-E

Catalyst 4506-E

Catalyst 4507R-E

Catalyst 4510R-E

Catalyst 4507R+E

•

Catalyst 4510R+E

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A-35

6000 W AC-Input Power Supply

Figure A-8 6000 W Dual-Input AC Power Supply

Appendix A Power Supply Specifications

AC-input 2 receptacle

AC-input 2 on switch

AC-input 1 on switch

AC-input 1 receptacle

Captive screws

Remote power cycling terminal

6000 W Power Supply Specifications

Table A-29 lists the specifications for the 6000 W AC-input power supplies.

Table A-29

Item

AC-input type

6000 W AC-Input Power Supply Specifications

AC-input voltage

AC-input current

AC-input frequency

Specification

Autoranging inputs with power factor correction

Note

Power factor correction is a standard feature on all Catalyst 4500

E-series AC-input power supplies. PFC reduces the reactive component in the source AC current allowing higher power factors (typically 99 percent or better) and lower harmonic current components.

•

Low-line (120 VAC nominal)—85 VAC (min) to 132 VAC (max)

•

High-line (230 VAC nominal)—170 VAC (min) to 264 VAC (max)

12 A (max) @ 120 VAC (for each input)

16 A (max) @ 230 VAC (for each input)

50/60 Hz (nominal) (±3% for full range)

A-36

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Appendix A Power Supply Specifications

6000 W AC-Input Power Supply

Table A-29 6000 W AC-Input Power Supply Specifications

Item

Power supply output

Specification

Total output depends on the number of inputs connected and the source

AC voltage. If two inputs are used, they should both be of the same AC voltage.

•

1050 W operation (with one 120 VAC nominal input)

–

70.8 A @ 12 VDC (data only)

12.5 A @ 3.3 VDC (data only)

–

18.4 A @ –50 VDC (PoE if used)

•

2100 W operation (with two 120 VAC nominal inputs)

–

141.6 A @ 12 VDC (data only)

12.5 A @ 3.3 VDC (data only)

–

37.0 A @ –50 VDC (PoE if used)

•

3000 W operation (with one 230 VAC nominal input)

–

183.3 A @ 12 VDC (data only)

12.5 A @ 3.3 VDC (data only)

–

48 A @ –50 VDC (PoE if used)

•

6000 W operation (with two 230 VAC nominal inputs)

–

183.3 A @ 12 VDC (data only)

12.5 A @ 3.3 VDC (data only)

–

96 A @ –50 VDC (PoE if used)

6000 W maximum Power supply output capacity

Output holdup time kVA rating

Heat dissipation

Minimum software requirement

Power over Ethernet

20 ms minimum

6.8 kVA (power factor = 0.99)

2,720 BTUs/hr (approx.)

Cisco IOS Release 12.2(52)SG

Supported, up to 4800 W

The kVA rating listed for the power supply should be used as the sizing criteria for both UPS outputs as well as standard circuits and transformers to power a switch.

Table A-30

list the 6000 W AC-input power supply LEDs and their meanings.

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A-37

Appendix A Power Supply Specifications

6000 W AC-Input Power Supply

Table A-30

LED

INPUT OK

FAN OK

OUTPUT FAIL

6000 W AC-input Power Supply LEDs

Meaning

•

Green—Source AC voltage is OK. (Input voltage is 85 VAC or greater.)

•

Off—Source AC voltage falls below 70 VAC, is not present, or the power supply is turned off.

•

Green—Power supply fan is operating properly.

•

Off—Power supply fan failure is detected.

Red—Problem with one or more of the DC-output voltages of the power supply is detected.

•

Note

Off—DC-output voltage with acceptable margins.

Note

The 6000 W AC-input power supply should not be used in mixed-voltage configurations. All the inputs in a chassis must be at the same voltage (110 VAC or 220 VAC).

Table A-31 shows the wattage output possible from a 6000 W AC-input power supply in redundant

mode. In redundant mode, two power supplies must have identical inputs and all inputs must be at the same voltage. If the input voltages are mismatched, choose the value matching the weaker of the two power supplies.

Table A-31 Redundant Mode Output

110 VAC to a single input on both supplies

110 VAC to both inputs on both supplies

12 VDC

850 W

1700 W

220 VAC input to one input on both supplies 2200 W

220 VAC to both inputs on both supplies 2200 W

3.3 VDC –50 VDC Total

40 W

922 W

1850 W

1050 W

2100 W

40 W

2400 W

4600 W

3000 W

6000 W

Table A-32 shows the maximum output wattage with two 6000 W AC-input power supplies in combined

mode.

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Appendix A Power Supply Specifications

6000 W AC-Input Power Supply

Table A-32 Combined Mode Output

W @ 12 VDC

Both PS with one input at 110 VAC 1400 W

One 110 VAC input to one PS, two

110 VAC inputs to the other PS

Both PS with two 110 VAC inputs

2360 W

3090 W

4000 W Both PS with one 220 VAC input

Two 220 VAC inputs to one PS, one

220 VAC input to the other PS

Both PS with two 220 VAC inputs

4000 W

W @3.3

VDC

40 W

W @ –50

VDC

1670 W

2560 W

3360 W

4360 W

6600 W

8700 W

Maximum (W)

1710 W

2800 W

3700 W

5400 W

6200 W

10900 W

6000 W Power Supply AC Power Cords

Table A-33

lists the specifications for the AC power cords that are available for the 6000 W AC-input power supply. The table includes references to power cord illustrations.

Note

All 6000 W AC-input power supply power cords have an IEC60320/C19 appliance plug at one end.

Table A-33

Locale

Japan, North

America

120 VAC operation

6000 W AC-Input Power Supply Power Cords

Power Cord Part

Number

CAB-US515P-C19-US

Length

9.8 ft

(2.98 m)

Cordset Rating

AC Source Plug

Type

15 A, 125 VAC NEMA 5-15P

Japan, North

America

(nonlocking)

200–240 VAC operation

CAB-US620P-C19-US 13.2 ft

(4.02 m)

20 A, 250 VAC NEMA 6-20 non-locking

Europe CAB-AC-2800W-EU=

CAB-CEE77-C19-EU=

13.2 ft

(4.0 m)

16 A, 250 VAC CEE 7/7

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Appendix A Power Supply Specifications

6000 W AC-Input Power Supply

Table A-33

Locale

6000 W AC-Input Power Supply Power Cords (continued)

Power Cord Part

Number

International CAB-AC-2800W-INT=

CAB-I309-C19-INT=

Length

13.6 ft

(4.1 m)

Cordset Rating

AC Source Plug

Type

20 A, 250 VAC IEC 309

Japan, North

America

(locking)

200–240 VAC operation

Australia

CAB-AC-2800W-TWLK=

CAB-L620P-C19-US=

CAB-AC-16A-AUS

CAB-A3112-C19-AUS=

13.6 ft

(4.1 m)

14 ft (4.3 m)

16 A, 250 VAC

NEMA L6-20

AU20S3

Argentina CAB-IR2073-C19-AR= 14 ft (4.3 m) 16 A, 250 VAC IRAM 2073

China

200–240 VAC operation

CAB-9K16A-CH

Switzerland CAB-ACS-16

14 ft (4.3 m) 16 A, 250 VAC GB16C

8 ft (2.9 m) 16 A, 250 VAC G23

India CAB-SABS-C19-IND 14 16 A, 250 VAC SABS 164-1

United

Kingdom

CAB-AC-2800W-INT

CAB-I309-C19-INT

14 ft (4.3 m) 16 A, 250 VAC IEC 309

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Appendix A Power Supply Specifications

6000 W AC-Input Power Supply

Table A-33

Locale

Italy

6000 W AC-Input Power Supply Power Cords (continued)

Power Cord Part

Number

CAB-C2316-C19-IT=

Length Cordset Rating

AC Source Plug

Type

14 ft (4.3 m) 16 A, 250 VAC CEI 23-16

Israel CAB-S132-C19-ISRL= 14 ft (4.3 m) 16 A, 250 VAC SI 16S3

Brazil CAB-EL224-C19-BR= 8 ft (2.9 m) 16 A, 250 VAC NBR 14136

UPS 220V CAB-C19-CBN 9 ft (2.74 m) 20 A, 250 VAC IEC-60320-C20

Remote Power Cycling Feature

The 6000 W AC-input power supply is equipped with a remote power cycling feature that allows you to remotely turn on or turn off the power supply through an external relay controller box.

Figure A-9

shows a typical remote power on/off setup. A three-position terminal block, located on the lower right quadrant of the power supply faceplate, provides the interface to the external relay controller box. (See

Figure A-9

Figure A-9 Remote Power On/Off Feature Components

6000 Watt power supply

Relay controller

Remote power on/off terminal block

Relay controller power

Network

Ferrite bead

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Appendix A Power Supply Specifications

6000 W AC-Input Power Supply

Terminal Block

The terminal block has four contacts labeled +V, IN, GND, and FB. Two control wires from an external relay controller box attach to either +V and IN or IN and GND. +V and IN are used when the relay controller box contains a normally-open (NO) type of relay. IN and GND are used when using an RS-232 interface.

Ferrite Bead

A plastic bag containing one ferrite bead and two 4-inch plastic ties is included with the 6000 W power supply AC power cords. The ferrite bead is a passive device that limits high-frequency interference on interface and control cables and is only required when you install the remote power-cycling feature that is supported by the 6000 W power supply. The ferrite bead is installed on the two control wires that come from the relay controller box to the terminal block on the 6000 W power supply. The ferrite bead should be installed as close as possible to the power supply terminal block for the bead to be effective. You do not need the ferrite bead for 6000 W power supply installations that do not include the remote power-cycling feature.

Remote Power-Cycling Operation

This feature allows you to remotely power cycle the Catalyst 4500 E-series switch using any appropriate third-party relay controller. This feature eliminates the need for you to have access to the supervisor engine console or CLI to control power cycling.

Table A-34

lists the relay controller box relay type, the corresponding power supply terminal block positions, and a description of the power-cycling operation.

Table A-34 6000 W Power Supply Relay Controller Switch Settings and Operation

External Relay

Controller Box Relay

Type

Normally open

(NO) relay.

RS232 driver.

No relay attached.

Remote power-cycling feature not installed.

Power Supply Terminal Block Positions Used Remote Power-Cycling Operation

The +V pin is internally pulled up to 12 VDC with a 10 K ohms pull up resistor, and pin IN is connected to the input pin (either pin 1, 4, 10, or

13) of the line receiver.

Pin IN is connected to the input pin (either pin

1, 4, 10, or 13) of the line receiver, and pin GND is connected to ground. A capacitor of 1 uF should be used between the line receiver input and the ground to bypass noise peaks.

—

•

Power supply cycled from on to off. The power supply is powered off by energizing the relay (relay contacts go from open to closed) for more than 5 seconds.

Power supply cycled from off to on. The power supply is powered on by reenergizing the relay (relay contacts go from closed to open) after a 10 second delay.

Power supply cycles from on to off. The power supply is powered off by RS-232 logic HI for more than 5 seconds.

Power supply cycles from off to on— The power supply is powered on by RS-232 logic LO after a 10 second delay.

—

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Appendix A Power Supply Specifications

9000 W AC-Input Power Supply

9000 W AC-Input Power Supply

•

The 9000 W AC-input power supply (PWR-C45-9000ACV), shown in

Figure A-10 , is supported by the

following Catalyst 4500 E-series switch chassis:

•

Catalyst 4503-E

Catalyst 4506-E

Catalyst 4507R-E

Catalyst 4510R-E

Catalyst 4507R+E

•

Catalyst 4510R+E

Figure A-10 9000 W AC_Input Power Supply Features

Power supply status LEDs

AC in connectors (IE60320/C20) (3 inputs)

Remote power cycling feature terminal block 6 AC power switches (3 switches)

Handle

Captive installation screws (2X)

Power cord connector retention clips

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Appendix A Power Supply Specifications

9000 W AC-Input Power Supply

9000 W Power Supply Specifications

Table A-35 lists the specifications for the 9000 W AC-input power supply.

Table A-35 9000 W AC-Input Power Supply Specifications

Item

AC-input type

AC-input voltage

AC-input current

AC-input frequency

DC output voltages

Specification

Autoranging inputs with power factor correction (PFC)

Note

PFC is a standard feature on all Catalyst 4500 E-series AC-input power supplies. PFC reduces the reactive component in the source AC current allowing higher power factors (typically 99 percent or better) and lower harmonic current components.

•

Low-line (120 VAC nominal)—85 VAC (min) to 132 VAC (max)

•

Note

High-line (230 VAC nominal)—170 VAC (min) to 264 VAC (max)

Mixed voltage input mode operation is supported. However, with mixed voltage inputs, output power defaults to the triple

120 VAC output limits.

•

12 A (max) @ 120 VAC (for each input)

•

16 A (max) @ 230 VAC (for each input)

50/60 Hz (nominal) (±3% for full range)

•

12 VDC (11.8 VDC (min) to 12.2 VDC (max))

•

3.3 VDC (3.2 VDC (min) to 3.4 VDC (max))

-50 VDC (-48 VDC (min) to -52 VDC (max))

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Appendix A Power Supply Specifications

9000 W AC-Input Power Supply

Table A-35 9000 W AC-Input Power Supply Specifications (continued)

Item

Power supply output

Specification

Total output power depends on the number of inputs connected and the available source AC voltage. If more than one input is used, all inputs be the same AC voltage (either high-line or low-line).

Note

Mixed voltage input mode operation is supported.

•

1100 W operation (with one 120 VAC nominal input)

–

80 A @ 12 VDC (data only)

12.5 A @ 3.3 VDC (data only)

–

20 A @ –50 VDC (PoE if used)

2200 W operation (with two 120 VAC nominal inputs)

–

121.7 A @ 12 VDC (data only)

12.5 A @ 3.3 VDC (data only)

–

40 A @ –50 VDC (PoE if used)

3300 W operation (with three 120 VAC nominal inputs)

–

121.7 A @ 12 VDC (data only)

12.5 A @ 3.3 VDC (data only)

–

50 A @ –50 VDC (PoE if used)

3000 W operation (with one 230 VAC nominal input)

–

121.7 A @ 12 VDC (data only)

12.5 A @ 3.3 VDC (data only)

–

50 A @ –50 VDC (PoE if used)

6000 W operation (with two 230 VAC nominal inputs)

–

166.7 A @ 12 VDC (data only)

12.5 A @ 3.3 VDC (data only)

–

100 A @ –50 VDC (PoE if used)

9000 W operation (with three 230 VAC nominal inputs)

–

166.7 A @ 12 VDC (data only)

12.5 A @ 3.3 VDC (data only)

–

150 A @ –50 VDC (PoE if used)

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Appendix A Power Supply Specifications

9000 W AC-Input Power Supply

Table A-35 9000 W AC-Input Power Supply Specifications (continued)

Item

Power supply output capacity

Output holdup time kVA rating

Heat dissipation

Minimum software requirement

Power over Ethernet

Specification

9000 W maximum

20 ms minimum

9680 kVA (power factor = 0.99)

3010 BTUs/hr (max.)

Cisco IOS Release IOS-XE 3.4.0SG/15.1(2)SG

Supported, up to 7500 W

The kVA rating listed for the power supply should be used as the sizing criteria for both UPS outputs as well as standard circuits and transformers to power a switch.

Table A-36 list the 9000 W AC-input power supply LEDs and their meanings.

Table A-36 9000 W AC-input Power Supply LEDs

LED

INPUT 1 OK

INPUT 2 OK

INPUT 3 OK

FAN OK

OUTPUT FAIL

Meaning

•

Green—Source AC voltage is OK. (Input voltage is 85 VAC or greater.)

•

Note

Off—Source AC voltage falls below 70 VAC, source AC is not present, or the power supply is turned off.

For an AC input voltage that is between 70 VAC and 85 VAC, the

INPUT OK LED condition is indeterminate; it can be either green, off, or flashing green.

•

Green—Power supply fan is operating properly.

•

Off—Power supply fan failure is detected.

Red—Problem with one or more of the DC-output voltages of the power supply is detected.

•

Note

Off—DC-output voltage with acceptable margins.

System software detects how many of the source AC input lines on the power supply are powered and at what voltage (low-line or high-line) they are operating at. In addition, the 12 VDC and the -50 VDC output lines are monitored allowing total output power to be determined.

In redundant mode, the switch uses one power supply as the primary supply and the second power supply as a backup. If the primary power supply fails, the second power supply immediately supports the switch without disruption to the switch operation.

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Appendix A Power Supply Specifications

9000 W AC-Input Power Supply

Table A-37

Power Supply 1

Table A-37

shows the wattage output possible from a 9000 W AC-input power supply operating in redundant mode.

Redundant Mode Operation (9000 W AC-input Power Supply)

Watts @

3.3 VDC

Watts @

12 VDC (Data)

Watts @

-50 VDC

(PoE)

Total Power

(W)

Input 1

110 VAC

220 VAC

Input 2

—

110 VAC

—

220 VAC

Input 3

—

110 VAC

—

220 VAC

960

1460

1960

1000

2000

2500

5000

7500

1100 (max)

2200 (max)

3300 (max)

3000 (max)

6000 (max)

9000 (max)

Note

In redundant mode, the two power supplies must have identical inputs and all inputs must be at the same voltage. If either of the two power supplies is unpowered, there is no redundancy.

Table A-38

In combined mode, each of the two power supplies provides approximately 83% of its capacity to the switch. This allows for greater utilization of the power supplies with increased PoE densities. In the event of a power supply failure, the system powers down all devices except the supervisor. During this time, there will be a temporary network outage while power is restored to the system.

Table A-38 lists

the power supply input voltage combinations, the power share ratio between the two supplies and the power available to the chassis.

Power Supplies Combined Mode Ratios and Capacities

Watts @

12 VDC (Data)

Watts @

-50 VDC

(PoE)

PS1 Input

Voltage

1/2/3

PS2 Input

Voltage

1/2/3

12 VDC

Share Ratio

110/110/110 110/110/110 45/55

110/110/— 110/110/— 45/55

110/—/— 110/—/— 40/60

110/110/110 110/110/— 40/60

110/110/110 110/—/— 40/60

110/110/— 110/—/— 40/60

220/220/220 220/220/220 48/52

220/220/— 220/220/— 45/55

220/—/— 220/—/— 45/55

220/220/220 220/220/— 45/55

220/220/220 220/—/— 40/60

220/220/— 220/—/— 45/55

-50 VDC

Share Ratio

40/60

30/70

40/60

30/70

48/52

40/60

45/55

40/60

Watts @

3.3 VDC

2628

1594

2019

1616

1818

3762

2628

2940

2168

2646

4150

3320

1420

3457

2364

1650

14400

8300

4150

11250

8300

6225

Total

Power

(Watts)

5423

3606

1789

4509

3596

2694

17206

10137

4930

13429

9893

7412

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Appendix A Power Supply Specifications

9000 W AC-Input Power Supply

Table A-38 Power Supplies Combined Mode Ratios and Capacities (continued)

PS1 Input

Voltage

1/2/3

PS2 Input

Voltage

1/2/3

12 VDC

Share Ratio

110/110/110 220/220/220 45/55

110/110/— 220/220/— 45/55

110/—/— 220/—/— 40/60

-50 VDC

Share Ratio

40/60

30/70

Watts @

3.3 VDC

Watts @

12 VDC (Data)

Watts @

-50 VDC

(PoE)

2628

1594

4150

3320

1420

Total

Power

(Watts)

5423

3606

1789

9000 W Power Supply AC Power Cords

Table A-39 lists the specifications for the AC power cords that are available for the 9000 W AC-input

power supply. The table includes references to power cord illustrations.

Note

All 9000 W AC-input power supply power cords have an IEC60320/C19 appliance plug at one end.

Table A-39

Locale

Japan, North

America

120 VAC operation

9000 W AC-Input Power Supply Power Cords

Power Cord Part

Number

CAB-US515P-C19-US

Length

9.8 ft

(2.98 m)

Cordset Rating

AC Source Plug

Type

15 A, 125 VAC NEMA 5-15P

Japan, North

America

(nonlocking)

200–240 VAC operation

CAB-US620P-C19-US

Europe CAB-AC-2800W-EU=

CAB-CEE77-C19-EU=

13.2 ft

(4.02 m)

13.2 ft

(4.0 m)

20 A, 250 VAC NEMA 6-20 non-locking

16 A, 250 VAC CEE 7/7

International CAB-AC-2800W-INT=

CAB-I309-C19-INT=

13.6 ft

(4.1 m)

20 A, 250 VAC IEC 309

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Appendix A Power Supply Specifications

9000 W AC-Input Power Supply

Table A-39 9000 W AC-Input Power Supply Power Cords (continued)

Locale

Japan, North

America

(locking)

200–240 VAC operation

Australia

Power Cord Part

Number

CAB-AC-2800W-TWLK=

CAB-L620P-C19-US=

Length

13.6 ft

(4.1 m)

CAB-AC-16A-AUS

CAB-A3112-C19-AUS=

14 ft (4.3 m)

Cordset Rating

AC Source Plug

Type

16 A, 250 VAC NEMA L6-20

16 A, 250 VAC AU20S3

Argentina CAB-IR2073-C19-AR= 14 ft (4.3 m) 16 A, 250 VAC IRAM 2073

China

200–240 VAC operation

CAB-9K16A-CH

Switzerland CAB-ACS-16

14 ft (4.3 m) 16 A, 250 VAC GB16C

8 ft (2.9 m) 16 A, 250 VAC G23

India CAB-SABS-C19-IND 14 16 A, 250 VAC SABS 164-1

United

Kingdom

CAB-AC-2800W-INT

CAB-I309-C19-INT

14 ft (4.3 m) 16A, 250 VAC IEC 309

Italy CAB-C2316-C19-IT= 14 ft (4.3 m) 16 A, 250 VAC CEI 23-16

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Appendix A Power Supply Specifications

9000 W AC-Input Power Supply

Table A-39

Locale

Israel

9000 W AC-Input Power Supply Power Cords (continued)

Power Cord Part

Number

CAB-S132-C19-ISRL=

Length Cordset Rating

AC Source Plug

Type

14 ft (4.3 m) 16 A, 250 VAC SI 16S3

Brazil CAB-EL224-C19-BR= 8 ft (2.9 m) 16 A, 250 VAC NBR 14136

UPS 220V CAB-C19-CBN 9 ft (2.74 m) 20 A, 250 VAC IEC-60320-C20

Remote Power Cycling Feature

The 9000 W AC-input power supply is equipped with a remote power cycling feature that allows you to remotely turn on or turn off the power supply through an external relay controller box.

Figure A-11

Figure A-11 Remote Power On/Off Feature Components (9000 W Power Supply)

9000 Watt power supply

Remote power on/off terminal block

Relay controller

Relay controller power

Network

Ferrite bead

Terminal Block

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Appendix A Power Supply Specifications

9000 W AC-Input Power Supply

Ferrite Bead

A plastic bag containing one ferrite bead and two 4-inch plastic ties is included with the 9000 W power supply AC power cords. The ferrite bead is a passive device that limits high-frequency interference on interface and control cables and is only required when you install the remote power-cycling feature that is supported by the 9000 W power supply. The ferrite bead is installed on the two control wires that come from the relay controller box to the terminal block on the 9000 W power supply. The ferrite bead should be installed as close as possible to the power supply terminal block for the bead to be effective. You do not need the ferrite bead for 9000 W power supply installations that do not include the remote power-cycling feature.

Remote Power-Cycling Operation

Table A-34 lists the relay controller box relay type, the

corresponding power supply terminal block positions, and a description of the power-cycling operation.

9000 W Power Supply Relay Controller Switch Settings and Operation Table A-40

External Relay

Controller Box Relay

Type

Normally open

(NO) relay.

RS232 driver.

No relay attached.

Remote power-cycling feature not installed.

Power Supply Terminal Block Positions Used Remote Power-Cycling Operation

The +V pin is internally pulled up to 12 VDC with a 10 K ohms pull up resistor, and pin IN is connected to the input pin (either pin 1, 4, 10, or

13) of the line receiver.

Pin IN is connected to the input pin (either pin

1, 4, 10, or 13) of the line receiver, and pin GND is connected to ground. A capacitor of 1 uF should be used between the line receiver input and the ground to bypass noise peaks.

—

•

Power supply cycled from on to off. The power supply is powered off by energizing the relay (relay contacts go from open to closed) for more than 5 seconds.

Power supply cycled from off to on. The power supply is powered on by reenergizing the relay (relay contacts go from closed to open) after a 10 second delay.

Power supply cycles from on to off. The power supply is powered off by RS-232 logic HI for more than 5 seconds.

Power supply cycles from off to on— The power supply is powered on by RS-232 logic LO after a 10 second delay.

—

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Appendix A Power Supply Specifications

Environmental Monitoring Feature

Environmental Monitoring Feature

With the environmental monitoring and reporting feature, you can keep your system running by resolving adverse environmental conditions before a loss of operation.

The power supply monitors its own internal temperature and voltages. In the event of excessive internal temperature, the power supply shuts down to prevent damage. When the power supply returns to a safe operating temperature, it restarts. If the power supply output voltage is not within the specified range, the LED labeled OUTPUT FAIL will light. An instance of substantial output overvoltage can shut down the power supply.

An instance of substantial input overvoltage (greater than –75 VDC continuous) can damage the power supply input circuitry and can cause it to shut down permanently.

For a 1400 W DC power supply, the main power switch has an input range of –40.5 to –72 VDC, while the –48 V PoE operates over a range of –40.5 to –56 VDC. The PoE either fails to start or shuts down if exposed to greater than –56 VDC input. PoE recovers after you recycle input power within the proper voltage range. If the PoE shuts down due to input overvoltage (greater than –56 VDC), the main converter section does not shut down.

The supervisor engine monitors the status of each power supply and provides a status report through the switch software. For more details on how the supervisor engine monitors the power supplies, see the

“Environmental Monitoring and Power Management” chapter of the Catalyst 4500 Series Switch Cisco

IOS Software Configuration Guide.

Power Redundancy

All Catalyst 4500 E-switches offer 1+1 power redundancy, so that in the event of a power interruption the switch can still operate using power from another circuit. The power supplies can also run in a combined mode so that chassis can have power from both supplies at once. Use the power

redundancy-mode command to configure combined mode. Redundant mode is the default.

Catalyst 4500 E-switches support power supply redundancy only between power supplies of equal wattage and type. A mix of power supplies is not supported. The second power supply recognized is placed into errdisable mode.

A more detailed discussion of power redundancy is in the “Environmental Monitoring and Power

Management” chapter of the software configuration guide. Refer to the appropriate guide for your software release.

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A P P E N D I X

Repacking a Switch

This appendix describes how to return your Catalyst 4500 E-series switch to the factory and how to repack your switch in preparation for shipping.

Table B-1 lists the packaging dimensions and weights

for the Catalyst 4500 E-series chassis.

Chassis Packaging Dimensions and Weights Table B-1

Chassis

Catalyst 4503-E

Catalyst 4506-E

Catalyst 4507R-E

Catalyst 4510R-E

Catalyst 4507R+E

Catalyst 4510R+E

Packaging Dimensions (L x W x D) Weight

(Approximate)

23.25 x 21.00 x 19.75 in. (59.05 x 21.25 x 50.16 cm) 75 lb (34.02 kg)

26.50 x 23.50 x 19.75 in. (67.31 x 59.69 x 50.16 cm) 110 lb (49.89 kg)

28.25 x 23.50 x 19.75 in. (71.76 x 59.69 x 50.16 cm) 108 lb (48.99 kg)

33.00 x 24.38 x 24.25 in. (83.82 x 61.92 x 61.60 cm) 161 lb (73.03 kg)

28.25 x 23.50 x 19.75 in. (71.76 x 59.69 x 50.16 cm) 108 lb (48.99 kg)

33.00 x 24.38 x 24.25 in. (83.82 x 61.92 x 61.60 cm) 161 lb (73.03 kg)

Tip

To repack the switch using the original packaging material, follow these steps:

Step 1

Step 2

Step 3

Step 4

Slide the pieces of the packing foam over the Catalyst 4500 E-series switch. (See

Figure B-1 .)

Place the accessory kit in the box or poly bag provided.

Place the switch (with packing foam pieces) into the packing carton.

Fold in the top flaps of the packing carton and seal with packing tape.

Catalyst 4500 E-Series Switches Installation Guide

B-1

Figure B-1

Documentation and accessories

Catalyst 4500 E-Series Switch Packing Material

Packing foam

Appendix B Repacking a Switch

Packing carton

Packing foam

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A P P E N D I X

Initial Configuration for the Switch

Revised: October 25, 2011

•

This appendix provides an initial setup procedure for a switch and contains the following topics:

•

Connecting to the Switch, page C-2

Starting the Terminal-Emulation Software, page C-2

Connecting to a Power Source, page C-2

Entering the Initial Configuration Information, page C-3

Tip

Note

You need to provide the Category 5 straight-through cables to connect the switch ports to other

Ethernet devices.

Note

If you move a supervisor engine from a Catalyst 4500 series chassis to a Catalyst 4503-E chassis or

Catalyst 4506-E chassis, it must use Cisco IOS Release 12.2(37)SG or later releases. See the release note for software upgrade procedures if needed: http://www.cisco.com/en/US/docs/switches/lan/catalyst4500/release/note/OL_5184.html#wp305142

Catalyst 4500 E-Series Switches Installation Guide

C-1

Appendix C Initial Configuration for the Switch

Connecting to the Switch

Connecting to the Switch

You must use the console port to perform the initial configuration. To connect the switch console port to a PC, use an RJ-45-to-DB-9 adapter cable.

To connect the PC or terminal to the switch, follow these steps:

Step 1

Step 2

Using an RJ-45-to-DB-9 adapter cable, insert the RJ-45 connector into the console port that is located on the front of the supervisor engine.

Attach the DB-9 female DTE of the adapter cable to a PC serial port, or attach an appropriate adapter to the terminal.

Starting the Terminal-Emulation Software

Before you power on the switch, start the terminal-emulation session so that you can see the output display from the power-on self-test (POST).

The terminal-emulation software—frequently a PC application such as Hyperterminal or

ProcommPlus—makes communication between the switch and your PC or terminal possible.

To start the terminal emulation software, follow these steps:

Step 1

Step 2

Step 3

Start the terminal-emulation program if you are using a PC or terminal.

Start a terminal-emulation session.

•

Configure the baud rate and character format of the PC or terminal to match these console port default characteristics:

•

9600 baud

8 data bits

1 stop bit

No parity

None (flow control)

Connecting to a Power Source

To connect to a power source, follow these steps:

Step 1

Step 2

If you are using an AC-input power supply, connect one end of the supplied AC power cord to the power connector on the switch, and then connect the other end of the power cable to a grounded AC outlet.

If you are using a DC-input power supply, see the instructions on how to install the DC power supply in

Chapter 3, “Installing the Switch.”

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Appendix C Initial Configuration for the Switch

Entering the Initial Configuration Information

As the switch powers on, it begins the POST, which is a series of tests that runs automatically to ensure that the switch functions properly.

The POST lasts approximately 1 minute. After the POST is complete, the system and status LEDs remain green.

If the switch fails POST, the system LED turns amber.

Note

POST failures are usually fatal. Call Cisco TAC if your switch does not pass the POST.

If you started the terminal-emulation program before you powered on your switch, the PC or terminal displays the bootloader sequence. You need to press Enter to display the setup program prompt.

Entering the Initial Configuration Information

To set up the switch, you need to assign an IP address and other configuration information necessary for the switch to communicate with the local routers and the Internet. The minimal configuration provided here does not cover most of the features; it simply allows you to perform other configuration tasks using a Telnet connection from your management network. To configure other features and interfaces, see the

Software Configuration Guide for your release.

IP Settings

•

You will need this information from your network administrator:

•

Switch IP address

•

Subnet mask (IP netmask)

Default gateway (router)

Enable secret password

Enable password

•

Telnet password

Performing the Initial Configuration

To complete the initial configuration for the switch, follow these steps:

Step 1

Step 2

Step 3

At the terminal prompt, enter the enable command to enter privileged exec mode.

Switch> enable

Password: password

Switch#

Set the system time using the clock set command in privileged EXEC mode.

Switch# clock set 20:09:01 3 Apr 2006

Verify the change by entering the show clock command.

Switch# show clock

20:09:06.079 UTC Thu Apr 3 2006

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Entering the Initial Configuration Information

Step 4

Step 5

Step 6

Enter the configure terminal command to enter global configuration mode.

Switch# configure terminal

Enter configuration commands, one per line. End with CNTL/Z.

Switch (config)#

Configure the system prompt and hostname for the switch, and press Return. To remove the new prompt and return the prompt to its default, use the no hostname command.

Switch (config)# hostname Switch1

Use the banner motd global configuration command to set location information in the login banner. You can also set a system contact using this command.

Switch1(config)# banner motd c 170 West Tasman Drive, San Jose, CA c or

Switch1 (config)# banner motd c 170 West Tasman Drive, San Jose, CA; Tech Support 408 123

4567 c

Step 7

Configure an enable secret password, and press Return.

The password can be from 1 to 25 alphanumeric characters, can start with a number, is case sensitive, allows spaces, but ignores leading spaces. The secret password is encrypted and the enable password is in plain text.

Switch1 (config)# enable secret SecretPassword

Step 8

Configure an enable password, and press Return.

Switch1 (config)# enable password EnablePassword

Step 9

Configure a virtual terminal (Telnet) password, and press Return.

The password can be from 1 to 25 alphanumeric characters, is case sensitive, allows spaces, but ignores leading spaces.

Switch1 (config)# password terminal-password

Switch1 (config)# line vty 0 15

Step 10

Configure the interface that connects to the management network. (The IP address and subnet mask shown are for example only. Use an address appropriate for your network.)

Switch1 (config)# ip routing

Switch1 (config)# interface gigabitethernet 3/24

Switch1 (config-if)# no switchport

Switch1 (config-if)# no shutdown

Switch1 (config-if)# ip address 10.4.120.106 255.0.0.0

Switch1 (config-if)# exit

Step 11

Exit from global configuration mode:

Switch (config)# exit

Switch #

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Appendix C Initial Configuration for the Switch

Entering the Initial Configuration Information

Step 12

View the configuration that you have just created and confirm that it is what you want.

Switch1# show run

hostname Switch1

banner motd ^C

170 West Tasman Drive, San Jose, CA ^C

!--- Output suppressed.

Step 13

Configure a default route.

Switch1(config)#ip route 0.0.0.0 0.0.0.0 172.16.1.1

Step 14

Verify the IP information by using the show ip interface brief and show ip route commands.

Switch1# show ip interface brief

Interface IP-Address OK? Method Status Protocol

Vlan1 10.4.220.206

YES manual up up

FastEthernet1 unassigned YES unset up up

!--- Output suppressed.

Switch1# show ip route

Codes: C - connected, S - static, I - IGRP, R - RIP, M - mobile, B - BGP

D - EIGRP, EX - EIGRP external, O - OSPF, IA - OSPF inter area

N1 - OSPF NSSA external type 1, N2 - OSPF NSSA external type 2

E1 - OSPF external type 1, E2 - OSPF external type 2, E - EGP

i - IS-IS, L1 - ISIS level-1, L2 - ISIS level-2, ia - ISIS inter area

* - candidate default, U - per-user static route, o - ODR

P - periodic downloaded static route

Gateway of last resort is 172.16.1.1 to network 0.0.0.0

172.16.0.0/24 is subnetted, 1 subnets

C 172.16.1.0 is directly connected, Vlan1

S* 0.0.0.0/0 [1/0] via 172.16.1.1

Switch1#

Step 15

Save the running configuration:

Switch1# copy system:running-config nvram:startup-config

You have now completed the initial configuration of the switch, so you can now configure other interfaces and features over a network connection without having to directly connect to the console port of the supervisor engine.

To use the CLI to perform additional configuration or management tasks, enter commands at the Switch> prompt through the console port by using a terminal program or through the network by using Telnet.

For configuration information, see the switch software configuration guide or the switch command reference.

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Entering the Initial Configuration Information

Appendix C Initial Configuration for the Switch

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Numerics

10/100BASE-T port LEDs

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