Cisco Systems Mds 9200 Series Installation Manual

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Cisco MDS 9200 Series Hardware Installation Guide

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Cisco MDS 9200 Series Hardware

Installation Guide

October 2008

Text Part Number: OL-17468-02

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Cisco MDS 9200 Series Hardware Installation Guide

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Cisco MDS 9200 Series Hardware Installation Guide

OL-17468-02

CONTENTS

New and Changed Information vii

Preface xi

Audience xi

Organization xi

Conventions xii

Related Documentation

The documentation set for the Cisco MDS 9000 Family includes the following documents. The

documentation set for the Cisco MDS 9000 Family includes the following documents. To find a

document online, use the Cisco MDS NX-OS Documentation Locator at:

http://www.cisco.com/en/US/products/ps5989/products_documentation_roadmap09186a00804500c1.html.

Release Notes

•Cisco MDS 9000 Family Release Notes for Cisco MDS NX-OS Releases

•Cisco MDS 9000 Family Release Notes for Storage Services Interface Images

•Cisco MDS 9000 Family Release Notes for Cisco MDS 9000 EPLD Images

Compatibility Information

•Cisco MDS 9000 NX-OS Hardware and Software Compatibility Information

•Cisco MDS 9000 Family Interoperability Support Matrix

•Cisco MDS Storage Services Module Interoperability Support Matrix

•Cisco MDS NX-OS Release Compatibility Matrix for Storage Service Interface Images

Regulatory Compliance and Safety Information

•Regulatory Compliance and Safety Information for the Cisco MDS 9000 Family

Hardware Installation

•Cisco MDS 9124 Multilayer Fabric Switch Quick Start Guide

•Cisco MDS 9500 Series Hardware Installation Guide

•Cisco MDS 9200 Series Hardware Installation Guide

•Cisco MDS 9100 Series Hardware Installation Guide

Cisco Fabric Manager

•Cisco MDS 9000 Family Fabric Manager Quick Configuration Guide

•Cisco MDS 9000 Family Fabric Manager Configuration Guide

•Cisco MDS 9000 Family Fabric Manager Database Schema

•Cisco MDS 9000 Family Data Mobility Manager Configuration Guide

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Preface

Command-Line Interface

•Cisco MDS 9000 Family Software Upgrade and Downgrade Guide

•Cisco MDS 9000 Family Storage Services Module Software Installation and Upgrade Guide

•Cisco MDS 9000 Family CLI Quick Configuration Guide

•Cisco MDS 9000 Family CLI Configuration Guide

•Cisco MDS 9000 Family Command Reference

Intelligent Storage Networking Services Configuration Guides

•Cisco MDS 9000 Family Data Mobility Manager Configuration Guide

•Cisco MDS 9000 Family Storage Media Encryption Configuration Guide

•Cisco MDS 9000 Family Secure Erase Configuration Guide - For Cisco MDS 9500 and 9200 Series

Troubleshooting and Reference

•Cisco MDS 9000 Family Troubleshooting Guide

•Cisco MDS 9000 Family MIB Quick Reference

•Cisco MDS 9000 Family SMI-S Programming Reference

•Cisco MDS 9000 Family System Messages Reference

Installation and Configuration Note

•Cisco MDS 9000 Family SSM Configuration Note

•Cisco MDS 9000 Family Port Analyzer Adapter Installation and Configuration Note

•Cisco 10-Gigabit X2 Transceiver Module Installation Note

•Cisco MDS 9000 Family CWDM SFP Installation Note

•Cisco MDS 9000 Family CWDM Passive Optical System Installation Note

Obtaining Documentation, Obtaining Support, and Security

Guidelines

For information on obtaining documentation, submitting a service request, and gathering additional

information, see the monthly What’s New in Cisco Product Documentation, which also lists all new and

revised Cisco technical documentation, at:

http://www.cisco.com/en/US/docs/general/whatsnew/whatsnew.html

Subscribe to the What’s New in Cisco Product Documentation as a Really Simple Syndication (RSS) feed

and set content to be delivered directly to your desktop using a reader application. The RSS feeds are a free

service and Cisco currently supports RSS version 2.0.

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Preface

CHAPTER

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Product Overview

The Cisco MDS 9200 Series of multilayer modular fabric switches supports storage area network (SAN)

applications. The Cisco MDS 9200 Series switches provide scalability, multitransport capability,

security, and manageability to enterprise SANs. The Cisco MDS 9200 Series shares a consistent

architecture with the Cisco MDS 9500 Series of multilayer directors, making it an intelligent and

flexible fabric switch series. The Cisco MDS 9200 Series includes the Cisco MDS 9222i Multiservice

Modular Switch, the Cisco MDS 9216i Multilayer Fabric Switch, and the Cisco MDS 9216A Multilayer

Fabric Switch.

The Cisco MDS 9200 Series provides the following features:

•An interface module providing local and remote management interfaces for the supervisor module.

•A spare slot for an optional hot-swappable switching or services module.

•Redundant and hot-swappable power supplies and fan modules.

•Power and cooling management and environmental monitoring.

•Switch module port interfaces that support field-replaceable, hot-swappable X2 transceivers.

•Switch module port interfaces that support field-replaceable, hot-swappable small form-factor

pluggable (SFP) and Enhanced small form-factor pluggable (SFP+) transceivers.

•Nondisruptive code load and activation.

•Redundant and self-monitoring system clocks.

The Cisco MDS 9222i Multiservice Modular Switch provides an 18-port Fibre Channel switching and

4-port Gigabit Ethernet IP services module, and a modular expansion slot to host Cisco MDS 9000

Family Switching and Services modules.

The Cisco 9216i Switch includes a nonremovable supervisor module with an integrated 14-port Fibre

Channel and 2-port Gigabit Ethernet switching module. The integrated supervisor module supports IP

services on the 2 Gigabit Ethernet ports. It also provides switching and local and remote management.

The Cisco 9216A Switch includes a nonremovable supervisor module with an integrated 16-port Fibre

Channel switching module. The integrated supervisor module provides switching and local and remote

management.

The Cisco MDS 9200 Series enhances the Cisco MDS 9216 Switch with a flexible backplane that is

designed to meet the requirements of future modules in the Cisco MDS 9000 Family, while maintaining

backward compatibility with all existing modules. The Cisco MDS 9200 Series is also compatible with

all existing Cisco MDS 9216 power supplies and fan trays, and provides a COM1 port interface that is

compatible with a standard RJ-45 to DB-9 adapter.

For information on how to configure the Cisco MDS 9200 Series, see the Cisco MDS 9000 Family CLI

Configuration Guide and the Cisco MDS 9000 Family Fabric Manager Configuration Guide.

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Chapter 1 Product Overview

Chassis

Note The Cisco MDS 9200 Series requires Cisco MDS SAN-OS Release 2.x, 3.x, and NX-OS 4.1(1b). The

Cisco MDS 9222i Switch requires MDS SAN-OS Release 3.x and NX-OS 4.1(1b).

The following hot-swappable, field-replaceable modules are supported by the Cisco MDS 9200 Series:

•4/44-port 8-Gbps Host-Optimized Fibre Channel switching module (DS-X9248-48K9)

•48-port 4-Gbps Fibre Channel switching module (DS-X9148)

•24-port 4-Gbps Fibre Channel switching module (DS-X9124)

•12-port 4-Gbps Fibre Channel switching module (DS-X9112)

•4-port 10-Gbps Fibre Channel switching module (DS-X9704)

•32-port 2-Gbps Fibre Channel switching module (DS-X9032)

•16-port 2-Gbps Fibre Channel switching module (DS-X9016)

•18/4-port Multiservice (MSM-18/4) module (DS-X9304-18K9)

•18/4-port Multiservice FIPS (MSFM-18/4) module (DS-X9304-18FK9

•14/2-port Multiprotocol Services (MPS-14/2) module (DS-X9302-14K9)

•8-port IP Storage Services (IPS-8) module (DS-X9308-SMIP)

•4-port IP Storage Services (IPS-4) module (DS-X9304-SMIP)

•Storage Services Module (SSM) (DS-X9032-SSM)

•Advanced Services Module (ASM) (DS-X9032-SMV)

•Caching Services Module (CSM) (DS-X9560-SMC)

This chapter includes the following sections:

•Chassis, page 1-2

•Cisco MDS Fibre Channel Bladeswitch for IBM Blade Center, page 1-5

•Integrated Supervisor Modules, page 1-5

•Interface Modules, page 1-10

•Cisco MDS 9000 Family Module Compatibility, page 1-12

•Switching Modules, page 1-12

•Services Modules, page 1-21

•Fan Module, page 1-36

•Supported Transceivers, page 1-36

Chassis

The Cisco MDS 9200 Series switches have a two-slot chassis. The Cisco MDS 9222i (see Figure 1-1)

has a nonremovable supervisor module (in slot 1) with an integrated 18-port Fibre Channel switching

and 4-port Gigabit Ethernet IP services module, and a modular expansion slot to host Cisco MDS 9000

Family Switching and Services modules. See the “Cisco MDS 9222i Integrated Supervisor Module”

section on page 1-6.

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Chapter 1 Product Overview

Chassis

The Cisco MDS 9216i (see Figure 1-2) has a nonremovable supervisor module (in slot 1) with an

integrated 14-port Fibre Channel and 2-port Gigabit Ethernet switching module. See the “Cisco MDS

9216i Integrated Supervisor Module” section on page 1-6.

The Cisco MDS 9216A (see Figure 1-3) has a nonremovable supervisor module (in slot 1) with an

integrated 16-port Fibre Channel switching module. See the “Cisco MDS 9216A Integrated Supervisor

Module” section on page 1-7.

Figure 1-1 Cisco MDS 9222i Chassis

184704

1Fan module 3Supervisor module with integrated 18-port

Fibre Channel switching and 4-port Gigabit

Ethernet IP Storage Services module

2Switching module or the services module 4Interface module

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Chapter 1 Product Overview

Chassis

Figure 1-2 Cisco MDS 9216i Chassis

Figure 1-3 Cisco MDS 9216A Chassis

MDS 9216i

GE1

LINK

GE2

LINK

56789101112 1314

1234

116888

1Fan module 3Supervisor module with integrated 14-port

Fibre Channel and 2-port Gigabit Ethernet

switching module

2Switching module or Services module (such

as the IPS module)

4Interface module

1Fan module 3Supervisor module with integrated 16-port

Fibre Channel switching module

2Switching module or Services module (such

as the IPS module)

4Interface module

240805

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Chapter 1 Product Overview

Cisco MDS Fibre Channel Bladeswitch for IBM Blade Center

The Cisco MDS 9200 Series supports the following additional modules:

•The nonremovable interface module (located above the integrated supervisor module), provides the

console port (COM1 port) and the MGMT 10/100 Ethernet port for the integrated supervisor

module. See the “Interface Modules” section on page 1-10.

•An optional module in the open slot (slot 2).

•Two power supplies that are redundant by default and can be configured to be combined if desired.

•A hot-swappable fan module with four fans provides redundancy. See the “Fan Module” section on

page 1-36.

Cisco MDS Fibre Channel Bladeswitch for IBM Blade Center

The Cisco MDS Fibre Channel Bladeswitch for IBM BladeCenter is designed for IBM BladeCenter

environments. The Cisco MDS Fibre Channel Bladeswitch is based on the Cisco MDS 9000 Family SAN

switching technology, which integrates the Cisco MDS 9000 Family of switches and directors into a

blade-switch architecture. The advanced architecture of the Cisco MDS Fibre Channel Bladeswitch for

IBM BladeCenter, along with 4-GB technology, provides outstanding performance between

Bladeswitches and the rest of the Fibre Channel infrastructure.

The Cisco MDS Fibre Channel Bladeswitch for IBM BladeCenter provides 4-GB Fibre Channel

performance to blade-server switching. It also provides network intelligence features such as virtual

SANs (VSANs), quality of service (QoS), and N-port interface virtualization (NPIV). It also offers

nondisruptive software upgrades and on-demand port activation and is the most complete embedded

Fibre Channel switching available for the IBM BladeCenter, BladeCenter-T, and BladeCenter-H

platforms.

The Cisco MDS Fibre Channel Bladeswitch for IBM BladeCenter provides up to 20 nonblocking 1-, 2-,

and 4-GB Fibre Channel ports that are available in two configurations: 7 internal ports and 3 external

ports, or 14 internal ports and 6 external ports. Each port provides line-rate performance up to 4-GB

without any performance loss for integrated features such as VSANs, QoS, or Network Address

Translation (NAT). The Cisco MDS Fibre Channel Bladeswitch for IBM BladeCenter supports up to 16

VSANs per blade switch.

Each external port on the Cisco MDS FC Bladeswitch for IBM BladeCenter also provides line-rate

performance up to 4-GB for Inter-Switch Links (ISLs) or additional device connectivity such as storage

or host bus adapters (HBAs).

The Cisco NX-OS software provides role-based access control (RBAC) for management access of the

Cisco Fibre Channel Bladeswitch for IBM BladeCenter command-line interface (CLI) and Simple

Network Management Protocol (SNMP). For more information, see the Cisco 9000 Family Command

Reference.

Integrated Supervisor Modules

The Cisco MDS 9200 Series switches have nonremovable integrated supervisor modules in each chassis.

These modules include the following:

•Cisco MDS 9222i Integrated Supervisor Module, page 1-6

•Cisco MDS 9216i Integrated Supervisor Module, page 1-6

•Cisco MDS 9216A Integrated Supervisor Module, page 1-7

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Chapter 1 Product Overview

Integrated Supervisor Modules

Cisco MDS 9222i Integrated Supervisor Module

The nonremovable Cisco MDS 9222i integrated supervisor module provides the control and

management functions of the Cisco MDS 9222i Switch, and it includes an integrated 18-port Fibre

Channel switching and 4-port Gigabit Ethernet IP services module. The Cisco MDS 9222i integrated

supervisor module provides multiple communication and control paths to avoid a single point of failure.

Note For description of the integrated 18/4-port Multiservice and the 18/4-port Multiservice FIPS module and

their capabilities, see the “1 8/4-Port Multiservice Module” section on page 1-21 and the “18/4-Port

Multiservice Federal Information Processing Standards Module” section on page 1-22.

Figure 1-4 shows the Cisco MDS 9222i integrated supervisor module with an integrated 18-port Fibre

Channel and 4-port Gigabit Ethernet module.

Figure 1-4 Cisco MDS 9222i Supervisor Module with Integrated 18-Port Fibre Channel and 4-Port

Gigabit Ethernet Module

The Cisco MDS 9222i integrated supervisor module has a PowerPC PowerQUICC III class processor,

1 GB of DRAM, and an internal CompactFlash card that provides 1 GB of storage for software images.

Cisco MDS 9216i Integrated Supervisor Module

The nonremovable Cisco MDS 9216i integrated supervisor module provides the control and

management functions for the Cisco MDS 9216i Switch, and it includes an integrated 14-port Fibre

Channel switching and 2-port Gigabit Ethernet with IP services module. The Cisco MDS 9216i

integrated supervisor module provides multiple communication and control paths to avoid a single point

of failure.

Note For a description of the integrated 14/2-port Multiprotocol Services module and its capabilities, see the

“14/2-Port Multiprotocol Services Module” section on page 1-23.

184706

1Status LED 3Gigabit Ethernet ports

24-Gbps Fibre Channel ports 4Link LEDs

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Chapter 1 Product Overview

Integrated Supervisor Modules

Figure 1-5 shows the Cisco MDS 9216i integrated supervisor module with an integrated 14-port Fibre

Channel and 2-port Gigabit Ethernet module.

Figure 1-5 Cisco MDS 9216i Supervisor Module with Integrated 14-Port Fibre Channel and 2-Port

Gigabit Ethernet Module

The Cisco MDS 9216i integrated supervisor module has a Pentium III class processor, 1 GB of DRAM,

and an internal CompactFlash card that provides 256 MB of storage for software images.

Cisco MDS 9216A Integrated Supervisor Module

The nonremovable Cisco MDS 9216A integrated supervisor module provides the control and

management functions for the Cisco MDS 9216A Switch, and it includes an integrated 16-port switching

module. The Cisco MDS 9216A integrated supervisor module provides multiple communication and

control paths to avoid a single point of failure.

Note For a description of the integrated 16-port switching module and its capabilities, see the “16-Port 2-Gbps

Fibre Channel Switching Module” section on page 1-18.

1Status LED 4Gigabit Ethernet ports

21-Gbps/2-Gbps Fibre Channel ports 5Link LEDs

3Link LEDs (under ports, on left) and Speed

LEDs (under ports, on right)

6Asset tag

—SPEED LINK—

LINK-

—SPEEDLINK—

STATUS

1 56789

LINK— —SPEED

10 11 12 13 14234

LINK-

GIGABIT E THERNET

116889

1 6

2 4

3 5

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Chapter 1 Product Overview

Integrated Supervisor Modules

Figure 1-6 shows the Cisco MDS 9216A supervisor module with an integrated 16-port Switching

module.

Figure 1-6 Cisco MDS 9216A Supervisor Module with Integrated 16-Port Switching Module

The Cisco MDS 9216A integrated supervisor module has a Pentium III class processor, 1 GB of DRAM,

and an internal CompactFlash card that provides 256 MB of storage for software images.

1Status LED 3Link LEDs (under ports, on left) and Speed

LEDs (under ports, on right)

21-Gbps/2-Gbps Fibre Channel ports 4Asset tag

91670

1 43

LINK- -SPEED LINK- -SPEED LINK- -SPEED LINK- -SPEED

1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4

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Chapter 1 Product Overview

Integrated Supervisor Modules

LEDs on the Cisco MDS 9200 Series Integrated Supervisor Modules

Table 1-1 describes the LEDs for the Cisco MDS 9200 Series integrated supervisor modules.

Table 1-1 LEDs for the Cisco MDS 9200 Series Integrated Supervisor Modules

LED Status Description

Status Green All diagnostics pass. The module is operational (normal

initialization sequence).

Orange One of the following occurs or occurred:

•The module is booting or running diagnostics (normal

initialization sequence).

•The inlet air temperature of the system exceeded the

maximum system operating temperature limit (a minor

environmental warning). To ensure maximum product

life, you should immediately correct the

environmental temperature and restore the system to

normal operation.

Red One of the following occurred:

•The diagnostic test failed. The module is not

operational because a fault occurred during the

initialization sequence.

•The inlet air temperature of the system exceeded the

safe operating temperature limits of the card (a major

environmental warning). The card shut down to

prevent permanent damage. The system will be shut

down after two minutes if this condition is not cleared.

Speed1

1. The Speed LEDs are available only on Cisco MDS 9216i and Cisco MDS 9216A Supervisor

Modules.

On 2-Gbps mode.

Off 1-Gbps mode.

Link Solid green Link is up.

Flashing

green

Link is up (beacon used to identify port).

Solid

yellow

Link is disabled by software.

Flashing

yellow

A fault condition exists.

Off No link.

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Chapter 1 Product Overview

Interface Modules

The nonremovable interface module is located above slot 1 (see Figure 1-7) and is identical for all Cisco

MDS 9200 Series switches. It provides the following local and remote management interfaces:

•RS-232 (EIA/TIA-232) console port with an RJ-45 connection that you can use to:

–

Configure the switch from the CLI.

–

Monitor network statistics and errors.

–

Configure SNMP agent parameters.

•MGMT 10/100 Ethernet port with an RJ-45 connection that provides network management

capabilities.

•RS-232 COM1 port with a DB-9 connector that can be attached to a modem.

Figure 1-7 Nonremoveable Interface Module of the Cisco MDS 9200 Series

The clock module is also part of the interface module.

Note The system clocks in the Cisco MDS 9200 Series have a field-measured mean time between failures

(MTBF) of approximately 3.2 million hours or 365 years. In the event of a clock module failure, the

system generates an error message.

1ESD socket (for ESD strap) 6MGMT 10/100 Ethernet port (with

integrated Link and Activity LEDs)

2Grounding pad (beneath tape) 7COM1 port

3Status and System LEDs 8Asset tag

4Reset button 9Interface module

5Console port

TUS

SYSTEM

RESET

CONSOLE MGMT 10/100

MDS 9216i 9

156

116890

COM1

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Chapter 1 Product Overview

Interface Modules

LEDs on the Interface Module

Table 1-2 describes the LEDs for the Cisco MDS 9200 Series interface module.

Table 1-2 LEDs on the Cisco MDS 9200 Series Interface Module

LED Status Description

Status Green All diagnostics pass. The module is operational

(normal initialization sequence).

Orange One of the following occurs or occurred:

•The module is booting or running diagnostics

(normal initialization sequence).

•The inlet air temperature of the system exceeded

the maximum system operating temperature limit

(a minor environmental warning). To ensure

maximum product life, you should immediately

correct the environmental temperature and

restore the system to normal operation.

Red One of the following occurred:

•The diagnostic test failed. The module is not

operational because a fault occurred during the

initialization sequence.

•The inlet air temperature of the system exceeded

the safe operating temperature limits of the card

(a major environmental warning). The card shut

down to prevent permanent damage.

System Green All chassis environmental monitors are reporting OK.

Orange One of the following occurs or occurred:

•The power supply failed or the power supply fan

failed.

•Incompatible power supplies are installed.

•The redundant clock failed.

Red The temperature of the supervisor module exceeded

the major threshold.

MGMT 10/100

Ethernet Link

LED

Green Link is up.

Off No link.

MGMT 10/100

Ethernet

Activity LED

Green Traffic is flowing through port.

Off No link or no traffic.

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Chapter 1 Product Overview

Cisco MDS 9000 Family Module Compatibility

Table 1-3 lists the hardware modules available and the chassis compatibility associated with them.

Switching Modules

The Cisco MDS 9200 Series supports the following hot-swappable Fibre Channel switching modules:

•Generation 3 Modules

–

4/44-Port 8-Gbps Host-Optimized Fibre Channel Switching Module

•Generation 2 Modules

–

48-Port 4-Gbps Fibre Channel Switching Module

–

24-Port 4-Gbps Fibre Channel Switching Module

–

12-Port 4-Gbps Fibre Channel Switching Module

–

4-Port 10-Gbps Fibre Channel Switching Module

•Generation 1 Modules

Table 1-3 MDS 9000 Modules and Platform Compatibility Matrix

Module 9513 9509 9506 9222i 9216A 9216i 9216

Supervisor-2 module X X X

Supervisor-1 module X X

4/44-port 8-Gbps Host-Optimized Fibre Channel switching

module

XXXX

48-port 4-Gbps Fibre Channel switching module XXXXXX

24-port 4-Gbps Fibre Channel switching module XXXXXX

12-port 4-Gbps Fibre Channel switching module XXXXXX

4-port 10-Gbps Fibre Channel switching module XXXXXX

32-port 1-Gbps/2-Gbps Fibre Channel module X X X X X X

16-port 1-Gbps/2-Gbps Fibre Channel module X X X X X X

8-port Gigabit Ethernet IP Storage Services module XXXXXXX

4-port Gigabit Ethernet IP Storage Services module X X X X X X

32-port Fibre Channel Advanced Services Module (ASM) X X X X X

32-port 1-Gbps/2-Gbps Fibre Channel Storage Services

Module (SSM)

XXXXXXX

Caching Services Module (CSM) X X X X X

18-port Fibre Channel /4-port Gigabit Ethernet Multiservice

(MSM-18/4) module

XXXXXX

18-port Fibre Channel /4-port Gigabit Ethernet Multiservice

FIPS (MSFM-18/4) module

XXXXXX

14-port Fibre Channel/2-port Gigabit Ethernet Multiprotocol

Services (MPS-14/2) module

XXX XXX

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Chapter 1 Product Overview

Switching Modules

–

32-Port 2-Gbps Fibre Channel Switching Module

–

16-Port 2-Gbps Fibre Channel Switching Module

The Cisco MDS 9200 Series supports one hot-swappable switching or services module in addition to the

integrated module that is part of the supervisor module.

The Fibre Channel switching modules provide system-wide power management and autonegotiation,

which allows ports to negotiate for speed at the other end of the link. Each module has temperature

sensors and an EEPROM that stores serial number and model number information.

The Fibre Channel port interfaces support hot-swappable Fibre Channel SFP and SFP+ transceivers,

which can be short wavelength (SWL) or long wavelength (LWL). The port interfaces also support

coarse wavelength-division multiplexing (CWDM) and dense wavelength-division multiplexing

(DWDM) SFP transceivers, which can be used for extended long wavelength (ELWL) transmission or

for coarse wavelength-division multiplexing (CWDM) and dense wavelength-division multiplexing

(DWDM). See the “Supported Transceivers” section on page 1-36.

Note The internal bootflash installed on the modules are not field-replaceable units. Do not remove or replace

internal bootflash on the modules. Modifying the factory-installed bootflash is not supported.

4/44-Port 8-Gbps Host-Optimized Fibre Channel Switching Module

The 4/44-port 8-Gbps Host-Optimized Fibre Channel switching module offers 48 autosensing 1-, 2-,

4-and 8-Gbps Fibre Channel ports and can be used in any of the Cisco MDS 9500 Series chassis and in

the Cisco MDS 9222i Switches. The 4/44-port switching module can be configured in one of two

operational modes: shared bandwidth mode (default) and dedicated bandwidth mode.

Figure 1-8 shows a 4/44-port 8-Gbps Host-Optimized Fibre Channel switching module. The front panel

connectors support standard modular SFP and SFP+ transceivers and the speed detection is autosensing.

Figure 1-8 4/44-port 8-Gbps Host-Optimized Fibre Channel Switching Module

48-Port 4-Gbps Fibre Channel Switching Module

The 48-port 4-Gbps Fibre Channel switching module offers 48 autosensing 1-, 2-, and 4-Gbps Fibre

Channel ports and can be used in any of the Cisco MDS 9500 Series chassis and in the Cisco MDS 9222i,

9216i, and 9216A Switches. The 48-port switching module can be configured in one of two operational

modes: shared bandwidth mode (default) and dedicated bandwidth mode.

Figure 1-9 shows a 48-port 4-Gbps Fibre Channel switching module. The front panel connectors are

standard modular SFP and the speed detection is autosensing.

188657

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Figure 1-9 48-Port 4-Gbps Fibre Channel Switching Module

Figure 1-10 shows the port numbering and LEDs on the 48-port 4-Gbps Fibre Channel switching

module.

Figure 1-10 48-Port 4-Gbps Fibre Channel Switching Module LEDs

24-Port 4-Gbps Fibre Channel Switching Module

The 24-port 4-Gbps Fibre Channel switching module offers 24 autosensing 1-, 2-, and 4-Gbps Fibre

Channel ports and can be used in any of the Cisco MDS 9500 Series chassis and in the Cisco MDS 9216i

and 9216A Switches. The 24-port switching module can be configured in one of two operational modes:

shared bandwidth mode (default) and dedicated bandwidth mode.

Figure 1-11 shows a 24-port 4-Gbps Fibre Channel switching module. The front panel connectors are

standard modular SFP and the speed detection is autosensing.

144474

1Status LED 3Fibre Channel ports

2Link LEDs

144809

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Figure 1-11 24-Port 4-Gbps Fibre Channel Switching Module

12-Port 4-Gbps Fibre Channel Switching Module

The 12-port 4-Gbps Fibre Channel switching module can be used in any of the Cisco MDS 9500 Series

chassis and in the Cisco MDS 9216i and 9216A Switches. The 12-port 4-Gbps switching module is a

full-rate mode module providing 12 SFP-based Fibre Channel interfaces. Each interface can support full-

line rate operation at 4 Gbps interface speed. The module delivers a sustained data rate of up to 4-Gbps

in each direction, on all ports simultaneously, and up to 96 Gbps of continuous, aggregate bandwidth

when attached to high-performance servers and storage subsystems.

Figure 1-12 shows a 12-port 4-Gbps Fibre Channel switching module. The front panel connectors are

standard modular SFP and the speed detection is autosensing.

Figure 1-12 12-Port 4-Gbps Fibre Channel Switching Module

1Status LED 3Fibre Channel ports

2Link LEDs 4Port Group

144471

1Status LED 3Link LEDs

2Fibre Channel ports

144470

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Switching Modules

4-Port 10-Gbps Fibre Channel Switching Module

The 4-port 10-Gbps Fibre Channel switching module offers four dedicated bandwidth Fibre Channel

ports running at 10 Gbps with no oversubscription. This module can be used in any of the Cisco MDS

9500 Series chassis and in the Cisco MDS 9216i and 9216A Switches. The module delivers a sustained

data rate of up to 10 Gbps in each direction, on all ports simultaneously, and up to 80 Gbps of continuous,

aggregate bandwidth.

Figure 1-13 shows a 4-port 10-Gbps switching module. The front panel connectors are standard modular

X2 interfaces and the speed is fixed at 10 Gbps.

Figure 1-13 4-Port 10-Gbps Fibre Channel Switching Module

1Status LED 3Link LED

2X2 port interfaces

144473

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Switching Modules

LEDs on the Generation 2 Switching Modules

Table 1-4 describes the LEDs for the 48-port, 24-port, and 12-port 4-Gbps Fibre Channel Switching

Modules and the 4-port 10-Gbps Fibre Channel Switching Module.

32-Port 2-Gbps Fibre Channel Switching Module

The 32-port 2-Gbps Fibre Channel switching module can be used to allocate bandwidth optimally. The

module is organized into eight four-port groups. Only the first port in each four-port group can be an

ISL. If the first port is an ISL, the other three ports in the group are disabled. The four ports within a port

group share a single internal channel resulting in a subscription ratio of approximately 3.2:1. The 32-port

2-Gbps switching module provides more ports at a lower price per port. Figure 1-14 shows a 32-port

switching module.

Table 1-4 LEDs for the Cisco MDS 9000 Family Generation 2 Fibre Channel Switching Modules

LED Status Description

Status Green All diagnostics pass. The module is operational

(normal initialization sequence).

Orange One of the following occurs or occurred:

•The module is booting or running diagnostics

(normal initialization sequence).

•The inlet air temperature of the system has

exceeded the maximum system operating

temperature limit (a minor environmental

warning). To ensure maximum product life, you

should immediately correct the environmental

temperature and restore the system to normal

operation.

Red One of the following occurs or occurred:

•The diagnostic test failed. The module is not

operational because a fault occurred during the

initialization sequence.

•The inlet air temperature of the system has

exceeded the safe operating temperature limits of

the card (a major environmental warning). The

card has been shut down to prevent permanent

damage.

Link Solid green Link is up.

Intermittent

flashing green

Link is up (traffic on port).

Solid yellow Link is disabled by software.

Flashing

yellow

A fault condition exists.

Off No link.

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Switching Modules

Tip For a full 2-Gbps bandwidth between two hosts, connect one host to the first port group and the second

host to the second port group.

Figure 1-14 Cisco MDS 9000 Family 32-Port 1-Gbps/2-Gbps Switching Module

16-Port 2-Gbps Fibre Channel Switching Module

The 16-port 2-Gbps switching module is best used for applications requiring high bandwidth; for

example, Inter-Switch Link (ISL) connections between switches and high-performance host or storage

controllers. The 16-port switching module supports a sustained data rate of up to 2 Gbps in each

direction, on all ports simultaneously. Figure 1-15 shows a 16-port 2-Gbps switching module.

The autosensing 1-Gbps/2-Gbps ports of the 16-port Fibre Channel switching module deliver up to

64 Gbps of continuous, aggregate bandwidth when attached to high-performance servers and storage

subsystems.

Figure 1-15 Cisco MDS 9000 Family 16-Port 2-Gbps Switching Module

1Status LED 3Link LED (to left of port) and

Speed LED (to right of port)

21-Gbps/2-Gbps Fibre Channel port

group

4Asset tag

91673

1 4

17 20

DS-X9032

21 24

25 28

12 13

29 32

1Status LED 3Link LED (to left of port) and

Speed LED (to right of port)

21-Gbps/2-Gbps Fibre Channel

ports

4Asset tag

91672

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

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Chapter 1 Product Overview

Switching Modules

Switching Module Features

Each switching module draws its power from the 42 V supplied on the backplane with local DC/DC

power converters and regulators.

The control processor on the switching module provides power-on, offline, and online diagnostics. The

control processor can be used to configure devices on the switching module and to gather statistical data

from each port.

The control processor can determine which slot it is plugged into, and it can monitor its DC/DC power

source and temperature. The control processor signals the supervisor module and displays an alarm on

its front panel when a problem is detected.

The front panel on the switching module provides basic status information, such as power-on, self-test

running, self-test passed, alarm, and ready.

The binary image for the switching module is downloaded from the supervisor module. Prior to the

image download, the control processor on the switching module runs from code stored on its local

CompactFlash card.

Note Routine software downloads are not required.

The integrated supervisor module can force a reset on the switching module and controls whether power

is applied to the switching module.

If a single component or a set of components on the switching module fails, this does not disable other

switching modules if that is the only failure in the system.

Each switching module has a hardware watchdog timer to detect most component failures. The watchdog

timer resets the card if it is not serviced periodically.

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Switching Modules

LEDs on the Generation 1 Switching Module

Table 1-5 describes the LEDs for the 16-port and 32-port switching modules.

The Fibre Channel switching modules provide auto-configuring Fibre Channel ports that support Fibre

Channel speeds of 1.0625 Gbps and 2.125 Gbps.

Table 1-5 LEDs for the Cisco MDS 9000 Family Generation 1 Fibre Channel Switching Modules

LED Status Description

Status Green All diagnostics pass. The module is operational

(normal initialization sequence).

Orange One of the following occurs or occurred:

•The module is booting or running diagnostics

(normal initialization sequence).

•The inlet air temperature of the system has

exceeded the maximum system operating

temperature limit (a minor environmental

warning). To ensure maximum product life, you

should immediately correct the environmental

temperature and restore the system to normal

operation.

Red One of the following occurs or occurred:

•The diagnostic test failed. The module is not

operational because a fault occurred during the

initialization sequence.

•The inlet air temperature of the system has

exceeded the safe operating temperature limits of

the card (a major environmental warning). The

card has been shut down to prevent permanent

damage.

Speed On 2-Gbps mode.

Off 1-Gbps mode.

Steady

flashing green

Link is up (beacon used to identify port).1

1. The flashing green light turns on automatically when an external loopback is detected that causes

the interfaces to be isolated. The flashing green light overrides the beacon mode configuration.

The state of the LED is restored to reflect the beacon mode configuration after the external

loopback is removed.

Link Solid green Link is up.

Intermittent

flashing green

Link is up (traffic on port).

Solid yellow Link is disabled by software.

Flashing

yellow

A fault condition exists.

Off No link.

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Chapter 1 Product Overview

Services Modules

The Cisco MDS 9200 Series supports the following hot-swappable services modules:

•1 8/4-Port Multiservice Module

•18/4-Port Multiservice Federal Information Processing Standards Module

•14/2-Port Multiprotocol Services Module

•IP Storage Services Modules

•32-Port Fibre Channel Storage Services Module

•32-Port Fibre Channel Advanced Services Module

•Caching Services Module

The Cisco MDS 9200 Series supports one hot-swappable switching or services module in addition to the

integrated module that is part of the supervisor module. Each module has temperature sensors and an

EEPROM that stores serial number and model number information.

Note The internal bootflash installed on the modules are not field-replaceable units. Do not remove or replace

internal bootflash on the modules. You cannot modify the factory installed bootflash.

18/4-Port Multiservice Module

The Cisco MDS 9000 Family 18/4-Port Multiservice (MSM-18/4) module provides 18 autosensing

1-, 2-, and 4-Gbps Fibre Channel ports and four Gigabit Ethernet IP services ports. The MSM-18/4

module provides multiprotocol capabilities such as Fibre Channel, Fibre Channel over IP (FCIP), Small

Computer System Interface over IP (iSCSI), IBM Fiber Connectivity (FICON), and FICON Control Unit

Port (CUP) management.

The MSM-18/4 module provides 18 4-Gbps Fibre Channel interfaces for high-performance SAN and

mainframe connectivity and four Gigabit Ethernet ports for FCIP and iSCSI storage services. Individual

ports can be configured with hot-swappable short wavelength, long wavelength, extended-reach, coarse

wavelength-division multiplexing (CWDM) or dense wavelength-division multiplexing (DWDM) Small

Form-Factor Pluggables (SFPs) for connectivity up to 125 miles (200 km).

The MSM-18/4 module can minimize latency for disk and tape through FCIP write acceleration and

FCIP tape write and read acceleration. The MSM-18/4 module provides up to 16 virtual Inter-Switch

Link (ISL) connections on the four 1-Gigabit Ethernet ports through tunneling, and provides up to 4095

buffer-to-buffer credits that can be assigned to a single Fibre Channel port.

The MSM-18/4 supports hardware-based encryption and it is required to run the Storage Media

Encryption (SME), which is a part of the Cisco NX-OS. For more information on SME, see the Cisco

MDS Storage Media Encryption Guide.

The MSM-18/4 supports SAN extension over IP and is compatible with current SAN extension products,

such as, MPS-14/2, 9216i, and IPS. The MSM-18/4 provides an integrated next generation 4-Gbps FC

platform for SAN extension. The MSM-18/4 module supports Internet Protocol version 6 (IPv6) as

mandated by the U.S. Department of Defense (DoD), Japan, and China. The IPv6 support is provided

for FCIP, iSCSI, and management traffic routed in-band and out-of-band.

The MSM-18/4 module provides intelligent diagnostics, protocol decoding, and network analysis tools

wit h the integrated Call Home capability.

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Services Modules

18/4-Port Multiservice Federal Information Processing Standards Module

The Cisco MDS 9000 Family 18/4-Port Multiservice Federal Information Processing Standards

(MSFM-18/4) module is a FIPS 140-2 Level 3-compliant version of the MSM-18/4 module. The

MSFM-18/4 module is identical to the MSM-18/4 module in form and function, with the exception of

an opaque potting material encapsulating the cryptographic boundary of the MSFM-18/4 module to

prevent unauthorized access and tampering.

Note Cisco MDS 9200 Series switches running Cisco MDS SAN-OS Release 2.x, 3.x, and NX-OS 4.1(1b)

support the 18/4-port Multiservice module and the 18/4-Port Multiservice FIPS module.

Figure 1-16 shows the Cisco MDS 9000 Family 18/4-Port Multiservice module.

Figure 1-16 Cisco MDS 9000 Family 18/4-Port Multiservice Module

184706

1Status LED 3Gigabit Ethernet ports

21-Gbps/2-Gbps/4-Gbps Fibre Channel ports 4Link LEDs

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Chapter 1 Product Overview

Services Modules

LEDs on the 18/4-Port Multiservice Module

Table 1-6 describes the LEDs for the Cisco MDS 9000 Family 18/4-Port Multiservice module.

14/2-Port Multiprotocol Services Module

The 14/2-port Multiprotocol Services (MPS-14/2) module provides 14 1-Gbps/2-Gbps Fibre Channel

autosensing ports and two 1-Gigabit Ethernet ports for iSCSI and FCIP over Gigabit Ethernet. The

MPS-14/2 module supports the intelligent features available on other modules, including VSANs,

security, and traffic management.

The 14 1-Gbps/2-Gbps autosensing Fibre Channel ports (labeled 1 through 14) are best used for

applications requiring high bandwidth; for example, Inter-Switch Link (ISL) connections between

switches and high-performance host or storage controllers. Each Fibre Channel port supports a sustained

data rate of up to 2 Gbps in each direction.

The Cisco MDS 9216 Switch supports one MPS-14/2 module. The two Gigabit Ethernet ports (labeled 1

and 2) provide 1-Gbps throughput for IP services, including iSCSI and FCIP over Gigabit Ethernet. The

MPS-14/2 also supports hardware-based encryption and compression for these Gigabit Ethernet ports.

This hardware-based encryption handles the computationally intensive IPsec feature for IP services.

Table 1-6 LEDs for the Cisco MDS 9000 Family 18/4-Port Multiservice Modules

LED Status Description

Status Green All diagnostics pass. The module is operational (normal

initialization sequence).

Orange One of the following occurs or occurred:

•The module is booting or running diagnostics (normal

initialization sequence).

•The inlet air temperature of the system exceeded the

maximum system operating temperature limit (a minor

environmental warning). To ensure maximum product

life, you should immediately correct the environmental

temperature and restore the system to normal operation.

Red One of the following occurred:

•The diagnostic test failed. The module is not operational

because a fault occurred during the initialization

sequence.

•The inlet air temperature of the system exceeded the safe

operating temperature limits of the card (a major

environmental warning). The card shut down to prevent

permanent damage.

Link Solid

green

Link is up.

Solid

yellow

Link is disabled by software.

Flashing

yellow

A fault condition exists.

Off No link.

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Services Modules

The MPS-14/2 modules support FCIP compression to maximize the effective WAN bandwidth of SAN

extension solutions. It achieves up to a 30-to-1 compression ratio, with typical ratios of 2-to-1 over a

wide variety of data sources. With the addition of hardware-based compression, the MPS-14/2 module

is able to provide optimal levels of compressed throughput for implementations across low to

high-bandwidth links.

The Gigabit Ethernet ports on the MPS-14/2 module support iSCSI protocol, FCIP protocol, or both

protocols simultaneously. For information about configuring the ports, see the Cisco MDS 9000 Family

CLI Configuration Guide or the Cisco MDS 9000 Family Fabric Manager Configuration Guide.

The Fibre Channel port interfaces support hot-swappable Fibre Channel SFP transceivers, which can be

short wavelength (SWL) for connectivity up to 1640 feet (500 meters), or long wavelength (LWL) for

connectivity up to 6.2 miles (10 km). All interfaces are autosensing 1-Gbps or 2-Gbps compatible. The

port interfaces also support coarse wavelength-division multiplexing (CWDM) SFP transceivers, which

can be used for extended long wavelength (ELWL) transmission or for CWDM. See the “Supported

Transceivers” section on page 1-36.

Note Cisco MDS 9200 Series switches running Cisco MDS SAN-OS Release 2.x, 3.x, and NX-OS 4.1(1b)

support the MPS-14/2 module.

Figure 1-17 Cisco MDS 9000 Family MPS-14/2 module.

Figure 1-17 Cisco MDS 9000 Family MPS-14/2 Module

1Status LED 4Gigabit Ethernet ports

21-Gbps/2-Gbps Fibre Channel

ports

5Link LEDs

3Link LEDs (under ports, on left)

and Speed LEDs (under ports, on

right)

6Asset tag

—SPEED LINK—

LINK-

—SPEEDLINK—

STATUS

1 56789

LINK— —SPEED

10 11 12 13 14234

LINK-

GIGABIT E THERNET

116889

1 6

2 4

3 5

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Services Modules

LEDs on the 14/2-Port Multiprotocol Services Module

Table 1-7 describes the LEDs for the MPS-14/2 modules.

IP Storage Services Modules

The 8-port and 4-port IP Storage services (IPS-8 and IPS-4) modules provide eight or four 1-Gigabit

Ethernet ports for iSCSI as well as FCIP over Gigabit Ethernet, and they support the intelligent features

available on other modules, including VSANs, security, and traffic management.

The IPS module ports support the iSCSI protocol, the FCIP protocol, or both protocols simultaneously.

For information about configuring the ports, see the Cisco MDS 9000 Family CLI Configuration Guide

and the Cisco MDS 9000 Family Fabric Manager Configuration Guide.

Table 1-7 LEDs for the Cisco MDS 9000 Family MPS-14/2 Modules

LED Status Description

Status Green All diagnostics pass. The module is operational (normal

initialization sequence).

Orange One of the following occurs or occurred:

•The module is booting or running diagnostics (normal

initialization sequence).

•The inlet air temperature of the system exceeded the

maximum system operating temperature limit (a minor

environmental warning). To ensure maximum product

life, you should immediately correct the environmental

temperature and restore the system to normal operation.

Red One of the following occurred:

•The diagnostic test failed. The module is not operational

because a fault occurred during the initialization

sequence.

•The inlet air temperature of the system exceeded the safe

operating temperature limits of the card (a major

environmental warning). The card shut down to prevent

permanent damage.

Speed On 2-Gbps mode.

Off 1-Gbps mode.

Flashing

green

Link is up (beacon used to identify port).

Link Solid

green

Link is up.

Solid

yellow

Link is disabled by software.

Flashing

yellow

A fault condition exists.

Off No link.

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Services Modules

The Fibre Channel port interfaces support hot-swappable Fibre Channel SFP transceivers, which can be

short wavelength (SWL) for connectivity up to 1640 feet (500 meters), or long wavelength (LWL) for

connectivity up to 6.2 miles (10 km). The port interfaces also support coarse wavelength-division

multiplexing (CWDM) SFP transceivers, which can be used for extended long wavelength (ELWL)

transmission or for CWDM. See the “Supported Transceivers” section on page 1-36.

Figure 1-18 shows an IPS-8 module.

Figure 1-18 Cisco MDS 9000 Family IPS-8 Module

Figure 1-19 shows an IPS-4 module.

Figure 1-19 Cisco MDS 9000 Family IPS-4 Module

1Status LED 3Link LEDs

2Gigabit Ethernet ports 4Asset tag

91694

1Status LED 3Link LEDs

2Gigabit Ethernet ports 4Asset tag

113161

LINK LINK LINK LINK

1234

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Services Modules

LEDs on IP Storage Services Module

Table 1-8 describes the LEDs for the IPS module.

32-Port Fibre Channel Storage Services Module

The 32-port Fibre Channel Storage Services Module (SSM) for the Cisco MDS 9000 Family supports

up to 32 Fibre Channel ports, provides distributed intelligent storage services, and supports future

storage services.

Note Cisco MDS 9200 Series switches running Cisco MDS SAN-OS Release 2.x, 3.x, and NX-OS 4.1(1b)

support the SSM.

Table 1-8 LEDs for the Cisco MDS 9000 Family IPS Modules

LED Status Description

Status Green All diagnostics pass. The module is operational (normal

initialization sequence).

Orange One of the following occurs or occurred:

•The module is booting or running diagnostics (normal

initialization sequence).

•The inlet air temperature of the system exceeded the

maximum system operating temperature limit (a minor

environmental warning). To ensure maximum product

life, you should immediately correct the environmental

temperature and restore the system to normal operation.

Red One of the following occurred:

•The diagnostic test failed. The module is not

operational because a fault occurred during the

initialization sequence.

•The inlet air temperature of the system exceeded the

safe operating temperature limits of the card (a major

environmental warning). The card shut down to prevent

permanent damage.

Link Solid

green

Link is up.

Flashing

green

Link is up (beacon used to identify port).

Solid

yellow

Link is disabled by software.

Flashing

yellow

A fault condition exists.

Off No link.

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The Fibre Channel ports support hot-swappable Fibre Channel SFP transceivers, which can be short

wavelength (SWL) for connectivity up to 1050 feet (500 m), or long wavelength (LWL) for connectivity

up to 6.2 miles (10 km). All interfaces are autosensing 1-Gbps or 2-Gbps compatible. The ports also

support coarse wavelength-division multiplexing (CWDM) SFP transceivers, which can be used for

extended long wavelength (EWL) transmission or for CWDM. For more information about SFP

transceivers, see the “Supported Transceivers” section on page 1-36.

Figure 1-20 shows the SSM, which has the part number DS-X9032-SSM on the left side.

Figure 1-20 Cisco MDS 9000 Family SSM

Each module draws power from the 42 V supplied on the backplane with local DC/DC power converters

and regulators.

The control processor on the module provides power-on, offline, and online diagnostics. The control

processor can be used to configure devices on the switching module and to gather statistical data from

each port.

The control processor monitors the DC/DC power source and temperature. The control processor signals

the supervisor module and displays an alarm on its front panel when it detects a problem.

The front panel on the services module provides basic status information, such as power-on, self-test

running, self-test passed, alarm, and ready.

The binary image for the services module is downloaded from the supervisor module. Prior to the image

download, the control processor on the services module runs from the code stored on its local

CompactFlash card. The image for an SSM can be specified using the SSI boot variable. For more

information on how to specify the SSI boot variable, see the Cisco MDS 9000 Family CLI Configuration

Guide.

Note Software downloads are only necessary when a revision of the code is needed.

The supervisor module can force a reset on the services module and controls whether or not power is

applied to the switching module.

If a single component or a set of components on the switching module fails, this failure does not disable

another switching module if that is the only failure in the system.

For the detection of most component failures, each switching module has a hardware watchdog timer

that resets the card if it is not serviced periodically.

1Status LED 3Link and speed LEDs

21-Gbps/2-Gbps Fibre Channel port group 4Asset tag

120094

17 20

21 24

25 28

12 13

29 32

Storage Services Module

DS-X9032

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Chapter 1 Product Overview

Services Modules

LEDs on the Storage Services Module

Table 1-9 describes the LEDs for the Cisco MDS 9000 Family Storage Services Module.

32-Port Fibre Channel Advanced Services Module

The Cisco MDS 9000 Family 32-Port Fibre Channel Advanced Services Module (ASM) enables pooling

of heterogeneous storage for increased storage utilization, simplified storage management, and reduced

total cost of storage ownership. The ASM incorporates all the capabilities of the Cisco MDS 9000

DS-X9032 Fibre Channel switching module and also provides scalable, in-band storage virtualization

services. The ASM module makes it possible to allocate bandwidth optimally.

Table 1-9 LEDs for the Cisco MDS 9000 Family Storage Services Module

LED Status Description

Status Green All diagnostics pass. The module is operational (normal

initialization sequence).

Orange One of the following occurs or occurred:

•The module is booting or running diagnostics (normal

initialization sequence).

•The inlet air temperature of the system exceeded the

maximum system operating temperature limit (a minor

environmental warning). To assure maximum product life,

you should immediately correct the environmental

temperature and restore the system to normal operation.

Red One of the following occurs or occurred:

•The diagnostic test failed. The module is not operational

because a fault occurred during the initialization sequence.

•The inlet air temperature of the system exceeded the safe

operating temperature limits of the card (a major

environmental warning). The card shut down to prevent

permanent damage.

Speed On 2-Gbps mode.

Off 1-Gbps mode.

Link Solid green Link is healthy.

Steady flashing

green

Link is healthy and beacon is enabled.

Intermittent

flashing green

Link is up and traffic is flowing through port.

Solid yellow Link is disabled by software.

Flashing yellow A fault condition exists.

Off No link.

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Chapter 1 Product Overview

Services Modules

The Fibre Channel port interfaces support hot-swappable Fibre Channel SFP transceivers, which can be

SWL for connectivity up to 1640 feet (500 meters), or LWL for connectivity up to 6.2 miles (10 km).

All interfaces are autosensing 1-Gbps or 2-Gbps compatible. The port interfaces also support CWDM

SFP transceivers, which can be used for extended long wavelength (ELWL) transmission or for CWDM.

See the “Supported Transceivers” section on page 1-36.

Figure 1-21 shows the Cisco MDS 9000 Family Fibre Channel ASM.

Figure 1-21 Cisco MDS 9000 Family ASM

Each module draws power from the 42 V supplied on the backplane with local DC/DC power converters

and regulators.

The control processor on the module provides power-on, offline, and online diagnostics. The control

processor can be used to configure devices on the switching module and to gather statistical data from

each port.

The control processor monitors the DC/DC power source and temperature. The control processor signals

the supervisor module and displays an alarm on its front panel when a problem is detected.

The front panel on the services module provides basic status information, such as power-on, self-test

running, self-test passed, alarm, and ready.

The binary image for the services module is downloaded from the supervisor module. Prior to the image

download, the control processor on the switching module runs from code stored on its local

CompactFlash card. The image for an ASM-SFN can be specified using the ASM-SFN boot variable.

For more information on how to specify the SSI boot variable, see the Cisco MDS 9000 Family CLI

Configuration Guide.

Note Software downloads are only necessary when a revision of the code is needed.

The supervisor module can force a reset on the services module and controls whether power is applied

to the switching module.

If a single component or a set of components on the switching module fails, this failure does not disable

another switching module if that is the only failure in the system.

Each ASM has a hardware watchdog timer to detect most component failures. The watchdog timer resets

the card if it is not serviced periodically.

94298

1 43

17 20

21 24

25 28

12 13

29 32

DS-X9032

1Status LED 3Link and Speed LEDs

21-Gbps/2-Gbps Fibre Channel port group 4Asset tag

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Chapter 1 Product Overview

Services Modules

LEDs on the Fibre Channel Advanced Services Module

Table 1-10 describes the LEDs for the Cisco MDS 9000 Family ASM.

Caching Services Module

The Caching Services Module (CSM) provides virtualization services that allow the Cisco MDS 9000

Family switches to reallocate physical resources as virtual resources for increased efficiency. The CSM

receives and sends data through the switch backplane. It has two disk drives, two internal batteries for

backup in case of power failure, and no external ports.

CSMs must be implemented in pairs in the fabric to provide redundancy and backup. Only two or more

CSMs in a fabric are supported. However, the CSMs need not to be installed in the same switch.

Table 1-10 LEDs for the Cisco MDS 9000 Family ASM

LED Status Description

Status Green All diagnostics pass and the module is operational (normal

initialization sequence).

Orange One of the following occurs or occurred:

•The module is booting or running diagnostics (normal

initialization sequence).

•The inlet air temperature of the system exceeded the

maximum system operating temperature limit (a minor

environmental warning). To ensure maximum product life,

you should immediately correct the environmental

temperature and restore the system to normal operation.

Red One of the following occurs or occurred:

•The diagnostic test failed. The module is not operational

because a fault occurred during the initialization sequence.

•The inlet air temperature of the system exceeded the safe

operating temperature limits of the card (a major

environmental warning). The card shut down to prevent

permanent damage.

Speed On 2-Gbps mode.

Off 1-Gbps mode.

Link Solid green Link is up.

Steady flashing

green

Link is up (beacon used to identify port).

Intermittent

flashing green

Link is up (traffic on port).

Solid yellow Link is disabled by software.

Flashing yellow A fault condition exists.

Off No link.

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Chapter 1 Product Overview

Services Modules

The CSM shuts down if the software failure or an external power failure occurs, or if the module is

separated from the backplane while it is still powered on. The CSM automatically backs up the data in

memory to the disk drives and then shuts down. The CSM batteries provide adequate power to back up

data without external power.

Figure 1-22 shows the Cisco MDS 9000 Family CSM.

Figure 1-22 Cisco MDS 9000 Family CSM

Figure 1-23 shows the location of the disk drives and batteries on the CSM.

Caution The batteries are shipped fully charged and should be handled accordingly.

1Status LED 5Disk 1 Status LED

2Battery LED 6Node 2 LEDs

3Node 1 LEDs 7Node 2 Status LED

4Node 1 Status LED 8Disk 2 Status LED

91626

STATUS

DS-X9560-SMXX

BATTERY STATUS

NODE 1 NODE 2

DISK STATUS DISK

Cashing Services Module

3 6

852

1 4 7

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Chapter 1 Product Overview

Services Modules

Figure 1-23 Cisco MDS 9000 Family CSM (Internal View)

See the “Removing and Installing Switching and Services Modules” section on page 2-28 for

information about removing and installing the CSM and maintaining the CSM batteries.

1Disk drive 2 3Battery 2

2Disk drive 1 4Battery 1

94038

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Chapter 1 Product Overview

Services Modules

LEDs on the Caching Services Module

Table 1-11 describes the LEDs for the CSM.

Table 1-11 LEDs for the Cisco MDS 9000 Family CSM

LED Status Description

Status Green All diagnostics pass, and the module is operational (normal

initialization sequence).

Orange One of the following occurs or occurred:

•The module is booting or running diagnostics (normal

initialization sequence).

•The inlet air temperature of the system exceeded the

maximum system operating temperature limit (a minor

environmental warning). To ensure maximum product life,

you should immediately correct the environmental

temperature and restore the system to normal operation.

Red One of the following occurs or occurred:

•The diagnostic test failed. The module is not operational

because a fault occurred during the initialization sequence.

•The inlet air temperature of the system exceeded the safe

operating temperature limits of the card (a major

environmental warning). The card shut down to prevent

permanent damage.

Node Green Node is fully operational.

Flashing green Node is not yet part of a cluster.

Orange The module is booting or node is administratively down.

Flashing orange Node is in service mode.

Red Node failure.

Off Node does not have power.

Battery Green Battery has sufficient charge to dump cache.

Flashing green Battery is charging and has sufficient charge to dump cache.

Battery conditioning in progress.

Flashing orange Battery is charging but has insufficient charge to dump cache.

Red Battery failure or battery is charged to the extent possible but in-

sufficient to dump cache; replace CSM.

Off Battery does not have power and is not charged.

Disk Solid green Disk is operational.

Flashing orange Dumping cache to disk.

Flashing green Restoring cache from disk.

Red Disk failure.

Off Disk does not have power.

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Chapter 1 Product Overview

Power Supplies

The Cisco MDS 9200 Series supports dual hot-swappable 845-W AC power supplies, each of which can

supply sufficient power to the entire chassis should one power supply fail. The power supplies monitor

their output voltage and provide status to the supervisor module. To prevent the unexpected shutdown of

an optional module, power management software only allows a module to power up if adequate power

is available.

The Cisco MDS 9200 Series power supplies can be configured to be redundant or combined. By default,

they are configured as redundant, so that if one fails, the remaining power supply can still power the

entire system. For information on how to configure the power supplies, see the Cisco MDS 9000 Family

CLI Configuration Guide or the Cisco MDS 9000 Family Fabric Manager Configuration Guide.

The power supplies, which are accessed from the rear of the chassis, are illustrated in Figure 1-24.

Figure 1-24 Cisco MDS 9200 Series with 845-W Dual Power Supplies

Table 1-12 describes the LEDs for the Cisco MDS 9200 Series power supplies.

1Power supply switch 3Power supply handle

2AC power connection 4Power supply LEDs

PWR-845-AC

100-240V 12-5A

50/60 Hz

INPUT OK

FAN OK

OUTPUT FAIL

ALL FASTENERS MUST BE FULLY ENGAGED

PRIOR TO OPERATING OF POWER SUPPLY

PWR-845-AC

100-240V 12-5A

50/60 Hz

INPUT OK

FAN OK

OUTPUT FAIL

ALL FASTENERS MUST BE FULLY ENGAGED

PRIOR TO OPERATING OF POWER SUPPLY

94002

Table 1-12 LEDs for the Cisco MDS 9200 Series Power Supplies

LED Status Description

Input OK Green AC input is good and power supply is functioning normally.

Off Power supply is turned off or is not seated properly in the

chassis.

Fan OK Green Power supply fans are operating properly.

Off Fan is not operating or power supply is off.

Output Fail Red Power supply is not in a stable state. If this indication

continues after initial power on, check that all connections

are secure, including the system fan tray.

Off Normal operation or power supply is turned off.

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Chapter 1 Product Overview

Fan Module

The Cisco MDS 9200 Series supports a hot-swappable fan module with four fans. The fan module

provides 80 cfm (cubic feet per minute) of cooling per slot, allowing 400 W of power dissipation per

slot. Sensors on the supervisor module monitor the internal air temperature. If the air temperature

exceeds a preset lower-level threshold, the environmental monitor displays warning messages. If the air

temperature exceeds a preset higher-level threshold, the switch will shut down.

If one or more fans within the fan module fail, the Fan Status LED turns red and the module must be

replaced. Individual fans cannot be replaced, you must replace the entire fan module. If the higher-level

temperature threshold is not exceeded, the switch continues to run for five minutes after the fan module

is removed. This means you can swap out a fan module without having to bring the system down. To

replace a fan module, see the “Removing and Installing the Fan Module” section on page 2-38. The fan

module has one Status LED that indicates the following conditions:

•Green—Fan module is operating normally.

•Red—One or more fans failed. Fan module should be replaced.

•Off—Fan module is not properly seated in the chassis or power supply has failed.

Caution The Cisco MDS 9000 Family switches have internal temperature sensors that are capable of shutting

down the system if the temperature at different points within the chassis exceed certain safety thresholds.

To be effective, the temperature sensors require the presence of airflow; therefore, in the event a fan

module is removed from the chassis, the Cisco MDS 9000 Family switches shut down after five minutes

to prevent potentially undetectable overheating. However, the switches shut down sooner if the

higher-level temperature threshold is exceeded.

Supported Transceivers

The following types of transceivers are available from Cisco and are supported on the Cisco MDS 9200

Series:

•X2 Fibre Channel transceivers

•Fibre Channel SFP and SFP+ transceivers, in either SWL or LWL

•Combination Fibre Channel/Gigabit Ethernet SFP transceivers, in either SWL or LWL

•Combination Fibre Channel/Gigabit Ethernet CWDM SFP transceivers, which can be used for

ELWL transmission or for CWDM

•Gigabit Ethernet SFP transceiver, 1-Gbps copper

•Fibre Channel DWDM SFP transceiver, which can be used for ELWL transmission or for DWDM

Note Switches running Cisco MDS SAN-OS Release 2.x, 3.x, and NX-OS 4.1(1b) support combination Fibre

Channel/Gigabit Ethernet SFP transceivers.

The transceivers are field-replaceable and hot-swappable. You can use any combination of SFP

transceivers that are supported by the switch. The only restrictions are that SWL transceivers must be

paired with SWL transceivers, and LWL transceivers with LWL transceivers, and the cable must not

exceed the stipulated cable length for reliable communications.

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Chapter 1 Product Overview

Supported Transceivers

For more information about the X2 transceiver, see the “X2 Transceiver Specifications” section on

page B-7.

For more information about a specific Cisco SFP transceiver, see the “SFP and SFP+ Transceiver

Specifications” section on page B-10. SFP transceivers can be ordered separately or with the Cisco MDS

9200 Series.

Note Use only Cisco transceivers in the Cisco MDS 9200 Series. Each Cisco transceiver is encoded with

model information that enables the switch to verify that the transceiver meets the requirements for the

switch.

X2 Fibre Channel Transceivers

The X2 Fibre Channel transceiver is a small form-factor optimized for 10-Gbps applications and uses an

SC connector. The X2 transceiver is ideally suited for Ethernet, Fibre Channel and telecom switches, and

standard peripheral component interconnect (PCI)-based server and storage connections. The X2

provides robust thermal performance and electromagnetic shielding.

For more information on X2 transceiver specifications, see the “X2 Transceiver Specifications” section

on page B-7.

Fibre Channel SFP Transceivers

Cisco Fibre Channel SFP transceivers are available in SWL or LWL versions. Both of these versions are

1-Gbps/2-Gbps/4-Gbps capable. Cisco Fibre Channel SFP+ transceivers are available in SWL or LWL

versions. Both of these versions are 2-Gbps/4-Gbps/8-Gbps capable.

Cisco Fibre Channel SFP transceivers have LC connectors and comply with 1-Gbps/2-Gbps/4-Gbps

Fibre Channel standards as defined in FC-PI 10.0 2. Cisco Fibre Channel SFP+ transceivers have LC

connectors and comply with 2-Gbps/4-Gbps/8-Gbps Fibre Channel standards as defined in FC-PI-4.

For more information about Fibre Channel SFP and SFP+ transceiver specifications, see the “SFP and

SFP+ Transceiver Specifications” section on page B-10.

Combination Fibre Channel/Gigabit Ethernet SFP Transceivers

The combination Fibre Channel/Gigabit Ethernet SFP transceivers from Cisco Systems are available in

SWL or LWL versions. Both of these versions are 1-Gbps/2-Gbps capable.

The combination SFP transceivers from Cisco Systems have LC connectors and comply with

1-Gbps/2-Gbps Fibre Channel as defined in FC-PI 10.0 2 and Gigabit Ethernet as defined in IEEE

802.3z.

For more information on the Fibre Channel/Gigabit Ethernet SFP transceiver specifications, see the

“SFP and SFP+ Transceiver Specifications” section on page B-10.

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Chapter 1 Product Overview

Supported Transceivers

CWDM Combination Fibre Channel/Gigabit Ethernet SFP Transceivers

All Fibre Channel and Gigabit Ethernet ports in the Cisco MDS 9200 Series support 1-Gbps/2-Gbps

CWDM SFP transceivers. In addition, the Fibre Channel ports on Cisco MDS 9222i also support 4-Gbps

CWDM SFP transceivers.

The Cisco CWDM SFP transceivers have LC connectors and support both Gigabit Ethernet and Fibre

Channel (1-Gbps/2-Gbps). They match the wavelength plan of Cisco CWDM GBICs and Cisco CWDM

optical add/drop multiplexers (OADMs).

CWDM SFP transceivers can be used in two ways:

•CWDM transmission can send and receive up to eight laser wavelengths carrying different signals

simultaneously on the same optical fiber using an OADM.

•ELWL signals can transmit over longer distances than LWL SFP transceivers.

There are eight different “colors” of CWDM SFP transceivers, one for each fixed wavelength. The fiber

optic cables from the CWDM SFP transceivers must be connected to an OADM. The OADM combines

the wavelengths of the different outgoing signals into one composite send signal. The OADM also

separates the received transmissions into the different wavelengths and sends them to the corresponding

CWDM SFP transceiver.

For more information on the CWDM SFP transceiver specifications, see the “SFP and SFP+ Transceiver

Specifications” section on page B-10.

Gigabit Ethernet SFP Transceivers

The 4-port and 8-port IP Storage services (IPS-4 and IPS-8) modules provide four or eight 1-Gigabit

Ethernet ports that support Gigabit Ethernet SFP transceivers. The Gigabit Ethernet SFP transceivers

have RJ-45 connectors and support Gigabit Ethernet (1-Gbps).

For more information on the Gigabit Ethernet SFP transceiver specifications, see the “SFP and SFP+

Transceiver Specifications” section on page B-10.

DWDM Fibre Channel SFP Transceivers

Fibre Channel ports on Cisco MDS 9222i support 2-Gbps DWDM SFP transceivers. The Cisco DWDM

Fibre Channel SFP transceivers have LC connectors and support Fibre Channel (1-Gbps/2-Gbps). The

DWDM SFP transceivers match the International Telecommunications Union (ITU) 100-Ghz

wavelength grid and the wavelength plan of Cisco 100-Ghz ONS product family.

The DWDM SFP transceivers have the following capabilities:

•DWDM transmission can send and receive up to 32 laser wavelengths carrying different signals

simultaneously on the same optical fiber by using an optical filter.

•ELWL signals can transmit over longer distances than LWL SFP transceivers.

For more information on the DWDM SFP transceiver specifications, see the “SFP and SFP+ Transceiver

Specifications” section on page B-10.

CHAPTER

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Installing the Cisco MDS 9200 Series

This chapter describes how to install the Cisco MDS 9200 Series and its components, and it includes the

following information:

•Preinstallation, page 2-2

•Installing the Chassis in a Cabinet or Rack, page 2-5

•Installing the Switch in a Cabinet with Insufficient Front Clearance, page 2-11

•System Grounding, page 2-19

•Grounding the Chassis, page 2-24

•Starting Up the Switch, page 2-26

•Removing and Installing Components, page 2-28

Note Before you install, operate, or service the system, read the Regulatory Compliance and Safety

Information for the Cisco MDS 9000 Family for important safety information.

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

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 must be allowed to install, replace, or service this equipment.

Statement 1030

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Chapter 2 Installing the Cisco MDS 9200 Series

Preinstallation

Warning

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

Statement

1022

Note Each new switch requires a license. For information on licensing, see the Cisco MDS 9000 Family CLI

Configuration Guide or the Cisco MDS 9000 Family Fabric Manager Configuration Guide.

Preinstallation

This section includes the following topics:

•Installation Options, page 2-2

•Installation Guidelines, page 2-3

•Required Equipment, page 2-4

•Unpacking and Inspecting the Switch, page 2-4

Installation Options

The Cisco MDS 9200 Series can be installed using the following methods:

•In an open EIA rack, using:

–

The rack-mount kit shipped with the switch

–

The telco and EIA Shelf Bracket Kit (an optional kit, purchased separately) in addition to the

rack-mount kit shipped with the switch

•In a perforated or solid-walled EIA cabinet, using:

–

The rack-mount kit shipped with the switch

–

The telco and EIA Shelf Bracket Kit (an optional kit, purchased separately) in addition to the

rack-mount kit shipped with the switch

•In a two-post telco rack, using:

–

The telco and EIA Shelf Bracket Kit (an optional kit, purchased separately) in addition to the

front brackets shipped with the switch

For instructions on installing the switch using the rack-mount kit shipped with the switch, see the

“Installing the Chassis in a Cabinet or Rack” section on page 2-5.

For instructions on installing the switch using the optional, separately purchased telco and EIA Shelf

Bracket Kit, see the “Cisco MDS 9000 Family telco and EIA Shelf Bracket” section on page A-4.

Note The optional telco and EIA Shelf Bracket Kit is not provided with the switch. To order the kit, contact

your switch provider.

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Chapter 2 Installing the Cisco MDS 9200 Series

Preinstallation

Installation Guidelines

Follow these guidelines when installing the Cisco MDS 9200 Series:

•Plan your site configuration and prepare the site before installing the chassis. Appendix D, “Site

Planning and Maintenance Records,” lists the recommended site planning tasks.

•Record the information listed in Appendix D, “Site Planning and Maintenance Records,” as you

install and configure the switch.

•Ensure that there is adequate space around the switch to allow for servicing the switch and for

adequate airflow (Appendix B, “Technical Specifications,” lists airflow requirements).

•Ensure that the air-conditioning meets the heat dissipation requirements listed in Appendix B,

“Technical Specifications.”

•Ensure that the cabinet or rack meets the requirements listed in Appendix A, “Cabinet and Rack

Installation.”

Note Jumper power cords are available for use in a cabinet. See the “Jumper Power Cord” section on

page C-11.

•Ensure that the chassis is adequately grounded. If the switch is not mounted in a grounded rack,

Cisco recommends connecting both the system ground on the chassis and the power supply ground

to an earth ground.

•Ensure that the site power meets the power requirements listed in Appendix B, “Technical

Specifications.” If available, you can use an uninterruptible power supply (UPS) to protect against

power failures.

Caution Avoid UPS types that use ferroresonant technology. These UPS types can become unstable

with systems like the Cisco MDS 9000 Family, which can have substantial current draw

fluctuations because of fluctuating data traffic patterns.

•Ensure that circuits are sized according to local and national codes. For North America, the 845-W

power supply requires a 15-A or 20-A circuit.

If you are using a 200- or 240-VAC power source in North America, the circuit must be protected

by a two-pole circuit breaker.

Caution To prevent loss of input power, ensure the total maximum loads on the circuits supplying

power to the switch are within the current ratings for the wiring and breakers.

•Use the following screw torques when installing the switch:

–

Captive screws: 4 in-lb

–

M3 screws: 4 in-lb

–

M4 screws: 12 in-lb

–

10-32 screws: 20 in-lb

–

12-24 screws: 30 in-lb

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Chapter 2 Installing the Cisco MDS 9200 Series

Preinstallation

Required Equipment

Before beginning the installation, ensure that the following items are ready:

•Number 1 and number 2 Phillips screwdrivers with torque capability

•3/16-in. flat-blade screwdriver

•Tape measure and level

•ESD wrist strap or other grounding device

•Antistatic mat or antistatic foam

The following additional items (not found in the accessory kit) are required to ground the chassis:

•Grounding cable (6 AWG recommended), sized according to local and national installation

requirements; the required length depends on the proximity of the Cisco MDS 9200 Series to proper

grounding facilities

•Crimping tool large enough to accommodate girth of lug

•Wire-stripping tool

Unpacking and Inspecting the Switch

Caution When handling switch components, wear an ESD strap and handle modules by the carrier edges only.

An ESD socket is provided on the chassis. For the ESD socket to be effective, the chassis must be

grounded through the power cable, the chassis ground, or the metal-to-metal contact with a grounded

rack.

Tip Keep the shipping container in case the chassis requires shipping in the future.

Note If you purchased Cisco support through a Cisco reseller, contact the reseller directly. If you purchased

support directly from Cisco Systems, contact Cisco Technical Support at this URL:

http://www.cisco.com/warp/public/687/Directory/DirTAC.shtml

Note The switch is thoroughly inspected before shipment. If any damage occurred during transportation or

any items are missing, contact your customer representative immediately.

To inspect the shipment, follow these steps:

Step 1 Compare the shipment to the equipment list provided by your customer service representative and verify

that you have received all items, including the following:

•Print documentation and CD-ROMs

•Grounding lug kit

•Rack-mount kit

•ESD wrist strap

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Chapter 2 Installing the Cisco MDS 9200 Series

Installing the Chassis in a Cabinet or Rack

•Cables and connectors

•Any optional items ordered

Step 2 Check for damage and report any discrepancies or damage to your customer service representative. Have

the following information ready:

•Invoice number of shipper (see packing slip)

•Model and serial number of the damaged unit

•Description of damage

•Effect of damage on the installation

Installing the Chassis in a Cabinet or Rack

This section describes how to use the rack-mount kit provided with the switch to install the Cisco MDS

9200 Series into a cabinet or rack that meets the requirements described in Appendix A, “Cabinet and

Rack Installation.” All Cisco MDS 9200 Series switches use the same installation procedure.

Caution If the rack is on wheels, ensure that the brakes are engaged or that the rack is otherwise stabilized.

The rack-mount kit provided with the switch contains the items listed in Table 2-1. If you do not find all

the parts listed in Table 2-1, you may have an older version of the rack-mount kit, which only included

the front rack-mount brackets. If this is the case, you can either install the switch in the rack with just

the front rack-mount brackets, or contact your customer service representative for a current version of

the rack-mount kit.

Note If you purchased Cisco support through a Cisco reseller, contact the reseller directly. If you purchased

support directly from Cisco, contact Cisco Technical Support at this URL:

http://www.cisco.com/warp/public/687/Directory/DirTAC.shtml

Table 2-1 Contents of Cisco MDS 9200 Series Rack-Mount Kit

Quantity Part Description

Front rack-mount bracket kit

2 Front rack-mount brackets

12 M4 x 6-mm Phillips countersunk screws

Cable management bracket kit

2 Cable guide

6 12-24 x 3/4-inch Phillips binder-head screws

6 10-32 x 3/4-inch Phillips binder-head screws

Rear rack-mount bracket kit

2 Long slider rails

2 Short slider rails

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Chapter 2 Installing the Cisco MDS 9200 Series

Installing the Chassis in a Cabinet or Rack

To install the switch in a cabinet or rack using the rack-mount kit provided with the switch, follow these

steps:

Step 1 Install the front rack-mount brackets as follows:

a. Position a front rack-mount bracket against the chassis and align the screw holes as shown in

Figure 2-1. Then attach the front rack-mount bracket to the chassis with six of the M4 screws.

b. Repeat with the other front rack-mount bracket on the other side of the switch.

Figure 2-1 Attaching Front Rack-Mount Bracket to the Cisco MDS 9200 Series

2C brackets

6 12-24 x 3/4-inch Phillips binder-head screws

6 10-32 x 3/4-inch Phillips binder-head screws

4 M4 x 6-mm, Phillips countersunk screws

Table 2-1 Contents of Cisco MDS 9200 Series Rack-Mount Kit (continued)

Quantity Part Description

1Front rack-mount

bracket

2Screws, M4

116891

MDS 9216i

GE1

LINK

GE2

LINK

5678910 11 12 13 14

1234

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Chapter 2 Installing the Cisco MDS 9200 Series

Installing the Chassis in a Cabinet or Rack

Step 2 Install the C brackets on the switch as follows:

a. Position one of the C brackets against the side of the switch and align the screw holes as shown in

Figure 2-2 and Figure 2-3. Then attach the bracket to the switch with two of the flat-head M4

screws.

Note Ensure the C bracket is oriented so that it blocks the fewest airflow holes on the chassis; the holes

should be slightly closer to the bottom of the brackets and the text on the back of the bracket

should be right side up.

b. Repeat with the other C bracket on the other side of the switch.

Figure 2-2 Installing C Brackets onto the Cisco MDS 9200 Series

1C bracket 2Screws, M4

MDS 9216i

GE1

LINK

GE2

LINK

567891011121314

1234

116892

1 2

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Chapter 2 Installing the Cisco MDS 9200 Series

Installing the Chassis in a Cabinet or Rack

Figure 2-3 C Brackets for the Cisco MDS 9200 Series (Close-Up View)

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Chapter 2 Installing the Cisco MDS 9200 Series

Installing the Chassis in a Cabinet or Rack

Step 3 Position the chassis in the rack, inserting the rear of the chassis between the front mounting rails (see

Figure 2-4). Use the 12-24 x 3/4-in. or 10-32 x 3/4-in. screws (depending on the type of rack) to attach

the front rack-mount brackets to the mounting rails (three per side).

If you are installing the optional cable guides, place the cable guides in front of the front rack-mount

brackets, and then pass the screws through the cable guides, front rack-mount brackets, and mounting

rail. You can install one or both cable guides; if installing a single cable guide, it can be installed on

either side.

Figure 2-4 Installing the Cisco MDS 9200 Series in the Rack

Step 4 From the back of the rack, position the longer slider rails with the ears away from the chassis and slide

them into the C brackets previously installed on the sides of the chassis (see Figure 2-5).

Step 5 Level the chassis (it may sag slightly towards the back) and attach the slider rails to the mounting rails

with the 12-24 x 3/4-in. or 10-32 x 3/4-in. screws, three per side.

1Mounting rail 3Screws, 12-24 or 10-32

2Front rack-mount

bracket

MDS 9216i

GE1

LINK

GE2

LINK

567891011 1213 14

1234

116893

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Chapter 2 Installing the Cisco MDS 9200 Series

Installing the Chassis in a Cabinet or Rack

Figure 2-5 Inserting and Installing Slider Rails (Back View)

1Screws, 12-24 or 10-32 3C bracket

2Slider rail

99001

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Cisco MDS 9200 Series Hardware Installation Guide

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Chapter 2 Installing the Cisco MDS 9200 Series

Installing the Switch in a Cabinet with Insufficient Front Clearance

Figure 2-6 shows the Cisco MDS 9200 Series completely installed in a rack.

Figure 2-6 Cisco MDS 9200 Series Chassis Installed in the Rack

Installing the Switch in a Cabinet with Insufficient Front

Clearance

This section describes how to use the rack-mount kit provided with the switch to install the Cisco MDS

9200 Series into a cabinet with insufficient front-facing clearance. The Cisco MDS 9200 Series is

installed rear-facing to provide adequate clearance for the fiber-optic cables. This cabinet meets the

requirements described in Appendix A, “Cabinet and Rack Installation,” except the cabinet has less than

three inches of clearance between the inside of the front door or bezel panel and the front cabinet

mounting rails. This rear-facing installation is necessary to ensure that the minimum bend radius for the

fiber-optic cables is maintained. In these cabinets, the Cisco MDS 9200 Series is mounted backwards,

with the fiber-optic cables facing toward the rear of the cabinet and the power supplies facing the front

of the cabinet.

Caution If the rack is on wheels, ensure that the brakes are engaged or that the rack is otherwise stabilized.

MDS 9216i

GE1

LINK

GE2

LINK

567891011121314

1234

116894

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Chapter 2 Installing the Cisco MDS 9200 Series

Installing the Switch in a Cabinet with Insufficient Front Clearance

The rack-mount kit provided with the switch contains the items listed in Table 2-1. If you do not find all

of the parts listed in Table 2-1, you may have an older version of the rack-mount kit, which only included

the front rack-mount brackets. If this is the case, you can either install the switch in the rack with just

the front rack-mount brackets, or contact your customer service representative for a current version of

the rack-mount kit.

Note If you purchased Cisco support through a Cisco reseller, contact the reseller directly. If you purchased

support directly from Cisco, contact Cisco Technical Support at this URL:

http://www.cisco.com/warp/public/687/Directory/DirTAC.shtml

Installing Front Rack-Mount Brackets for Cabinets with 26 Inches or Greater of

Rail Spacings

Before installing the switch into the cabinet, the front rack-mount brackets for the Cisco MDS 9200

Series must be installed onto the switch. To install the brackets for cabinets with front-mounting rail to

rear-mounting rail spacing greater than or equal to 26 inches, follow these steps.

Step 1 Install the front rack-mount brackets as follows:

a. Position a front rack-mount bracket against the chassis and align the screw holes as shown in

Figure 2-7. Then attach the front rack-mount bracket to the chassis with six of the M4 screws.

b. Repeat with the other front rack-mount bracket on the other side of the switch.

Figure 2-7 Attaching Front Rack-Mount Bracket to the Cisco MDS 9200 Series

116891

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GE1

LINK

GE2

LINK

567891011121314

1234

1Front rack-mount bracket 2Screws, M4

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Chapter 2 Installing the Cisco MDS 9200 Series

Installing the Switch in a Cabinet with Insufficient Front Clearance

Step 2 Install the C brackets on the switch as follows:

a. Position one of the C brackets against the side of the switch and align the screw holes as shown in

Figure 2-8 and Figure 2-9. Then attach the bracket to the switch with two of the flat-head M4

screws.

Figure 2-8 Installing C Brackets onto the Cisco MDS 9200 Series

1C bracket 2Screws, M4

MDS 9216i

GE1

LINK

GE2

LINK

567891011121314

1234

116892

1 2

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Chapter 2 Installing the Cisco MDS 9200 Series

Installing the Switch in a Cabinet with Insufficient Front Clearance

Figure 2-9 C Brackets for the Cisco MDS 9200 Series (Close-Up View)

Note Ensure the C bracket is oriented so that it blocks the fewest airflow holes on the chassis; the holes

should be slightly closer to the bottom of the brackets and the text on the back of the bracket

should be right side up.

b. Repeat with the other C bracket on the other side of the switch.

Installing Front Rack-Mount Brackets for Cabinets with Less Than 26 Inches of

Rail Spacings

The front rack-mount brackets for the Cisco MDS 9200 Series switch must be installed onto the switch

prior to installing the switch into the cabinet. For cabinets with less than 26 inches of rail-to-rail spacing,

the front rack-mount bracket must be installed 180 degrees from normal. To install the brackets for

cabinets with front-mounting rail to rear-mounting rail spacing of less than 26 inches that need to be

mounted backwards to maintain adequate fiber-optic clearance, follow these steps:

Step 1 Install the front rack-mount brackets as follows:

a. Position one of the front rack-mount brackets against the side of the switch and align the screw holes

as shown in Figure 2-10. Then attach the bracket to the switch with the six M4 screws originally

provided with the bracket.

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Chapter 2 Installing the Cisco MDS 9200 Series

Installing the Switch in a Cabinet with Insufficient Front Clearance

Figure 2-10 Front Rack-Mount Brackets (Rotated) Installed on the Cisco MDS 9200 Series

b. Repeat with the other front rack-mount bracket on the other side of the switch.

Step 2 Install the C brackets on the switch as follows:

a. Position one of the C brackets against the side of the switch and align the screw holes as shown in

Figure 2-11 and Figure 2-12. Then attach the bracket to the switch with two of the flat-head M4

screws.

Figure 2-11 Installing C Brackets onto the Cisco MDS 9200 Series

MDS 9216i

116895

LINK-

GE1 GE2

1234

LINK-

10 11 12 13 14

56789

1C bracket 2Screws, M4

MDS 9216i

GE1

LINK

GE2

LINK

567891011121314

1234

116896

1 2

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Chapter 2 Installing the Cisco MDS 9200 Series

Installing the Switch in a Cabinet with Insufficient Front Clearance

Figure 2-12 C Brackets for the Cisco MDS 9200 Series (Close-Up View)

Note Ensure the C bracket is oriented so that it blocks the fewest airflow holes on the chassis; the holes

should be slightly closer to the bottom of the brackets and the text on the back of the bracket

should be right side up.

b. Repeat with the other C bracket on the other side of the switch.

Installing the Cisco MDS 9200 Series Rear-Facing into Cabinet

To install the switch rear-facing in a cabinet using the rack-mount kit provided with the switch, for

cabinets with insufficient front-facing clearance, follow these steps:

Step 1 Position the chassis in the rack, inserting the back of the chassis between the rear mounting rails (see

Figure 2-13). Use the 12-24 x 3/4-in. or 10-32 x 3/4-in. screws (depending on the type of rack) to attach

the front rack-mount brackets to the mounting rails (three per side).

If you are installing the optional cable guides, place the cable guides in front of the front rack-mount

brackets, and then pass the screws through the cable guides, front rack-mount brackets, and mounting

rail. You can install one or both cable guides; if installing a single cable guide, it can be installed on

either side.

94297

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Chapter 2 Installing the Cisco MDS 9200 Series

Installing the Switch in a Cabinet with Insufficient Front Clearance

Note Figure 2-13 shows the front rack-mount brackets as rotated. Your chassis may have these

brackets installed in the normal position.

Figure 2-13 Installing the Cisco MDS 9200 Series (Rear-Facing) in the Rack

Step 2 From the front of the rack, position the longer slider rails with the ears away from the chassis and slide

them into the C brackets previously installed on the sides of the chassis (see Figure 2-14).

Step 3 Level the chassis (it may sag slightly towards the back) and attach the slider rails to the mounting rails

with the 12-24 x 3/4-in. or 10-32 x 3/4-in. screws, three per side.

1Mounting rail 3Screws, 12-24 or 10-32

2Front rack-mount

bracket

MDS 9216i

GE1

LINK

GE2

LINK

56789101112 13 14

1234

116897

Front cabinet

mounting rails

Rear cabinet

mounting rails

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Chapter 2 Installing the Cisco MDS 9200 Series

Installing the Switch in a Cabinet with Insufficient Front Clearance

Figure 2-14 Inserting and Installing Slider Rails (Front View)

Figure 2-15 shows the Cisco MDS 9200 Series completely installed in a rack.

Note Figure 2-15 shows the front rack-mount brackets as rotated. Your chassis may have these

brackets installed in the normal position.

1Screws, 12-24 or 10-32 3C bracket

2Slider rail

113444

Rear cabinet

mounting rails

Front cabinet

mounting rails

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Chapter 2 Installing the Cisco MDS 9200 Series

System Grounding

Figure 2-15 Cisco MDS 9200 Series Installed in the Rack (Back View)

System Grounding

This section describes the need for system grounding and explains how to prevent damage from

electrostatic discharge.

Proper Grounding Practices

Grounding is one of the most important parts of equipment installation. 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 properly ground systems during installation, you

reduce or prevent shock hazards, equipment damage due to transients, and data corruption. Table 2-2

lists some general grounding practice guidelines.

116898

MDS 9216i

GE1

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GE2

LINK

567891011121314

1234

Rear cabinet

mounting rails

Front cabinet

mounting rails

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Chapter 2 Installing the Cisco MDS 9200 Series

System Grounding

Table 2-2 Grounding Best Practices

Environment

Electromagnetic Noise Severity

Level Grounding Recommendations

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.

High 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.

Commercial building is located

in an area where lightning

storms frequently occur but is

not subject to direct lightning

strikes.

High Best grounding practices must

be closely followed.

Commercial building contains a

mix of information technology

equipment and industrial

equipment, such as welding.

Medium to high Best grounding practices must

be closely followed.

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 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.

New commercial building is not

subject to natural environmental

noise or man-made industrial

noise. This building contains a

standard office environment.

Low 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.

Existing commercial building is

not subject to natural

environmental noise or

man-made industrial noise. This

building contains a standard

office environment.

Low 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.

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Chapter 2 Installing the Cisco MDS 9200 Series

System Grounding

Note In all situations, grounding practices must comply with local National Electric Code (NEC)

requirements or local laws and regulations.

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.

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.

Follow these guidelines for preventing ESD damage:

•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 MDS

9200 series chassis are equipped with a banana plug connector (identified by the ground symbol next

to the connector) somewhere on the front panel. Cisco recommends 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 lug.

See “Establishing the System Ground” section on page 2-23 for installation instructions and

location of the chassis system ground pads.

Note You do not need to attach a supplemental system ground wire to the system ground lug; the lug provides

a direct path to the bare metal of the chassis.

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

Step 1 Attach the ESD wrist strap to bare skin as follows:

a. 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.

b. 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.

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Chapter 2 Installing the Cisco MDS 9200 Series

System Grounding

Step 2 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. Cisco recommends 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.

Step 3 Attach either the spring clip or the alligator clip to the ground lug screw as follows (See Figure 2-16.):

a. 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.

b. 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.

Figure 2-16 Attaching the ESD Wrist Strap to the System Ground Lug Screw

MDS 9216i

GE1

LINK

GE2

LINK

5678910 11 1213 14

1234

154017

1ESD ground strap 3Side view of grounding lug (clip slid behind

screw)

2Clip and grounding lug 4Clip installed (behind screw)

5System ground connector

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Chapter 2 Installing the Cisco MDS 9200 Series

System Grounding

In addition, follow these guidelines when handling modules:

•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).

Establishing the System Ground

This section describes how to connect a system ground to the MDS 9200 series switches.

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

You must use the system (NEBS) ground on AC-powered systems if you are installing this equipment in

a U.S. or European Central Office.

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. 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 ground connection is required 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 an earth ground. The system (NEBS) ground connection is required if this equipment

is installed in a U.S. or European Central Office.

•You do not need to power down the chassis because the MDS 9200 series chassis are equipped with

AC-input power supplies.

Required Tools and Equipment

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

•Grounding lug—A two holes standard barrel lug. Supports up to 6 AWG wire. Supplied as part of

accessory kit.

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

•Grounding wire—Not supplied as part of 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 screwdriver.

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Chapter 2 Installing the Cisco MDS 9200 Series

Grounding the Chassis

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

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

Grounding the Chassis

The chassis has a grounding pad with two threaded M4 holes for attaching a grounding lug. Figure 2-17

shows the system ground location on the Cisco MDS 9200 Series.

Warning

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

disconnected last.

Statement 1046

Caution Cisco recommends grounding the chassis, even if the rack is already grounded.

Caution All power supplies must be grounded. The receptacles of the AC power cables used to provide power to

the chassis must be the grounding type, and the grounding conductors should connect to protective earth

ground at the service equipment.

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Chapter 2 Installing the Cisco MDS 9200 Series

Grounding the Chassis

Figure 2-17 Location of System Ground on the Cisco MDS 9200 Series

Warning

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

disconnected last.

Statement 1046

Caution Grounding the chassis is required if you are using DC power supplies, even if the rack is already

grounded. A grounding pad with two threaded M4 holes is provided on the chassis for attaching a

grounding lug. The ground lug must be NRTL listed. In addition the copper conductor (wires) must be

used and the copper conductor must comply with NEC code for ampacity.

1ESD socket (on switch) 4Screws, M4, with square cone

washers

2ESD plug 5NRTL listed grounding lug

3Grounding cable 6Close-up of grounding pad on

switch

MDS 9216i

GE1

LINK

GE2

LINK

567891011 121314

1234

116899

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Chapter 2 Installing the Cisco MDS 9200 Series

Starting Up the Switch

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

Step 1 Use a wire-stripping tool to remove approximately 0.75 in. (19 mm) of the covering from the end of the

grounding cable.

Step 2 Insert the stripped end of the grounding cable into the open end of the grounding lug.

Step 3 Use the crimping tool to secure the grounding cable in the grounding lug.

Step 4 Remove the adhesive label from the grounding pad on the chassis.

Step 5 Place the grounding lug against the grounding pad so that there is solid metal-to-metal contact, and insert

the two M4 screws with washers through the holes in the grounding lug and into the grounding pad.

Step 6 Ensure that the lug and cable do not interfere with other equipment.

Step 7 Prepare the other end of the grounding cable and connect it to an appropriate grounding point in your

site to ensure adequate earth ground.

Starting Up the Switch

This section provides instructions for powering up the switch and verifying component installation.

Warning

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

when servicing.

Statement 1034

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. During this

procedure, wear grounding wrist straps to avoid ESD damage to the switch.

Statement 1029

Note Do not connect the MGMT 10/100 Ethernet port to the LAN until the initial switch configuration has

been performed. For instructions on configuring the switch, see the Cisco MDS 9000 Family CLI

Configuration Guide or the Cisco MDS 9000 Family Fabric Manager Configuration Guide. For

instructions on connecting to the console port, see the “Connecting to the Console Port” section on

page 3-2.

Warning

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

disconnected last.

Statement 1046

To power up the switch and verify hardware operation, follow these steps:

Step 1 Verify that empty module slots have filler panels installed, the faceplates of all modules are flush with

the front of the chassis, the ejector levers are fully closed and approximately parallel to the front of the

module, and the captive screws of the power supplies, fan module, and all supervisor, switching, or

services modules are tight.

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Chapter 2 Installing the Cisco MDS 9200 Series

Starting Up the Switch

Step 2 Verify that both power supplies and the fan module are installed.

Step 3 Verify that the power switches on both power supplies are off, and then plug the power cables into the

power supplies and tighten the screws on the power cable retainers to ensure the cables cannot be pulled

out.

Note Depending on the outlet receptacle on your power distribution unit, you may need the optional

jumper power cord to connect the Cisco MDS 9200 Series to your outlet receptacle. See the

“Jumper Power Cord” section on page C-11.

Step 4 Connect the other end of the power cables to an AC power source.

Step 5 Ensure that the switch is adequately grounded as described in the “Installing the Switch in a Cabinet with

Insufficient Front Clearance” section on page 2-11, and that the power cables are connected to outlets

that have the required AC power voltages (see the “Weight of Modules” section on page B-3).

Step 6 Flip the power switches on the power supplies to the on (|) position. The switch boots automatically.

Step 7 Listen for the fans; they should begin operating when the switch is powered on.

Caution Do not operate the switch without a functioning fan module except for during the brief fan

module replacement procedure. Cisco MDS 9000 Family switches can operate for only a few

minutes without any functioning fan modules before they begin to overheat.

Step 8 After the switch boots, verify that the LED behavior is as follows:

•Fan module: Status LED is green.

•Power supplies:

–

Input Ok LED is green.

–

Fan Ok LED is green.

–

Output Fail LED is off.

•Supervisor, switching, or services modules:

–

During initialization, the status LED on the module flashes orange once, remains orange during

diagnostic boot tests, then turns green when the module is operational (online). If the system

software is unable to start up, this LED remains orange or turns red.

–

After initialization, the status LED is green, indicating that all chassis environmental monitors

are reporting that the system is operational. If this LED is orange or red, then one or more

environmental monitor is reporting a problem.

•The Link LEDs for the Ethernet port should not be on unless the cable is connected.

Note The link LEDs for the Fibre Channel ports remain yellow until the ports are enabled, and the

LED for the MGMT 10/100 Ethernet port remains off until the port is connected.

Step 9 Try removing and reinstalling a component that is not operating correctly. If it still does not operate

correctly, contact your customer service representative for a replacement.

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Note If you purchased this product through a Cisco reseller, contact the reseller directly for technical

support. If you purchased this product directly from Cisco, contact Cisco Technical Support at

this URL: http://www.cisco.com/warp/public/687/Directory/DirTAC.shtml.

Step 10 Verify that the system software has booted and the switch has initialized without error messages. If any

problems occur, see the Cisco MDS 9000 Family Troubleshooting Guide or the Cisco MDS 9000 Family

System Messages Guide. If you cannot resolve an issue, contact your customer service representative.

Step 11 Complete the worksheets provided in Appendix D, “Site Planning and Maintenance Records” for future

reference.

Note A setup utility automatically launches the first time you access the switch and guides you through the

basic configuration. For instructions on how to configure the switch and check module connectivity, see

the Cisco MDS 9000 Family CLI Configuration Guide or the Cisco MDS 9000 Family Fabric Manager

Configuration Guide.

Removing and Installing Components

This section includes the following topics:

•Removing and Installing Switching and Services Modules, page 2-28

•Maintaining a Caching Services Module, page 2-35

•Removing and Installing Power Supplies, page 2-36

•Removing and Installing the Fan Module, page 2-38

•Removing the Cisco MDS 9200 Series, page 2-40

Warning

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

when servicing.

Statement 1034

Caution To prevent ESD damage, wear grounding wrist straps during these procedures and handle modules by

the carrier edges only.

Removing and Installing Switching and Services Modules

Slot 1 is reserved for the supervisor module with its integrated multiport switching or IP services

module. Slot 2 can contain an optional module. See Figure 1-2 for slot locations.

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

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Warning

Use of controls, adjustments, or performing procedures other than those specified may result in

hazardous radiation exposure.

Statement 1057

Warning

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

when servicing.

Statement 1034

Caution To prevent ESD damage, wear grounding wrist straps during these procedures and handle modules by

the carrier edges only.

Note Install the Cisco MDS 9200 Series in the rack before installing modules. For information about installing

the chassis, see the “Installing the Chassis in a Cabinet or Rack” section on page 2-5.

This section includes the following topics:

•Removing a Caching Services Module, page 2-31

•Removing Other Switching or Services Modules, page 2-32

•Installing a Switching or Services Module, Including Caching Services Modules, page 2-33

•Verifying Installation of a Switching or Services Module, page 2-34

Figure 2-18 and Figure 2-19 show the positioning of a module in the chassis.

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Figure 2-18 Positioning the Module in the Chassis

MDS 9216i

GE1

LINK

GE2

LINK

567891011121314

1234

EMI gasket

STATUS

DS-X9032

1/2 G FC Module

EMI gasket

Insert module

between slot guides

117000

Ejector lever fully

extended

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Figure 2-19 Clearing the EMI Gasket

Removing a Caching Services Module

Note A minimum of two CSMs in each fabric are required for redundancy and data backup.

Warning

Do not touch or bridge the metal contacts on the battery. Unintentional discharge of the batteries can

cause serious burns.

Statement 341

Warning

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

Statement 1040

Caution Wait for all LEDs to turn off before removing the module from the chassis. If the LEDs are on, the

module still has power.

MDS 9216i

GE1

LINK

GE2

LINK

567891011 12 13 14

1234

122001

1mm

Amount of gap

between the

module EMI

gasket and the

module above it

Press down

STATUS

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To remove a CSM module from the chassis, follow these steps:

Step 1 Power off the module from the CLI. For information about the correct command to use, see the

Cisco MDS 9000 Family CLI Configuration Guide.

Step 2 Ensure that the backup process has completed by verifying that all LEDs on the module have turned off.

This requires up to 10 minutes.

Step 3 Loosen the two captive screws on the module.

Step 4 Remove the module from the chassis as follows:

a. Place your thumbs on the left and right ejector levers (shown in Figure 2-18 on page 2-30) and

simultaneously rotate the levers outward to unseat the module from the backplane connector.

b. Grasp the front edge of the module and slide the module part of the way out of the slot. Place your

other hand under the module to support the weight of the module. Do not touch the module circuitry.

Step 5 Place the module on an antistatic mat or antistatic foam if not immediately reinstalling it in another slot.

Step 6 Install a filler panel to keep dust out of the chassis and maintain consistent airflow if the slot will remain

empty.

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

Removing Other Switching or Services Modules

To remove a switching or services module from the chassis, follow these steps:

Step 1 Disconnect any network interface cables attached to the module.

Step 2 Loosen the two captive screws on the module.

Step 3 Remove the module from the chassis as follows:

a. Place your thumbs on the left and right ejector levers (shown in Figure 2-18 on page 2-30) and

simultaneously rotate the levers outward to unseat the module from the backplane connector.

b. Grasp the front edge of the module and slide the module part of the way out of the slot. Place your

other hand under the module to support the weight of the module. Do not touch the module circuitry.

Step 4 Place the module on an antistatic mat or antistatic foam if not immediately reinstalling it in another slot.

Step 5 Install a filler panel to keep dust out of the chassis and maintain consistent airflow if the slot will remain

empty.

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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 Switching or Services Module, Including Caching Services Modules

The following warning applies only to the Caching Services Module:

Warning

Do not touch or bridge the metal contacts on the battery. Unintentional discharge of the batteries can

cause serious burns.

Statement 341

Note Before installing any modules in the chassis, Cisco recommends installing the chassis in the rack. See

the “Installing the Chassis in a Cabinet or Rack” section on page 2-5.

To install a module in slot 2 of the chassis, follow these steps:

Step 1 Verify that there is enough clearance to accommodate any interface equipment that you connect directly

to the nearby components.

Step 2 If a filler panel is installed, remove the two Phillips pan-head screws from the filler panel and remove

the panel. To remove a currently installed module, see the “Removing and Installing Switching and

Services Modules” section on page 2-28.

Step 3 Open fully both ejector levers on the new or replacement module (see Figure 2-18 on page 2-30).

Step 4 Position the module in the chassis as follows:

a. Position the module in the slot, aligning the sides of the module carrier with the slot guides on each

side of the slot.

b. Slide the module carefully into the slot until the EMI gasket along the top edge of the module makes

contact with the supervisor module above it and both ejector levers have closed to approximately 45

degrees with respect to the module faceplate (see Figure 2-19 on page 2-31).

c. Grasp the two ejector levers using the thumb and forefinger of each hand and press down to create

a small 0.040-in. (1 mm) gap between the module's EMI gasket and the module above it (see

Figure 2-20).

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Figure 2-20 Closing the Ejector Levers

Caution Do not press down too forcefully on the levers because they can bend.

d. Press down and simultaneously close the left and right ejector levers to fully seat the module in the

backplane connector. The ejector levers are fully closed when they are flush with the module

faceplate.

Note Ensure that the ejector levers are fully closed before tightening the captive screws. Failure to

fully seat the module in the backplane connector can result in error messages.

e. Tighten the two captive screws on the module.

Verifying Installation of a Switching or Services Module

To verify the module installation in slot 2, follow these steps:

Step 1 Verify that the ejector levers of the module are fully closed (parallel to the faceplate) to ensure that the

module is fully seated in the backplane connectors.

Step 2 Check the captive screws of the module, the power supply, and the fan module, and tighten any loose

captive screws.

Step 3 Verify that a filler panel is installed and that the screws holding the panel in place are tightened if the

slot is to remain empty.

Step 4 Turn on the power supply switches to power up the system and check the LEDs on the module.

Note For information on how to check connectivity of the module, see the Cisco MDS 9000 Family

CLI Configuration Guide or the Cisco MDS 9000 Family Fabric Manager Configuration Guide.

FAN

STATUS

FAN-MOD-2

122003

Ejector levers flush with

module faceplate

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

STATUS

SYSTEM

RESET

CONSOLE MGMT 10/100

MDS 9216i

COM1

—SPEED LINK—

LINK-

—SPEEDLINK—

STATUS

1 56789

LINK— —SPEED

10 11 12 13 14234

GE1

LINK-

GE2

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Maintaining a Caching Services Module

Caution Maintenance should only be performed by qualified service personnel.

Note A minimum of two CSMs in each fabric are required for redundancy and data backup.

This section includes the following topics:

•Maintaining the Batteries on the Caching Services Module, page 2-35

•Maintaining the Disk Drives on the Caching Services Module, page 2-35

Maintaining the Batteries on the Caching Services Module

The CSM batteries last approximately three years. The following message displays in the system log

when a battery fails:

Dec 5 17:14:36 sw-90.21 %SVC_BATTERY-SLOT8-4-BATTERY_CAPACITY_LOW:

Battery capacity is below the required threshold.

A message also appears in the output of the show interface command.

If you see this message, contact your support provider for assistance. If a battery fails, the CSM must be

replaced.

Caution The CSM batteries are shipped fully charged and should be handled accordingly.

Warning

Do not touch or bridge the metal contacts on the battery. Unintentional discharge of the batteries can

cause serious burns.

Statement 341

Warning

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

Statement 1040

The batteries are automatically charged on a periodic basis with an SMBus-compliant Level III smart

charger located on the CSM. The smart charger measures the charge and recharges the battery to full if

it is less than 90 percent of capacity.

The batteries are also automatically reconditioned on a periodic basis, one battery at a time. During

reconditioning all power is drained from the battery and the battery is completely recharged, requiring

approximately six hours. The Battery Status LED flashes green during the reconditioning.

Maintaining the Disk Drives on the Caching Services Module

A message displays in the system log when a disk drive requires replacement. If you see this message,

contact your support provider for assistance.

If a disk drive fails, the CSM must be replaced. The other CSM(s) in the fabric contain the same data,

and they can continue to provide caching services during the replacement period.

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Removing and Installing Power Supplies

The Cisco MDS 9200 Series supports dual 845-W AC power supplies that monitor output voltage and

provide status to the supervisor module.

This section includes the following topics:

•Removing a Power Supply, page 2-36

•Installing a Power Supply, page 2-36

A flat-blade or Phillips screwdriver is required to perform these procedures.

Warning

Voltage is present on the backplane when the system is operating. To reduce risk of an electric shock,

keep hands and fingers out of the power supply bays and backplane areas.

Statement 166

Warning

Power supply captive installation screws must be tight to ensure protective grounding continuity.

Statement 289

Note You can replace a faulty power supply while the system is operating provided the other power supply is

functioning.

Removing a Power Supply

To remove a power supply, follow these steps:

Step 1 Turn the power switch to the off (0) position.

Step 2 Loosen the screw on the power cable retainer and disconnect the power cable from the power supply

being removed.

Step 3 Loosen the captive screw on the power supply.

Step 4 Grasp the power supply handle with one hand and slide it out of the chassis.

Step 5 Install a blank filler panel if the power supply bay is to remain empty.

Installing a Power Supply

To install a power supply, follow these steps:

Step 1 Ensure that the system (earth) ground connection has been made. For ground connection instructions,

see the “Installing the Switch in a Cabinet with Insufficient Front Clearance” section on page 2-11.

Step 2 If the power supply bay has a filler panel, loosen the screws holding the panel and remove the panel.

Step 3 Verify that the power switch is in the off (0) position on the power supply you are installing. See

Figure 2-21 for the location of the power switch.

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Figure 2-21 845-W AC Power Supply Front Panel

Step 4 Hold the power supply by the handle and orient it as shown in Figure 2-22, and then slide it into the

power supply bay, ensuring that it is fully seated in the bay.

Figure 2-22 Handling an 845-W AC Power Supply

Step 5 Tighten the power supply captive screws.

Step 6 Plug the power cable into the power supply, and tighten the screw on the power cable retainer to ensure

the cable cannot be pulled out.

Note Depending on the outlet receptacle on your power distribution unit, you may need the optional

jumper power cord to connect the Cisco MDS 9200 Series to your outlet receptacle. See the

“Jumper Power Cord” section on page C-11.

Step 7 Connect the other end of the power cable to an AC power source.

1Power switch 4AC power connection

2Power cable retainer 5Captive screw

3Power supply LEDs

94976

PWR-845-AC

100-240V 12-5A

50/60 Hz

INPUT OK

FAN OK

OUTPUT FAIL

ALL FASTENERS MUST BE FULLY ENGAGED

PRIOR TO OPERATING OF POWER SUPPLY

2 3

94975

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Caution In a system with dual power supplies, connect each power supply to a separate power source.

In case of a power source failure, the second source will most likely still be available.

Step 8 Turn the power switch to the on (|) position on the power supply.

Step 9 Verify power supply operation by checking that the power supply LEDs are in the following states:

•Input Ok LED is green.

•Fan Ok LED is green.

•Output Fail LED is off.

Removing and Installing the Fan Module

The fan module is designed to be removed and replaced while the system is operating without presenting

an electrical hazard or damage to the system, provided the replacement is performed promptly.

This section includes the following topics:

•Removing a Fan Module, page 2-39

•Installing a Fan Module, page 2-39

You will need a flat-blade or number 2 Phillips screwdriver to perform these procedures.

Caution The Cisco MDS 9000 Family switches have internal temperature sensors that are capable of shutting

down the system if the temperature at different points within the chassis exceed certain safety thresholds.

To be effective, the temperature sensors require the presence of airflow; therefore, in the event a fan

module is removed from the chassis, the Cisco MDS 9000 Family switches will be shut down after five

minutes to prevent potentially undetectable overheating. However, the switches will shut down sooner if

the higher-level temperature threshold is exceeded.

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Figure 2-23 shows a fan module partially installed in the Cisco MDS 9200 Series.

Figure 2-23 Fan Module

Removing a Fan Module

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

To remove a fan module, follow these steps:

Step 1 Loosen the two captive screws on the fan module by turning them counterclockwise, using a flat-blade

or number 2 Phillips screwdriver if required.

Step 2 Grasp the fan module with both hands and pull it outward; rock it gently, if necessary, to unseat the power

connector from the backplane.

Step 3 Pull the fan module clear of the chassis.

Caution If the switch is powered on, you must hot-swap another fan module into this switch within five

minutes.

Installing a Fan Module

To install a fan module, follow these steps:

Step 1 Hold the fan module with the Fan Status LED at the top (see Figure 2-23).

Step 2 Place the fan module into the front chassis cavity so it rests on the chassis, lift the fan module up slightly

to align the top and bottom chassis guides, then push the fan module into the chassis until it seats in the

backplane and the captive screws make contact with the chassis, and tighten the captive screws.

LINK-

GE1 GE2

1234

LINK-

1011121314

56789

12345678910 11 12 13 14 15 16

122002

MDS 9216i

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Step 3 Listen for the fans if the switch is powered on. You should immediately hear them operating. If you do

not hear them, ensure that the fan module is inserted completely in the chassis and the faceplate is flush

with the outside surface of the chassis.

Step 4 Verify that the Fan Status LED is green. If the LED is not green, one or more fans are faulty. If this

occurs, contact your customer service representative for a replacement part.

Note If you purchased this product through a Cisco reseller, contact the reseller directly for technical support.

If you purchased this product directly from Cisco, contact Cisco Technical Support at this URL:

http://www.cisco.com/warp/public/687/Directory/DirTAC.shtml.

Removing the Cisco MDS 9200 Series

When removing the Cisco MDS 9200 Series from the rack, remove the slider brackets first, and then the

front screws fastening the front rack-mount brackets to the rack.

Note The slider rail and C brackets do not have a stop mechanism when sliding in and out. If the front of the

chassis is unfastened from the rack and the chassis slides forward on the slider rails, it may slip off the

end of the rails and fall out of the rack.

To remove the Cisco MDS 9200 Series from the rack, follow these steps:

Step 1 Remove the screws fastening the slider bracket to the mounting rails.

Step 2 Slide the slider brackets out of the C brackets on the sides of the Cisco MDS 9200 Series.

Step 3 Ensure the weight of the Cisco MDS 9200 Series is supported; for example, being held by another

person.

Step 4 Remove the screws fastening the front rack-mount brackets on the Cisco MDS 9200 Series to the

mounting rails, and remove the Cisco MDS 9200 Series from the rack.

CHAPTER

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Connecting the Cisco MDS 9200 Series

The Cisco MDS 9200 Series provides the following types of ports:

•Console port (interface module)—An RS-232 port that you can use to create a local management

connection.

•COM1 port (interface module)—An RS-232 port that you can use to connect to an external serial

communication device such as a modem.

•MGMT 10/100 Ethernet port (interface module)—An Ethernet port that you can use to access and

manage the switch by IP address, such as through the CLI or Cisco Fabric Manager.

•Fibre Channel ports (supervisor and switching modules)—Fibre Channel ports that you can use to

connect to the SAN, or for in-band management.

•Other port types provided by the optional module, if installed, such as the iSCSI and/or FCIP over

Gigabit Ethernet ports on the 4-port or 8-port IPS modules.

Caution When running power and data cables in overhead or subfloor cable trays, Cisco strongly recommends

that power cables and other potential noise sources must be located as far away as practical from network

cabling that terminates on Cisco equipment. In situations where long parallel cable runs cannot be

separated by at least 3.3 ft (1 m), Cisco recommends shielding any potential noise sources by housing

them in a grounded metallic conduit.

This chapter includes the following topics:

•Preparing for Network Connections, page 3-2

•Connecting to the Console Port, page 3-2

•Connecting to the COM1 Port, page 3-4

•Connecting to the MGMT 10/100 Ethernet Port, page 3-5

•Connecting to a Fibre Channel Port, page 3-6

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Preparing for Network Connections

When preparing your site for network connections to the Cisco MDS 9200 Series, consider the following

for each type of interface, and gather all the required equipment before connecting the ports:

•Cabling required for each interface type

•Distance limitations for each signal type

•Additional interface equipment required

Connecting to the Console Port

The console port (labeled Console) is an RS-232 port with an RJ-45 interface. (See Figure 3-1.) The

console port is an asynchronous (async) serial port; any device connected to this port must be capable

of asynchronous transmission.

Cisco recommends using this port to create a local management connection to set the IP address and

other initial configuration settings before connecting the switch to the network for the first time.

Caution The console port can be used to connect to a modem, however, Cisco recommends using the COM1 port

for this purpose. If you decide to connect the console port to a modem, do not connect it while the switch

is booting; connect either before powering the switch on or after the switch has completed the boot

process.

Figure 3-1 Connecting to the Console Port on the Cisco MDS 9200 Series

You can use the console port to perform the following:

•Configure the Cisco MDS 9200 Series from the CLI.

•Monitor network statistics and errors.

•Configure SNMP agent parameters.

•Download software updates.

FAN

STATUS

FAN-MOD-2

122004

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

STATUS

SYSTEM

RESET

CONSOLE MGMT 10/100

MDS 9216i

COM1

—SPEED LINK—

LINK-

—SPEEDLINK—

STATUS

156789

LINK— —SPEED

10 11 12 13 14234

GE1

LINK-

GE2

Console

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Connecting to the Console Port

Note To connect the console port to a computer terminal, the computer must support VT100 terminal

emulation. The terminal emulation software—frequently an application such as HyperTerminal or

Procomm Plus—makes communication between the Cisco MDS 9200 Series and a computer possible

during setup and configuration.

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

Step 1 Configure the terminal emulator program to match the following default port characteristics: 9600 baud,

8 data bits, 1 stop bit, no parity.

Step 2 Connect the supplied RJ-45 to DB-9 female adapter or RJ-45 to DB-25 female adapter (depending on

your computer serial port) to the computer serial port. Cisco recommends using the adapter and cable

provided with the switch.

Step 3 Connect the console cable (a rollover RJ-45 to RJ-45 cable) to the console port (see Figure 3-1) and to

the RJ-45 to DB-9 adapter or RJ-45 to DB-25 adapter at the computer serial port.

Note For configuration instructions, see the Cisco MDS 9000 Family CLI Configuration Guide or the

Cisco MDS 9000 Family Fabric Manager Configuration Guide.

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Chapter 3 Connecting the Cisco MDS 9200 Series

Connecting to the COM1 Port

Note The COM1 port is not supported for connection to a console.

The COM1 port (labeled COM1) is an RS-232 port with a DB-9 interface. (See Figure 3-2.) You can use

this port to connect to an external serial communication device such as a modem. For information about

how to turn off hardware flow control, see the Cisco MDS 9000 Family CLI Configuration Guide or the

Cisco MDS 9000 Family Fabric Manager Configuration Guide.

Figure 3-2 Connecting to the COM1 Port on the Cisco MDS 9200 Series

To connect the COM1 port to a modem, follow these steps:

Step 1 Connect the DB-9 serial adapter to the COM1 port.

Note Connect the modem to the COM1 port using the adapters and cables provided with the accessory

kit.

Step 2 Connect the RJ-45 to DB-25 modem adapter to the modem.

Step 3 Connect these two adapters using the RJ-45 to RJ-45 rollover cable (or equivalent crossover cable).

Step 4 If the default settings for the COM1 port were modified, see the Cisco MDS 9000 Family CLI

Configuration Guide or the Cisco MDS 9000 Family Fabric Manager Configuration Guide for

information on this feature.

FAN

STATUS

FAN-MOD-2

122005

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

STATUS

SYSTEM

RESET

CONSOLE MGMT 10/100

MDS 9216i

COM1

—SPEED LINK—

LINK-

—SPEEDLINK—

STATUS

156789

LINK— —SPEED

10 11 12 13 14234

GE1

LINK-

GE2

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Chapter 3 Connecting the Cisco MDS 9200 Series

Connecting to the MGMT 10/100 Ethernet Port

The default COM1 settings are as follows:

line Aux:

Speed: 9600 bauds

Databits: 8 bits per byte

Stopbits: 1 bit(s)

Parity: none

Modem In: Enable

Modem Init-String -

default : ATE0Q1&D2&C1S0=1\015

Statistics: tx:17 rx:0 Register Bits:RTS|DTR

Connecting to the MGMT 10/100 Ethernet Port

Caution To prevent an IP address conflict, do not connect the MGMT 10/100 Ethernet port to the network until

the initial configuration is complete. For configuration instructions, see the Cisco MDS 9000 Family CLI

Configuration Guide or the Cisco MDS 9000 Family Fabric Manager Configuration Guide.

The MGMT 10/100 Ethernet port is autosensing and has an RJ-45 interface. (See Figure 3-3.) You can

use this port to access and manage the switch by its IP address, such as through the Cisco Fabric

Manager.

Figure 3-3 Connecting to the MGMT 10/100 Ethernet Port on the Cisco MDS 9200 Series

To connect the MGMT 10/100 Ethernet port to an external hub, switch, or router, follow these steps:

Step 1 Connect the appropriate modular cable to the MGMT 10/100 Ethernet port:

•Use modular, RJ-45, straight-through UTP cables to connect the 10/100 management port to an

Ethernet switch port or hub.

•Use a cross-over cable to connect to a router interface.

Step 2 Connect the other end of the cable to the device.

FAN

STATUS

FAN-MOD-2

122006

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

TUS

SYSTEM

RESET

CONSOLE MGMT 10/100

MDS 9216i

COM1

—SPEED LINK—

LINK-

—SPEEDLINK—

STATUS

156789

LINK— —SPEED

10 11 12 13 14234

GE1

LINK-

GE2

MGMT 10/100

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Chapter 3 Connecting the Cisco MDS 9200 Series

Connecting to a Fibre Channel Port

The Fibre Channel ports on the switch modules are compatible with LC-type fiber-optic SFP transceivers

and cables. You can use the Fibre Channel ports to connect to the SAN or for in-band management. For

information about configuring the switch for in-band management, see the Cisco MDS 9000 Family CLI

Configuration Guide or the Cisco MDS 9000 Family Fabric Manager Configuration Guide.

The Cisco MDS 9000 Family supports both Fibre Channel and Gigabit Ethernet protocols for SFP

transceivers. Each transceiver must match the transceiver on the other end of the cable, and the cable

must not exceed the stipulated cable length for reliable communications. SFP transceivers can be ordered

separately or with the Cisco MDS 9200 Series.

Warning

Class 1 laser product.

Statement 1008

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

Caution Wear an ESD wrist strap connected to the chassis when handling transceivers. Keep optical connectors

covered when not in use, and do not touch connector ends. The fiber-optic connectors must be free of

dust, oil, and other contaminants.

This section includes the following topics:

•Removing and Installing X2 Transceivers, page 3-6

•Removing and Installing SFP Transceivers, page 3-8

•Removing and Installing Cables into SFP Transceivers, page 3-11

•Maintaining SFP Transceivers and Fiber-Optic Cables, page 3-13

Removing and Installing X2 Transceivers

Caution Excessively removing and installing an X2 transceiver can shorten its life. Do not remove and insert X2

transceivers more often unless it is absolutely necessary. Cisco recommends disconnecting cables before

installing or removing SFP transceivers to prevent damage to the cable or transceiver.

Note Use only Cisco X2 transceivers listed in Table B-10 on page B-8 on the Cisco MDS 9200 Series. Each

X2 transceiver is encoded with model information that enables the switch to verify that the X2

transceiver meets the requirements for the switch. For instructions specific to the transceiver type, see

the “X2 Transceiver Specifications” section on page B-7.

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Chapter 3 Connecting the Cisco MDS 9200 Series

Connecting to a Fibre Channel Port

The Cisco MDS 9000 Family supports X2 transceivers with SC connectors. (See Figure 3-4.)

Figure 3-4 Cisco MDS 9000 Family X2 Transceivers

1Transmit optical bore 6Module connector

2Receive optical bore 7Latch (extended)

3Latching sleeve (retracted) 8Latching sleeve (extended)

4EMI gasket 9Latch (retracted)

5Transceiver heat sink

120754

Latching sleeve retracted;

latch extended

Latching sleeve extended;

latch retracted

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Chapter 3 Connecting the Cisco MDS 9200 Series

Connecting to a Fibre Channel Port

Installing an X2 Transceiver

To install an X2 transceiver, follow these steps:

Step 1 Attach an ESD-preventive wrist strap and follow its instructions for use.

Caution If the transceiver does not install easily, ensure that it is correctly oriented before continuing.

Step 2 Remove the dust cover from the port end of the transceiver.

Step 3 Insert the transceiver into the port. ensure the transceiver is fully seated.

Note If you cannot install the cable into the transceiver, insert or leave the dust plug in the cable end

of the transceiver.

Removing an X2 Transceiver

To remove an X2 transceiver, follow these steps:

Step 1 Attach an ESD-preventive wrist strap and follow its instructions for use.

Step 2 If a cable is installed in the transceiver:

a. Record the cable and port connections for later reference.

b. Press the release latch on the cable, grasp the connector near the connection point, and gently pull

the connector from the transceiver.

c. Insert a dust plug into the cable end of the transceiver.

Caution If the transceiver does not remove easily in the next step, push the transceiver completely in

and then ensure that the latch is in the correct position before continuing.

Step 3 Remove the transceiver from the port.

Step 4 Insert a dust cover into the port end of the transceiver and place the transceiver on an antistatic mat or

into a static shielding bag if you plan to return it to the factory.

Removing and Installing SFP Transceivers

Caution Excessively removing and installing an SFP transceiver can shorten its life. Do not remove and insert

SFP transceivers more often unless it is absolutely necessary. Cisco recommends disconnecting cables

before installing or removing SFP transceivers to prevent damage to the cable or transceiver.

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Chapter 3 Connecting the Cisco MDS 9200 Series

Connecting to a Fibre Channel Port

Note Use only Cisco SFP transceivers on the Cisco MDS 9200 Series. Each Cisco SFP transceiver is encoded

with model information that enables the switch to verify that the SFP transceiver meets the requirements

for the switch. For instructions specific to the transceiver type, see the “SFP and SFP+ Transceiver

Specifications” section on page B-10.

The Cisco MDS 9000 Family supports SFP transceivers with the following two types of latching devices:

•Mylar tab latch (Figure 3-5)

•Bale-clasp latch (Figure 3-6)

Figure 3-5 SFP Transceiver with Mylar Tab Latch

Figure 3-6 SFP Transceiver with Bale-Clasp Latch

Installing an SFP Transceiver

To install an SFP transceiver, follow these steps:

Step 1 Attach an ESD-preventive wrist strap and follow its instructions for use.

Step 2 Remove the dust cover from the port cage.

Step 3 Remove the dust cover from the port end of the transceiver.

Step 4 Insert the transceiver into the port:

•If the transceiver has a Mylar tab, orient the transceiver with the tab on the bottom, and then gently

insert the transceiver into the port until it clicks into place.

•If the transceiver has a bale clasp, orient the transceiver with the clasp on the bottom, close the clasp

by pushing it up over the transceiver, and then gently insert the transceiver into the port until it clicks

into place.

Caution If the transceiver does not install easily, ensure that it is correctly oriented and the tab or clasp

are in the correct position before continuing.

63065

63067

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Chapter 3 Connecting the Cisco MDS 9200 Series

Connecting to a Fibre Channel Port

Note If you cannot install the cable into the transceiver, insert or leave the dust plug in the cable end

of the transceiver.

Removing an SFP Transceiver

To remove an SFP transceiver, follow these steps:

Step 1 Attach an ESD-preventive wrist strap and follow its instructions for use.

Step 2 If a cable is installed in the transceiver:

a. Record the cable and port connections for later reference.

b. Press the release latch on the cable, grasp the connector near the connection point, and gently pull

the connector from the transceiver.

c. Insert a dust plug into the cable end of the transceiver.

Caution If the transceiver does not remove easily in the next step, push the transceiver completely in

and then ensure that the latch is in the correct position before continuing.

Step 3 Remove the transceiver from the port:

•If the transceiver has a Mylar tab latch, gently pull the tab straight out (do not twist), and then pull

the transceiver out of the port.

•If the transceiver has a bale clasp latch, open the clasp by pressing it downwards, and then pull the

transceiver out of the port.

Note If you have difficulty removing a bale clasp SFP transceiver, you should reseat the SFP by

returning the bale clasp in the up position. Then press the SFP inward and upward into the cage.

Next, lower the bale clasp and pull the SFP straight out with a slight upward lifting force (see

Figure 3-7). Be careful not to damage the port cage during this process.

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Chapter 3 Connecting the Cisco MDS 9200 Series

Connecting to a Fibre Channel Port

Figure 3-7 Alternate Removal Method for Bale Clasp SFP Transceivers

Step 4 Insert a dust cover into the port end of the transceiver and place the transceiver on an antistatic mat or

into a static shielding bag if you plan to return it to the factory.

Step 5 If another transceiver is not being installed, protect the optical cage by inserting a clean cover.

Removing and Installing Cables into SFP Transceivers

Caution To prevent damage to the fiber optic cables, do not place more tension on them than the rated limit and

do not bend to a radius of less than 1 inch if there is no tension in the cable, or 2 inches if there is tension

in the cable.

Installing a Cable into an SFP Transceiver

Caution To prevent possible damage to the cable or transceiver, install the transceiver in the port before installing

the cable in the transceiver.

To install a cable into a transceiver, follow these steps:

Step 1 Attach an ESD-preventive wrist strap and follow its instructions for use.

Step 2 Remove the dust cover from the connector on the cable.

Step 3 Remove the dust cover from the cable end of the transceiver.

Step 4 Align the cable connector with the transceiver and insert the connector into the transceiver until it clicks

into place. (See Figure 3-8).

115237

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Chapter 3 Connecting the Cisco MDS 9200 Series

Connecting to a Fibre Channel Port

Figure 3-8 Connecting the LC-Type Cable to a Fibre Channel Port

Caution If the cable does not install easily, ensure that it is correctly oriented before continuing.

For instructions on verifying connectivity, see the Cisco MDS 9000 Family CLI Configuration Guide or

the Cisco MDS 9000 Family Fabric Manager Configuration Guide.

Removing a Cable from an SFP Transceiver

Caution When pulling a cable from a transceiver, grip the body of the connector. Do not pull on the jacket sleeve,

because this can compromise the fiber-optic termination in the connector.

Caution If the cable does not remove easily, ensure that any latch present on the cable has been released before

continuing.

To remove the cable, follow these steps:

Step 1 Attach an ESD-preventive wrist strap and follow its instructions for use.

Step 2 Press the release latch on the cable, grasp the connector near the connection point, and gently pull the

connector from the transceiver.

Step 3 Insert a dust plug into the cable end of the transceiver.

Step 4 Insert a dust plug onto the end of the cable.

LC plug

SFP module

91681

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Chapter 3 Connecting the Cisco MDS 9200 Series

Connecting to a Fibre Channel Port

Maintaining SFP Transceivers and Fiber-Optic Cables

SFP transceivers and fiber-optic cables must be kept clean and dust-free to maintain high signal accuracy

and prevent damage to the connectors. Attenuation (Loss of Light) is increased by contamination and

should be below 0.35 dB.

Consider the following maintenance guidelines:

•SFP transceivers are static sensitive. To prevent ESD damage, wear an ESD-preventive wrist strap

that is connected to the chassis.

•Do not remove and insert a transceiver more often than is necessary. Repeated removals and

insertions can shorten its useful life.

•Keep all optical connections covered when not in use. If they become dusty, clean before using to

prevent dust from scratching the fiber-optic cable ends.

•Do not touch ends of connectors to prevent fingerprints and other contamination.

•Clean regularly; the required frequency of cleaning depends upon the environment. In addition,

clean connectors if they are exposed to dust or accidentally touched. Both wet and dry cleaning

techniques can be effective; refer to your site’s fiber-optic connection cleaning procedure.

•Inspect routinely for dust and damage. If damage is suspected, clean and then inspect fiber ends

under a microscope to determine if damage has occurred.

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Chapter 3 Connecting the Cisco MDS 9200 Series

Connecting to a Fibre Channel Port

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APPENDIX

Cabinet and Rack Installation

This appendix provides information on how to install cabinet and rack, and includes the following

sections:

•Cabinet and Rack Requirements, page A-1

•Cisco MDS 9000 Family telco and EIA Shelf Bracket, page A-4

Cabinet and Rack Requirements

This section provides the Cisco MDS 9000 Family requirements for the following types of cabinets and

racks, assuming an external ambient air temperature range of 0 to 104oF (0 to 40oC):

•Standard perforated cabinets

•Solid-walled cabinets with a roof fan tray (bottom to top cooling)

•Standard open racks

•telco racks

Note If you are selecting an enclosed cabinet, Cisco recommends one of the thermally validated types:

standard perforated or solid-walled with a fan tray.

Note Do not use racks that have obstructions (such as power strips), because the obstructions could impair

access to field-replaceable units (FRUs).

General Requirements for Cabinets and Racks

The cabinet or rack must be one of the following types:

•Standard 19-in. (48.3 cm) (four-post EIA cabinet or rack, with mounting rails that conform to

English universal hole spacing per section 1 of ANSI/EIA-310-D-1992. See the “Requirements

Specific to Perforated Cabinets” section on page A-2 and the “Requirements Specific to

Solid-Walled Cabinets” section on page A-3.

•Standard two-post telco rack, with mounting rails that conform to English universal hole spacing per

section 1 of ANSI/EIA-310-D-1992. See the “Requirements Specific to telco Racks” section on

page A-3.

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Appendix A Cabinet and Rack Installation

Cabinet and Rack Requirements

The cabinet or rack must also meet the following requirements:

•The minimum vertical rack space per chassis must be three RU (rack units), equal to 5.25 in. (13.3

cm).

•The width between the rack-mounting rails must be at least 17.75 in. (45.1 cm) if the rear of the

switch is not attached to the rack. For four-post EIA racks, this is the distance between the two front

rails.

•For four-post EIA cabinets (perforated or solid-walled):

–

The minimum spacing for the bend radius for fiber-optic cables should have the front mounting

rails of the cabinet offset from the front door by a minimum of 3 in. (7.6 cm), and a minimum

of 5 in. (12.7 cm) if cable management brackets are installed on the front of the chassis.

–

The distance between the outside face of the front mounting rail and the outside face of the back

mounting rail should be 23.5 to 34.0 in. (59.7 to 86.4 cm) to allow for rear bracket installation.

–

A minimum of 2.5 in. (6.4 cm) of clear space should exist between the side edge of the chassis

and the side wall of the cabinet. No sizeable flow obstructions should be immediately in the way

of chassis air intake or exhaust vents.

Note Optional jumper power cords are available for use in a cabinet. See the “Jumper Power Cord”

section on page C-11.

Requirements Specific to Perforated Cabinets

A perforated cabinet is defined here as a cabinet with perforated front and rear doors and solid side walls.

In addition to the requirements listed in the “General Requirements for Cabinets and Racks” section on

page A-1, perforated cabinets must meet the following requirements:

•The front and rear doors must have at least a 60% open area perforation pattern, with at least 15

square inches of open area per rack unit of door height.

•Cisco recommends that the roof be perforated with at least a 20 percent open area.

•Cisco recommends an open or perforated cabinet floor to enhance cooling.

A perforated cabinet that conforms to these requirements is available from Rittal Corporation:

Rittal Corporation

One Rittal Place

Springfield, OH 45504

Contact: (800) 477–4220

Cabinet P/N: Rittal 9969427

Cabinet description: PS-DK/OEM Cabinet Assembly, (78.7 in.) 1998 mm X 23.6 in. (600 mm) X

39.4 in. (1000 mm) (H x W x D) (42 RU)

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Appendix A Cabinet and Rack Installation

Cabinet and Rack Requirements

Requirements Specific to Solid-Walled Cabinets

A solid-walled cabinet is defined here as a cabinet with solid front and rear doors and solid side walls.

In addition to the requirements listed in the “General Requirements for Cabinets and Racks” section on

page A-1, solid-walled cabinets must meet the following requirements:

•A roof-mounted fan tray and an air cooling scheme in which the fan tray pulls air in at the bottom

of the cabinet and exhausts it out the top, with a minimum of 500 cfm of airflow exiting the cabinet

roof through the fan tray.

•Nonperforated (solid and sealed) front and back doors and side panels so that air travels predictably

from bottom to top.

•A recommended cabinet depth of 36 to 42 in.(91.4 to 106.7 cm) to allow the doors to close and for

adequate airflow.

•A minimum of 150 sq. in. (968 sq. cm) of open area at the floor air intake of the cabinet.

•The lowest piece of equipment should be installed a minimum of 1.75 in. (4.4 cm) above the floor

openings to prevent blocking the floor intake.

Requirements Specific to Standard Open Racks

In addition to the requirements listed in the “General Requirements for Cabinets and Racks” section on

page A-1, if mounting the chassis in an open rack (no side panels or doors), ensure that the rack meets

the following requirements:

•The minimum width between two front mounting rails must be 17.75 in. (45.1 cm).

•The minimum vertical rack space per chassis must be three RU (rack unit), equal to 5.25 in. (13.3

cm).

•The distance between the outside face of the front mounting rail and the outside face of the back

mounting rail should be 23.5 to 34.0 in. (59.7 to 86.4 cm) to allow for rear bracket installation.

•The horizontal distance between the chassis and any adjacent chassis should be 6 in.(15.2 cm), and

the distance between the chassis air vents and any walls should be 2.5 in. (6.4 cm).

Requirements Specific to telco Racks

In addition to the requirements listed in the “General Requirements for Cabinets and Racks” section on

page A-1, telco racks should meet the following requirements:

•The width of the rack between the two rack-mounting rails should be at least 17.75 in. (45.1 cm).

•The distance between the chassis air vents and any walls should be 2.5 in. (6.4 cm).

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Appendix A Cabinet and Rack Installation

Cisco MDS 9000 Family telco and EIA Shelf Bracket

The optional telco and EIA Shelf Bracket Kit (part number DS-SHELF=) can temporarily or permanently

support the Cisco MDS 9200 Series during installation. Once the front rack-mount brackets are securely

attached to the rack-mounting rails, the shelf bracket can be removed. This kit supports the following

configurations:

•A Cisco MDS 9200 Series in a two-post telco rack

•A Cisco MDS 9200 Series in a four-post EIA rack

This section describes the procedure for installing a Cisco MDS 9000 Family switch in a rack or cabinet

using the optional telco and EIA Shelf Bracket Kit. It includes the following topics:

•Rack-Mounting Guidelines, page A-4

•Before Installing the Shelf Brackets, page A-5

•Installing the Shelf Bracket Kit into a Two-Post telco Rack, page A-6

•Installing the Shelf Bracket Kit into a Four-Post EIA Rack, page A-7

•Installing the Switch on the Shelf Brackets, page A-8

•Removing the Shelf Bracket Kit (Optional), page A-9

Note This optional kit is not provided with the switch; to order the kit, contact your switch supplier.

Note For additional support after removing the shelf brackets, ensure that the C brackets on the Cisco MDS

9200 Series are attached to the rear rack-mounting rails.

Rack-Mounting Guidelines

Caution If the rack is on wheels, ensure that the brakes are engaged or the rack is otherwise stabilized.

Caution If installing this kit in an EIA rack, attach the switch to all four rack-mounting rails; the EIA rails might

not be thick enough to prevent flexing of the shelf brackets if only two rails are used.

Before rack-mounting the chassis, ensure that the cabinet or rack meets the following requirements:

•The specifications listed in the “Cabinet and Rack Requirements” section on page A-1.

•The depth of the rack between the front and rear mounting rails is at least 18 in.(45.7 cm) but less

than or equal to 30 in. (76.2 cm). This is specific to four-post EIA cabinets or racks.

•The airflow and cooling are adequate and there is sufficient clearance around the air vents on the

switch, as described in Appendix B, “Technical Specifications.” This is particularly important to

verify if you are installing the switch in an enclosed cabinet.

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Appendix A Cabinet and Rack Installation

Cisco MDS 9000 Family telco and EIA Shelf Bracket

•The rack has sufficient vertical clearance for the chassis plus 2 RU for the shelf brackets, and any

desired clearance for the installation process.

•The rack meets the minimum rack load ratings per rack unit listed in the following table:

Before Installing the Shelf Brackets

Before installing the shelf brackets, check the contents of your kit. Table A-1 lists the contents of the

optional shelf bracket kit.

Required Equipment

You need the following equipment for this installation:

•Number 2 Phillips screwdriver

•Tape measure and level (to ensure shelf brackets are level)

Rack Type MDS 9513 MDS 9509 MDS 9506

MDS 9222i

MDS 9216i

MDS 9216A MDS 9100

EIA (4-Post)

45 lb

(20.41 kg)

45 lb

(20.41 kg)

30 lb

(13.61 kg)

15 lb

(6.8 kg)

7.5 lb

(3.4 kg)

telco (2-Post)

Do not use. Do not use. 60 lb

(27.22 kg)

30 lb

(13.61 kg)

15 lb

(6.8 kg)

Table A-1 Contents of Shelf Bracket Kit

Quantity Part Description

2 Slider brackets

2Shelf brackets

1 Crossbar

2 10-32 x 3/8-inch Phillips pan-head screws

16 12-24 x 3/4-inch Phillips screws

16 10-24 x 3/4-inch Phillips screws

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Appendix A Cabinet and Rack Installation

Cisco MDS 9000 Family telco and EIA Shelf Bracket

Installing the Shelf Bracket Kit into a Two-Post telco Rack

Figure A-1 shows the installation of the shelf bracket kit into a two-post telco rack.

Figure A-1 Installing the Shelf Bracket Kit into a telco Rack

To install the shelf brackets in a telco rack, follow these steps:

Step 1 Position a shelf bracket inside a rack-mounting rail as shown in Figure A-1. Align the screw holes at the

front of the shelf bracket with the holes in the rack-mounting rail. Then, attach the shelf bracket to the

rack-mounting rail using a minimum of four 12-24 or 10-24 screws.

Note The bottom hole of the shelf bracket should align with the bottom hole of a rack unit on the

rack-mounting rail (the hole immediately above the 1/2-in. spacing).

Step 2 Repeat with the other shelf bracket.

Step 3 Verify that the shelf brackets are at the same height (using the level or tape measure as desired).

Step 4 Attach the crossbar to the rear of the shelf brackets as shown in Figure A-1, using the 10-32 screws.

1Rack-mounting rail (2x) 310-32 screws (2x)

2Shelf bracket (2x) 4Crossbar

105088

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Cisco MDS 9000 Family telco and EIA Shelf Bracket

Installing the Shelf Bracket Kit into a Four-Post EIA Rack

Figure A-2 shows the installation of the shelf bracket kit into a four-post EIA rack.

Figure A-2 Installing the Shelf Bracket Kit into an EIA Rack

To install the shelf brackets in an EIA rack, follow these steps:

Step 1 Position a shelf bracket inside the rack-mounting rails as shown in Figure A-2. Align the screw holes at

the front of the shelf bracket with the holes in the front rack-mounting rail. Then, attach the shelf bracket

to the front rack-mounting rail using a minimum of four 12-24 or 10-24 screws.

Note The bottom hole of the shelf bracket should align with the bottom hole of a rack unit on the

rack-mounting rail (the hole immediately above the 1/2-in. spacing).

Step 2 Repeat with the other shelf bracket.

Step 3 Verify that the shelf brackets are at the same height (using the level or tape measure as desired).

1Rack-mounting rail (4x) 4Crossbar

2Shelf bracket (2x) 510-32 screws (2x)

3Slider rail (2)

105087

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Appendix A Cabinet and Rack Installation

Cisco MDS 9000 Family telco and EIA Shelf Bracket

Step 4 Attach the crossbar to the shelf brackets as shown in Figure A-2, using the 10-32 screws.

Step 5 Insert the slider rails into the shelf brackets as shown in Figure A-2. Then, attach them to the rear

rack-mounting rails using a minimum of four 12-24 or 10-24 screws.

Installing the Switch on the Shelf Brackets

This section provides general instructions for installing the switch on top of the shelf brackets. For

installation instructions, see the “Installing the Chassis in a Cabinet or Rack” section on page 2-5.

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

Note Before you install, operate, or service the system, refer to the Regulatory Compliance and Safety

Information for the Cisco MDS 9000 Family for important safety information.

To install the switch on top of the shelf brackets, follow these steps:

Step 1 Ensure that the shelf brackets are level and securely attached to the rack-mounting rails, the crossbar is

securely attached to the shelf brackets, and the rack is stabilized.

Step 2 Slide the switch onto the shelf brackets, ensuring it is squarely positioned.

Step 3 Attach the switch to the rack-mounting rails. See the “Installing the Chassis in a Cabinet or Rack”

section on page 2-5.

Caution We recommend grounding the chassis, even if the rack is already grounded. There is a

grounding pad with two threaded M4 holes on the chassis for attaching a grounding lug.

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Appendix A Cabinet and Rack Installation

Cisco MDS 9000 Family telco and EIA Shelf Bracket

Removing the Shelf Bracket Kit (Optional)

The shelf bracket kit can be removed once the Cisco MDS 9200 Series has been installed in a two-post

telco or four-post EIA rack, and the front rack-mount brackets are securely attached to the rack-mounting

rails. For additional support in an EIA rack, ensure that the C brackets on the Cisco MDS 9200 Series

are attached to the rear rack-mounting rails.

To remove the shelf bracket kit, follow these steps:

Step 1 Remove the screws fastening the slider brackets to the rear rack-mounting rails. Then, slide the slider

brackets out of the shelf brackets.

Step 2 Remove the screws fastening the crossbar to the shelf brackets and remove the crossbar.

Step 3 Remove the screws fastening the shelf brackets to the front rack-mounting rails. Then, remove the shelf

brackets from the rack.

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Appendix A Cabinet and Rack Installation

Cisco MDS 9000 Family telco and EIA Shelf Bracket

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APPENDIX

Technical Specifications

This appendix includes the following sections:

•Switch Specifications, page B-1

•Module Specifications, page B-2

•Power Specifications, page B-4

•X2 Transceiver Specifications, page B-7

•SFP and SFP+ Transceiver Specifications, page B-10

Note Specifications for cables and connectors are provided in Appendix C, “Cable and Port Specifications.”

Switch Specifications

This section provides switch specifications for theCisco MDS 9200 Series.

Table B-1 lists the environmental specifications for the Cisco MDS 9200 Series.

Table B-1 Environmental Specifications for the Cisco MDS 9200 Series

Description Specification

Temperature, certified for operation 32 to 104°F (0 to 40°C)

Temperature, designed and tested for operation 32 to 130°F (0 to 55°C)

Temperature, ambient nonoperating and storage -40 to 158°F (-40 to 70°C)

Humidity (RH), ambient (noncondensing)

operating

10 to 90%

Humidity (RH), ambient (noncondensing)

nonoperating and storage

5 to 95%

Altitude, certified for operation 0 to 6500 ft (0 to 2000 m)

Altitude, designed and tested for operation -200 to 10000 ft (-60 to 3000 m)

Noise levels 70 dB

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Appendix B Technical Specifications

Module Specifications

Table B-2 lists the physical specifications for the Cisco MDS 9200 Series.

Table B-3 lists the specifications for the Cisco MDS 9200 Series supervisor module (which is fixed in

the chassis) and the switching and services modules.

Module Specifications

This section provides the Cisco MDS 9200 Series module specifications.

Table B-2 Physical Specifications for the Cisco MDS 9200 Series

Description Specification

Dimensions

(HxWxD)

5.25 x 17.5 x 22.75 in. (13.3 x 44.5 x 57.8 cm)

Chassis requires 3 RU1.

Chassis depth including cable guide is 27.75 in. (70.3 cm).

1. RU = rack unit; 1 RU = 1.75 inches (4.45 cm)

Weight Chassis only: 31 lb (14.1 kg).

Chassis configured with one supervisor module, fan module, and

two power supplies: 53.3 lb (24.3 kg).

Power supply 845-W AC input for each power supply

Airflow 300 lfm2 through system fan module, or 80 cfm3 per supervisor,

switching, or services module. Total of 160 cfm if slot 2 is filled.

Spacing requirements:

•If installed in a cabinet, a minimum of 2.5 in. (6.4 cm) is

required between the chassis air vents and the cabinet walls.

•If installed in an open rack (no side panels), the horizontal

distance required between the chassis and any devices that

exhaust air towards the chassis is a minimum of 6 in.

(15.2 cm), and the distance required between the chassis air

vents and any walls is a minimum of 2.5 in. (6.4 cm).

2. lfm = linear feet per minute

3. cfm = cubic feet per minute

Table B-3 Cisco MDS 9200 Series Module Specifications

Description Specification

Environmental Requirements

Temperature, certified for operation 32 to 104°F (0 to 40°C)

Temperature, designed and tested

for operation

32 to 130°F (0 to 55°C)

Temperature, ambient nonoperating

and storage

-40 to 167°F (-40 to 75°C)

Humidity (RH), ambient

(noncondensing) operating

10 to 90%

Altitude, certified for operation 0 to 6500 ft (0 to 2000 m)

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Appendix B Technical Specifications

Module Specifications

Table B-4 lists the specifications for the batteries on the Cisco MDS 9000 Family Caching Services

Module.

Weight of Modules

Table B-5 lists the weight for each module in the Cisco MDS 9000 Family.

Altitude, designed and tested for

operation

-200 to 10000 ft (-60 to 3000 m)

Physical Characteristics

Dimensions 1.75 x15.5 x16.5 in. (4.4 x 39.4 x 41.9 cm)

Note These are the maximum

dimensions of faceplate and board,

and include connectors on board.

Weight 8 to 11.5 lb (1.4 to 5.2 kg)

Table B-3 Cisco MDS 9200 Series Module Specifications (continued)

Description Specification

Table B-4 Caching Services Module Battery Specifications

Description Specification

Nominal voltage 9.6 V

Rated capacity Typical discharge capacity at 0.2C rate: 2100 mAh

Minimum discharge capacity at 0.2C rate: 2000 mAh

Minimum discharge capacity at 5C rate: 1800 mAh

(1V/cell discharge cut-off)

Discharge The battery is capable of continuous discharge from

(41 to 140°F (5 to +60°C) at 5C-rate

Charge From 32 to 59°F (0 to 15°C) at C/10 rate and from 59

to 104°F (15 to 40°C) at C/2-rate

Storage temperature 32 to 95°F (0 to 35°C)

Relative humidity range From 5 to 90%

Table B-5 Weight of Modules in the Cisco MDS 9000 Family

Module Weight

4/44-port 8-Gbps Host-Optimized switching module 9.75 lb (4.42 kg)

48-port 4-Gbps switching module 11.0 lb (4.99 kg)

24-port 4-Gbps switching module 7.75 lb (3.5 kg)

12-port 4-Gbps switching module 7.5 lb (3.40 kg)

4-Port 10-Gbps switching module 8.5 lb (3.86 kg)

32-port FC switching module 9 lb (4.1 kg)

16-port FC switching module 9 lb (4.1 kg)

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Appendix B Technical Specifications

Power Specifications

This section includes the following topics:

•Specifications for the Cisco MDS 9200 Series Power Supplies, page B-4

•Component Power Requirements and Heat Dissipation Specifications, page B-5

Specifications for the Cisco MDS 9200 Series Power Supplies

Table B-6 lists the specifications for the Cisco MDS 9200 Series power supply, which is 845 W and

accepts AC input.

SSM 11 lb (5 kg)

CSM 11.5 lb (5.2 kg)

ASM 11 lb (5 kg)

IPS-8 10 lb (4.5 kg)

IPS-4 9 lb (4.1 kg)

MSM-18/4 8.5 lb (3.86 kg)

MSFM-18/4 8.5 lb (3.86 kg)

MPS-14/2 10 lb (4.5 kg)

Supervisor-2 for MDS 9500 Series 7.25 lb (kg)

Supervisor-1 for MDS 9500 Series 9 lb (4.1 kg)

Supervisor for MDS 9200 Series 9 lb (4.1 kg)

Module blank panels 0.50 lb (0.25 kg)

Table B-5 Weight of Modules in the Cisco MDS 9000 Family (continued)

Module Weight

Table B-6 Specifications for the Cisco MDS 9200 Series Power Supply

Description Specification1

1. Autoranging input with power factor corrector

Voltage 100 to 240 VAC (±10%)

Current rating 12 A at 100 to 120 VAC

5 A at 200 to 240 VAC

Frequency 50/60 Hz (nominal) (±3 Hz for full range)

Output capacity 845 W

Output voltage +3.3 V at 10 A

+50 V at 16.2 A

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Appendix B Technical Specifications

Power Specifications

Component Power Requirements and Heat Dissipation Specifications

Consider heat dissipation when sizing the air-conditioning requirements for an installation. The power

and heat associated with a Cisco MDS 9200 Series varies based upon the following considerations:

•Switching module type and number of switching modules installed

•Average switching traffic levels

Table B-7 lists the power requirements and heat dissipation for the components of the Cisco MDS 9200

Series.

Note Unless noted otherwise, the data in Table B-7 is based on worst-case conditions. Typical numbers are

approximately 30 percent below the numbers listed here.

Table B-7 Power Requirements and Heat Dissipation for the 845-W Power Supply

Module Type /

Product Number

NX-OS

Release

SAN-OS

Release

Power

Required

(watts)

Heat

Dissipation

(BTU/hr)

Input Current

90 VAC

(amps)

120 VAC

(amps)

180 VAC

(amps)

240 VAC

(amps)

Cisco MDS 9222i chassis with

fan module DS-C9222i-K9

3.2(1) 60 256 0.83 0.63 0.42 0.31

Cisco MDS 9222i fixed

supervisor module (18-port

Fibre Channel and 4-port Gigabit

Ethernet module)

3.2(1) 200 855 2.78 2.08 1.39 1.04

Cisco MDS 9216i chassis with

fan module DS-C9216i-K9

3.x 60 256 0.83 0.63 0.42 0.31

2.x and

1.x

38 164 0.53 0.40 0.27 0.20

Cisco MDS 9216A chassis with

fan module DS-C9216A-K9

3.x 60 256 0.83 0.63 0.42 0.31

2.x and

1.x

38 164 0.53 0.40 0.27 0.20

Cisco MDS 9216i fixed

supervisor module (14-port

Fibre Channel and 2-port Gigabit

Ethernet module)

3.x 200 854 2.78 2.08 1.39 1.04

2.x and

1.x

227 970 3.15 2.37 1.57 1.19

Cisco MDS 9216A fixed

supervisor module (16-port

Fibre Channel module,

1Gbps/2Gbps)

3.x 210 897 2.92 2.19 1.46 1.09

2.x and

1.x

220 940 305 2.29 1.53 1.15

4/44-port 8-Gbps

Host-Optimized switching

module, DS-X9248-48K9

4.1(1b) 214 915 2.98 2.23 1.49 1.12

48-port 4-Gbps switching

module, DS-X9148

3.x 185 790 2.57 1.93 1.28 0.96

2.x and

1.x

—— ————

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Appendix B Technical Specifications

Power Specifications

24-port 4-Gbps switching

module, DS-X9124

3.x 147 628 2.04 1.53 1.02 0.77

2.x and

1.x

—— ————

12-port 4-Gbps switching

module, DS-X9112

3.x 132 564 1.83 1.38 0.92 0.69

2.x and

1.x

—— ————

4-Port 10-Gbps switching

module, DS-X9704

3.x 172 734 2.39 1.79 1.19 0.90

2.x and

1.x

—— ————

32-port 1-Gbps/2-Gbps Fibre

Channel module, DS-X9032

3.x 191 816 2.65 1.99 1.33 0.99

2.x and

1.x

200 855 2.78 2.08 1.39 1.04

16-port 1-Gbps/2-Gbps Fibre

Channel module, DS-X9016

3.x 210 897 2.92 2.19 1.46 1.09

2.x and

1.x

200 940 3.05 2.29 1.53 1.15

MSM-18/4 module

DS-X9304-18K9

3.2(1) 200 855 2.78 2.08 1.39 1.04

MSFM-18/4 module

DS-X9304-18FK9

3.2(1) 200 855 2.78 2.08 1.39 1.04

MPS-14/2 DS-X9302-14K9 3.x 200 854 2.78 2.08 1.39 1.04

2.x and

1.x

227 970 3.15 2.37 1.57 1.19

8-port IPS module

DS-X9308-SMIP

3.x 200 854 2.78 2.08 1.39 1.04

2.x and

1.x

220 940 3.05 2.29 1.53 1.15

4-port IPS module

DS-X9304-SMIP

3.x 160 683 2.22 1.67 1.11 0.83

2.x and

1.x

185 789 2.57 1.93 1.28 0.96

32-port SSM,

DS-X9032-SSM

3.x 281 1200 3.90 2.93 1.95 1.46

2.x and

1.x

295 1260 4.10 3.07 2.05 1.54

32-port ASM

DS-X9032-SMV

3.x 281 1200 3.90 2.93 1.95 1.46

2.x and

1.x

295 1260 4.10 3.07 2.05 1.54

CSM,

DS-X9560-SMC

3.x 200 854 2.78 2.08 1.39 1.04

2.x and

1.x

210 907 2.95 2.22 1.48 1.11

Table B-7 Power Requirements and Heat Dissipation for the 845-W Power Supply (continued)

Module Type /

Product Number

NX-OS

Release

SAN-OS

Release

Power

Required

(watts)

Heat

Dissipation

(BTU/hr)

Input Current

90 VAC

(amps)

120 VAC

(amps)

180 VAC

(amps)

240 VAC

(amps)

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Appendix B Technical Specifications

X2 Transceiver Specifications

The Cisco MDS 9200 Series is compatible with X2 transceivers and cables that have SC connectors.

Each transceiver must match the transceiver on the other end of the cable in terms of wavelength, and

the cable must not exceed the stipulated cable length for reliable communications.

Use only Cisco X2 transceivers on the Cisco MDS 9200 Series. Each Cisco X2 transceiver is encoded

with the model information that enables the switch to verify that the SFP transceiver meets the

requirements for the switch.

For information about safety, regulatory, and standards compliance, refer to the Regulatory Compliance

and Safety Information for the Cisco MDS 9000 Family.

Cisco 10-Gbps Fibre Channel X2 Transceivers

Table B-8 lists the Cisco10-Gbps Fibre Channel X2 transceivers.

General Specification for Cisco 10-Gbps Fibre Channel X2 Transceivers

Table B-9 provides the general specifications for Cisco 10-Gbps Fibre Channel X2 transceivers.

Note The minimum cable distance for all the transceivers, such as multimode fiber (MMF) and single-mode

fiber (SMF), except CX4 is 2 meters (6.5 feet).

Table B-8 Cisco 10-Gbps Fibre Channel X2 Transceivers

Transceiver Module

Product Number Description Type

DS-X2-FC10G-SR 10-Gbps Fibre Channel SR, X2, SC Short Reach

DS-X2-FC10G-LR 10-Gbps Fibre Channel LR, X2, SC Long Reach

DS-X2-FC10G-ER 10-Gbps Fiber Channel ER, X2, SC Extended Reach

DS-X2-FC10G-CX4 10-Gbps Fiber Channel Copper, X2, CX4 –

Table B-9 General Specifications for the Cisco 10-Gbps Fibre Channel X2 Transceivers

Wavelength

(nanometer) Fibre Type

Core Size

(micon)

Baud Rate

(GBd) Cable Distance

DS-X2-FC10G-SR 850 MMF 62.5 10.51875 33 m (108 ft)

50.0 (OM3) 10.51875 300 m (984 ft)

DS-X2-FC10G-LR 1310 SMF 9.0 10.51875 24.8 miles (40 km)

DS-X2-FC10G-ER 1550 SMF 9.0 10.51875 6.2 miles (10 km)

DS-X2-FC10G-CX4 – Copper – 10.51875 15 m (49.2 ft)

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Appendix B Technical Specifications

General Specification for Cisco 10-Gbps Fibre Channel X2 Transceivers

Environmental Conditions and Power Requirement Specifications for Cisco 10-Gbps Fibre Channel

X2 Transceivers

Table B-10 provides the power requirement specifications for Cisco 10-Gbps Fibre Channel X2

transceivers.

Note DS-X2-FC10G-CX4 is not an optical module; therefore, it is not listed in Table B-10.

Table B-11 provides the environmental specifications for the Cisco 10-Gbps Fibre Channel X2

transceivers.

For information about safety, regulatory, and standards compliance, refer to the Regulatory Compliance

and Safety Information for the Cisco MDS 9000 Family.

Cisco 10-Gbps Ethernet X2 Transceivers

Table B-12 lists the Cisco 10-Gbps Ethernet X2 transceivers.

Table B-10 Power Requirement Specifications for Cisco 10-Gbps Fibre Channel X2 Transceivers

Average Transmit

Power (dBm)

Average Receive

Power (dBm) Fiber Loss Budget (dBm)

Maximum Minimum Maximum Minimum

DS-X2-FC10G-SR -1.2 -7.3 -1.0 -9.9 2.6 (50.0 micron-OM3)

DS-X2-FC10G-LR 0.5 -8.2 0.5 -14.4 6.2

DS-X2-FC10G-ER 4.0 -4.7 -1.0 -15.8 11.1

Table B-11 Environmental Specifications for the Cisco 10- Gbps Fibre Channel X2 Transceivers

X2 Operating Storage

Maximum Minimum Maximum Minimum

DS-X2-FC10G-SR 40°C 0°C 85°C -40°C

DS-X2-FC10G-LR 40°C 0°C 85°C -40°C

DS-X2-FC10G-ER 40°C 0°C 85°C -40°C

DS-X2-FC10G-CX4 40°C 0°C 85°C -40°C

Table B-12 Cisco 10-Gbps Ethernet X2 Transceivers

Transceiver Module

Product Number Description Type

DS-X2-E10G-SR 10-Gbps Ethernet Short Reach, X2, SC Short reach

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Appendix B Technical Specifications

General Specification for Cisco 10-Gbps Fibre Channel X2 Transceivers

General Specification for Cisco 10-Gbps Ethernet X2 Transceivers

Table B-13 provides the general specifications for Cisco 10-Gbps Ethernet X2 transceivers.

Note The minimum cable distance for the MMF transceiver listed above is 2 meters (6.5 feet).

Environmental and Power Requirements Specifications for Cisco 10-Gbps Ethernet X2 Transceiver

Table B-14 provides the power requirement specifications for the Cisco 10-Gbps Ethernet X2

transceiver.

Table B-15 provides the environmental specifications for the Cisco 10-Gbps Ethernet X2 transceivers.

For information about safety, regulatory, and standards compliance, refer to the Regulatory Compliance

and Safety Information for the Cisco MDS 9000 Family.

Cisco 10-Gbps Ethernet DWDM X2 Transceiver

The Cisco 10-Gbps Ethernet DWDM X2 Transceiver pluggable module (DWDM-X2-xx.xx=) provides

high-performance Fibre Channel connectivity for the Cisco MDS 9000 family 10-Gbps Fibre Channel

switching module to an existing Ethernet DWDM infrastructure. The data format transmitted by the

Ethernet DWDM X2 transceiver on the fiber is identical to that transmitted by the Fibre Channel X2

transceiver, except that the Fibre Channel packets are clocked at the 10-Gigabit Ethernet rate.

The main features of the Cisco 10-Gbps Ethernet DWDM X2 Transceiver include:

Table B-13 General Specifications for the Cisco 10-Gbps Ethernet X2 Transceivers

Wavelength

(nanometer) Fiber Type

Core Size

(micon)

Baud Rate

(GBd) Cable Distance

DS-X2-E10G-SR 850 MMF 62.5 10.3125 33 (108 ft)

50.0 (OM3) 10.3125 300 (984 ft)

Table B-14 Power Requirement Specification for Cisco 10-Gbps Ethernet X2 Transceivers

Average Transmit

Power (dBm)

Average Receive

Power (dBm)

Fiber Loss

Budget (dBm)

Maximum Minimum Maximum Minimum

DS-X2-E10G-SR -1.2 -7.3 -1.0 -9.9 2.6 (50.0

micron-OM3)

Table B-15 Environmental Specifications for Cisco 10-Gbps Ethernet X2 Transceiver

Operating Storage

Maximum Minimum Maximum Minimum

DS-X2-E10G-SR 40°C 0°C 85°C -40°C

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Appendix B Technical Specifications

SFP and SFP+ Transceiver Specifications

•Support for 32 nontunable ITU 100-GHz wavelengths compatible with the Cisco ONS DWDM

channel plan.

•Support for digital optical monitoring capability.

For more information, refer to the data sheet at:

http://www.cisco.com/en/US/products/ps6576/index.html

SFP and SFP+ Transceiver Specifications

The Cisco MDS 9500 Series is compatible with SFP and SFP+ transceivers and cables that have LC

connectors. The wavelength of each transceiver must match the transceiver on the other end of the cable,

and the cable must not exceed the stipulated cable length for reliable communications.

Cisco SFP and SFP+ transceivers provide the uplink interfaces, laser transmit (TX) and laser receive

(RX), and support 850 to 1610 nm nominal wavelengths, depending upon the transceiver.

Use only Cisco SFP transceivers on the Cisco MDS 9500 Series. Each Cisco SFP transceiver is encoded

with model information that enables the switch to verify that the SFP transceiver meets the requirements

for the switch.

Note Generation 2 modules will not support 1-Gbps/2-Gbps SFPs. Generation 2 modules only support 4-Gbps

SFPs.

This section provides the following topics:

•Cisco Fibre Channel SFP and SFP+ Transceivers, page B-10

•Cisco Fibre Channel/Gigabit Ethernet Transceivers, page B-15

•Cisco CWDM SFP Transceivers, page B-17

•Cisco Gigabit Ethernet Transceivers, page B-21

•DWDM SFP Transceivers, page B-22

Cisco Fibre Channel SFP and SFP+ Transceivers

Table B-16 lists the Cisco 2-Gbps and 4-Gbps SFP, and 8-Gbps SFP+ Fibre Channel transceivers.

Table B-16 Cisco 2-Gbps and 4-Gbps SFP, and 8-Gbps SFP+ Fibre Channel Transceivers

Transceiver Module

Product Number Description Type

DS-SFP-FC4G-SW 1/2/4-Gbps Fibre Channel SW, SFP, LC Short wavelength

DS-SFP-FC4G-MR 1/2/4-Gbps Fibre Channel LW 4-km, SFP, LC Long wavelength

DS-SFP-FC4G-LW 1/2/4-Gbps Fibre Channel LW 10-km, SFP, LC Long wavelength

DS-SFP-FC-2G-SW 1/2-Gbps Fibre Channel SW, SFP, LC Short wavelength

DS-SFP-FC-2G-LW 1/2-Gbps Fibre Channel LW, SFP, LC Long wavelength

DS-SFP-FC8G-SW 2/4/8-Gbps Fibre Channel SW, SFP+, LC Short wavelength

DS-SFP-FC8G-LW 2/4/8-Gbps Fibre Channel LW, SFP+, LC Long wavelength

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Appendix B Technical Specifications

SFP and SFP+ Transceiver Specifications

General Specifications for Cisco 8-Gbps Fibre Channel SFP+ Transceivers

Table B-17 provides the general specifications for Cisco Fibre Channel SFP+ transceivers.

Environmental and Power Requirements for Cisco 8-Gbps Fibre Channel SFP+ Transceivers

Table B-18 provides the power specification for the Cisco 8-Gbps Fibre Channel SFP+ transceivers.

Table B-17 General Specifications for Cisco 8-Gbps Fibre Channel SFP+ Transceivers

SFP

Wavelength

(nanometer) Fiber Type

Core Size

(micon)

Baud Rate

(GBd)

Cable Distance

(meter)

DS-SFP-FC8G-SW 850 MMF 62.5 2.125 150 m (492 ft)

62.5 4.250 70 m (230 ft)

62.5 8.500 21 m (69 ft)

50.0 (OM2) 2.125 300 m (984 ft)

50.0 (OM2) 4.250 150 m (492 ft)

50.0(OM2) 8.500 50 m (164 ft)

50. 0 (OM3) 2.125 500 m (1640 ft)

50. 0 (OM3) 4.250 380 m (1246 ft)

50. 0 (OM3) 8.500 150 m (492 ft)

DS-SFP-FC8G-LW 1310 SMF 9.0 2.125 6.2 miles (10 km)

9.0 4.250 6.2 miles (10 km)

9.0 8.500 6.2 miles (10 km)

Table B-18 Power Requirements Specification for Cisco 8-Gbps Fibre Channel SFP+ Transceivers

SFP

Average Transmit

Power (dBm)

Average Receive

Power (dBm) Fiber Loss Budget (dBm)

Maximum Minimum Maximum Minimum

DS-SFP-FC8G-SW -1.3 -10 (2

Gbps)

-9 (4

Gbps)

-8.2 (8

Gbps)

0 – 62.5 micron

50.0

microns

[OM2]

50.0

microns

[OM3]

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Appendix B Technical Specifications

SFP and SFP+ Transceiver Specifications

Table B-19 provides the environment specification for the Cisco 8-Gbps Fibre Channel SFP+

transceivers.

For information about safety, regulatory, and standards compliance, refer to the Regulatory Compliance

and Safety Information for the Cisco MDS 9000 Family.

2.10 (2

Gbps)

1.78 (4

Gbps)

1.58 (8

Gbps)

2.62 (2

Gbps)

2.06 (4

Gbps)

1.68 (8

Gbps)

3.31 (2

Gbps)

2.88 (4

Gbps)

2.04 (8

Gbps)

DS-SFP-FC8G-LW –3 (2

Gbps)

–1 (4

Gbps)

+0.5 (8

Gbps)

–11.7 (2

Gbps)

–8.4 (4

Gbps)

–8.4 (8

Gbps)

–3 (2

Gbps)

–1 (4

Gbps)

+0.5 (8

Gbps)

– 7.8 (2 Gbps)

7.8 (4 Gbps)

6.4 (8 Gbps)

Table B-18 Power Requirements Specification for Cisco 8-Gbps Fibre Channel SFP+ Transceivers

(continued)

SFP

Average Transmit

Power (dBm)

Average Receive

Power (dBm) Fiber Loss Budget (dBm)

Maximum Minimum Maximum Minimum

Table B-19 Environmental Specifications for Cisco 8-Gbps Fibre Channel SFP+ Transceivers

SFP

Operating Storage

Maximum Minimum Maximum Minimum

DS-SFP-FC8G-SW 40°C 0°C 85°C -40°C

DS-SFP-FC8G-LW 40°C 0°C 85°C -40°C

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Appendix B Technical Specifications

SFP and SFP+ Transceiver Specifications

General Specifications for Cisco 4-Gbps Fibre Channel SFP Transceivers

Table B-20 provides the general specifications for Cisco Fibre Channel SFP transceivers.

Note The minimum cable distance for all the transceivers, such as MMF and SMF, is 2 meters (6.5 feet).

Environmental and Power Requirement for Cisco 4-Gbps Fibre Channel SFP Transceivers

Table B-21 provides the power specification for the Cisco 4-Gbps Fibre Channel SFP transceivers.

Table B-20 General Specifications for Cisco 4-Gbps Fibre Channel SFP Transceivers

SFP

Wavelength

(nanometer) Fibre Type

Core Size

(micon)

Baud Rate

(GBd)

Cable Distance

(meter)

DS-SFP-FC4G-SW 850 MMF 62.5 1.0625 300 m (984 ft)

62.5 2.125 150 m (492 ft)

62.5 4.250 70 m (230 ft)

50.0 (OM2) 1.0625 500 m (1640 ft)

50.0 (OM2) 2.125 300 m (984 ft)

50.0(OM2) 4.250 150 m (492 ft)

50. 0 (OM3) 1.0625 860 m (2821 ft)

50. 0 (OM3) 2.125 500 m (1640 ft)

50. 0 (OM3) 4.250 380 m (1246 ft)

DS-SFP-FC4G-MR 1310 SMF 9.0 1.0625 6.2 miles (10 km)

9.0 2.125 2.4 miles (4 km)

9.0 4.250 2.4 miles (4 km)

DS-SFP-FC4G-LW 1310 SMF 9.0 1.0625 6.2 miles (10 km)

9.0 2.125 6.2 miles (10 km)

9.0 4.250 2.4 miles (4 km)

Table B-21 Power Requirement Specification for Cisco 4-Gbps Fibre Channel SFP Transceivers

SFP

Average Transmit

Power (dBm)

Average Receive

Power (dBm)

Fiber Loss Budget

(dBm)

Maximum Minimum Maximum Minimum

DS-SFP-FC4G-SW -1.2 -9 0 – 1.78 (62.5 micron),

2.06 (50 micron -

OM2), 4.48 (50

micron - OM3)

DS-SFP-FC4G-MR -3 -11.2 -1 – 4.8

DS-SFP-FC4G-LW -3 -8.4 -1.0 – 7.8

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Appendix B Technical Specifications

SFP and SFP+ Transceiver Specifications

Table B-22 provides the environment specification for the Cisco 4-Gbps Fibre Channel SFP transceivers.

For information about safety, regulatory, and standards compliance, refer to the Regulatory Compliance

and Safety Information for the Cisco MDS 9000 Family.

General Specifications for Cisco 2-Gbps Fibre Channel SFP Transceivers

Table B-23 provides general specification for the 4-Gbps Fibre Channel SFP transceiver.

Note The minimum cable distance for both the transceivers such as MMF and SMF is 2 meters (6.5 feet).

Environmental and Power Requirement for Cisco 2-Gbps Fibre Channel SFP Transceivers

Table B-24 provides the power specification for Cisco 2-Gbps Fibre Channel SFP transceivers.

Table B-22 Environmental Specifications for Cisco 4-Gbps Fibre Channel SFP Transceivers

SFP

Operating Storage

Maximum Minimum Maximum Minimum

DS-SFP-FC4G-SW 40°C 0°C 85°C -40°C

DS-SFP-FC4G-MR 40°C 0°C 85°C -40°C

DS-SFP-FC4G-LW 40°C 0°C 85°C -40°C

Table B-23 General Specifications for Cisco 4-Gbps Fibre Channel SFP Transceivers

SFP

Wavelength

(nanometer) Fibre Type

Core Size

(micon)

Baud Rate

(GBd)

Cable Distance

(meter)

DS-SFP-FC-2G-SW 850 MMF 62.5 1.0625 300 m (984 ft)

62.5 2.125 150 m (492 ft)

50.0 (OM2) 1.0625 500 m (1640 ft)

50.0 (OM) 2.125 300 m (984 ft)

DS-SFP-FC-2G-LW 1310 SMF 9.0 1.0625 6.2 miles (10 km)

9.0 2.125 6.2 miles (10 km)

Table B-24 Power Requirement Specification for Cisco 2-Gbps Fibre Channel SFP Transceivers

SFP

Average Transmit

Power (dBm)

Average Receive

Power (dBm)

Fiber Loss Budget

(dBm)

Maximum Minimum Maximum Minimum

DS-SFP-FC-2G-SW -1.2 -10.0 0 – 2.1

(62.5 micron),

2.62 (50 micron

-OM2)

DS-SFP-FC-2G-LW -3 -11.7 -3 – 7.8

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Appendix B Technical Specifications

SFP and SFP+ Transceiver Specifications

Table B-25 provides the environmental specification for Cisco 2-Gbps Fibre Channel SFP transceivers.

For information about safety, regulatory, and standards compliance, refer to the Regulatory Compliance

and Safety Information for the Cisco MDS 9000 Family.

Maximum Environmental and Electrical Ratings for Cisco Fibre Channel SFP Transceivers

Table B-26 provides the maximum environmental and electrical ratings for Cisco Fibre Channel SFP

transceivers.

For information about safety, regulatory, and standards compliance, refer to the Regulatory Compliance

and Safety Information for the Cisco MDS 9000 Family.

Cisco Fibre Channel/Gigabit Ethernet Transceivers

Table B-27 lists the combination Fibre Channel/Gigabit Ethernet SFP transceivers.

Table B-25 Environmental Specifications for Cisco 2-Gbps Fibre Channel SFP Transceivers

SFP

Operating Storage

Maximum Minimum Maximum Minimum

DS-SFP-FC-2G-SW 40°C 0°C 85°C -40°C

DS-SFP-FC-2G-LW 40°C 0°C 85°C -40°C

Table B-26 Maximum Environmental and Electrical Ratings for Cisco Fibre Channel SFP

Transceivers

Parameter1

1. Do not operate outside the recommended operating conditions. Device reliability may be affected and damage to the

device may occur over an extended period of time.

Symbol Min. Max.2

2. Absolute maximum ratings are those values beyond which damage to the device may occur if these limits are

exceeded for other than a short period of time.

Unit Notes

Storage temperature TS-40 85 °C 1

Case temperature TC070°C1, 2

Relative humidity RH 5 95 % 1

Table B-27 Cisco Fibre Channel/Gigabit Ethernet SFP Transceivers

Transceiver Module

Product Number Description Type

DS-SFP-FCGE-LW 1-Gbps Ethernet and 1-Gbps/2-Gbps Fibre Channel-LW SFP,

Long wavelength

DS-SFP-FCGE-SW 1-Gbps Ethernet and 1-Gbps/2-Gbps Fibre Channel-SW SFP,

Short wavelength

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Appendix B Technical Specifications

SFP and SFP+ Transceiver Specifications

General Specifications for Cisco Fibre Channel/Gigabit Ethernet SFP Transceivers

Table B-28 provides general specification for Cisco Fibre Channel/Gigabit Ethernet SFP transceiver.

Note The minimum cable distance for both the transceivers listed above (multi-mode fiber (MMF)) and

single-mode fiber (SMF) is 2 meters (6.5 feet).

Environmental and Power Requirement Specifications for Cisco Fibre Channel/Gigabit Ethernet SFP

Transceivers

Table B-29 provides the power requirement specification for Cisco Fibre Channel/Gigabit Ethernet SFP

transceivers.

Table B-28 General Specifications for Cisco Fibre Channel/Gigabit Ethernet SFP Transceivers

SFP

Wavelength

(nanometer) Fibre Type

Core Size

(micon)

Baud Rate

(GBd)

Cable Distance

(meter)

DS-SFP-FCGE-SW 850 MMF 62.5 1.0625 300 m (984 ft)

62.5 2.125 150 m (492 ft)

50.0 (OM2) 1.0625 500 m (1640 ft)

50.0 (OM2) 2.125 300 m (984 ft)

DS-SFP-FCGE-LW 1310 SMF 9.0 1.0625 6.2 miles (10 km)

9.0 2.125 6.2 miles (10 km)

Table B-29 Power Requirement Specification for Cisco Fibre Channel/Gigabit Ethernet SFP

Transceivers

SFP

Average Transmit

Power (dBm)

Average Receive

Power (dBm) Fiber Loss Budget (dBm)

Maximum Minimum Maximum Minimum

DS-SFP-FCGE-SW -1.2 -10.0 (FC)

-9.5 (GE)

0 -17 (GE) 2.1 (FC - 62.5 micron), 2.62

(FC - 50.0 micron)

2.38 (GE - 62.5 micron),

3.37 (FC - 50.0 micron)

DS-SFP-FCGE-LW -3 -11.0 -3 -19 (GE) 7.8 (FC)

4.57 (GE)

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Appendix B Technical Specifications

SFP and SFP+ Transceiver Specifications

Table B-30 provides the environmental specification for Cisco Fibre Channel/Gigabit Ethernet SFP

transceivers.

For information about safety, regulatory, and standards compliance, refer to the Regulatory Compliance

and Safety Information for the Cisco MDS 9000 Family.

Cisco CWDM SFP Transceivers

Table B-31 lists the Cisco 1-Gbps and 2-Gbps CWDM SFP transceivers.

Table B-30 Environmental Specifications for Cisco Fibre Channel/Gigabit Ethernet SFP

Transceivers

SFP

Operating Storage

Maximum Minimum Maximum Minimum

DS-SFP-FCGE-SW 40°C 0°C 85°C -40°C

DS-SFP-FCGE-LW 40°C 0°C 85°C -40°C

Table B-31 Cisco 1-Gbps and 2-Gbps CWDM SFP Transceivers

Description Color

Cisco CWDM SFP 1470 nm; Gigabit Ethernet and 1-Gbps/2-Gbps FC Gray

Cisco CWDM SFP 1490 nm; Gigabit Ethernet and 1-Gbps/2-Gbps FC Violet

Cisco CWDM SFP 1510 nm; Gigabit Ethernet and 1-Gbps/2-Gbps FC Blue

Cisco CWDM SFP 1530 nm; Gigabit Ethernet and 1-Gbps/2-Gbps FC Green

Cisco CWDM SFP 1550 nm; Gigabit Ethernet and 1-Gbps/2-Gbps FC Yellow

Cisco CWDM SFP 1570 nm; Gigabit Ethernet and 1-Gbps/2-Gbps FC Orange

Cisco CWDM SFP 1590 nm; Gigabit Ethernet and 1-Gbps/2-Gbps FC Red

Cisco CWDM SFP 1610 nm; Gigabit Ethernet and 1-Gbps/2-Gbps FC Brown

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Appendix B Technical Specifications

SFP and SFP+ Transceiver Specifications

Table B-32 lists the Cisco 4-Gbps CWDM SFP transceivers available through Cisco.

Environmental and Optical Specifications for Cisco 2-Gbps CWDM SFP Transceivers

Table B-33 provides the environmental specifications for the Cisco 2-Gbps CWDM SFP transceivers.

Table B-34 provides the optical specifications for the Cisco 2-Gbps CWDM SFP transceivers.

Table B-32 Cisco 4-Gbps CWDM SFP Transceivers

Description Color

DS-CWDM4G1470: Cisco MDS9000 1470 nm; CWDM 4-Gbps FC Gray

DS-CWDM4G1490: Cisco MDS9000 1490 nm; CWDM 4-Gbps FC Violet

DS-CWDM4G1510: Cisco MDS9000 1510 nm; CWDM 4-Gbps FC Blue

DS-CWDM4G1530: Cisco MDS9000 1530 nm; CWDM 4-Gbps FC Green

DS-CWDM4G1550: Cisco MDS9000 1550 nm; CWDM 4-Gbps FC Yellow

DS-CWDM4G1570: Cisco MDS9000 1570 nm; CWDM 4-Gbps FC Orange

DS-CWDM4G1590: Cisco MDS9000 1590 nm; CWDM 4-Gbps FC Red

DS-CWDM4G1610: Cisco MDS9000 1610 nm; CWDM 4-Gbps FC Brown

Table B-33 Environmental Specifications for Cisco 2-Gbps CWDM SFP Transceivers

SFP

Operating Storage

Maximum Minimum Maximum Minimum

All Cisco 2-Gbps

CWDM SFP

Transceivers

40°C 0°C 85°C -40°C

Table B-34 Optical Specification for Cisco 2-Gbps CWDM SFP Transceivers

Parameters Symbol Minimum Typical Maximum Units Notes/Conditions

Transmitter Center

Wavelength

λcx-4 – x+7 nm Available center

wavelengths are

1470, 1490,

1510, 1530,

1550, 1570,

1590, and 1610

Side-mode

Suppression Ratio

SMSR 30 – – dB –

Transmitter Optical

Output Power

Pout 0.0 5.0 dBm Average power

coupled into

single-mode fiber

Receiver Optical

Input Power (BER

<10-12 with PRBS

2-7-1)

Pin -28.0 – -7.0 dBm At 2.12 Gbps,

140°F (60°C)

case temperature

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Appendix B Technical Specifications

SFP and SFP+ Transceiver Specifications

Note • Parameters are specified over temperature and at end of life unless otherwise noted.

•When shorter distances of single-mode fiber are used, it is necessary to insert an in-line optical

attenuator in the link to avoid overloading the receiver.

For information about safety, regulatory, and standards compliance, refer to the Regulatory Compliance

and Safety Information for the Cisco MDS 9000 Family.

Environmental and Optical Specifications for Cisco 4-Gbps CWDM SFP Transceivers

Table B-35 provides the environmental specifications for the Cisco 4-Gbps CWDM SFP transceivers.

Receiver Optical

Input Power (BER

<10-12 with PRBS

2-7-1)

Pin -29.0 – -7.0 dBm At 1.25 Gbps,

140°F (60°C)

case temperature

Receiver Optical

Input Wavelength

λin 1450 – 1620 nm –

Transmitter

Extinction Ratio

OMI9––dB–

Dispersion Penalty at

62.1 miles (100 km)

–––3dBAt 2.12 Gbps

Dispersion Penalty at

62.1 miles (100 km)

–––2dBAt 1.25 Gbps

Table B-34 Optical Specification for Cisco 2-Gbps CWDM SFP Transceivers (continued)

Parameters Symbol Minimum Typical Maximum Units Notes/Conditions

Table B-35 Environmental Specifications for Cisco 4-Gbps CWDM SFP Transceivers

SFP

Operating Storage

Maximum Minimum Maximum Minimum

All Cisco 4-Gbps

CWDM SFP

Transceivers

40°C 0°C 85°C -40°C

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Appendix B Technical Specifications

SFP and SFP+ Transceiver Specifications

Table B-36 provides the optical specifications for Cisco 4-Gbps CWDM SFP transceivers.

Note • In typical point-to-point deployments, all wavelengths have a minimum reach of 24.8 miles (40 km).

•Parameters are specified over temperature and at end of life unless otherwise noted.

•When shorter distances of single-mode fiber are used, it is necessary to insert an in-line optical

attenuator in the link to avoid overloading the receiver.

•A maximum of 24 4-Gbps CWDM SFPs are supported in a single MDS switching module.

•When interoperating a Cisco 4-Gbps CWDM SFP transceiver with a Cisco 1/2-Gbps CWDM

transceiver, the speed of ports on the Cisco 4-Gbps CWDM SFP transceiver must be manually

configured to 1-Gbps or 2-Gbps.

For information about safety, regulatory, and standards compliance, refer to the Regulatory Compliance

and Safety Information for the Cisco MDS 9000 Family.

Table B-36 Optical Specification for Cisco 4-Gbps CWDM SFP Transceivers

Parameters Symbol Minimum Typical Maximum Units Notes/Conditions

Transmitter Center

Wavelength

λc(x-6) x x+6 nm Available center

wavelengths are

1470, 1490,

1510, 1530,

1550, 1570,

1590, and 1610

Side-mode

Suppression Ratio

SMSR 30 – – dB –

Transmitter Optical

Output Power

Pout 1.0 – 5.0 dBm Average power

coupled into

single-mode fiber

Receiver Optical

Input Power (BER

<10-12 with PRBS

2-23-1)

Pin -15.7 – 0.0 dBm 140°F (60°C)

case temperature

Link Budget – 17.8 – – dB –

Receiver Optical

Input Wavelength

λin 1450 – 1620 nm –

Transmitter

Extinction Ratio

OMI4––dB–

Dispersion Penalty at

15.5 miles (25 km)

–––3dB–

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Appendix B Technical Specifications

SFP and SFP+ Transceiver Specifications

Cisco Gigabit Ethernet Transceivers

Cisco Systems provides a 1-Gbps Gigabit Ethernet SFP transceiver used on the Cisco MDS 9000 IPS

modules. Table B-37 lists the transceiver supported on the Cisco MDS 9216.

General Specifications for Cisco Gigabit Ethernet Transceivers

Table B-38 provides the general specification for the Cisco Gigabit Ethernet SFP transceiver.

Environmental and Power Requirement Specifications for Cisco Gigabit Ethernet Transceivers

Table B-39 provides the environmental specifications for the Cisco Gigabit Ethernet transceivers.

For information about safety, regulatory, and standards compliance, refer to the Regulatory Compliance

and Safety Information for the Cisco MDS 9000 Family.

Table B-37 Cisco Gigabit Ethernet SFP Transceivers

Transceiver Module Product Number Description

DS-SFP-GE-T 1-Gbps Ethernet SFP

Table B-38 General Specification for the Cisco Gigabit Ethernet SFP Transceivers

SFP Cable Type Cable Distance

DS-SFP-GE-T Category 5 UTP 100 m (328 ft)

Table B-39 Environmental Specifications for Cisco Gigabit Ethernet Transceivers

SFP

Operating Storage

Maximum Minimum Maximum Minimum

DS-SFP-GE-T 40°C 0°C 85°C -40°C

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Appendix B Technical Specifications

SFP and SFP+ Transceiver Specifications

DWDM SFP Transceivers

The Cisco 2-Gbps DWDM SFP modules enable enterprises and service providers to provide scalable,

easy-to-deploy DWDM Fibre Channel services in their networks.

The main features of the Cisco DWDM SFP include:

•Support for International Telecommunication Union (ITU) 100-GHz wavelength grid.

•Match for wavelength plan of Cisco ONS 100-GHz product family.

•Fixed-wavelength SFP with 32 SFP models.

Note A single Cisco MDS 9000 family switching module supports up to eight 2-Gbps DWDM SFPs.

For more information, refer to the data sheet at:

http://www.cisco.com/en/US/prod/collateral/modules/ps5455/ps6576/product_data_sheet0900aecd805

82763.html.

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APPENDIX

Cable and Port Specifications

This appendix provides cable and port specifications, and includes the following sections:

•Cables and Adapters Provided, page C-1

•Console Port, page C-2

•COM1 Port, page C-3

•MGMT 10/100/1000 Ethernet Port, page C-4

•MGMT 10/100 Ethernet Port, page C-6

•Supported Power Cords and Plugs, page C-7

Cables and Adapters Provided

The Cisco MDS 9200 Series accessory kit includes the following items:

•RJ-45 rollover cable

•DB-9F/RJ-45F PC—RJ-45 to DB-9 female DTE adapter (labeled “Terminal”)

•RJ-45/DSUB F/F adapter—RJ-45 to DB-25 female DTE adapter (labeled “Terminal”)

•RJ-45/DSUB R/P adapter—RJ-45 to DB-25 male DCE adapter (labeled “Modem”)

Note Additional cables and adapters can be ordered from your customer service representative.

Note If you purchased Cisco support through a Cisco reseller, contact the reseller directly. If you purchased

support directly from Cisco Systems, contact Cisco Technical Support at this URL:

http://www.cisco.com/warp/public/687/Directory/DirTAC.shtm

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Appendix C Cable and Port Specifications

Console Port

The console port is an asynchronous RS-232 serial port with an RJ-45 connector. You can use the RJ-45

rollover cable and the RJ-45/DSUB F/F adapter or the DB-9F/RJ-45F PC terminal adapter to connect the

console port to a computer running terminal emulation software.

Console Port Pinouts

Table C-1 lists the pinouts for the console port on the Cisco MDS 9200 Series.

Connecting the Console Port to a Computer Using the DB-25 Adapter

You can use the RJ-45 rollover cable and RJ-45/DSUB F/F adapter (labeled “Terminal”) to connect the

console port to a computer running terminal emulation software. Table C-2 lists the pinouts for the

console port, the RJ-45 rollover cable, and the RJ-45/DSUB F/F adapter.

Table C-1 Console Port Pinouts

Pin Signal

1. Pin 1 is connected internally to pin 8.

RTS

2DTR

3TxD

4GND

5GND

6RxD

7DSR

8CTS

Table C-2 Port Mode Signaling and Pinouts with the DB-25 Adapter

Console Port RJ-45 Rollover Cable

RJ4-5/DSUB F/F

Terminal Adapter

Console

Device

Signal RJ-45 Pin RJ-45 Pin DB-25 Pin Signal

RTS 1 8 5 CTS

DTR 2 7 6 DSR

TxD 3 6 3 RxD

GND 4 5 7 GND

GND 5 4 7 GND

RxD 6 3 2 TxD

DSR 7 2 20 DTR

CTS 8 1 4 RTS

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Appendix C Cable and Port Specifications

COM1 Port

Connecting the Console Port to a Computer Using the DB-9 Adapter

You can use the RJ-45 rollover cable and DB-9F/RJ-45F PC terminal (labeled “Terminal”) to connect

the console port to a computer running terminal emulation software. Table C-3 lists the pinouts for the

console port, the RJ-45 rollover cable, and the DB-9F/RJ-45F PC terminal.

COM1 Port

The COM1 port is a serial port with a DB-9 connector. The COM1 port can be connected to a modem

using the cable and adapters provided in the accessory kit.

COM1 Port Pinouts

Table C-4 lists the pinouts for the COM1 port on the Cisco MDS 9200 Series.

Note Additional cables and adapters can be ordered from your customer service representative.

Table C-3 Port Mode Signaling and Pinouts with the DB-9 Adapter

Console Port RJ-45 Rollover Cable

DB9F/RJ45F PC

Terminal

Console

Device

Signal RJ-45 Pin RJ-45 Pin DB-9 Pin Signal

RTS 1 8 8 CTS

DTR 2 7 6 DSR

TxD 3 6 2 RxD

GND 4 5 5 GND

GND 5 4 5 GND

RxD 6 3 3 TxD

DSR 7 2 4 DTR

CTS 8 1 7 RTS

Table C-4 COM1 Port Pinouts

Pin Signal

1DCD

2RxD

3TxD

4DTR

5GND

6DSR

7RTS

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Appendix C Cable and Port Specifications

MGMT 10/100/1000 Ethernet Port

Connecting the COM1 Port to a Modem

You can use the DB-9F/RJ-45F PC terminal (labeled “Terminal”) to connect to the COM1 port, and the

RJ-45/DSUB R/P adapter (labeled “Modem”) to connect to the modem. You can use the RJ-45 rollover

cable to connect these adapters.

Table C-5 lists the pinouts for the COM1 port, the DB-9F/RJ-45F PC terminal, RJ-45 rollover cable, and

the RJ-45/DSUB R/P adapter.

MGMT 10/100/1000 Ethernet Port

The MGMT 10/100/1000 Ethernet port is an Ethernet port with an RJ-45 connector. You can use a

modular, RJ-45, straight-through UTP cable to connect the management port to an external hub, switch,

or router (see Figure C-1).

Figure C-1 RJ-45 Interface Cable Connector

8CTS

9RI

Table C-4 COM1 Port Pinouts (continued)

Pin Signal

Table C-5 Port Mode Signaling and Pinouts for Modem with DB-25 Connection

COM1 Port

DB-9F/RJ45F

PC terminal

RJ-45

Rollover Cable

RJ-45/DSUB R/P

Adapter Modem

Signal DB-9 Pin RJ-45 Pin RJ-45 Pin DB-25 Pin Signal

CTS 8 8 1 5 CTS

DSR 6 7 2 8 DCD

RxD 2 6 3 3 RxD

GND 5 5 4 7 GND

GND 5 4 5 7 GND

TxD 3 3 6 2 TxD

DTR 4 2 7 20 DTR

RTS 7 1 8 4 RTS

1Pin 1 2Pin 8

94971

RJ-45 (both ends)

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Appendix C Cable and Port Specifications

MGMT 10/100/1000 Ethernet Port

Table C-6 lists the connector pinouts and signal names for a 10/100/1000BASE-T management port

(MDI) cable.

Note The RJ-45 interface only uses pins 1, 2, 3, and 6.

Figure C-2 shows a schematic of the 10/100/1000BASE-T cable required to connect the management

port to a switch or hub (not provided with the switch).

Figure C-2 Twisted-Pair 10/100/1000BASE-T Cable Schematic

Table C-6 10/100/1000BASE-T Management Port Cable Pinout (MDI)

Pin Signal

1TD+

2TD-

3RD+

6RD–

4Not used

5Not used

7Not used

8Not used

1 TXD+

2 TXD-

3 RXD+

6 RXD-

1 RXD+

MGMT 10/100 Switch/Hub

2 RXD-

3 TXD+

6 TXD-

4NC

5NC

7NC

8NC

4NC

5NC

7NC

8NC

99343

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Appendix C Cable and Port Specifications

MGMT 10/100 Ethernet Port

The MGMT 10/100 Ethernet port is an Ethernet port with an RJ-45 connector. You can use a modular,

RJ-45, straight-through UTP cable to connect the management port to an external hub, switch, or router

(see Figure C-3).

Figure C-3 RJ-45 Interface Cable Connector

Table C-7 lists the connector pinouts and signal names for a 10/100BASE-T management port (MDI)

cable.

Note The RJ-45 interface only uses pins 1, 2, 3, and 6.

1Pin 1 2Pin 8

94971

RJ-45 (both ends)

Table C-7 10/100BASE-T Management Port Cable Pinout (MDI)

Pin Signal

1TD+

2TD-

3RD+

6RD–

4Not used

5Not used

7Not used

8Not used

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Appendix C Cable and Port Specifications

MGMT 10/100 Ethernet Port

Figure C-4 shows a schematic of the 10/100BASE-T cable required to connect the management port to

a switch or hub (not provided with the switch).

Figure C-4 Twisted-Pair 10/100BASE-T Cable Schematic

Supported Power Cords and Plugs

Each power supply has a separate power cord. Standard power cords or jumper power cords are available

for connection to a power distribution unit having IEC 60320 C19 outlet receptacles. The jumper power

cords, for use in cabinets, are available as an optional alternative to the standard power cords.

Power Cords

The standard power cords have an IEC C19 connector on the end that plugs into the switch. The optional

jumper power cords have an IEC C19 connector on the end that plugs into the switch, and an IEC C20

connector on the end that plugs into an IEC C19 outlet receptacle.

Note Only the regular power cords or jumper power cords provided with the switch are supported.

Table C-8 lists the power cords for the Cisco MDS 9200, 9100, and 9020 series of switches and provides

their lengths in feet and meters.

1 TXD+

2 TXD-

3 RXD+

6 RXD-

1 RXD+

MGMT 10/100 Switch/Hub

2 RXD-

3 TXD+

6 TXD-

4NC

5NC

7NC

8NC

4NC

5NC

7NC

8NC

99343

Table C-8 Power Cords for the MDS 9200, 9100, and 9020 Series of Switches

Description

Length

Feet Meters

Power Cord, 125 VAC 13 A NEMA 5-15 Plug,

North America

8.2 2.5

Power Cord, 250 VAC 10 A 3112 Plug,

Australia

8.2 2.5

Power Cord, 250 VAC 10 A CEE 7/7 Plug,

8.2 2.5

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Appendix C Cable and Port Specifications

MGMT 10/100 Ethernet Port

Supported Plugs for 6000-W AC, 2500-W AC, and 1900-W AC Power Supplies

Figure C-5 shows the supported plugs for the 6000-W AC, 3000-W AC, 2500-W AC, and 1900-W AC

power supplies.

Power Cord, 250 VAC 10 A CEI 23-16/VII Plug,

Italy

8.2 2.5

Power Cord, 250 VAC 10 A BS1363 Plug (13 A fuse),

8.2 2.5

Power Cord, 250 VAC 10 A IRAM 2073 Plug,

Argentina

8.2 2.5

Power Cord, 250 VAC 10 A MP232 Plug,

Switzerland

8.2 2.5

Power Cord, 250 VAC 10 A SABS 164/1 Plug,

South Africa

61.83

Power Cord, 250 VAC 10 A SI32 Plug,

Israel

14.76 4.5

Power Cord, 250 VAC 15 A CNS10917-2 Plug,

Taiwan

13.94 4.25

Cabinet Jumper Power Cord, 250 VAC 13 A, C14-C15

Connectors

41.22

Table C-8 Power Cords for the MDS 9200, 9100, and 9020 Series of Switches (continued)

Description

Length

Feet Meters

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Appendix C Cable and Port Specifications

MGMT 10/100 Ethernet Port

Figure C-5 6000-W AC, 3000-W AC, 2500-W AC, and 1900-W AC Power Supply Plugs

Figure C-6 shows an additional plug that is supported for the 1900-W AC power supply only.

Figure C-6 Additional Power Supply Plug Supported for 1900-W Only

1International

(6000 W, 3000 W, 2500 W, and 1900 W)

IEC 309 (20 A)

4North America (locking)

(6000 W, 3000 W, 2500 W, and 1900 W)

NEMA L6-20 plug (2 0A)

2Europe

(6000 W, 3000 W, 2500 W, and 1900 W)

CEE 7/7 (16 A)

5Switzerland

(6000 W, 3000 W, 2500 W, and 1900 W)

23 G SEV 1011 (16 A)

3North America (non-locking)

(6000 W, 3000 W, 2500 W, and 1900 W)

NEMA 6-20 plug (20 A)

6South Africa

(6000 W, 3000 W, 2500 W, and 1900 W)

EL 208, SABS 164-1 (16 A)

94973

4 5

1United Kingdom

BS89/13, BS 1363/A

(13 A; replaceable fuse)

113147

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Appendix C Cable and Port Specifications

MGMT 10/100 Ethernet Port

Figure C-7 shows an additional plug that is supported for the 3000-W and 2500-W power supply, using

110 VAC.

Note Using the plug in Figure C-7 at 110 VAC results in 1300 W available to the system.

Figure C-7 Additional Power Supply Plug Supported for 3000-W and 2500-W 110 VAC Only

Supported Plugs for the 4000-W AC Power Supply

Figure C-8 shows the supported plugs for the 4000-W AC power supply. The power cable on the 4000 W

power supply is nondetachable.

Figure C-8 4000-W Power Supply Plugs

1NEMA 5-20P

North American power cord product ID: CAB-7513AC

110 VAC (20 A)

113168

1International

(4000-W power supply)

IEC 60309 (3 0A, 250 V)

2North America (Locking)

(4000-W power supply)

NEMA L6-30 plug (30 A, 250 V)

94974

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Appendix C Cable and Port Specifications

MGMT 10/100 Ethernet Port

Jumper Power Cord

Figure C-9 shows the C19 and C20 connectors on the optional jumper power cord for the Cisco MDS

9200 Series. The C19 connector plugs into the C20 inlet on the Cisco MDS 9200 Series power supply,

while the C20 connector plugs into the C19 receptacle of a power distribution unit for a cabinet.

Figure C-9 End of C19 and C20 Connectors on Jumper Power Cord for Cisco MDS 9200 Series

1C19 and C20 connectors on jumper power cord for Cisco 9200 Series

Power cord product ID:CAB-C19-CBN

250 VAC 16 A, C20-C19 connectors

113148

C20

C19

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Appendix C Cable and Port Specifications

MGMT 10/100 Ethernet Port

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APPENDIX

Site Planning and Maintenance Records

This appendix includes the following records to use when installing the Cisco MDS 9200 Series:

•Site Preparation Checklist, page D-1

•Contact and Site Information, page D-3

•Chassis and Module Information, page D-4

Note For information about how to query the switch for configuration information, see the Cisco MDS 9000

Family Configuration Guide or the Cisco MDS 9000 Family Fabric Manager Configuration Guide.

Site Preparation Checklist

Planning the location and layout of your equipment rack or wiring closet is essential for successful

switch operation, ventilation, and accessibility. Table D-1 lists the site planning tasks that we

recommend completing before installing the Cisco MDS 9200 Series.

Consider heat dissipation when sizing the air-conditioning requirements for an installation. See

Table B-1 on page B-1 for the environmental requirements, and the “Weight of Modules” section on

page B-3 for power and heat ratings.

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Appendix D Site Planning and Maintenance Records

Site Preparation Checklist

Table D-1 Site Planning Checklist

Task No. Planning Activity Verified By Time Date

1 Space evaluation:

•Space and layout

•Floor covering

•Impact and vibration

•Lighting

•Maintenance access

2 Environmental evaluation:

•Ambient temperature

•Humidity

•Altitude

•Atmospheric contamination

•Air flow

3 Power evaluation:

•Input power type

•Power receptacles1

•Receptacle proximity to the

equipment

•Dedicated circuit for power supply

•Dedicated (separate) circuits for

redundant power supplies

•UPS2 for power failures

1. Verify that the power supply installed in the chassis has a dedicated AC source circuit.

2. UPS = uninterruptible power supply.

4 Grounding evaluation:

•Circuit breaker size

•CO ground (AC- powered systems)

5 Cable and interface equipment

evaluation:

•Cable type

•Connector type

•Cable distance limitations

•Interface equipment (transceivers)

6EMI

3 evaluation:

•Distance limitations for signaling

•Site wiring

•RFI4 levels

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Appendix D Site Planning and Maintenance Records

Contact and Site Information

Use the following worksheet (Table D-2) to record contact and site information.

3. EMI = electromagnetic interference.

4. RFI = radio frequency interference.

Table D-2 Contact and Site Information

Contact person

Contact phone

Contact e-mail

Building/site name

Data center location

Floor location

Address (line 1)

Address (line 2)

City

State

Zip code

Country

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Appendix D Site Planning and Maintenance Records

Chassis and Module Information

Use the following worksheets (Table D-3 and Table D-4) to record information about the chassis and

modules.

Contract Number_______________________________________________

Chassis Serial Number___________________________________________

Product Number________________________________________________

Note The supervisor module and the interface module are not removable.

Table D-3 Network-Related Information

Switch IP address

Switch IP netmask

Host name

Domain name

IP broadcast address

Gateway/router address

DNS address

Modem telephone number

Table D-4 Module Information

Slot Module Type Module Serial Number Notes

Supervisor

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INDEX

Numerics

12-port 4-Gbps Fibre Channel switching modules

description 1-15

figure 1-15

16-port switching modules

description 1-18

figure 1-18

LEDs (table) 1-17, 1-20

18/4-Port Multiservice Module 1-21

18/4-port Multiservice module 1-21

24-port 4-Gbps Fibre Channel switching modules

description 1-14

figure 1-14

32-port Fibre Channel Advanced Services Module. See

ASM

32-port Fibre Channel Storage Services Module. See SSM

32-port switching modules

description

1-17

figure 1-18

LEDs (table) 1-17, 1-20

41-13

4/44-port 8-Gbps Host Optimized Fibre Channel Switching

Module 1-13

4/44-Port 8-Gbps Host-Optimized Fibre Channel switching

modules

description 1-13

4/44-port 8-Gbps Host-Optimized Fibre Channel switching

modules

connectors 1-13

figure 1-13

48-port 4-Gbps Fibre Channel switching modules

connectors 1-13

description 1-13

figure 1-13

LEDs (figure) 1-14

4-port 10-Gbps Fibre Channel switching modules

description 1-16

figure 1-16

airflow specifications B-2

alarm

front panel LEDs 1-28

ASM

description 1-29

LEDs (table) 1-31

power and heat specification B-5

batteries, CSM 2-35

binary images

downloading 1-28, 1-30

Bladeswitch 1-5

brackets

C brackets 2-7

front rack-mount 2-6

cabinet installation guidelines 2-2

cabinets

perforated (requirements) A-2

solid-walled (requirements) A-3

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cabling

COM1 port C-3

console port C-2

MGMT 10/100/1000 Ethernet port C-4

MGMT 10/100 Ethernet port C-6

requirements 3-1

SFP transceivers 3-11, 3-12

Caching Services Module. See CSM

chassis

description 1-2

grounding 2-24

grounding (figure) 2-25

removing from rack (procedure) 2-40

Cisco MDS 9200 Series product overview 1-1

Cisco MDS 9222i Multiservice Modular Switch 1-1

Cisco MDS Fabric Switch 1-5

clock modules

MTBF 1-10

replacing 1-10

COM1 port

cabling C-3

connecting (figure) 3-4

connecting (procedure) 3-4

pinouts (table) C-3

connecting

console port (figure) 3-2

console port (procedure) 3-2

Fibre Channel ports 3-6

MGMT 10/100 3-5

console port

cabling C-2

connecting (figure) 3-2

connecting (procedure) 3-3

pinouts C-2

contact and site information

records D-3

worksheet D-3

CSM

batteries 2-35

battery specifications (table) B-3

description 1-31

figure 1-32

installing (procedure) 2-33

internal view (figure) 1-32

LEDs (table) 1-34

maintaining 2-35

power and heat specification B-5

removing 2-31

CUP 1-21

CWDM transceivers

description 1-38

SFP transceiver specifications B-17

documentation

additional publications i-xiv

downloading software images

ASM-SFN image 1-30

SSM 1-28

DWDM Fibre Channel SFP Transceivers 1-38

electrostatic discharge (ESD) 2-21

encryption 1-23

environmental specifications B-1

equipment required, installing 2-4

fan modules

description 1-36

figure 2-39

installing (procedure) 2-39

LEDs 1-36

removing (procedure) 2-39

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Fiber Connectivity 1-21

fiber optic cables

maintaining 3-13

Fibre Channel/Gigabit Ethernet SFP transceivers 1-37

Fibre Channel ports

connecting 3-6

connecting with LC-type cable (figure) 3-12

Figure 1-8 1-13

Generation 1 modules 1-12

Generation 2 modules 1-12

Gigabit Ethernet/Fibre Channel SFP transceiver

specifications B-15

grounding

attaching the ESD wrist strap 2-21

best practices 2-19

chassis 2-24

chassis (figure) 2-25

establishing the system ground 2-23

tools and equipment 2-23

heat dissipation specifications B-5

IBM BladeCenter 1-5

installing

equipment required 2-4

rack-mount (front-facing) 2-6

rack-mount (rear-facing) 2-16

rack-mount (rotated brackets) 2-14

rack-mount front-facing (figure) 2-9

rack-mount rear-facing (figure) 2-17

SFP transceiver cables 3-11

SFP transceivers (note) 3-10

X2 transceivers 3-8

interface module

description 1-10

figure 1-10

LEDs (table) 1-11

IPS modules

description 1-25

IPS-4 (figure) 1-26

IPS-8 (figure) 1-26

LEDs (table) 1-27

power and heat specification B-5

IP Storage Services modules. See IPS modules

IPv6 1-21

LC-type cables

connecting to Fibre Channel ports 3-12

figure 3-12

LEDs

ASM (table) 1-31

CSM (table) 1-34

fan module 1-36

interface module (table) 1-11

IPS modules (table) 1-27

MPS-14/2 (table) 1-25

supervisor module (table) 1-9

switching modules (table) 1-17, 1-20

maintaining

fiber optic cables 3-13

SFP transceivers 3-13

maintenance records D-1

MGMT 10/100/1000 Ethernet port

cabling C-4

pinouts C-4

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MGMT 10/100 Ethernet port

cabling C-6

connecting (figure) 3-5

connecting (procedure) 3-5

pinouts C-6

Module Specifications B-2

MPS-14/2

figure 1-24

LEDs (table) 1-25

network connections, preparing 3-2

New and Changed Information i-vii

new and changed information (table) i-vii

open racks, standard (requirements) A-3

physical specifications (table) B-2

pinouts

COM 1 port C-3

console port C-2

MGMT 10/100/1000 Ethernet port C-4

MGMT 10/100 Ethernet port C-6

plugs supported for power supplies C-7

ports

COM1 3-4

console 3-2

Fibre Channel 3-6

MGMT 10/100 3-5

potting 1-22

power cord, jumper C-11

power cords, length C-7

power-on

front panel LEDs 1-28

power supplies

description 1-35

figure 1-35

installing (procedure) 2-36

LED (table) 1-35

removing (procedure) 2-36

specifications B-4

supported plugs C-7

Preface i-xi

pre-installation

guidelines 2-2

options 2-2

required equipment 2-4

unpacking the switch 2-4

rack-mount installation

guidelines A-4

kit 2-5

procedures 2-5

specifications A-4

ready

front panel LEDs 1-28

records

chassis and module information D-4

contact and site information D-3

site planning and maintenance D-1

removing

chassis from rack 2-40

SFP transceiver cables 3-12

SFP transceivers 3-10

X2 transceivers 3-8

SAN extension 1-21

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self-test passed

front panel LEDs 1-28

self-test running

front panel LEDs 1-28

services modules

ASM 1-29

downloading binary image 1-30

installing (procedure) 2-33

IPS-4 1-25

IPS-8 1-25

MPS-14/2 1-23

MSFM-18/4 1-22

MSM-18/4 1-21

removing (procedure) 2-32

specifications B-2

SSM 1-27

SFP transceivers

cabling 3-11, 3-12

CWDM 1-38, B-17

description 1-37, 1-38, 3-8, B-10

Fibre Channel 1-37

Fibre Channel/Gigabit Ethernet 1-37

Fibre Channel/Gigabit Ethernet supported B-15

Fibre Channel specifications B-10

Fibre Channel supported B-10

Gigabit Ethernet 1-38

installing 3-9

installing a cable 3-11

latches supported 3-9

maintaining fiber optic cables 3-13

maintaining fiber optic cables (procedures) 3-13

removing 3-10

removing a cable (procedure) 3-12

specifications B-10

supported 1-36

shelf bracket

installation (four-post EIA rack) A-7

installation (Telco/IEA) A-6

installing switch A-8

removing kit A-9

Telco/EIA kit (note) A-4

site planning, preparation checklist D-1

software release requirement 1-2

specifications

airflow B-2

cables C-1

environmental B-1

heat dissipation B-5

modules B-2

physical B-2

pinouts C-1

power B-4

power requirements B-5

SFP transceivers B-10

SSM

description 1-27

figure 1-28

starting up the switch 2-26

supervisor modules

Cisco MDS 9216A 1-7

Cisco MDS 9216i 1-6

installing 2-28

LEDs (table) 1-9

power and heat specification B-5

removing 2-31, 2-32

specifications B-2

switching modules

12-port 4-Gbps Fibre Channel switching

modules 1-15

16-port 2-Gbps Fibre Channel (figure) 1-18

24-port 4-Gbps Fibre Channel switching

modules 1-14

32-port 1-Gbps/2-Gbps Fibre Channel (figure) 1-18

4/44-Port 8-Gbps Host-Optimized Fibre Channel

switching modules 1-13

48-port 4-Gbps Fibre Channel switching

modules 1-13

4-port 10-Gbps Fibre Channel switching

modules 1-16

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Index

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description 1-12

downloading binary image 1-28

features 1-19

installing (procedure) 2-33

LEDs (table) 1-17, 1-20

positioning in chassis (figure) 2-30

power and heat specification B-5

removing 2-31, 2-32

removing (procedure) 2-32

specifications B-2

verifying installation 2-34

switch specifications (table) B-1

system grounding 2-19

T1-13

Table B-1

Telco racks (requirements) A-4

transceivers, supported SFPs. See SFP transceivers

weight of modules (table) B-3

X2 transceivers

description 1-37, B-7

figure 3-7

installing 3-8

removing 3-8

supported (table) B-7

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