ProCurve 8200zl Specifications

ProCurve 8200zl Specifications

HP 8200 zl Switches

Installation and Getting Started Guide

Power over Ethernet

HP 8200 zl Switches

Installation and Getting Started Guide

© Copyright 2011, 2013 Hewlett-Packard Development Company,

L.P.

Publication Number

5998-2999

June 2013

Applicable Products

HP Switch 8212 zl

(Base System)

HP Switch 8212 zl

(Replacement Chassis with Fan Tray Only)

HP Switch 8206 zl

(Base System)

HP Switch 8212 zl Fan Tray

(Replacement Fan Tray Only)

J8715A/B

J9091A/B

J9475A

J9094A

HP Switch 8206 zl Fan Tray

(Replacement Fan Tray Only)

HP 8206-44G-PoE+/2XG-SFP+ v2 zl Switch with Premium

Software

J9476A

J9638A

HP 8212-92G-PoE+/2XG-SFP+ v2 zl Switch with Premium

Software

J9639A

HP 8206 v2 zl Switch with Premium Software

HP 8212 v2 zl Switch with Premium Software

Switch zl Power Supply Shelf

Switch zl Power Supply Shelf Rack Mounting Kit

Two-Post Rack Mounting Kit for Switch 8212 zl

8200 zl/5400 zl 10K Rack Rail Kit Assembly

HP ProCurve 1500W PoE+ zl Power Supply

HP ProCurve 875W PoE zl Power Supply

HP ProCurve 1500W PoE zl Power Supply

HP ProCurve 8200 zl Management Module

HP ProCurve 8200 zl System Support Module

HP ProCurve 8200 zl Fabric Module

Compact Flash Kit for 8200 zl Management Module

24-port Gig-T zl Module

20-port Gig-T/SFP zl Module

24-port mini-GBIC zl Module

4-port 10Gig-X2 zl Module

4-port 10Gig-CX4 zl Module

24-Port 10/100/1000 PoE+ zl Module

20-Port 10/100/1000 PoE+/4-Port MiniGBIC zl Module

4-Port 10GbE SFP+ zl Module

24-Port 10/100 PoE+ zl Module

Wireless Edge Services zl Module

J8707A

J8708A

J9307A

J9308A

J9309A

J9478A

J9051A

J8713A

J9092A

J9095A

J9093A

5070-3051

J8702A

J8705A

J8706A

J9640A

J9641A

J8714A

5070-3028

5070-2983

5070-0145

J9306A

J8712A

Hewlett-Packard Company

8000 Foothills Boulevard, m/s 5551

Roseville, California 95747-5551

http://www.hp.com/networking

Redundant Wireless Services zl Module

ONE Services zl Module

HP 24-port Gig-T PoE+ v2 zl Module

J9052A

J9154A

J9534A

HP 20-port Gig-T PoE+ / 4-port SFP v2 zl Module

HP 20-port Gig-T PoE+ / 2-port 10-GbE SFP+ v2 zl Module

J9535A

J9536A

HP 24-port SFP v2 zl Module

HP 8-port 10-GbE SFP+ v2 zl Module

HP 8-port 10GBase-T v2 zl Module

HP 24-port 10/100 PoE+ v2 zl Module

HP 20-port Gig-T / 2-port 10-GbE SFP+ v2 zl Module

HP 20-port Gig-T / 4-port SFP v2 zl Module

HP 24-port Gig-T v2 zl Module

HP 12-port Gig-T / 12-port SFP v2 zl Module

J9537A

J9538A

J9546A

J9547A

J9548A

J9549A

J9550A

J9637A

Disclaimer

HEWLETT-PACKARD COMPANY MAKES NO WARRANTY

OF ANY KIND WITH REGARD TO THIS MATERIAL,

INCLUDING, BUT NOT LIMITED TO, THE IMPLIED

WARRANTIES OF MERCHANTABILITY AND FITNESS

FOR A PARTICULAR PURPOSE. Hewlett-Packard shall not be liable for errors contained herein or for incidental or consequential damages in connection with the furnishing, performance, or use of this material.

The information contained herein is subject to change without notice.

The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty.

HP shall not be liable for technical or editorial errors or omissions contained herein.

Hewlett-Packard assumes no responsibility for the use or reliability of its software on equipment that is not furnished by Hewlett-Packard.

Warranty

For HP warranty information, visit www.hp.com/networking/support

A copy of the specific warranty terms applicable to your

Hewlett-Packard products and replacement parts can be obtained from your HP Sales and Service Office or authorized dealer.

Safety

Before installing and operating these products, please read the

“Installation Precautions”

in chapter 2, and

“Safety and

Regulatory Statements”

in Appendix C.

iii

Contents

1 Introducing the HP 8200 zl Switches

Overview of the 8200 zl Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2

8206 zl Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2

8212 zl Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3

Network Connectivity, Speeds and Technologies . . . . . . . . . . . . . . . . . . . . 1-4

Front of the 8200 zl Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5

Front of 8212 zl Switch, Base System . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5

Front of 8206 zl Switch, Base System . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6

Switch and Module LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-7

LED Mode Select Button and Indicator LEDs . . . . . . . . . . . . . . . 1-12

Console Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-13

Reset Buttons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-13

Module Reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-13

System Reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-13

Clear Button . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-14

Back of the 8200 zl Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-15

Back of the 8212 zl Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-15

Back of the 8206 zl Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-16

Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-16

Switch Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-17

Switch Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-19

2 Installing the HP 8200 zl Switches

Included Parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1

Power Cords . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2

Installation Procedures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3

Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3

Installation Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5

iii

iv

1. Prepare the Installation Site . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-7

Cabling Infrastructure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-7

Installation Location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-7

2. Mount the Switch Chassis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-7

Rack or Cabinet Mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-7

Horizontal Surface Mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-10

3. Install the Switch Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-11

Installing a Management Module Battery . . . . . . . . . . . . . . . . . . . 2-13

4. Install the Power Supplies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-14

5. Verify the Switch Passes Self Test . . . . . . . . . . . . . . . . . . . . . . . . . . 2-17

LED Behavior: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-19

6. Install the Grounding Wire . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-20

7. Connect the Switch to a Power Source . . . . . . . . . . . . . . . . . . . . . . 2-21

8. (Optional) Connect a Power Supply Shelf to the switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-21

EPS Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-22

Operating Characteristics of the EPS (J8714A) . . . . . . . . . . . . . . 2-22

Power Supply Shelf LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-22

Connecting the Power Supply Shelf . . . . . . . . . . . . . . . . . . . . . . . 2-24

9. Connect the Network Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-25

10. (Optional) Connect a Console to the Switch . . . . . . . . . . . . . . . . . 2-27

Terminal Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-27

Direct Console Access . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-28

Console Cable Pinouts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-29

Telnet Console Access . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-30

Hot Swapping Switch Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-30

Adding or Replacing Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-30

Changing the Module Type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-31

Example Network Topologies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-32

Basic Connectivity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-32

Use as an Edge Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-33

Optimizing the 10-GbE Port Configuration with standard zl modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-34

Optimizing the 10-GbE Port Configuration with version 2 zl modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-35

3 Getting Started With Switch Configuration

Recommended Minimal Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1

Using the Switch Setup Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2

Where to Go From Here . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4

To Recover from a Lost Manager Password: . . . . . . . . . . . . . . . . . 3-4

Using the IP Address for Remote Switch Management . . . . . . . . . . . . . . . . 3-5

Starting a Telnet Session . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-5

Starting a Web Browser Session . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-5

Configuring the ProCurve Wireless Edge Services zl Module (J9051A) . . 3-7

Configuring an IP Address for the Module . . . . . . . . . . . . . . . . . . . . . . . 3-7

Configuring VLANs on the zl Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-9

Determining a Module Configuration Backup Process . . . . . . . . . . . . 3-9

Configuring Wireless LAN Services . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-10

4 Replacing Components

Replacing Power Supplies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2

Replacing Fan Trays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-5

Replacing the Management Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-6

Replacing the Management Module Compact Flash Card . . . . . . . . . . . . . 4-8

Installing a Compact Flash Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-8

Replacing the Services Module Compact Flash Card . . . . . . . . . . . . . . . . . 4-9

Installing a Compact Flash Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-9

Replacing the Services Module Disk Drive . . . . . . . . . . . . . . . . . . . . . . . . . 4-10

Installing a Disk Drive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-10

5 Troubleshooting

Basic Troubleshooting Tips . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1

Diagnosing with the LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-4

Proactive networking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-9

Hardware Diagnostic Tests . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-10

Reasons for Resetting the Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-10

v

vi

Methods of Resetting the Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-10

Testing the Switch by Resetting It . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-11

Checking the Switch LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-11

Checking Console Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-11

Testing Twisted-Pair Cabling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-12

Testing Switch-to-Device Network Communications . . . . . . . . . . . . 5-12

Testing End-to-End Network Communications . . . . . . . . . . . . . . . . . 5-12

Restoring the Factory Default Configuration . . . . . . . . . . . . . . . . . . . . . . . 5-13

Downloading New Code . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-14

HP Customer Support Services . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-14

Before Calling Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-14

A Specifications

Physical . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-1

Electrical . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-1

Environmental . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-2

Acoustic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-2

8212 zl Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-2

8206 zl Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-2

Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-3

EMC compliance (Class A) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-3

Technology Standards and Safety Compliance . . . . . . . . . . . . . . . . . . A-3

B Switch Ports and Network Cables

Cabling and Technology Information Specifications . . . . . . . . . . . . . . . . B-1

Technology Distance Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . B-3

Mode Conditioning Patch Cord . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-5

Installing the Patch Cord . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-6

Twisted-Pair Cable/Connector Pin-Outs . . . . . . . . . . . . . . . . . . . . . . . . . . . B-7

Straight-Through Twisted-Pair Cable for

10 Mbps or 100 Mbps Network Connections . . . . . . . . . . . . . . . . . . . . B-8

Cable Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-9

Pin Assignments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-9

Crossover Twisted-Pair Cable for

10 Mbps or 100 Mbps Network Connection . . . . . . . . . . . . . . . . . . . . B-10

Cable Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-10

Pin Assignments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-10

Straight-Through Twisted-Pair Cable for

1000 Mbps Network Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-11

Cable Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-11

Pin Assignments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-11

C Safety and Regulatory Statements

Safety Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-1

Informations concernant la sécurité . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-2

Hinweise zur Sicherheit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-3

Considerazioni sulla sicurezza . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-4

Consideraciones sobre seguridad . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-5

Informações de Segurança . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-6

Safety Information (Japan) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-7

Safety Information (China) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-8

EMC Regulatory Statements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-9

U.S.A. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-9

Canada . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-9

Australia/New Zealand . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-9

Japan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-10

Korea . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-10

Taiwan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-10

Regulatory Model Identification Number . . . . . . . . . . . . . . . . . . . . . C-10

European Community . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-11

D Recycle Statements

Waste Electrical and Electronic Equipment (WEEE) Statements . . . . . . D-1

Index

vii

1

Introducing the HP 8200 zl Switches

The HP 8200 zl switches are high-performance, high availability switch platforms that enable unified core-to-edge adaptive network solutions and deliver to market the industry’s first core switch with a lifetime warranty. They have platform and software high-availability features to ensure system continuity and enhanced network productivity.

This chapter describes your 8200 zl switches, including:

Overview of 8200 zl Base Switches,

page 1-2

Network Connectivity, Speeds and Technologies,

Front of the 8200 zl Switches,

Back of the 8200 zl Switches,

Switch Accessories,

Switch Features,

page 1-17

page 1-19

page 1-5

page 1-15

page 1-4

1-1

Introducing the HP 8200 zl Switches

Overview of the 8200 zl Switches

Overview of the 8200 zl Switches

8206 zl Switches

1.

2.

The HP 8206-44G-PoE+/2XG-SFP+ v2 zl Switch with Premium Software

(J9638A) ships with the 8206 zl, 6-slot chassis and the following:

One HP 24-port Gig-T PoE+ v2 zl Module (J9534A)

One HP 20-port Gig-T PoE+ / 2-port 10-GbE SFP+ v2 zl Module

(J9536A)

One 1500W PoE+ zl Power Supply (J9306A)

With premium software activated

The HP 8206 v2 zl Switch with Premium Software (J9640A) ships with the

8206 zl, 6-slot chassis (J9475A) and the following:

With premium software activated

One management module

One system support module

Two fabric modules

A pre-installed fan tray

1-2

Figure 1-1. HP 8206 zl Switch (J9475A shown with optional modules)

N o t e

Introducing the HP 8200 zl Switches

Overview of the 8200 zl Switches

8212 zl Switch

The previously available 8212 zl base system (J8715A) shipped with Intelligent

Edge and Advanced Routing features standard. Going forward, customers requiring an 8212 zl with Advanced Routing features should order the J9641A

8212 v2 zl Switch with Premium Software.

1.

2.

The HP 8212-92G-PoE+/2XG-SFP+ v2 zl Switch with Premium Software

(J9639A) ships with the 8212 zl, 12-slot chassis and the following:

• Three HP 24-port Gig-T PoE+ v2 zl Module (J9534A)

• One HP 20-port Gig-T PoE+ / 2-port 10-GbE SFP+ v2 zl Module

(J9536A)

One 1500W PoE+ zl Power Supply (J9306A)

With premium software activated

The HP 8212 v2 zl Switch with Premium Software (J9641A) ships with the

8212 zl, 12-slot chassis (J8715A/B) and the following:

• With premium software activated

One management module

One system support module

Two fabric modules

A pre-installed fan tray

Intelligent Edge features and IP Base Routing features standard

Figure 1-2. HP 8212 zl Switch (J8715A/B shown with optional modules)

1-3

Introducing the HP 8200 zl Switches

Network Connectivity, Speeds and Technologies

Network Connectivity, Speeds and

Technologies

These products support optional network connectivity as follows:

Table 1-1.

Speed

Optional Network Connectivity, Speeds and Technologies

Transceiver Form-Factor and Connector

1

Technology

100-FX

Cabling

Fiber (multimode)

SFP ("mini-GBIC")

Connector

LC

X2

Connector

SFP+

Connector

100 Mbps

100-BX

1000-T

1000-SX

1000-LX

Fiber (single mode)

Copper (twisted-pair)

Fiber (multimode)

Fiber (multimode or single mode)

LC

RJ-45

LC

LC

1 Gbps

1000-LH

1000-BX

10-Gig CX4

10-Gig

Direct Attach

10-Gig SR

10-Gig LRM

Fiber (single mode)

Fiber (single mode)

Copper (twinaxial)

Copper (twinaxial)

LC

LC

CX4

Not

Applicable

10 Gbps

Fiber (multimode)

Fiber (multimode)

SC

SC

LC

LC

10-Gig LR Fiber (single mode) SC LC

10-Gig ER Fiber (single mode) SC

1

For supported transceivers, visit

www.hp.com/networking/support

.

– In the first textbox, type

J4858

(for 100-Mb and Gigabit information), or

J8436

(for 10-Gigabit information).

– Select any of the products that display in the dropdown list. Click

Display selected

.

– Select

Product support information

. Then click on

Manuals

and find the

Transceiver Support Matrix

.

For technical details of cabling and technologies see "Cabling and Technology Information" in the appendices.

LC

1-4

Power and Fault

LEDs

Introducing the HP 8200 zl Switches

Front of the 8200 zl Switches

Front of the 8200 zl Switches

Front of 8212 zl Switch, Base System

Component

Status LEDs

Management

Module Reset button, and

StatusLEDs

Locator LED

Reset and Clear buttons

Console

Port

Auxiliary Port

Self Test LED

Status LEDs for the

Fans, Power Supplies, and Switch Modules

LED Mode Select button and indicator LEDs

Switch Modules and slots with Link and Mode LEDs for each port located on each module

Figure 1-3. Front of 8212 zl Switch, Base System

1-5

Introducing the HP 8200 zl Switches

Front of the 8200 zl Switches

Front of 8206 zl Switch, Base System

Power and Fault

LEDs

Locator LED

Reset and Clear buttons

Management

Module Reset button, and Status

LEDs

Component

Status LEDs

Console

Port

Auxiliary Port

Self Test LED

Status LEDs for the

Fans, Power Supplies, and Switch Modules

LED Mode Select button and indicator LEDs

Switch Modules and slots with Link and Mode LEDs for each port located on each module

Figure 1-4. Front of 8206 zl Switch, Base System

1-6

Introducing the HP 8200 zl Switches

Front of the 8200 zl Switches

Switch and Module LEDs

As described in the following tables, there are LEDs on the switch chassis and on the switch modules that keep you informed of the status of the switch and the network connections.

Power and Fault

LEDs

Locator LED

Figure 1-5. Switch Chassis LEDs

Table 1-2.

Switch Chassis LEDs

LEDs

Power

(green)

Fault

(orange)

State

On

Off

Meaning

The switch is receiving power.

The switch is NOT receiving power.

Off

Blinking

1

The normal state; indicates that there are no fault conditions on the switch.

A fault has occurred on the switch, one of the switch modules, an individual port, a power supply, or a fan. The Status LED for the module or other device with the fault will flash simultaneously.

On On briefly at the beginning of switch self test after the switch is powered on or reset. If on for a prolonged time, the switch has encountered a fatal hardware failure, or has failed its self test. See chapter 5, “Troubleshooting” for more information.

Locator

(blue)

On

Blinking

Off

The Locator LED is used to locate a specific chassis in a area full of chassis. The LED can be set to be on solid or blink for a specified number of minutes (1-1440). The default is 30 minutes. Use the command “chassislocate”.

1

The blinking behavior is an on/off cycle once every 1.6 seconds, approximately.

2

The blinking behavior is an on/off cycle once every 0.5 seconds, approximately.

1-7

Introducing the HP 8200 zl Switches

Front of the 8200 zl Switches

Figure 1-6. Management Module LEDs

Table 1-3.

Management Module LEDs.

LED

Auxiliary (green/ orange) For more information see the

Management and

Configuration Guide for your switch.

State

Blinking green

1

On green

Blinking orange

Off

2

Meaning

Indicates the switch is processing a USB command file.

The switch has finished processing the USB command file successfully.

Indicates an error condition.

DIM

(green/orange)

CF

(green/orange)

SSM

(green/orange)

On green

Off

Blinking orange

1

On green

Off

Blinking orange

1

On green

Off

Indicates that no USB device has been inserted, or that the inserted USB device cannot be recognized, or that no command file can be found on the inserted USB device.

DIM (Dual in-line Memory Module) status is known and fault free.

DIM status is unknown.

If DIM, Fault, and Self Test LEDs are blinking, DIMM failed self-test.

If DIM and Fault LEDs are blinking, an operational fault has occurred.

If fast blinking (400ms On and 400ms Off), an operational alert occurred and is unresolved.

CF (CompactFlash) status is known and fault free

CF status is unknown.

If CF, Fault, and Self Test LEDs are blinking, CompactFlash failed self-test.

If CF and Fault LEDs are blinking, an operational fault has occurred.

If fast blinking (400ms On and 400ms Off), an operational alert occurred and is unresolved (for example, CompactFlash not present).

The communication link with the SSM (system support module) is good.

The communication link with the SSM is bad or there is no SSM installed.

1-8

Introducing the HP 8200 zl Switches

Front of the 8200 zl Switches

Module Status LED

Blinking orange

1

On green

Blinking orange

1

The communication link with the SSM is bad or the SSM itself has failed.

The Management Module is active and has passed all self-tests.

If Module Status, Fault and Self Test LEDs are blinking, this MM has failed self-test

If Module Status and Fault LEDs are blinking, an operational fault has occurred.

MM State LEDs

(green)(

Actv Indicates the Management Module is active and is the primary management module.

Indicates that this Management Module is the standby management module.

Stby

Dwn Indicates that this Management Module has been shutdown.

1

The blinking behavior is an on/off cycle once every 1.6 seconds, approximately.

2

The blinking behavior is an on/off cycle once every 0.5 seconds, approximately.

LED

Test

(green/orange)

PoE

(green/orange)

Figure 1-7. System Support Module LEDs

Table 1-4.

System Support Module LEDs

These LEDs are located on the System Support Module.

State

Off

Meaning

The normal operational state; the switch is not undergoing self test.

On green

On green

Off

The switch self test and initialization are in progress after you have power cycled or reset the switch. The switch is not operational until this LED goes off. The Self

Test LED also comes on briefly when you “hot swap” a module into the switch and the module is automatically self tested.

If any PoE modules are installed.

If no PoE modules are installed.

1-9

Introducing the HP 8200 zl Switches

Front of the 8200 zl Switches

Tmp

(green/orange)

Fan

(green/orange)

Blinking orange

1

Blinking orange

2

Off

Blinking

1

On green

Blinking orange

1

On green Internal Power 1-4

(green/orange - numbers corresponding to the power supply positions)

Off

Blinking orange

1

EPS (1 and 2)

(green/orange)

Fabric Modules

(1 and 2)

(green/orange)

LED Mode Select

(5 green LEDs)

Internal PoE fault.

External load fault or denied PoE power.

On green

Off

Blinking orange

1

On green

Off

Blinking orange

1

Act

FDx

PoE

Spd

Usr

Switch temperature is normal.

An over temperature condition has been detected.

The cooling fans are operating normally.

One or more of the cooling fans have failed. The switch Fault LED will be blinking simultaneously.

A power supply is installed in the position in the back of the switch corresponding to the number, and the supply is plugged in to an active AC power source. As shipped, the switch has a single power supply in position 1.

A power supply is not installed in the position corresponding to the number.

The power supply installed in the position corresponding to the number is not plugged in to an active AC power source, or has experienced a fault. The switch

Fault LED will be blinking simultaneously.

An External Power Supply is connected.

No External Power Supply is connected.

The External Power Supply has a fault, or is connected but not plugged into AC power.

A Fabric Module is installed and functioning correctly.

A Fabric Module is not installed or has failed.

The Fabric Module has a fault.

The switch Fault LED will be blinking simultaneously.

Indicates that the port Mode LEDs are displaying network activity information.

Indicates that the port Mode LEDs are lit for ports that are in Full Duplex Mode.

Indicates which ports are supplying PoE power.

• If the Mode LED is on the port is providing PoE power.

• If the Mode LED is off the port is not providing PoE power.

• If the Link LED is on the port is enabled for PoE.

• If the Link LED is off the port is disabled for PoE.

• If the Link LED is blinking, the port has an error or the port is denied power due to insufficient power.

Indicates the Port LEDs are displaying the connection speed at which each port is operating:

• if the Port LED is off, the port is operating at 10 Mbps

• if the Port LED is blinking, the port is operating at 100 Mbps

• if the Port LED is on continuously, the port is operating at 1000 Mbps

Reserved for future development

1-10

Introducing the HP 8200 zl Switches

Front of the 8200 zl Switches

Modules A-L (green

- letters corresponding to the switch module slots)

On

Off

A module is installed in the switch module slot corresponding to the letter and the module is undergoing or has passed self test. This also occurs when you install a module when the switch is already powered on (“hot swap”).

A module is not installed in the switch module slot corresponding to the letter.

In PoE Mode:

Blinking

1

On green

Blinking orange

1

Blinking orange

2

Off

The module status LED flashes very briefly when a module is being hot swapped.

If the LED flashes for a prolonged time, the module in the slot corresponding to the letter has failed self test or encountered some other fault condition. See chapter 5, “Troubleshooting” for a more information.

PoE is ok for this slot.

PoE internal fault for this slot.

PoE load fault or insufficient power for this slot.

The module in this slot is not a PoE module.

1

The blinking behavior is an on/off cycle once every 1.6 seconds, approximately.

2

The blinking behavior is an on/off cycle once every 0.5 seconds, approximately.

Switch Modules with Link and Mode LEDs for each port located on each module

LED

Link

Figure 1-8. Switch Module LEDs

Table 1-5.

Switch Module LEDs

These LEDs are located on the modules themselves, one pair for each port.

State

On

Meaning

Indicates the port is enabled and receiving a link beat signal (for the twisted-pair ports), or a strong enough light level (for the fiber-optic ports) from the connected device.

1-11

Introducing the HP 8200 zl Switches

Front of the 8200 zl Switches

Off

Blinking

1

One of these conditions exists:

• no active network cable is connected to the port

• the port is not receiving link beat or sufficient light

• the port has been disabled through the switch console, the web browser interface, ProCurve Manager, or other network management tool.

The port has failed self test. The switch Fault, Self Test LEDs, and appropriate module status LEDs will flash simultaneously.

Mode Depending on the mode selected, displays the following: network activity information, whether the port is configured for Full Duplex operation, maximum speed operation, or whether PoE power is being supplied or not. See “LED Mode Select Button and Indicator LEDs” below for more information.

1

The blinking behavior is an on/off cycle once every 1.6 seconds, approximately.

LED Mode Select Button and Indicator LEDs

To optimize the amount of information that can be displayed for each of the switch ports, the 8200 zl switches use a Mode LED for each port. The operation of this LED is controlled by the LED Mode Select button on the switch chassis, and the current selection is indicated by the mode indicator LEDs near the button. Press the button to change from one mode to the next.

LED Mode Select button and indicator LEDs

Mode LEDs

(Link and Mode)

1-12

Figure 1-9. Mode LEDs and LED Mode Select Button

If the Activity

Act

indicator LED is lit, each port Mode LED displays activity information for the port—it flickers as network traffic is received and transmitted through the port.

If the Full Duplex

FDx

indicator LED is lit, the port Mode LEDs light for those ports that are operating in full duplex.

Introducing the HP 8200 zl Switches

Front of the 8200 zl Switches

If the speed

Spd

indicator LED is lit, the port LEDs behave as follows to indicate the connection speed for the port:

Off = 10 Mbps

Blinking = 100 Mbps (the blinking behavior is a repeated on/off cycle once every 0.5 sec.)

• On = 1000 Mbps

If the

PoE

Link LED: indicator LED is lit, the Link and Mode LEDs indicate PoE status:

On = PoE is enabled on this port

Off = PoE is disabled on this port.

Slow Blinking = Internal PoE fault on this port.

Fast Blinking = This port is denied PoE power or has an external load fault.

Mode LED:

On = PoE power is be supplied on this port

Off = PoE is not being supplied on this port.

Console Port

This port is used to connect a console to the switch by using the serial cable supplied with the switch. This connection is described under “Connecting a

Console to the Switch” in chapter 2, “Installing the the 8200 zl Switch”. The console is a full-featured interface that can be used to configure, monitor, and troubleshoot the switch. It can be run on a PC, laptop, or handheld device emulating a VT-100 terminal, or on a standard VT-100 terminal.

Reset Buttons

Module Reset

This button, located on the Management module, will reset the Management module only.

System Reset

This button, located on the System Support Module, will reset the switch when powered on. This action clears any temporary error conditions that may have occurred, executes the switch self test, and resets all network activity counters to zero.

The counters are displayed in the switch console interface, the switch web browser interface, and through SNMP network management applications, such as ProCurve Manager.

1-13

Introducing the HP 8200 zl Switches

Front of the 8200 zl Switches

Press the Reset button also after changing the module type that is installed in any of the switch module slots while the switch is powered on. In this case, the switch must be reset to initialize the new module type. See “Hot Swapping

Switch Modules” on

page 2-30 .

Clear Button

This button, located on the System Support Module, is used for the following purposes:

Deleting Passwords

- When pressed by itself for at least one second, the

Clear button deletes any switch console access passwords that you may have configured. Use this feature if you have misplaced the password and need console access.

This button is provided for your convenience, but its presence means that if you are concerned with the security of the switch configuration and operation, you should make sure the switch is installed in a secure location, such as a locked wiring closet.

Restoring Factory Default Configuration

- When pressed with the

Reset button in a specific pattern, the Clear button clears any configuration changes you may have made through the switch console, the web browser interface, or SNMP management, and restores the factory default configuration to the switch. For the specific method to restore the factory default configuration, see “Restoring the Factory Default Configuration” in chapter 5, “Troubleshooting” of this manual.

1-14

Introducing the HP 8200 zl Switches

Back of the 8200 zl Switches

Back of the 8200 zl Switches

Back of the 8212 zl Switch

Grounding lug mounting holes

Fan Power, Fault and Locator LEDs

Slots for installing power supplies

External PoE power connectors

Figure 1-10. Back of an 8212 zl Switch

1-15

Introducing the HP 8200 zl Switches

Back of the 8200 zl Switches

Back of the 8206 zl Switch

Grounding lug mounting holes

1-16

Power supply

Optional redundant power supply

External PoE/

PoE+ power connectors

Figure 1-11. Back of an 8206 zl Switch (shown with two zl Power Supplies)

Power Supply

The 8200 zl switches do not have a power switch. The switches are powered on when the power supply is connected to an active AC power source. The

8200 zl switches automatically adjust to any voltage between 100-127 and 200-

240 volts when using the J8712A power supply, between 110-127 and 200-240 volts when using the J9306A power supply, and between only 200-240 volts when using the J8713A power supply. There are no voltage range settings required.

C a u t i o n

Introducing the HP 8200 zl Switches

Switch Accessories

Load-sharing redundant power supplies can be installed in the back of the

8200 zl switches or they can be installed externally with the external power connectors. To provide redundancy, each power supply should be connected to different AC power sources. Then, if one AC power source fails, the switch will continue to run.

The switch redundant power supply

is

hot swappable, but, as indicated by the caution statement on the power supply, it

must

be disconnected from AC power before being installed or removed.

.

CAUTION:

.

Refer to the installation guide for proper power cord selection

Disconnect AC power from the power supply BEFORE installing or removing the supply. Otherwise, damage to the equipment may result.

Because the switch can run on a single supply, removing a redundant supply will not interrupt switch operation. However, on the 8212 zl, one power supply will only supply enough power to run the module slots A-F. Slots G-L will not receive any power unless there are at least two power supplies installed.

When power is restored from a second (or more) power supplies, a system reload or interface module reset is required to restore operation to slots G-L.

To reset the interface modules, pull each module out about half way and then reseat them. Do this for each module in slots G-L.

For more information regarding power see the:

ProCurve Switch zl Internal Power Supply Installation Guide

.

HP Power over Ethernet (PoE/PoE+) Planning and Implementation

Guide

.

Switch Accessories

Accessories of the 8200 zl switches include either a 6 or 12-slot chassis for installing any of the available zl Modules. The supported zl modules include:

■ 24-Port 10/100/1000 PoE+ zl Module (J9307A) -- which can provide Power over Ethernet (PoE+) power to 802.3at compliant (and some pre-standard) devices.

20-Port 10/100/1000 PoE+/4-Port MiniGBIC zl Module (J9308A)

4-Port 10GbE SFP+ zl Module (J9309A)

24-Port 10/100 PoE+ zl Module (J9478A)

1-17

Introducing the HP 8200 zl Switches

Switch Accessories

24-port 10/100/1000-T zl PoE Module (J8702A) -- which can provide Power over Ethernet (PoE) power to 802.3af compliant (and some pre-standard) devices.

20-port Gig-T and 4-port mini-GBIC/SFP zl PoE Module (J8705A)

24-port mini-GBIC zl Module (J8706A)

4-port 10Gig-X2 zl Module (J8707A)

4-port 10Gig-CX4 zl Module (J8708A)

ONE Services zl Module (J9289A)

Redundant Wireless Services zl Module (J9052A)

Wireless Edge Services zl Module (J9154x) where “x” is the version letter

A, B, and so on

24-port Gig-T PoE+ v2 zl Module (J9534A)

20-port GT PoE+/4-port SFP v2 zl Module (J9535A)

20-port Gig-T PoE+ / 2-port 10-GbE SFP+ v2 zl Module (J9536A)

24-port SFP v2 zl Module (J9537A)

8-port 10-GbE SFP+ v2 zl Module (J9538A)

8-port 10GBase-T v2 zl Module (J9546A)

24-port 10/100 PoE+ v2 zl Module (9547A)

20-port Gig-T / 2-port 10-GbE SFP+ v2 zl Module (J9548A)

20-port Gig-T / 4-port SFP v2 zl Module (J9549A)

24-port Gig-T v2 zl Module (J9550A)

12-port Gig-T / 12-port SFP v2 zl Module (J9637A)

N o t e

For detailed information about the zl modules, refer to the

HP Switch zl

Modules Installation Guide.

For detailed information about PoE and PoE+ devices, refer to the

HP Power over Ethernet (PoE/PoE+) Planning and Implementation Guide

.

To view or download this guide, visit

www.hp.com/networking/support

.

1-18

Introducing the HP 8200 zl Switches

Switch Features

Switch Features

The features of the 8200 zl switches include:

■ modules can be installed in any order and in any combination and can be

“hot swapped” supported transceivers can be hot swapped into the mini-GBIC zl Module high performance—With standard zl modules, the 8206 zl Switch has a routing/switching capacity of 322.8 Gbps, with a switch fabric speed of

345.6 Gbps and a throughput of 240.2 Mpps. With standard zl modules, the

8212 zl Switch has a routing/switching capacity of 645.6 Gbps, with a switch fabric speed of 691.2 Gbps and a throughput of 480.3 Mpps

With v2 zl modules, the 8206 zl Switch has a routing/switching capacity of

496.8 Gbps, with a switch fabric speed of 561.6 Gbps and a throughput of

396 Mpps. With v2 zl modules, the 8212 zl Switch has a routing/switching capacity of 993.6 Gbps, with a switch fabric speed of 1123.2 Gbps and a throughput of 792 Mpps plug-and-play networking—all ports are enabled—just connect the network cables to active network devices and your switched network is operational automatic learning of the network addresses in the switch’s 16,000address forwarding table, with configurable address aging value full-duplex operation available on all ports easy management of the switch through several available interfaces:

• web browser interface—an easy to use built-in graphical interface that can be accessed from common web browsers console interface—a full featured, easy to use, VT-100 terminal interface for out-of-band switch management, or for TELNET access to the switch. The console includes complete switch management through a command line interface (CLI) and a slightly reduced feature set accessible through an intuitive menu interface

ProCurve Manager—an SNMP-based graphical interface that is used to manage your entire network, included with your new switch supported by ProCurve Network Manager—an HP OpenView application that accurately displays your switch on network maps and provides a graphical interface for configuring and monitoring your switch support for the Spanning Tree Protocol to eliminate network loops

1-19

Introducing the HP 8200 zl Switches

Switch Features

• support for up to 2048 VLANs (up to 512 layer-3, IP addressable VLANs) so you can divide the attached end nodes into logical groupings that fit your business needs

Layer 3 routing functionality:

• IP static routes

RIP V1 and V2

IRDP - ICMP Router Discovery Protocol

OSPF- Open Shortest Path First

DHCP relay support for many other advanced features to enhance network performance, security, and control— for a description, see the

Management and

Configuration Guide

which is on the HP networking Web site.

support for IEEE 802.3af standard, IEEE 802.3at standard, and pre-standard PoE devices

1-20

2

Installing the HP 8200 zl Switches

W A R N I N G

The 8200 zl switches are easy to install. Each comes with an accessory kit that includes the brackets for mounting the switch in a standard 19-inch telco rack, or in an equipment cabinet. The switch has rubber feet already attached so they can be securely located on a horizontal surface. This chapter tells you how to install your 8212 zl or 8206 zl switch.

To avoid possible personal injury, be careful when lifting the chassis out of the shipping box. The Switch 8212 zl chassis base system weighs approximately 50.45 pounds as shipped and 44.75 pounds when empty.

See “Installation Precautions” on

page 2-5

for additional safety considerations when handling this product.

Included Parts

The following components are shipped with the 8200 zl switches:

HP 8212 zl Quick Setup Guide or HP 8206 zl Quick Setup Guide

HP 8200 zl Safety and Regulatory Information

Accessory kit (5070-6865 for the 8206 zl or 5070-2983 for the 8212 zl):

• two mounting brackets eight 10 mm M4 screws to attach the mounting brackets to the switch eight 5/8-inch number 12-24 screws to attach the switch to a rack

Console cable

2-1

Installing the HP 8200 zl Switches

Power Cords

N o t e

Power Cords

Power supplies for 8200 zl Switches must be ordered separately. The following power cords are provided with those power supplies.

Power cord, one of the following:

Region

J8712A Power

Supply

Cable

Australia/New Zealand

China

Continental Europe

Denmark

Japan

Switzerland

United Kingdom/Hong Kong/Singapore

United States/Canada/Mexico

South Africa

Taiwan

Israel

Thailand

Argentina

Brazil

Chile

8121-0857

8121-1034

8120-5336

8120-5340

8120-5342

8120-5339

8120-5334

8121-0973

8120-5341

8121-0941

8121-1009

8121-0671

8120-8375

8121-1132

8120-8389

J8713A Power

Supply

Cable

8121-0871

8121-0924

8120-6899

8120-6897

8120-6903

8120-6897

8120-6898

8120-6903

8121-0915

8120-6903

8121-1010

8121-0675

8121-0912

8121-1100

8121-0876

J9306A Power

Supply

Cable

8121-0857

8121-1034

8120-5336

8120-5340

8121-0941

1

8120-5339

8120-5334

8121-0973

2

8120-5341

8121-0967

8121-1009

8121-0671

8120-8375

8121-1132

8120-8389

1

Japan: NEMA L6-20P, 200V.

2

A NEMA L6-20, 240V power cord is also available. Order part number 8121-0941. To order go to

www.hp.com/buy/parts

.

J a p a n P o w e r

C o r d W a r n i n g

2-2

W A R N I N G

Installing the HP 8200 zl Switches

Installation Procedures

Installation Procedures

To avoid personal injury or product damage, read the safety warnings on page 2-5 and installation precautions on page 2-6 and follow the rack mounting guidelines on

page 2-7 . Due to product weight, two or

more persons are required to handle and mount the 8212 zl.

Summary

Follow these easy steps to install your switch. The rest of this chapter provides details on these steps.

1.

Prepare the Installation Site (

page 2-7

).

Make sure the physical environment into which you will be installing the switch is properly prepared including having the correct network cabling ready to connect to the switch, and having a good location for the switch.

2.

3.

Mount the Switch Chassis (

page 2-7

).

The 8200 zl switches are large, heavy chassis. HP networking recommends mounting the empty chassis before populating it with modules or power supplies. It can be mounted in a 19-inch telco rack, in an equipment cabinet, or on a horizontal surface.

An optional Rail Mounting Kit (5070-0145) is available for mounting the

8200 zl switches in a cabinet that is suitable for shipping.

Install the Switch Modules (

page 2-11

).

The 8200 zl switches have either six or twelve universal slots for installing any of the HP zl Modules.

Depending on where you will install your 8200 zl switch, it may be easier to install the modules first. The modules are “hot swappable” though, so they may also be installed and removed after the switch is powered on.

4.

5.

Install the Power Supplies (

page 2-14

).

The 8212 zl switch supports four power supplies. The 8206 zl switch supports two power supplies. It may be easier to install the power supplies before mounting the switch.

The switch must have at least one power supply to operate some of the modules.

Verify the Switch Passes Self Test (

page 2-17

).

This is a simple process of plugging the switch into a power source and observing that the LEDs on the switch’s front panel and on the modules show correct operation.

It may be easier to verify if the switch passes self test before mounting the switch.

2-3

Installing the HP 8200 zl Switches

Installation Procedures

6.

7.

8.

9.

Install the Grounding Wire

(

page 2-20

). If a grounding wire is to be attached to the switch chassis, the grounding lug must be removed and a wire crimped to it and the grounding lug must be reinstalled.

Connect the Switch to a Power Source (

page 2-21

).

Once the switch is mounted, plug it in to the nearby main power source.

(Optional) Connect a Power Supply Shelf (

page 2-21

).

You may wish to use a Switch zl Power Supply Shelf (J8714A) with your switch. To do so, you must connect the external power supply using the EPS cables supplied with the Power Supply Shelf.

Connect the Network Devices (

page 2-25

).

Using the appropriate network cables, connect other switches, hubs, routers, computers, servers, printers, and other network devices to the switch ports. For more information, see “Connect the Network Devices” on

page 2-25 .

N o t e

The 10/100/1000-T ports on the zl Modules comply with IEEE 802.3x

standard which includes the

Auto MDI/MDI-X

feature. This feature allows you to use

straight-through

twisted-pair cable for all of your twisted-pair network connections.

10.

(Optional) Connect a Console to the Switch (

page 2-27

).

You may wish to modify the switch’s configuration, for example, to configure an IP address so it can be managed using a web browser or from an SNMP network management station. Configuration changes can be made easily through the switch’s console interface.

At this point, the switch is fully installed. See the rest of this chapter if you need more detailed information on any of these installation steps.

2-4

Installing the HP 8200 zl Switches

Installation Procedures

W A R N I N G s

Installation Precautions

To prevent personal injury, follow these precautions when installing the 8212 zl switch:

Due to product weight, two or more persons are required to handle and mount the 8212 zl switch. To reduce the weight, remove all modules and power supplies.

Devices installed in a rack or cabinet should be mounted as low as possible, with the heaviest device at the bottom and progressively lighter devices installed above.

The rack or cabinet should be adequately secured to prevent it from becoming unstable and/or falling over.

Ensure a cover plate is installed on any empty switch power supply or module slot. A cover plate is required for safe operation, and to ensure proper switch cooling. Never have more than one power supply or module slot uncovered at a time while the switch is powered on.

To avoid energy and mechanical hazards, never allow any part of your body, jewelry, tool, or other foreign object to enter any module or power supply slots.

This unit may have more than one power supply cable. To fully power down the switch, you must disconnect all power supply cables from the unit.

2-5

Installing the HP 8200 zl Switches

Installation Procedures

C a u t i o n s

Installation Precautions (continued)

If the switch is to be shipped in a rack, use only an HP 10000 series rack and a rail mounting kit (5070-0145) for each switch and ensure the power supplies have been removed before shipping.

Ensure the power source circuits are properly grounded, then use the power cord supplied with the switch to connect it to the power source.

If your installation requires a different power cord than the one supplied with the switch and power supply, be sure the cord is adequately sized for the switch’s current requirements. In addition, be sure to use a power cord displaying the mark of the safety agency that defines the regulations for power cords in your country. The mark is your assurance that the power cord can be used safely with the switch and power supply.

When installing the switch, note that the AC outlet should be near the switch and should be easily accessible in case the switch must be powered off.

Ensure the switch does not overload the power circuits, wiring, and overcurrent protection. Each power supply should be connected to a dedicated branch circuit to prevent tripping building circuit breakers. To determine the possibility of overloading the supply circuits, add together the ampere ratings of all devices installed on the same circuit as the switch and compare the total with the rating limit for the circuit. The maximum ampere ratings are usually printed on the devices near the AC power connectors.

Do not install the switch in an environment where the operating ambient temperature might exceed 45

C (113

F).

Allow three to four inches of space around the sides and back of the switch to make sure the air flow for the switch is not restricted.

2-6

W A R N I N G

Installing the HP 8200 zl Switches

Installation Procedures

1. Prepare the Installation Site

Cabling Infrastructure

Ensure the cabling infrastructure meets the necessary network specifications.

See Appendix C, “Cabling and Technology Information” on

page B-1

for more information.

Installation Location

Before installing the switch, plan its location and orientation relative to other devices and equipment:

■ In the front of the switch, allow at least 7.6 cm (3 inches) of space for the twisted-pair and fiber-optic cabling.

In the back of the switch, allow at least 10.2 cm (4 inches) of space for the power cord and cooling.

On the sides of the switch, leave at least 7.6 cm (3 inches) for cooling.

2. Mount the Switch Chassis

The HP 8200 zl switches have large, heavy chassis; therefore, HP networking recommends mounting the switch before populating it with modules or power supplies.

A base system weighs approximately 50 pounds, and an unloaded chassis weighs approximately 44 pounds. To avoid personal injury, plan on having at least two people available to help move the unit into place onto the rack. TWO OR MORE PEOPLE ARE REQUIRED WHEN

MOUNTING THIS SWITCH.

The 8200 zl switches can be mounted in these ways: in a rack or cabinet on a horizontal surface

Rack or Cabinet Mounting

The 8200 zl switches are designed to be mounted in any EIA-standard

19-inch telco rack or in an equipment cabinet such as a server cabinet. If you are installing the switch in an equipment cabinet, read the following “Equipment Cabinet Note” on

page 2-8 .

2-7

Installing the HP 8200 zl Switches

Installation Procedures

E q u i p m e n t

C a b i n e t

N o t e

If you are installing the switch in an

equipment cabinet

, in place of the 12-

24 screws supplied with the switch, use the clips and screws that came with the cabinet. Plan which four holes you will be using in the cabinet and install all four clips and partially install the two bottom screws, as described in step

2 on the previous page, before proceeding to step 3.

W A R N I N G

For safe operation, please read the “Installation Precautions” on

page

2-5

and

page 2-6

before mounting the switch.

1.

Use a #1 Phillips (cross-head) screwdriver and attach the mounting brackets to the switch with the included 8-mm M4 screws.

For the 8200 zl switches, each bracket is attached with four screws as shown in the following illustrated example.

2-8

8 mm

M4 screws

Figure 2-1. Attaching Brackets to the 8212 zl Switch

Installing the HP 8200 zl Switches

Installation Procedures

2.

Partially install a screw into the top hole of a pair of holes that are 0.5

inches apart in each rack/cabinet upright as shown in the illustration below. Ensure that the screws are at the same level in each upright.

Partially install a screw into the top hole of a close (0.5-inch) pair on both sides of the rack

Figure 2-2. Mounting Screw Positioning

3.

Place the switch in the rack and lower it so the notches in the bottom of the bracket slide onto the screws, then tighten these screws.

lower the switch with mounting brackets onto the partially installed screws, then tighten these screws

Figure 2-3. Notches in Bracket Being Installed

2-9

Installing the HP 8200 zl Switches

Installation Procedures

4.

Install the other screw into the upper hole in each bracket. Tighten these screws.

install and tighten the other 12-24 screws

N o t e

Figure 2-4. Screws in Bracket Being Installed

Horizontal Surface Mounting

Place the switch on a table or other horizontal surface. Use a sturdy surface in an uncluttered area. You may want to secure the networking cables and switch power cord to the table legs or other part of the surface structure to help prevent people from tripping over the cords.

Ensure the air flow is not restricted around the sides and back of the switch.

2-10

C a u t i o n

Installing the HP 8200 zl Switches

Installation Procedures

3. Install the Switch Modules

Install switch modules into the slots as shown in the illustration below. For installation details, see the instructions in the manual that comes with the module.

Make sure you install only HP Switch zl Modules.

Avoid any electrostatic discharge problems by handling the modules only by their bulkheads.

The slot cover can be removed, and the module can be installed with either a flat-bladed or Torx T-10 screwdriver. Retain the slot cover for future use.

M o d u l e

I n s t a l l a t i o n

N o t e s

Any of the supported Switch zl Modules can be installed in any of the slots.

The modules can be “hot swapped”, installed after the switch is already powered on, and normally will be immediately operational. But, if you are replacing a module with a different type than what was previously installed in the slot, the switch must be rebooted after the module is installed. See “Hot Swapping the Switch Module” on

page 2-30 .

Ensure you fully insert the modules.

That is, press the module into the slot using the extractor handles, until the bulkhead on the module is contacting the front face of the switch chassis.

Once the module is fully inserted, screw in the two retaining screws to secure the module in place. The screws should be tightened until they are secure, but not overtightened.

If you do not use one or more of the slots, ensure the slot cover plate is still attached over the slot for safe operation and proper switch cooling.

For safety, you should not have more than one module slot uncovered at a time.

Although these procedures show the 6-slot chassis, the procedures are the same for the 12-slot chassis.

2-11

Installing the HP 8200 zl Switches

Installation Procedures

Insert module into the guides and slide it in until it is fully inserted

.

Open extractor handles

Figure 2-1. Module Being Installed in a Chassis

Use the extractor handles to seat the module completely.

2-12

Then tighten the retaining screws on the module until they are secure, but do not overtighten them.

Figure 2-5. Chassis with Module Fully Installed

W A R N I N G

Installing the HP 8200 zl Switches

Installation Procedures

Installing a Management Module Battery

The battery on the management module is used to keep time for the internal switch clock. There is no indicator LED for when the battery dies. The only indication will be the internal clock will not keep the correct time.

The battery requires special handling at end-of-life. The battery can explode or cause burns if disassembled, charged, or exposed to water, fire or high temperature. After replacing the battery, properly dispose of used battery according to instructions.

There is a risk of explosion if the battery is replaced by an incorrect type. Ensure to replace the battery with the same type.

To avoid shorting of battery, remove and properly dispose of battery before returning the Management Module for repair.

To install a New Battery:

1.

Insert the new battery with the lettering and the plus “+” sign facing up.

2.

Install the management module into the switch.

Figure 2-6. Battery Location on Management Module

2-13

Installing the HP 8200 zl Switches

Installation Procedures

AT T E N T I O N

ll y a danger d'explosion s'il y a remplacement incorrect de la batterie.

Remplacer uniquement avec une batterie du même type ou d'un type

équivalent recommandé par le constructeur.

Mettre au rebut les batteries usagées conformément aux instructions du fabricant.

AT T E N T I O N

If this product contains a real-time clock battery or coin cell battery it may contain perchlorate and may require special handling when recycled or disposed of in California and other certain states.

Perchlorate material - special handling may apply see:

www.dtsc.ca.gov/hazardouswaste/perchlorate

Web site for more information.

C a u t i o n

4. Install the Power Supplies

Both the 8212 zl switch and the 8206 zl switch can use any of these HP switch zl power supplies:

The J9306A, 1500W PoE+ zl Power Supply, which delivers the following

PoE+: up to 300 watts at 110-127 volts up to 900 watts at 200-240 volts

The J8712A, 875 W Power Supply, which delivers up to 273 watts of PoE power.

The J8713A, 1500 W Power Supply, which delivers up to 900 watts of PoE power at 220 volts.

The J8712A and J8713A power supplies can be paired within the same switch or within the Power Supply Shelf. However, the J9306A power supply can only be paired with another J9306A power supply within the same switch or within the Power Supply Shelf. The J9306A power supply cannot be used with either the J8712A or J8713A power supplies.

The HP 8212 zl switch has limited operation on a single power supply. Only the first six module slots (A-F) will be powered when using only one power supply. In order to power all 12 module slots, the 8212 zl switch requires two

2-14

C a u t i o n

Installing the HP 8200 zl Switches

Installation Procedures power supplies installed in the switch. When there are two power supplies installed in the switch and one should fail, the other power supply can keep the switch running with the first six module slots operational. The 8212 zl switch can hold up to four, load-sharing power supplies. Install the second power supply into power slot number 2, as shown in Figure 2-3. Be sure to use the same power supplies in any one switch.

The HP 8206 zl switch has full operation on a single power supply. However, a second, redundant power supply will prevent the switch from losing all operation should the main power supply fail. The 8212 zl can hold up to two, load-sharing power supplies. Be sure to use the same power supply model in any one switch.

The power supply slot covers can be removed with either a flat-bladed or Torx

T-10 screwdriver. Retain the slot covers for future use.

To prevent overloading of the building circuits, the second power supply can be connected to a different AC power source than the first power supply. This also helps with redundancy where in the event of one power source failure, the switch will continue to operate.

The 8200 zl switches are designed to provide continuously operating PoE or

PoE+ power in the event of a single power supply failure with only a loss of

PoE power to lower priority ports.

If more than one power supply fails while the switch is at or near maximum operating power (that is: the sum total of all PoE or PoE+ supply capacity minus the largest supply, see chapter 2 and 4 of the HP

Power over Ethernet

(

PoE/PoE+) Planning and Implementation Guide)

loss of all PoE or PoE+ power may result.

To return PoE or PoE+ power to the ports without causing the switch to reboot, when there are two or more power supplies still supplying 12V power, unplug the power cord for 5 seconds and re-plug it for each power supply one at a time.

2-15

Installing the HP 8200 zl Switches

Installation Procedures

C a u t i o n

The switch power supplies

are

hot swappable; they can be installed while the switch is receiving power from the supply in the other slot. But, as indicated by the caution statement on the power supply, the supply

must not be connected

to AC power before being installed or removed.

.

.

CAUTION:

Refer to the installation guide for proper power cord selection

Disconnect AC power from the power supply BEFORE installing or removing the supply. Otherwise, damage to the equipment may result.

For safety and proper switch cooling, if either of the power supply slots are not being used, make sure to attach the cover plate over the slot. Please see the “Installation Precautions” on

page 2-6

for more information.

For installation details, see the instructions in the manual that comes with the power supply.

Insert the power supply into the opening, then slide it all the way in until it connects to the switch. The power supply face plate will be flush with the back face of the switch.

Figure 2-7. Installing a Power Supply

2-16

Installing the HP 8200 zl Switches

Installation Procedures

Once the power supply is installed, tighten the four retaining screws that hold it in place. The screws can be tightened with either a flat-bladed or Torx T-10 screwdriver.

Be careful not to overtighten the screws.

tighten the four screws

Figure 2-8. Back of Switch with Power Supply Fully Installed

5. Verify the Switch Passes Self Test

After you have installed any modules and the optional second power supply, but before mounting the switch in its network location, you should first verify it is working properly by plugging it into a power source and verifying it passes its self test.

If you have installed a second power supply, repeat these procedures with the second power supply to verify it works correctly also.

1.

Connect the power cord supplied with the switch to the power connector on the back of the switch, and then into a properly grounded electrical outlet.

2-17

Installing the HP 8200 zl Switches

Installation Procedures

N o t e

Connect power cord to power connector

Figure 2-9. Power Connector on Back of Switch

The 8200 zl switches do not have a power on-off switch. It is powered on when the power cord is connected to the switch and to a power source.

If your installation requires a different power cord than the one supplied with the switch, please see the “Installation Precautions” on

page 2-6

.

2.

Check the LEDs on the switch and on each of the switch modules. The

LED behavior is described on the next page.

If the LED display is different than what is described, especially if the

Fault LED stays on for more than approximately 120 seconds or it starts blinking, the self test has not completed correctly. Refer to chapter 5,

“Troubleshooting” for diagnostic help.

2-18

Switch Fault LED

Switch Chassis LEDs

Installing the HP 8200 zl Switches

Installation Procedures

Switch Module LEDs:

Link and Mode LEDs for each port

Figure 2-10. Switch Fault, Module, and Chassis LEDs

When the switch is powered on, it performs its diagnostic self test. The entire download, initialization, and self test process can take up to 2 minutes for a fully loaded chassis, depending on the number and type of modules installed in the switch.

LED Behavior:

During the self test:

■ Initially,

Power

,

Fault

,

Locator

, and all the switch chassis LEDs are on. Then, after approximately 30 seconds, all the module LEDs go on as the modules receive power and code is downloaded to them, the

Fault

LED goes off, and the chassis LEDs turn orange and then go off except

Test

,

Fan

, and

Power

, which turn green.

When the download of code to the modules is completed, the module

LEDs go off. You may see each port LED go on briefly, in sequence, as the port is tested.

For the duration of the self test, the

Test

LED stays on.

2-19

Installing the HP 8200 zl Switches

Installation Procedures

When the test completes successfully:

The

Power

LED stays on, and the Status LEDs on the switch chassis stay on for the devices installed: one for each switch module installed, one for each power supply installed, and one for all the fans.

The

Fault

,

Locator

, and

Test

LEDs are off.

The port LEDs on the switch modules go into their normal operational mode:

• If the ports are connected to active network devices, the

Link

LEDs stay on and the

Mode

LEDs behave according to the mode selected.

In the default mode (Activity), the Mode LEDs should flicker showing network activity on the port.

• If the ports are not connected to active network devices, the LEDs will stay off.

6. Install the Grounding Wire

2.

3.

If a grounding wire is to be attached to the switch chassis, the grounding lug must be removed and a wire crimped to it and the grounding lug must be reinstalled.

1.

Use a #1 Phillips (cross-head) screwdriver and remove the grounding lug and two screws from the back of the switch.

Crimp the grounding lug to a properly grounded grounding wire.

Re-attach the grounding lug to the switch with the two screws.

Grounding lug screws

Grounding lug

Figure 2-11. Attaching Grounding Lug to the 8200 zl Switch

2-20

Installing the HP 8200 zl Switches

Installation Procedures

7. Connect the Switch to a Power Source

1.

2.

Plug the included power cord into the switch’s power connector and into a nearby properly grounded AC power source.

If a redundant power source is available, it is desirable to power one switch power supply from the regular AC source, and the other power supply from the redundant AC source. This will provide redundancy in AC power to the switch, as long as the switch PoE power usage falls within the capability of one power supply. If both power supplies are plugged into a common AC source, there is still power supply redundancy, that is, protection against power supply failure, but if the AC source fails, the switch will lose all power.

Re-check the LEDs during self test. See “LED Behavior” on

page 2-19

.

8. (Optional) Connect a Power Supply Shelf to the switch

1.

2.

3.

Connect the supplied external power supply (EPS) cables to the switch and to the Power Supply Shelf.

Tighten the thumb screws on all connectors to prevent any accidental disconnects.

Plug the power supply cords into the power connector and into a nearby properly grounded AC power source.

The HP ProCurve Switch zl Power Supply Shelf (EPS) (J8714A) is an accessory product for the 8200 zl switches. The EPS provides External Powerover-Ethernet (PoE) power for up to two 8200 zl switch products.

The EPS can supply up to 1800 watts (depending upon which power supplies are installed) of PoE power to the switch if the internal PoE power supply should fail, or as additional PoE power to be made available to the switch’s

PoE ports. For further information regarding the EPS PoE capabilities, see the

HP Power over Ethernet (PoE/PoE+) Planning and Implementation

Guide

and the

ProCurve Power Supply Shelf Installation and Getting Started

Guide

, which are on the HP networking Web site at

www.hp.com/networking/ support

.

The EPS is an unmanaged power supply that only provides information by way of LEDs.

2-21

Installing the HP 8200 zl Switches

Installation Procedures

EPS Operation

The EPS has a mechanism for detecting that it is connected to a valid switch with an EPS cable. When the EPS is connected to a powered switch it will provide additional PoE power to the switch within 2 seconds.

C a u t i o n

Disconnecting the EPS (PoE power) cable with power flowing is not supported, and could cause loss of PoE power to all network devices connected to the switch. The Power Supply Shelf must be powered down before disconnecting the EPS (PoE power) cable, if power is flowing. Only the power supply to be disconnected must be powered down. The EPS cable may be connected at any time.

Operating Characteristics of the EPS (J8714A)

The Power Supply Shelf has two EPS Ports. The EPS can provide a maximum of up to 900 watts of PoE power to each of the two EPS ports depending on which power supply is used. It is important to understand the PoE power requirements of the 8200 zl switches because if the PoE power is not planned and implemented correctly the end devices connected to the switch ports may not receive power if an internal switch PoE power supply should fail. For further information regarding the Power Supply Shelf PoE capabilities, see the

HP Power over Ethernet (PoE/PoE+) Planning and Implementation

Guide

and the

ProCurve Power Supply Shelf Installation and Getting Started

Guide

, which is on the HP networking Web site.

Power Supply Shelf LEDs

The EPS LEDs are duplicated on the front and back of the device. The following graphic shows an example of the front of the EPS. There are two dual colored (green/orange) LEDs for each EPS port:

Device Connected

Power Status

2-22

ProCurve Switch zl

Power Supply Shelf

J8714A

PoE

Power

Status

E1 E2

–Device Connected

–Power Status

Power Status LEDs Device Connected LEDs

Installing the HP 8200 zl Switches

Installation Procedures

2-23

Installing the HP 8200 zl Switches

Installation Procedures

Connecting the Power Supply Shelf

To Power Source

8200 zl

To Power

Source

To Power

Source

EPS Cables

Figure 2-12. Connecting the EPS to one 8200 zl switch

2-24

To Power Source

To Power

Source

To Power

Source

Installing the HP 8200 zl Switches

Installation Procedures

To Power Source

8200 zl

Condition

8200 zl

EPS Cables

Figure 2-13. Connecting the EPS to two 8200 zl switches

These examples show the switch and the EPS using the J8713A power supply, the J8712A power supply can also be used. It depends on how much PoE power is required.

For more information on PoE requirements see the

HP Power over Ethernet

(

PoE/PoE+) Planning and Implementation Guide

.

9. Connect the Network Devices

The type of network connections you will need to use depends on the types of switch modules you have installed in your 8200 zl switch. See the documentation accompanying the modules for cabling configurations and procedures for those modules.

In general for all the modules, when a network cable from an active network device is connected to the switch, the Link LED for the switch port should go on. If the Link LED does

not

go on, use the table below to help solve the problem, and see the module documentation for troubleshooting procedures.

Diagnostic Tip

2-25

Installing the HP 8200 zl Switches

Installation Procedures

Port LED is still off when a cable is connected

Try the following procedures:

• For the indicated port, verify both ends of the cabling, at the switch and the connected device, are securely connected.

• Verify the connected device and switch are both powered

on

and operating correctly.

• Verify you have used the correct cable type for the connection:

– for all twisted-pair connections, the RJ-45 connectors on the 8200 zl switch allow you to use either straight-through cable or crossover cable when the port is in the “Auto” configuration.

– for fiber-optic connections, verify the transmit port on the switch is connected to the receive port on the connected device, and the switch receive port is connected to the transmit port on the connected device.

See appendix B, “Switch Ports and Network Cables” for information on cables.

• Verify the port has not been disabled through a switch configuration change.

• Verify the connection parameters in the configurations of the switch port and the connected device match. Mismatched configurations are a frequent cause of connection problems.

You can use the console interface, or, if you have configured an IP address on the switch, use the web browser interface, or ProCurve Manager network management software to determine the state and configuration of the port and re-enable the port if necessary.

• If the other procedures don’t resolve the problem, try using a different port or a different cable.

2-26

Installing the HP 8200 zl Switches

Installation Procedures

10. (Optional) Connect a Console to the Switch

The 8200 zl switch has a full-featured, easy-to-use console interface for performing the following tasks.

Monitor switch and port status and observe network activity counters

Modify the switch’s configuration

Read the event log and access diagnostic tools to help in troubleshooting

Download new software to the switch

Add passwords and other security features to control access to the switch from the console, web browser interface, and network management stations

The console can be accessed through these methods:

Out-of-band:

Connect a PC or VT-100 terminal, to be used as a console, directly to the switch using the serial cable that comes with the 8200 zl switch. If the PC or terminal has a 25-pin serial connector, you can use a readily available 9-pin to 25-pin serial cable, or attach a 9-to-25 pin straightthrough adapter to the PC end of the cable.

In-Band:

Access the console using telnet from a PC or UNIX station on the network, and a VT-100 terminal emulator. This method requires that you first configure the switch with an IP address and subnet mask by using either out-of-band console access or through DHCP/Bootp.

The 8200 zl switch can simultaneously support one out-of-band console session through the Console Port and five in-band sessions (TELNET or SSH).

Terminal Configuration

To connect a console to the switch, configure the PC terminal emulator as a

VT-100 or DEC VT-100 (ANSI) terminal, or use a VT-100 terminal and configure it to operate with these settings:

■ any baud rate from 2400 to 115200 (the switch automatically senses the speed)

8 data bits, 1 stop bit, no parity, and flow control set to None

■ for Windows Terminal program, also disable (uncheck) the “Use Function,

Arrow, and Ctrl Keys for Windows” option for the Hilgrave HyperTerminal program, select the “Terminal keys” option for the “Function, Arrow, and Ctrl keys act as” parameter

2-27

Installing the HP 8200 zl Switches

Installation Procedures

If you want to operate the console using a different configuration, ensure you change the settings on both the terminal and on the switch. Change the switch settings first, then change the terminal settings, and reestablish the console session.

Direct Console Access

To connect a console to the switch, follow these steps:

1.

Connect the PC or terminal to the switch’s

Console Port using the console cable included with the switch. (If your

PC or terminal has a 25pin serial connector, first attach a 9-to-25 pin straight-through adapter to the PC end of the cable, then attach the console cable to the 9-pin connector and plug in the

RJ-45 connector to the switch.)

PC running a terminal emulator program, or a VT-100 terminal console cable supplied with the switch console port

Note

The Console Port is a serial not an Ethernet connection.

Figure 2-14. Console Connected to Switch

2.

3.

Turn on the terminal or

PC’s power and, if using a PC, start the PC terminal program.

Press the Enter key two or three times and you will see the copyright page and the message “Press any key to continue”. Press a key, and you will then see the switch console CLI prompt.

2-28

Installing the HP 8200 zl Switches

Installation Procedures

Console Cable Pinouts

The console cable has an RJ-45 male connector on one end and a DB-9 female connector on the other end. Table 2-2 describes the mapping of the RJ-45 to

DB-9 pins.

1 2 3 4 5 6 7 8

5

4 3 2 1

9 8 7 6

Figure 2-15. RJ-45 to DB-9 pinouts

Table 2-2.

Mapping of RJ-45 to DB-9

RJ-45 (Signal reference from

Chassis)

Reserved 1

DB-9 (Signal reference from PC)

8 CTS

Reserved

TXD

Reserved

GND

RXD

Reserved

4

5

2

3

6

7

1

5

6

2

3

4

DSR

RXD

DCD

GND

TXD

DTR

1 2 3 4 5 6 7 8

2-29

Installing the HP 8200 zl Switches

Hot Swapping Switch Modules

RJ-45 (Signal reference from

Chassis)

DB-9 (Signal reference from PC)

Reserved 8 7

9

RTS

RI

Telnet Console Access

To access the switch through a telnet session, using an Ethernet port not the

Console port, follow these steps:

1.

Ensure the switch is configured with an IP address and that the switch is reachable from the telnet workstation (for example by using a Ping command to the switch’s IP address)

2.

3.

Start the telnet program and connect to the switch’s IP address.

The copyright page and the message “Press any key to continue” will display. Press a key, and the switch console CLI prompt will display.

If you want to continue with console management of the switch at this time through either a direct connection or a TELNET session, see chapter 3,

“Getting Started With Switch Configuration” for some basic configuration steps. For more detailed information, refer to the

Management and Configuration Guide

which is on the HP networking Web site.

Hot Swapping Switch Modules

The switch modules can be “hot swapped” (except for the System Support

Module and the Management Module (unless there are two Management

Modules in the same chassis, they are not hot swappable), that is installed or replaced while the switch is powered on (See Module Installation Notes on

page 2-11

). The procedures differ slightly, though between adding new modules to an empty slot or replacing modules with the same type, and exchanging the module with a different type.

Adding or Replacing Modules

If a module has to be replaced with one of the same type, or you are expanding the switch capability by adding a module in a slot where one was not previously installed (since the last switch reboot), the replaced or new module is immediately operational; there is no interruption to the switch operation.

2-30

Installing the HP 8200 zl Switches

Hot Swapping Switch Modules

Changing the Module Type

If you exchange a module with a different type of module though, for example a 10/100/1000-T zl Module is installed in place of a 4 port 10G X2 Module that was in the slot, the switch must be rebooted after the new module is installed so the switch processor can properly initialize and configure the new module type.

You can reboot the switch by any of the following methods:

Pressing the Reset button on the front of the switch.

Unplugging and plugging in the power cord (power cycle). If two power supplies are installed, both power cords would have to be unplugged.

Issuing the

boot

command from the switch console CLI, or selecting the

boot Switch

option from the switch console menu, the web browser interface, or ProCurve Manager.

Until the switch is rebooted, the module will not operate and the Module

Status LED for the affected slot will continue to flash.

2-31

Installing the HP 8200 zl Switches

Example Network Topologies

Example Network Topologies

This section shows a few example network topologies in which the 8200 zl switch can be implemented.

Basic Connectivity

8212 zl Switch

2-32

Phones, APs and other peripherals

Figure 2-16. Basic Switch Connectivity

The 8200 zl switch can provide basic network connectivity to a high number of PoE and PoE+ devices. These devices can be easily connected, as shown in the above illustration.

10-Gig fiber-optic cables

Use as an Edge Switch

8212 zl Switch

5400 zl

Switch

Installing the HP 8200 zl Switches

Example Network Topologies

10-Gig fiber-optic cables

8212 zl

Switch

Figure 2-17. Edge Switch Configuration

When your network expands and the users need to access resources beyond the edge of the local network, the 8200 zl switches are excellent platforms for that expansion. With the flexibility of 12 slots, the high port count 10/100/1000-

T zl Modules for local connections, and the availability of 10 Gig speeds on both copper and fiber cables, the 8200 zl switch can provide that access beyond the edge for a high number of network users.

In the above illustration, one 8200 zl switch, which can serve as a campus backbone or core switch, is connected to one 5400 zl switch and one 8200 zl switch at the edge.

The 10 Gig fiber-optic connections between the two Switches is by way of any of the supported HP networking 10 Gig X2 transceivers installed in the transceiver port on the 4 port 10-GbE X2 zl Module.

2-33

Installing the HP 8200 zl Switches

Example Network Topologies

The illustration shows the 10-gig modules in different slots. However, for best performance, they should be mounted in one of the first six slots in case of a single power supply running the chassis.

Optimizing the 10-GbE Port Configuration with standard zl modules

The 10-GbE ports on the HP 8200 zl switches are designed to deliver full 10

Gbps wire-speed to each port, where either one or two ports are in a linked state with another device. When three or four 10-GbE ports are in a linked state, when using an X2 (J8708A), CX4 (J8707A), or SFP+ (J9308A) module, the 10-GbE ports support an aggregate bandwidth of 28.8 Gbps across the linked ports.

As illustrated in the figure below, internally, there are two 14.4-Gbps channels between each of the 4 10-GbE ports and the switch fabric.

2-34

Figure 2-18. 10-GbE port architecture showing ports grouped by 14.4 Gbps channel.

When any two 10-GbE ports are in a linked state, each port automatically operates on its own channel, which guarantees 10 Gbps of bandwidth for each port. However, when more than two ports are in a linked state, ports A1 and

A4 are statically mapped to share one 14.4 Gbps channel, while ports A2 and

A3 are statically mapped to share the other 14.4 Gbps channel.

To summarize:

■ If only one port in a given channel is in a linked state, then that port operates at wire speed and the other port uses no bandwidth.

■ If both ports in a given channel are in a linked state, then the 14.4 Gbps of bandwidth is balanced fairly between the two ports.

Installing the HP 8200 zl Switches

Example Network Topologies

For example, in an application where three ports are needed and it is important to ensure that port 1 always has a full 10 Gbps available, the connection choices shown in the next figure would be used.

Figure 2-19. Guaranteeing 10 Gbps on a specific port.

Optimizing the 10-GbE Port Configuration with version 2 zl modules

The 10-GbE module (J9538A) delivers additional performance for zl switches.

There is an increase in channel throughput and port density compared to the

HP 4-Port 10-GbE CX4 zl Module (J8708A) and HP 4-Port 10-GbE X2 zl Module

(J8707A).

The 8200 zl has a fabric design that allows for optimal performance with

10-GbE v2 zl modules. When compared to the first generation zl modules, the bandwidth channels have been improved to a maximum capacity of 23.4 Gbps per channel, as opposed to 14.4 Gbps channels for the standard zl modules.

An eight port 10-GbE module has two 23.4 Gbps channels, for an aggregate of

46.8 Gbps of channel bandwidth. There is a fixed assignment between ports and channel bandwidth. For an eight port 10-GbE modules, Each 23.4 Gbps channel is allocated to 4 10-GbE ports.

2-35

Installing the HP 8200 zl Switches

Example Network Topologies

The channel assignment is as follows:

Interfaces 1,4, 6, and 8 are assigned to channel 1. Interfaces 2, 3, 5, and 7 are assigned to channel 2. This is demonstrated in figure 2-19.

Ports A6 and A8 are not used

Ports A5 and A7 are not used

Figure 2-20. Version 2 optimized 10-GbE port configuration

For wire rate connectivity, do not connect more than 2 10-GbE ports to a channel. In the diagram, it is possible to connect ports 1-4 for wire rate connectivity because the first channel will have ports 1 and 4 connected, while the second channel will use ports 2 and 3. If ports 1, 4, and 6 are connected, but other ports are unused, the three ports will share up to 23.4 Gbps of bandwidth. If ports 1, 4, 6, and 8 are connected, the ports will share 23.4 Gbps of bandwidth between the four ports. The HP 8200 zl can support up to 4 wire rate interfaces on an 8 port 10-GbE module (J9538A).

2-36

3

Getting Started With Switch Configuration

This chapter is a guide for using the console Switch Setup screen to quickly assign an IP (Internet Protocol) address and subnet mask to the switch, set a

Manager password, and, optionally, configure other basic features.

For more information on using the switch console and the other switch management interfaces: the web browser interface and the SNMP management tool, ProCurve Manager, please see the

HP ProCurve Management and

Configuration Guide

which is on the HP Web site.

Recommended Minimal Configuration

In the factory default configuration, the switch has no IP (Internet Protocol) address and subnet mask, and no passwords. In this state, it can be managed only through a direct console connection. To manage the switch through inband (networked) access, you should configure the switch with an IP address and subnet mask compatible with your network. Also, you should configure a Manager password to control access privileges from the console and web browser interface. Other parameters in the Switch Setup screen can be left at their default settings or you can configure them with values you enter.

Many other features can be configured through the switch’s console interface, to optimize the switch’s performance, to enhance your control of the network traffic, and to improve network security. Once an IP address has been configured on the switch, these features can be accessed more conveniently through a remote TELNET session, through the switch’s web browser interface, and from an SNMP network management station running a network management program, such as ProCurve Manager. For a listing of switch features available with and without an IP address, refer to “How IP Addressing Affects Switch

Operation” in the

Management and Configuration Guide

which is on the HP networking Web site.

For more information on IP addressing, refer to “IP Configuration” in the

Management and Configuration Guide

.

3-1

Getting Started With Switch Configuration

N o t e

By default, the switch is configured to acquire an IP address configuration from a DHCP or Bootp server. To use DHCP/Bootp instead of the manual method described in this chapter, see “DHCP/Bootp Operation” in the

Management and Configuration Guide

which is on the HP networking Web site.

Using the Switch Setup Screen

The quickest and easiest way to minimally configure the switch for management and password protection in your network is to use a direct console connection to the switch, start a console session, and access the Switch Setup screen.

1.

Using the method described in the preceding section, connect a terminal device to the switch and display the switch console command (CLI) prompt (the default display).

2.

The CLI prompt appears displaying the switch model number, for example:

HP 8200zl#

At the prompt, enter the

setup

command to display the Switch Setup screen. The following illustration is an example of a Setup screen with default settings. Your screen may vary slightly.

ProCurve Switch 8212zl

xl

-

ProCurve Switch 8212zl

xl

T imeP Mode [Disabled] :

T

IMEP

Disabled

Figure 3-1. Example Switch Setup Screen

3-2

Getting Started With Switch Configuration

3.

4.

5.

Use the Tab key to select the

Manager Password

field and enter a manager password of up to 16 characters.

Tab to the

IP Config (DHCP/Bootp)

field and use the Space bar to select the

Manual

option.

Tab to the

IP Address

field and enter the IP address that is compatible with your network.

6.

Tab to the

Subnet Mask

field and enter the subnet mask used for your network.

7.

Press Enter, then S (for

Save

).

The following is information on the fields in the Setup screen. For more information on these fields, see the

Management and Configuration Guide

which is on the HP Web site.

Parameter

System Name

System Contact

Manager Password

Logon Default

Time Zone

Community Name

Spanning Tree Enabled

Default Gateway

Default

blank blank blank

CLI

0 (none) public

No blank

Optional; up to 255 characters, including spaces

Optional; up to 255 characters, including spaces

Recommended; up to 16 characters (no blank spaces)

The default setting selects the command line interface for console access.

The alternative is the Menu interface.

Optional; 1440 to -1440. The number of minutes your location is to the

West (-) or East (+) of GMT.

Default setting recommended.

Default setting recommended unless STP is already running on your network or the switch will be used in complex network topologies.

Recommended; Enter the IP address of the next-hop gateway node if network traffic needs to be able to reach off-subnet destinations.

Time Sync Method

TimeP Mode

IP Config

IP Address

TimeP Optional; The protocol the switch uses to acquire a time signal. The options are SNTP and TimeP.

Synchronizes the time kept on the switch to the TimeP server.

Disabled

DHCP/Bootp Set to Manual unless a DHCP/Bootp server is used on your network to configure IP addressing.

xxx.xxx.xxx.xxx Recommended; If you set IP Config to Manual, then enter an IP address compatible with your network.

Note:

The IP address and subnet mask assigned for the switch must be compatible with the IP addressing used in your network. For more information on IP addressing, see the

Management and Configuration Guide

which is on the HP Web site.

Subnet Mask xxx.xxx.xxx.xxx Recommended; If you entered an IP address, then enter a subnet mask compatible with your network.

3-3

Getting Started With Switch Configuration

Where to Go From Here

The above procedure configures your switch with a Manager password, IP address, and subnet mask. As a result, with the proper network connections, you can now manage the switch from a PC equipped with Telnet, a web browser interface, or from an SNMP-based network management station using a tool such as ProCurve Manager.

Some basic information on managing your switch is included in the next section. For more information on the console, web browser, and SNMP management interfaces and all the features that can be configured on the

8200zl switches, see the

HP Management and Configuration Guide

at

www.hp.com/networking/support

.

To Recover from a Lost Manager Password:

If you cannot start a console session at the manager level because of a lost

Manager password, you can clear all passwords and user names by getting physical access to the switch and pressing and holding the Clear button for a full second.

3-4

Getting Started With Switch Configuration

Using the IP Address for Remote Switch Management

Using the IP Address for Remote Switch

Management

With your 8200 zl switch, you can use the switch’s IP address to manage the switch from any PC that is on the same subnet as the switch. You can use either a TELNET session or a standard web browser to manage the switch.

Starting a Telnet Session

To access the switch through a Telnet session, follow these steps:

1.

Ensure the switch is configured with an IP address and that the switch is reachable from the PC that is running the Telnet session (for example, by using a ping command to the switch’s IP address).

2.

3.

Start the Telnet program on a PC that is on the same subnet as the switch and connect to the switch’s IP address.

You will see the copyright page and the message “Press any key to continue”. Press a key, and you will then see the switch console command

(CLI) prompt, for example (assuming there is no password):

HP 8200zl#

Enter

help

or

?

to see a list of commands that can be executed at the prompt. Entering any command followed by

help

provides more detailed context help information about the command. Entering any command followed by

?

displays a list of options that are available at that point in the command entry.

Starting a Web Browser Session

Your 8200 zl switch can be managed through a graphical interface that you can access from any PC or workstation on the network by running your web browser and typing in the switch’s IP address as the URL. No additional software installation is required to make this interface available; it is included in the switch’s onboard software.

An example web browser interface screen is shown in the next illustration.

3-5

Getting Started With Switch Configuration

Using the IP Address for Remote Switch Management

Figure 3-2. Example Switch Web Browser Interface - Status Overview

For more information on using the web browser interface, please see the

Management and Configuration Guide

which is on the HP Web site.

An extensive help system is also available for the web browser interface. To access the help system though, the subnet on which the switch is installed must have access to the internet, or ProCurve Manager needs to be installed on a network management station that is on the subnet.

3-6

N o t e :

N o t e

Getting Started With Switch Configuration

Configuring the ProCurve Wireless Edge Services zl Module (J9051A)

Configuring the ProCurve Wireless Edge

Services zl Module (J9051A)

Before beginning the configuration, backup the current configuration of the switch.

The zl switch software must be updated to a version (K.12.xx) that supports the module. Visit

www.hp.com/networking/support

to obtain a supported version; to verify module support, refer to the version’s

Release Notes

.

The ProCurve Wireless Edge Services zl Module (J9051A) and the ProCurve

Redundant Wireless Services zl Module (J9052A) must be running software version WT.01.xx or later.

The term ‘module’ is used in this section to refer to both the ProCurve Wireless

Edge Services zl Module (J9051A) and the ProCurve Redundant Wireless

Services zl Module (J9052A).

There are four module configuration tasks required:

■ configuring an IP address for the module configuring VLANs on the zl switch determining a module configuration backup process configuring wireless LAN services

Configuring an IP Address for the Module

By default, the module uses DHCP to get an IP address. The zl switch CLI has a command context, the

wireless-services

aging a module.

context, for configuring and man-

‘HP’ is used here as a generic prompt for all zl switches.

To identify the slot in the zl switch where the module is installed, enter the following command:

HP# show modules

To show the module’s IP address, enter the following command to access the module’s

wireless-services

CLI context for the module:

HP# wireless-services

<slot-id>

where

<slot-id>

is the slot in the zl switch where the module is installed.

3-7

Getting Started With Switch Configuration

Configuring the ProCurve Wireless Edge Services zl Module (J9051A)

To display the module’s IP address, enter:

HP (wireless-services-id)# show ip interfaces

The following example enters the

wireless-services

context of a module installed in Slot B of a zl switch and then displays the IP address assigned by

DHCP to the module:

HP# wireless-services b

HP(wireless-services-B)#show ip interface

Interface IP-Address/Mask Status Protocol vlan1 10.35.12.24(DHCP) up up

HP(wireless-services-B)#

If no DHCP service is available or if the administrator wishes to manually set the Wireless Edge Services zl Module IP Address, it can be specified through the CLI. From the

wireless-services

context, enter the

config

context and use the

interface vlan1

command to configure the

vlan1

interface. Use the following command to set the IP address:

HP(wireless-services-

<slot-id>

)(config-if)# ip address

<IP>

where

<slot-id>

is the slot in the zl switch where the module is installed.

<IP>

is the IP address in CIDR notation (/mask bit number),

or

dhcp

which will use DHCP to obtain an IP address.

In the following example, the CLI commands set the module’s IP address to

10.245.22.14 with a 21-bit subnet mask.

HP(wireless-services-B)#configure

HP(wireless-services-B)(config)#interface vlan1

HP(wireless-services-B)(config-if)#ip address 10.245.22.14/21

HP(wireless-services-B)(config-if)#show ip interface

Interface IP-Address/Mask Status Protocol vlan1 10.245.22.14/21 up up

HP(wireless-services-B)(config-if)#

If necessary, use the following command from the

wireless-services

and

config

contexts to set or change the default gateway:

HP(wireless-services-B)(config)#ip default-gateway

<ip-addr>

where

<ip-addr>

is the numeric IP address of the default gateway, for example 10.1.2.1.

3-8

Getting Started With Switch Configuration

Configuring the ProCurve Wireless Edge Services zl Module (J9051A)

Configuring VLANs on the zl Switch

In a wireless services-enabled zl switch, the Wireless Edge Services zl Module and the Redundant Wireless Services zl Module use ports on the switch to pass wired and wireless traffic to and from the network. An uplink VLAN, containing the module’s uplink port, communicates with the wired side of the network; downlink radio port VLANs, containing the module’s downlink port, communicate with the wireless side of the network.

See the

Wireless Edge Services zl Module Supplement to the ProCurve zl

Switch Management and Configuration Guide

for detailed information to set up and configure VLANs on the zl switch for module communications. This manual is available at

www.hp.com/networking/support.

Determining a Module Configuration Backup Process

The module’s configuration files are stored on the module, not on the zl switch, unlike other zl modules. An external FTP or TFTP server must be used to back up and restore a module’s complete configuration.

The switch does save a small subset of the module’s configuration that allows the switch to locate the full configuration file on the external FTP or TFTP server and to validate it using a checksum. The stored subset of a module’s configuration file appears in a

show running-config

or

show config

command as uneditable text.

For more information on configuring and managing configuration files on an external FTP or TFTP server, see the

ProCurve Wireless Edge Services zl

Modules Management and Configuration Guide

, available at

www.hp.com/networking/support

.

3-9

Getting Started With Switch Configuration

Configuring the ProCurve Wireless Edge Services zl Module (J9051A)

Configuring Wireless LAN Services

To configure wireless LAN services on a wireless services-enabled zl switch, use one of the following management interfaces for the module:

Web browser interface — Accessed through a Web browser, this intuitive interface provides comprehensive information to help you manage and monitor your company’s wireless services. The menus and online help guide you through configuration steps. See the

ProCurve Wireless Edge Services zl Modules Management and

Configuration Guide

for information on using the Web browser interface to configure and manage a module.

To run the Web browser interface for the ProCurve Wireless Edge Services zl Module, your workstation must be running Java Virtual Machine (JVM).

If your workstation is not running the JVM and you attempt to open the module’s Web browser interface, the workstation will automatically try to access the Internet and download the JVM.

Command line interface (CLI) — Available through a serial, Telnet, or

Secure Shell (SSH) session to the zl switch, the

wireless-services

context, accessed from the zl switch’s CLI

config

context, provides a complete set of commands to configure, manage, and troubleshoot your wireless services.

The CLI commands available in the

wireless-services

context of the zl switch CLI are documented in an appendix of the

ProCurve Wireless Edge

Services zl Modules Management and Configuration Guide.

Refer to this manual for more information.

The Web browser interface simplifies both management and configuration tasks, and is recommended in most instances.

3-10

4

Replacing Components

This chapter shows you how to remove and install the following components:

Power supplies (see

page 4-2 )

Fan tray (see

page 4-5

)

Management module (see

page 4-6 )

Management module Flash Disk (see

page 4-8

)

Replacing the Services zl Module Compact Flash Card (see

Replacing the Services zl Module Disk Drive (see

page 4-10 )

page 4-9 )

For a complete list of parts and part numbers, see page 2-1.

H o t S w a p p i n g

The HP 8200 zl switches support “hot swapping.” Hot swapping is the ability to replace certain hardware components while the switch is operating, including a fan tray, power supply (if a second power supply is installed), and certain modules.

The System Support module is not hot swappable. The Management module and its components are not hot swappable unless there are two Management modules installed in the switch. The Fabric modules can be hot swapped one at a time.

The hot swapping feature allows you to remove or install modules without powering off or rebooting the switch. Swapped-in modules are recognized by the switch and begin functioning immediately after they are installed.

C a u t i o n

The HP E8200 zl switch and its components are sensitive to static discharge.

Use an antistatic wrist strap and observe all static precautions when hot swapping components. For example, connect your antistatic wrist strap to the ground point on the front of the switch, above the rightmost power supply bay.

W A R N I N G

This unit may have more than one power supply cable. To fully power down the switch, you must disconnect all power supply cables from the unit.

4-1

Replacing Components

Replacing Power Supplies

C a u t i o n

Replacing Power Supplies

If your HP E8200 zl switch is configured with redundant power supplies, you will not suffer any loss of traffic or performance if a power supply fails.

Replace the failed component as soon as possible. One of the Internal Power

LEDs on the management module will blink simultaneously with the switch

Fault LED indicating which power supply failed.

The 8200 zl switches are designed to provide continuously operating PoE or

PoE+ power in the event of a single power supply failure with only a loss of power to lower priority ports.

If more than one power supply fails while the switch is at or near maximum operating power, loss of all PoE or PoE+ power may result. That is, the sum of all PoE supply capacity minus the largest supply. (See chapter 2 and 4 of the

HP Power over Ethernet (PoE/PoE+) Planning and Implementation

Guide

.)

To return PoE power to the ports, without causing the switch to reboot, when there are two or more power supplies still supplying 12V power, unplug the power cord for 5 seconds and replug it for each power supply one at a time.

To remove an AC power supply:

1.

Ensure the AC power supply is not plugged into an AC power source on the failed power supply.

4-2

Replacing Components

Replacing Power Supplies

2.

Using either a flat-bladed or Torx T-10 screwdriver loosen the retaining screws and remove the failed power supply.

Figure 4-1. Power Supply Removal

4-3

Replacing Components

Replacing Power Supplies

3.

Insert the power supply into the opening. Slide it all the way in until it connects to the switch. The power supply face plate will be flush with the back face of the switch.

tighten the four screws

Figure 4-2. Power Supply Installation

4.

Tighten the four retaining screws that hold it in place. Be careful not to overtighten the screws.

For more detail refer to the

ProCurve Switch zl Internal Power Supply

Installation Guide

(5991-3787).

4-4

W A R N I N G

Replacing Components

Replacing Fan Trays

Replacing Fan Trays

When a fan fails the Fan Status LED on the switch chassis will blink simultaneously with the switch Fault LED. In this case, the entire fan tray needs to be replaced. You cannot replace individual fans.

The fan tray is hot swappable. It can be removed and replaced without removing power from the switch. However, install the new fan tray immediately (within two minutes) after removing the old fan tray to avoid overheating and switch shutdown (within three minutes).

To avoid contact with spinning fans, if you are hot swapping out the fan tray assembly, pull the assembly out one-inch and allow the fans to stop rotating (approximately 20 seconds) before pulling it all the way out.

To replace a fan tray:

1.

Using either a flat-bladed or Torx T-10 screwdriver loosen the retaining screws holding the fan tray assembly and pull the fan tray assembly out.

2.

Install the new fan tray assembly and tighten the retaining screws.

Retaining Screws

Handle

Figure 4-3. Fan Tray Removal and Installation

4-5

Replacing Components

Replacing the Management Module

N o t e

Replacing the Management Module

The Management Modules are designed to be hot-swappable, and can be removed without damage. However, the synchronization of files may be occurring, so to minimize the possibility of corruption between the Management Modules when one is being removed, use the “MM Shutdown” button.

Using the “MM Shutdown” button will gracefully shutdown the Management

Module, completing any synchronization of files and state information to the second (Standby) Management Module.

If both Management Modules are removed from the switch at the same time, the switch will shutdown.

If there is only one Management Module in the switch, HP networking recommends replacing the Management module, flash disk and battery (on the

Management module) during scheduled down time.

6.

7.

4.

5.

2.

3.

To install (or replace) a Management Module:

1.

On the module unscrew the retaining screws enough to disconnect them from the threaded holes in the switch.

Using the extractor handles, pull the module out from the slot.

Remove the flash disk from the failed module and install it into the replacement module.

Remove the battery from the failed module and dispose of properly.

Install the new battery that came with the replacement module.

Install the replacement module into the switch.

Use an equal amount of pressure and push both extractor handles closed to completely seat the module.

4-6

8.

Tighten the retaining screws.

Extractor Handles

Replacing Components

Replacing the Management Module

Retaining Screws

Figure 4-4. Management Module Removal and Installation

4-7

Replacing Components

Replacing the Management Module Compact Flash Card

Replacing the Management Module

Compact Flash Card

The Compact Flash card is the primary non-volatile storage medium located on the management module that contains both the boot software and configuration files. When a Flash card fails the Flash status LED on the management module will blink simultaneously with the switch Fault LED.

Installing a Compact Flash Card

To install (or replace) a Compact Flash card:

1.

Using either a flat-bladed or Torx T-10 screwdriver loosen the retaining screws securing the management module. (You cannot access the

Compact Flash when the management module is installed. This prevents inadvertent removal of the system image while the system is running.)

2.

Using the extractor handles, pull the management module out from the slot.

Slide out

4-8

Compact Flash

Memory disk

Figure 4-5. Management Module Flash Card Removal

5.

6.

3.

4.

7.

Slide out the old flash card.

Slide in the new flash card being careful not to bend any pins.

Reinstall the management module into the switch.

Use an equal amount of pressure and push both extractor handles closed to completely seat the module.

Tighten the retaining screws.

Replacing Components

Replacing the Services Module Compact Flash Card

Replacing the Services Module Compact

Flash Card

The Compact Flash card is the primary non-volatile storage medium located on the Services Module that contains both the boot software and configuration files. When a Flash card fails the “CF Status” LED on the Services Module will blink simultaneously with the switch Fault LED.

Installing a Compact Flash Card

To install (or replace) a Compact Flash card:

1.

Using either a flat-bladed or Torx T-10 screwdriver loosen the retaining screws securing the module. (You cannot access the Compact Flash when the module is installed.)

2.

Using the extractor handles, pull the module out of the slot and turn it over.

Slide out

Compact Flash

Memory disk

Figure 4-6. Services zl Module Flash Card Removal

3.

4.

5.

6.

7.

Slide out the old flash card by applying slight pressure to the top of the flash card and sliding it to the right.

Position the new flash card properly and slide in the new flash card being careful not to bend any pins.

Reinstall the module into the switch.

Use an equal amount of pressure and push both extractor handles closed to completely seat the module.

Tighten the retaining screws.

4-9

Replacing Components

Replacing the Services Module Disk Drive

Replacing the Services Module Disk Drive

The hard disk drive (HDD) is the primary storage medium located on the

Services Module. When a disk drive fails the “HDD status” LED on the Services

Module will blink simultaneously with the switch Fault LED.

Installing a Disk Drive

4.

5.

2.

3.

To install (or replace) a Disk Drive:

1.

Using either a flat-bladed or Torx T-10 screwdriver loosen the retaining screws securing the module. (You cannot access the disk drive when the module is installed.)

Using the extractor handles, pull the module from the slot and turn it over.

Using a Cross Recess Type 1 No.1 (Phillips tip) screwdriver remove the 4 retaining screws holding the disk drive.

Slide the disk drive half way back to disconnect it.

Position the disk drive in the middle of the disk drive slot.

4-10

Replacing Components

Replacing the Services Module Disk Drive

6.

Using either side of the disk drive bracket, lift the disk drive out.

Disconnected

Disk drive retaining screws

Lift out

Figure 4-7. Services zl Module Disk Drive Removal

7.

8.

Install the new disk drive and slide it forward to engage the connector.

Re-install the 4 retaining screws.

9.

Re-install the module into the switch.

10. Use an equal amount of pressure and push both extractor handles closed to completely seat the module.

11. Tighten the retaining screws.

4-11

Replacing Components

Replacing the Services Module Disk Drive

4-12

5

Troubleshooting

This chapter describes how to troubleshoot your 8200 zl switch. Note that this document describes troubleshooting mostly from a hardware perspective.

You can perform more in-depth troubleshooting using the software tools available with the switch, including the full-featured console interface, the built-in web browser interface, and ProCurve Manager, the SNMP-based network management tool. For more information, see the chapter “Troubleshooting” in the

Management and Configuration Guide,

which is on the HP networking Web site at

www.hp.com/networking/support

.

This chapter describes the following:

basic troubleshooting tips (

diagnosing with the LEDs ( hardware diagnostic tests (

page 5-1

page 5-4

Proactive networking tools (

HP Customer Support Services (

)

)

page 5-9

page 5-10

)

)

restoring the factory default configuration (

downloading new code ( page 5-14 ) page 5-14 )

page 5-13 )

Basic Troubleshooting Tips

Most problems are caused by the following situations. Check for these items first when starting your troubleshooting:

Faulty or loose cables.

Look for loose or obviously faulty connections.

If they appear to be OK, make sure the connections are snug. If that does not correct the problem, try a different cable.

Non-standard cables.

Non-standard and miswired cables may cause network collisions and other network problems, and can seriously impair network performance. Use a new correctly-wired cable or compare your cable to the cable in appendix B, “Switch Ports and Network Cables” for pinouts and correct cable wiring. A category 5 cable tester is a recommended tool for every 100Base-TX and 1000Base-T network installation.

5-1

Troubleshooting

Basic Troubleshooting Tips

Improper Network Topologies.

It is important to make sure you have a valid network topology. Common topology faults include excessive cable length and excessive repeater delays between end nodes. If you have network problems after recent changes to the network, change back to the previous topology. If you no longer experience the problems, the new topology is probably at fault.

In addition, you should make sure that your network topology contains

no data path loops

. Between any two end nodes, there should be only one active cabling path at any time. Data path loops will cause broadcast storms that will severely impact your network performance.

With your 8200 zl switch, if you wish to build redundant paths between important nodes in your network to provide some fault tolerance, you should enable

Spanning Tree Protocol

support on the switch. This ensures that only one of the redundant paths is active at any time, thus avoiding data path loops. Spanning Tree can be enabled through the switch console, the Web browser interface, or ProCurve Manager.

The 8200 zl switch also supports

Trunking

, which allows multiple network cables to be used for a single network connection without causing a data path loop. See the

Management and Configuration Guide

for more information on Spanning Tree and on Trunking, which is on the

HP Web site.

Connecting to devices that have a fixed full-duplex configuration.

The RJ-45 ports on the 8200 zl switch are configured as “Auto.” That is, when connecting to attached devices, the switch will operate in one of two ways to determine the link speed and the communication mode (half duplex or full duplex):

• if the connected device is also configured to Auto, the switch will automatically negotiate both link speed and communication mode if the connected device has a fixed configuration, for example 100

Mbps, at half or full duplex, the switch will automatically sense the link speed, but will default to a communication of

half

duplex

Because the 8200 zl switch behaves in this way

(in compliance with the

IEEE 802.3 standard)

, if a device connected to the switch has a fixed configuration at

full

duplex, the device will not connect correctly to the switch. The result will be high error rates and very inefficient communications between the switch and the device.

Ensure that all devices connected to the 8200 zl switch are configured to auto negotiate, or are configured to connect at half duplex (all hubs are configured this way, for example).

5-2

Troubleshooting

Basic Troubleshooting Tips

If necessary though, you can modify the configuration of the ports on the

8200 zl switch to match the configuration of the connected device. Use the switch console, the Web browser interface, or ProCurve Manager to modify the port configuration.

Check the port configuration.

A port on your 8200 zl switch may not be operating as you expect because it has been put into a “blocking” state by Spanning Tree, GVRP (automatic VLANs), or LACP (automatic trunking). (Note that the normal operation of the Spanning Tree, GVRP, and LACP features may put the port in a blocking state.) Or, the port just may have been configured as disabled through software.

Use the switch console to determine the port’s configuration and verify that there is not an improper or undesired configuration of any of the switch features that may be affecting the port. See the

Management and

Configuration Guide

which is on the HP networking Web site.

For more information on possible network problems and their solutions, refer to the technical note “Troubleshooting LAN Performance and Intermittent

Connectivity Problems”, which can be found on the HP networking Web site in the Reference Library,

www.hp.com/networking/support

, in the A-Z index section.

5-3

Troubleshooting

Diagnosing with the LEDs

Diagnosing with the LEDs

Table 5-1 shows LED patterns on the switch and the switch modules that indicate problem conditions.

1.

2.

Check in the table for the LED pattern you see on your switch

Refer to the corresponding diagnostic tip on the next few pages.

Table 5-1.

LED Error Indicators

LED Pattern Indicating Problems

Diagnostic

Tips

Off with power cord plugged in

On

1 1 1 1 1 1

On

On

On

On

On

On

On

Prolonged

On

Blinking

2

Blinking

2

Blinking

2

Off

Blinking

2

Blinking

2

Blinking

2

Prolonged

On

Blinking

2

Blinking

2

Blinking

2

Off

Blinking

2

Off

Off

1

Off

Blinking

2

Blinking

2

Blinking

2

Blinking

2

1

1

1

1

1

1

1

1

Blinking

1

1

1

1

1

1

1

*

Blinking

1

1

Never On

On briefly, then Off

1

Blinking

1

1

2

On Off Off Off

1 1

Fast blinking

3

On Off Off On

1 1

Off with cable connected

1

This LED is not important for the diagnosis.

2

The blinking behavior is an on/off cycle once every 1.6 seconds, approximately.

3

The fast blinking behavior is an on/off cycle once every 0.8 seconds, approximately

5-4

Troubleshooting

Diagnosing with the LEDs

Diagnostic Tips:

Tip

Number

Problem

The power supplies installed in the switch are not plugged into active

AC power sources, or the power supply may have failed.

Solution

1. Verify the power cord is plugged into an active power source and to the switch.

Ensure these connections are snug.

2. Try power cycling the switch by unplugging and plugging the power cord back in.

3. If the Power LED is still not on, verify the AC power source works by plugging another device into the outlet. Or try plugging the switch into a different outlet or try a different power cord.

If the power source and power cord are OK and this condition persists, the switch power supply may have failed. Call your HP authorized dealer, or use the electronic support services from HP to get assistance. See the Customer Support/Warranty card for more information.

Try power cycling the switch. If the fault indication reoccurs, the switch may have failed. Call your HP authorized dealer, or use the electronic support services from

HP to get assistance. See the Customer Support/Warranty card for more information.

A switch hardware failure has occurred. All the

LEDs will stay on indefinitely.

The switch has experienced a backplane failure during self test.

The module installed in the slot that corresponds to the letter that is blinking is an invalid module.

The failure may be just in the communications with a single module slot, or it might be more significant. Start a console session with the switch, and at the CLI prompt issue the command

show logging

. In the event log that is displayed, there will be messages that describe the extent of the problem. If the problem is with individual slots, the remainder of the switch slots will be fully operational and can be used until you get a chance to replace the switch.

If necessary to resolve the problem, contact your HP authorized dealer, or use the electronic support services from HP to get assistance. See the Customer Support/

Warranty card for more information.

The fact that the Link and Mode LEDs never are lit on the module indicates that it is a Switch gl module and should not be used in your zl switch.

Ensure you have installed a

zl

module in the slot. xl/gl modules will fit in the slot, but they are not compatible with your zl switch. Check to ensure the module has a Blue “zl module” symbol on it.

Remove the module from the switch and replace it with a zl module, or recover the slot with the cover plate. You can remove and replace the module without having to power down the switch. Call your HP authorized dealer, or use the electronic support services from HP to get information on supported Switch zl modules. The modules that are available as of the printing of this manual are listed on

page 1-17 .

5-5

Troubleshooting

Diagnosing with the LEDs

Tip

Number

Problem

The module installed in the slot that corresponds to the letter that is blinking has experienced a self test or initialization fault.

In the slot corresponding to the letter that is blinking, a module was installed that is a different type than the previously installed module, and the switch has not yet been reset.

Solution

The modules are all tested whenever the switch is powered on, or reset (through the Reset button on the switch, or the Boot or Reset options in the console or web browser interface), and when they are hot swapped (installed when the switch is powered on).

Since the Link and Mode LEDs on the module were lit at least briefly, that indicates that the module did receive power from the switch, but the subsequent download process failed. Either the module is faulty, or it is a new module type that is not yet supported by the operating code on the switch.

As HP networking introduces new modunes for your HP Switch zl, you may have to update the switch with new operating code that supports the new module. The documentation that came with the module will indicate which version of the operating code is needed to support the module. The modules that are supported in

your Switch zl, as of the printing of this manual, are listed on page 1-17

under “Switch

Features”. The latest code can be downloaded from the HP networking Web site at

www.hp.com/networking/support .

First verify the switch has a version of code that supports the module that is

indicating the fault. If the module is not one of the ones listed on page 1-17

, check the module documentation to see what version of switch code is needed. Download the new code and retest the module.

If you have the correct code installed in the switch, try removing and reinstalling the module. You can do this without having to power down the switch. When the module is reinstalled, it will be retested automatically.

If the fault indication reoccurs, the module may have failed. Remove the module from the switch and replace it with a known good module, or install the failed module into an empty slot and retest it. If you remove the module always recover the slot with the cover plate. Call your HP authorized dealer, or use the electronic support services from HP to get assistance. See the Customer Support/Warranty card for more information.

When you “hot swap” modules in the switch slots, if you install a different module type than the one that was previously installed in the slot, you must reset the switch so the switch processor can properly initialize and configure the new module type.

The blinking LED informs you that this change of module types has occurred. The module will not work properly until the switch is reset.

You can reset the switch by any of these methods:

• pressing the Reset button.

• power cycling the switch.

• selecting the reset or reboot option from the console, web browser interface, or

ProCurve Manager.

5-6

Troubleshooting

Diagnosing with the LEDs

Tip

Number

Problem

The network port for which the Link

LED is blinking has experienced a self test or initialization failure.

Solution

During the module self test, described in tip number 4 earlier in this table, each network port is also tested. If the port self test fails, the individual port is not usable, but the rest of the ports on the module, which have passed their self test, will continue to operate normally.

If the port is a transceiver, verify it is one of the transceivers supported by the mini-GBIC zl Module. Unsupported transceivers will be identified with this fault condition. The supported transceivers are listed in the module

Installation Guide

.

The transceivers are also tested when they are “hot-swapped”--installed or changed after the mini-GBIC zl Module is installed and receiving power from the switch.

To verify the port has failed, try removing and reinstalling the module, as described in tip number 4. For the transceivers, you can just remove and reinstall the transceiver without having to remove the module. If the port fault indication reoccurs, and you need to be able to use the port, you will have to replace the transceiver or the module. In the mean time, all the other module ports will operate normally.

Try removing and reinstalling the power supply.

Caution:

Ensure the AC power cord is disconnected from the supply before removing and reinstalling the supply.

Reconnect the power supply to the AC power source. If the error indication reoccurs after the supply is reinstalled, the power supply may be faulty. Call your HP authorized dealer, or use the electronic support services from HP networking to get assistance. See the Customer Support/Warranty card for more information.

A fault condition has been detected on the power supply installed in the slot corresponding to the blinking number.

One or more of the switch cooling fans may have failed.

The network port for which the Link

LED is blinking has been disabled because port security has been configured on the switch and a security violation has been detected on the port.

Try disconnecting power from the switch and wait a few moments. Then reconnect the power to the switch and check the LEDs again. If the error indication reoccurs, one or more of the fans has failed. The switch has multiple fans and may continue to operate OK under this condition if the ambient temperature does not exceed normal room temperature, but for best operation, the fan tray should be replaced.

Contact your HP authorized dealer, or use the electronic support services from HP networking to get assistance. See the Customer Support/Warranty card for more information.

For the Port Security feature, you can configure the switch so that whenever a security violation is detected on a port, the switch will disable the port. When a port is disabled by this feature, the port Link LED will be continuously flashed at the fast rate of 0.8 seconds per cycle. The blinking continues until you clear the security violation through the switch console. In the console, you can view the identity of the connected device that committed the security violation.

Once the security violation is cleared, you must re-enable the port through the console.

For more information on the Port Security feature, see the

Management and

Configuration Guide

which is on the HP Web site.

5-7

Troubleshooting

Diagnosing with the LEDs

Tip

Number

l

Problem

The network connection is not working properly.

Solution

Try the following procedures:

• For the indicated port, verify both ends of the cabling, at the switch and the connected device, are securely connected.

• Verify the connected device and switch are both powered

on

and operating correctly.

• Verify you have used the correct cable type for the connection.

– for any of the twisted-pair connections, in the default configuration (Auto), either a straight-through or a crossover cable can be used and the switch will automatically adjust its operation. See the “HP Auto-MDIX Feature”

description on page B-7 for more information.

Note:

If the module configuration is changed to one of the

fixed configuration

options though (for example, 100-Full Duplex), then the port operates as

MDI-X only

and the correct type of cable must be used. in general, for connecting to an end node (MDI port), use straight-through cable; for connecting to MDI-X ports on hubs, other switches, and routers, use crossover cable.

– for fiber-optic connections, verify that the transmit port on the switch is connected to the receive port on the connected device, and the switch receive port is connected to the transmit port on the connected device, and that both devices are transmitting correctly.

• For a 1000 Mbps connection, verify the network cabling complies with the IEEE

802.3ab standard. The cable should be installed according to the ANSI/TIA/EIA-

568-A-5 specifications. Cable testing should comply with the stated limitations for Attenuation, Near-End Crosstalk, Far-End Crosstalk, Equal-Level Far-End

Crosstalk (ELFEXT), Multiple Disturber ELFEXT, and Return Loss.

The cable verification must include all patch cables from any end devices, including the switch, to any patch panels in the cabling path.

• Verify the port has not been disabled through a switch configuration change.

You can use the console interface, or, if you have configured an IP address on the switch, use the web browser interface, or ProCurve Manager network management software to determine the state of the port and re-enable the port if necessary.

• Verify the switch port configuration matches the configuration of the attached device. For example, if the switch port is configured as “Auto”, the port on the attached device also MUST be configured as “Auto”. Depending on the port type, twisted-pair or fiber-optic, if the configurations don’t match, the results could be a very unreliable connection, or no link at all.

If the other procedures don’t resolve the problem, try using a different port or a different cable.

5-8

Troubleshooting

Proactive networking

Proactive networking

The 8200 zl switch has built-in management capabilities that proactively help you manage your network including:

■ finding and helping you fix the most common network error conditions

(for example, faulty network cabling, and non-standard network topologies) informing you of the problem with clear, easy-to-understand messages recommending network configuration changes to enhance the performance of your network

The following interfaces provide tests, indicators, and an event log that can be used to monitor the switch and its network connections, and to help you take advantage of these proactive networking features:

ProCurve Manager - an SNMP-based network management tool included with your switch

A graphical web browser interface you can use to manage your switch from a PC that is running a supported web browser, for example Microsoft

Internet Explorer or Netscape Communicator.

■ A full-featured easy-to-use console interface you can access by merely connecting a standard terminal or PC running a terminal emulator to the switch’s console port. The cable to make that connection is provided with your switch. The console interface is also accessible through a telnet connection.

See the “Troubleshooting” chapter in the

Management and Configuration

Guide

for more information on using these software tools to diagnose and manage your switch, which is on the HP Web site.

5-9

Troubleshooting

Hardware Diagnostic Tests

N o t e

Hardware Diagnostic Tests

Reasons for Resetting the Switch

Generally, you only need to reset the switch when it needs to recognize a change in its hardware or software (console) configuration. Some circumstances in which you will need to reset the switch are:

Installing a module in a slot that was previously occupied by a different type of module, the switch must be reset after the new module is installed so the switch processor can properly initialize and configure the new module type.

When a module is exchanged for a different type, until the switch is reset the module will not operate, the Module Status LED (orange) for the slot will blink, the chassis fault LED will blink simultaneously, and all the LEDs on the module will stay on continuously.

■ Changing certain switch configuration parameters through the console interface. (In this case, the console provides indications when the switch must be reset for the configuration change to be activated.)

You do not need to reset the switch when:

Installing a module in a previously unused slot.

Replacing a module with the

same

type of module.

Methods of Resetting the Switch

You can reset the switch by any of these methods:

■ pressing the Reset button. On the 8212 zl or 8206 zl switch, this is the

System Reset button on the System Support module.

■ power cycling the switch (if both power supplies are being used, you will have to disconnect both power cords) issuing the

boot

command from the switch console CLI, or selecting the

Reset

or

Boot

option from the switch console menu, Web browser interface, or ProCurve Manager

5-10

Troubleshooting

Hardware Diagnostic Tests

Testing the Switch by Resetting It

If you believe the switch is not operating correctly, you can reset the switch to test its circuitry and operating code. To reset a switch, either:

Unplug and plug in the power cord (power cycling)

Press the Reset button on the System Support module

Select the reset or reboot option from the console, web browser interface, or ProCurve Manager.

Power cycling the switch, pressing the Reset button on the System Support module, and the software reset or reboot options all cause the switch to perform its power-on self-test, which almost always will resolve any temporary operational problems. These reset processes also cause any network traffic counters to be reset to zero and cause the System Up Time timer to reset to zero. Neither of these reset procedures causes any changes to the switch configuration.

Checking the Switch LEDs

The self-test passes if the Fault and Test LEDs on the front of the switch go off after approximately 90 to 150 seconds depending on the number and type of modules installed in the switch. If these LEDs stay on longer than 180 seconds or begin blinking, the switch, or a module, or an individual transceiver may have to be replaced as indicated by the LEDs.

See “Diagnosing With the LEDs” on

page 5-4

for information on interpreting the LED patterns.

Checking Console Messages

Useful diagnostic messages may be displayed on the console screen when the switch is reset. As described in chapter 2 under step 8, “Connect a Console to the Switch”, connect a PC running a VT-100 terminal emulator program or a standard VT-100 terminal to the switch’s Console Port and configure it to run at 9600 baud and with the other terminal communication settings shown on

page 2-27

. Then, when you reset the switch, note the messages that are displayed.

5-11

Troubleshooting

Hardware Diagnostic Tests

Testing Twisted-Pair Cabling

If you think the cable should work but still isn’t working, it may not be compatible with the IEEE 802.3 Type 10Base-T, 100Base-TX, or 1000Base-T standards, as appropriate for the switch port type that the cable is connected to. The twisted-pair cables attached to the 8200 zl switch must be compatible with these standards.To verify your cable is compatible with these standards, use a qualified cable test device.

HP networking also offers a wire testing service. Contact your HP authorized

LAN dealer or your local HP networking sales office for more information.

Testing Switch-to-Device Network Communications

You can perform the following communication tests to verify the network is operating correctly between the switch and any connected device that can respond correctly to the communication test.

Link Test -- a physical layer test that sends IEEE 802.2 test packets to any device identified by its MAC address

■ Ping Test -- a network layer test used on IP networks that sends test packets to any device identified by its IP address

These tests can be performed through the switch console interface from a terminal connected to the switch or through a telnet connection, or from the switch’s web browser interface. See the

Management and Configuration

Guide

which is on the HP Web site.

These tests can also be performed from an SNMP network management station running a program that can manage the switch, for example, ProCurve

Manager.

Testing End-to-End Network Communications

Both the switch and the cabling can be tested by running an end-to-end communications test -- a test that sends known data from one network device to another through the switch. For example, if you have two PCs on the network that have LAN adapters between which you can run a link-level test or Ping test through the switch, you can use this test to verify the entire communication path between the two PCs is functioning correctly. See your

LAN adapter documentation for more information on running the a link test or Ping test.

5-12

N o t e

Troubleshooting

Restoring the Factory Default Configuration

Restoring the Factory Default

Configuration

As part of your troubleshooting process, it may become necessary to return the switch configuration to the factory default settings. This process momentarily interrupts the switch operation, clears any passwords, clears the console event log, resets the network counters to zero, performs a complete self test, and reboots the switch into its factory default configuration including deleting an IP address, if one is configured.

This process removes all switch configuration changes that you have made from the factory default settings. This includes, for example, configuration of

VLANs, spanning tree, trunks, stacking, meshing, routing, and security.

Returning the configuration of these features to their factory default settings

(usually disabling them) may result in network connectivity issues.

If the switch has a valid configuration, and you are restoring the factory default settings for a reason other than configuration problems, you should save the switch configuration prior to performing the factory default reset. Then, after the reset and resolution of the original problem, you can restore the saved configuration to the switch. For both the save and restore processes, you can use the console

copy

command. See the switch

Management and Configuration Guide

which is on the HP networking Web site.

You can restore the factory default configuration either on the switch itself or through the switch console.

To execute the factory default reset on the switch, perform these steps:

1.

Using pointed objects, simultaneously press both the Reset and Clear buttons on the System Support module.

2.

Continue to press the Clear button while releasing the Reset button. The

Clear button must be pressed until the LEDs turn orange and then back to green again.

3.

As soon as the Test LED begins to flash (this could take as long as 15 seconds), release the Clear button.

The switch will then complete its self test and begin operating with its configuration restored to the factory default settings.

To restore the factory default configuration using the console, execute the

erase startup config

command from the console command prompt.

5-13

Troubleshooting

Downloading New Code

Downloading New Code

When product enhancements occur for the 8200 zl switch, new code can be downloaded to the switch through several methods, for product enhancements and new features. Please see the

Management and Configuration

Guide

which is on the HP networking Web site.

The new code would be available on the HP networking Web site,

www.hp.com/networking/support

.

HP Customer Support Services

If you are still having trouble with your switch, Hewlett-Packard offers support

24 hours a day, seven days a week through the use of a number of automated electronic services. See the Customer Support/Warranty booklet that came with your switch for information on how to use these services to get technical support. The HP networking Web site,

www.hp.com/networking/support

also provides up-to-date support information.

Additionally, your HP authorized network reseller can provide you with assistance, both with services that they offer and with services offered by HP networking.

Before Calling Support

Before calling your networking dealer or HP Support, to make the support process most efficient, retrieve the following information:

Information Item

• product identification, including the chassis, modules, and transceivers

• details about the switch’s status including the OS

(software) version, a copy of the switch configuration, a copy of the switch Event Log, and a copy of the switch status and counters information

• copy of your network topology map, including network addresses assigned to the relevant devices

Information Location

the front of the switch, and on the modules and transceivers switch console:

show tech

command your network records

5-14

A

Specifications

Physical

8212 zl Switch

Width:

Depth:

Height:

Weight:

• Switch 8212 zl (J9091A)

Chassis with Fan Tray

• Switch 8212 zl (J8715A/B) Base

System

39.62 cm (15.6 in)

• 20.30 kg (44.75 lbs)

• 22.88 kg (50.45 lbs)

8206 zl Switch

Width:

Depth:

Height:

Weight:

Base System

47.5 cm (18.7 in)

26.29 cm (10.35 in)

Electrical

The HP Switch zl Internal Power Supplies automatically adjust to any voltage between 100-127 and 200-240 volts.

AC voltage:

Maximum current:

Frequency range:

J8712A

100-127 volts

12 A max

50/60 Hz

PoE output wattage:

273 W

200-240 volts

5 A max

50/60 Hz

273 W

J8713A

200-240 volts

10 A max

50/60 Hz

900 W

A-1

Specifications

AC voltage:

Maximum current:

Frequency range:

PoE/PoE+ output wattage:

J9306A

110-127 volts 200-240 volts

13 A max

50/60 Hz

300 W

10 A max

50/60 Hz

900 W

Environmental

8212 zl Switch

Temperature:

Relative humidity:

(non-condensing)

Maximum altitude:

Operating

0

C to 45

C (32

F to 113

F)

15% to 95% at 55

C (131

F)

Non-Operating

-40

C to 70

C (-40

F to 158

F)

15% to 95% at 65

C (149

F)

3.0 km (10,000 ft) 4.6 km (15,000 ft)

8206 zl Switch

Temperature:

Relative humidity:

(non-condensing)

Maximum altitude:

Operating

0

C to 45

C (32

F to 113

F)

15% to 95% at 55

C (131

F)

Non-Operating

-40

C to 70

C (-40

F to 158

F)

15% to 95% at 65

C (149

F)

3.0 km (10,000 ft) 4.6 km (15,000 ft)

Acoustic

8212 zl Switch

Geräuschemission LpA = 47.8 dB am fiktiven Arbeitsplatz nach

DIN 45635 T.19

Noise Emission LpA = 47.8 dB in a virtual workspace according to

DIN 45635 T.19

8206 zl Switch

Geräuschemission LpA = 41.3 dB am fiktiven Arbeitsplatz nach

DIN 45635 T.19

Noise Emission LpA = 41.3 dB in a virtual workspace according to

DIN 45635 T.19

A-2

Specifications

Safety

EN60950

CSA 22.2 No. 60950

UL 60950

IEC 60950

EMC compliance (Class A)

Complies with:

VCCI

EN55022/CISPR-22

Technology Standards and Safety Compliance

Table A-1.

Technology Standards and Safety Compliance

Technology

10-T

Compatible with these IEEE standards

IEEE 802.3

10BASE-T

EN/IEC standard compliance

SFP

("mini-GBIC")

Lasers

Laser safety information

X2

Lasers

SFP+

Lasers

100-TX

IEEE 802.3u

100BASE-TX

1000-T

10GBASE-T

100-FX

IEEE 802.3ab

1000BASE-T

IEEE 802.3an

10GBASE-T

IEEE 802.3u

100BASE-FX

100-BX

1000-SX

IEEE 802.3ah

100BASE-BX10

IEEE 802.3z

1000BASE-SX

EN/IEC 60825

EN/IEC 60825

EN/IEC 60825

Class 1 Laser

Product

Laser Klasse 1

Class 1 Laser

Product

Laser Klasse 1

Class 1 Laser

Product

Laser Klasse 1

Media

Converter

Lasers

A-3

Specifications

Table A-1.

Technology Standards and Safety Compliance (Continued)

Technology

1000-LX

1000-LH

1000-BX

Compatible with these IEEE standards

IEEE 802.3z

1000BASE-LX

(not an IEEE standard)

IEEE 802.3ah

1000BASE-BX10

EN/IEC standard compliance

EN/IEC 60825

EN/IEC 60825

EN/IEC 60825

SFP

("mini-GBIC")

Lasers

Laser safety information

X2

Lasers

SFP+

Lasers

Class 1 Laser

Product

Laser Klasse 1

Class 1 Laser

Product

Laser Klasse 1

Class 1 Laser

Product

Laser Klasse 1

10-Gig CX4

10-Gig

Direct

Attach

10-Gig SR

IEEE 802.3ak

10GBASE-CX4

(not an IEEE standard)

IEEE 802.3ae

10GBASE-SR

EN/IEC 60825 Class 1 Laser

Product

Laser Klasse

1

10-Gig LRM

10-Gig LR

10-Gig ER

IEEE 802.3aq

10GBASE-LRM

IEEE 802.3ae

10GBASE-LR

IEEE 802.3ae

10GBASE-ER

EN/IEC 60825

EN/IEC 60825

EN/IEC 60825

Class 1M

Laser

Product

Laser Klasse

1M

Class 1 Laser

Product

Laser Klasse

1

Class 1 Laser

Product

Laser Klasse

1

Class 1 Laser

Product

Laser Klasse

1

Class 1 Laser

Product

Laser Klasse

1

Class 1 Laser

Product

Laser Klasse

1

Class 1 Laser

Product

Laser Klasse

1

CX4 Media

Converter

(not an IEEE standard)

EN/IEC 60825

Media

Converter

Lasers

Class 1M

Laser

Product

Laser Klasse

1M

A-4

B

Switch Ports and Network Cables

Cabling and Technology Information

Specifications

Table B-1.

Cabling Specifications

Twisted-pair copper

10 Mbps Operation

100 Mbps Operation

1000 Mbps Operation

10 Gbps Operation

Category 3, 4 or 5, 100-ohm unshielded twisted-pair (UTP) or shielded twisted-pair (STP) cable, complying with IEEE 802.3

10BASE-T specifications.

Category 5, 100-ohm UTP or STP cable, complying with IEEE

802.3u 100BASE-TX specifications.

Category 5, 100-ohm 4-pair UTP or STP cable, complying with IEEE

802.3ab 1000BASE-T specifications—Category 5e or better is recommended. See note on 1000BASE-T Cable Requirements below.

Category 6 or 6A, 100-ohm 4-pair UTP cable, or Category 6A or 7,

100-ohm 4-pair STP cable, complying with IEEE 802.3an 10GBASE-

T specifications. See note on 10GBASE-T Cable Requirements below, and see Table B-2 for distances supported with each cable type.

CX4 cables Twinaxial cables complying with IEEE 802.3ak 10GBASE-CX4 specifications.

Twinaxial copper

Multimode fiber

Single mode fiber

Direct attach cables One-piece devices consisting of a cable with SFP+ connectors permanently attached to each end, complying with SFF 8431 SFP+ specifications.

62.5/125

 m or 50/125

 m (core/cladding) diameter, low metal content, graded index fiber-optic cables, complying with the

ITU-T G.651 and ISO/IEC 793-2 Type A1b or A1a standards respectively.

1

9/125

 m (core/cladding) diameter, low metal content fiber-optic cables, complying with the ITU-T G.652 and

ISO/IEC 793-2 Type B1 standards.

1

A mode conditioning patch cord may be needed for some Gigabit-LX and 10-Gigabit LRM installations.

See “Mode Conditioning Patch Cord” on

page B-5

for more information.

B-1

Switch Ports and Network Cables

Cabling and Technology Information Specifications

Note on 1000BASE-T Cable Requirements.

The Category 5 networking cables that work for 100BASE-TX connections should also work for

1000BASE-T, as long as all four-pairs are connected. But, for the most robust connections, you should use cabling that complies with the Category 5e specifications, as described in Addendum 5 to the TIA-568-A standard (ANSI/

TIA/EIA-568-A-5).

Because of the increased speed provided by 1000BASE-T (Gigabit-T), network cable quality is more important than for either 10BASE-T or 100BASE-TX.

Cabling plants being used to carry 1000BASE-T networking must comply with the IEEE 802.3ab standards. In particular, the cabling must pass tests for

Attenuation, Near-End Crosstalk (NEXT), and Far-End Crosstalk (FEXT).

Additionally, unlike the cables for 100BASE-TX, the 1000BASE-T cables must pass tests for Equal-Level Far-End Crosstalk (ELFEXT) and Return Loss.

When testing your cabling, be sure to include the patch cables that connect the switch and other end devices to the patch panels on your site. The patch cables are frequently overlooked when testing cable and they must also comply with the cabling standards.

Note on 10GBASE-T Cable Requirements.

The Category 6 networking cables that work for 1000BASE-T connections may work for 10GBASE-T, as long as the distance is less than 55m and the cable installation has been tested for compliance to IEEE requirements. But, for the most robust connections, you should use cabling that complies with the Category 6A or Category 7 specifications, as described in the TIA-568-C (ANSI/TIA-568-C.2) and ISO/IEC

11801 standards.

10GBASE-T is a sophisticated technology that relies upon high quality cable installations. It is sensitive to Alien Near End Crosstalk (ANEXT) which can arrive upon the cable due to cables placed in close proximity to the data cables. It is recommended that cable dressing be done carefully and in compliance with recommendations in the TIA TSB-155A.

Like 1000BASE-T, 10GBASE-T requires testing of all the crosstalk and return loss parameters described above, and also ANEXT.

In addition to ANEXT, 10GBASE-T is more sensitive to external electrical noise in the environment. It is recommended that radio transmitters and other sources of high frequency continuous wave radio frequency be kept away from

LAN cables.

When testing your cabling, be sure to include the patch cables that connect the switch and other end devices to the patch panels on your site. The patch cables are frequently overlooked when testing cable and they must also comply with the cabling standards.

B-2

Table B-2.

Technology Distance Specifications

Technology Supported cable type

100-FX

100-BX

1000-T

10GBASE-T multimode fiber single mode fiber twisted-pair copper twisted-pair copper

1000-SX

1000-LX

1000-LH

1000-BX

10-Gig CX4

10-Gig Direct Attach

10-Gig SR

10-Gig LRM

10-Gig LR

10-Gig ER

Switch Ports and Network Cables

Cabling and Technology Information Specifications

Technology Distance Specifications

multimode fiber multimode fiber single mode fiber single mode fiber single mode fiber twinaxial copper twinaxial copper multimode fiber multimode fiber single mode fiber single mode fiber

160 MHz*km

200 MHz*km

400 MHz*km

500 MHz*km

400 MHz*km

500 MHz*km

N/A

N/A

N/A

N/A

N/A

160 MHz*km

200 MHz*km

400 MHz*km

500 MHz*km

2000 MHz*km

400 MHz*km

500 MHz*km

N/A

N/A

Multimode fiber modal bandwidth

any

N/A

N/A

N/A

Supported distances

up to 2,000 meters

0.5 - 10,000 meters up to 100 meters

Cat 6 unshielded - up to 55 meters

1

Cat 6 shielded - up to 100 meters

1

Cat 6A unshielded - up to 100 meters

Cat 6A shielded - up to 100 meters

Cat 7 shielded - up to 100 meters

2 - 220 meters

2 - 275 meters

2 - 500 meters

2 - 550 meters

2 - 550 meters

2 - 550 meters

2 - 10,000 meters

10 - 70,000 meters

2

0.5 - 10,000 meters up to 15 meters

(various lengths offered)

2 - 26 meters

2 - 33 meters

2 - 66 meters

2 - 82 meters

2 - 300 meters

0.5 - 100 meters

0.5 - 220 meters

2 - 10,000 meters

2 - 40,000 meters

B-3

Switch Ports and Network Cables

Cabling and Technology Information Specifications

Table B-2.

Technology Distance Specifications(Continued)

Technology Supported cable type Multimode fiber modal bandwidth

Supported distances

CX4 Media Converter 12-strand female-female multimode fiber MPO ribbon cable with MTP connectors, in a crossover (key up/key up) configuration

150 MHz*km

500 MHz*km

2000 MHz*km

1 - 50 meters

1 - 100 meters

1 - 300 meters

1

Cat 6 cabling requires TIA TSB-155A testing for 500 MHz operation and ANEXT.

2

For distances less than 20km, a 10dB attenuator must be used. For distances between 20km and 40km, a 5dB attenuator must be used. Attenuators can be purchased from most cable vendors.

B-4

N o t e

Switch Ports and Network Cables

Mode Conditioning Patch Cord

Mode Conditioning Patch Cord

The following information applies to installations in which multimode fiberoptic cables are connected to a Gigabit-LX port or a 10-Gigabit LRM port.

Multimode cable has a design characteristic called “Differential Mode Delay”, which requires the transmission signals be “conditioned” to compensate for the cable design and thus prevent resulting transmission errors.

Under certain circumstances, depending on the cable used and the lengths of the cable runs, an external Mode Conditioning Patch Cord may need to be installed between the Gigabit-LX or 10-Gigabit LRM transmitting device and the multimode network cable to provide the transmission conditioning. If you experience a high number of transmission errors on those ports, usually CRC or FCS errors, you may need to install one of these patch cords between the fiber-optic port in your switch and your multimode fiber-optic network cabling, at both ends of the network link.

The patch cord consists of a short length of single mode fiber cable coupled to graded-index multimode fiber cable on the transmit side, and only multimode cable on the receive side. The section of single mode fiber is connected in such a way that it minimizes the effects of the differential mode delay in the multimode cable.

Most of the time, if you are using good quality graded-index multimode fiber cable that adheres to the standards listed in Appendix B, there should not be a need to use mode conditioning patch cords in your network. This is especially true if the fiber runs in your network are relatively short.

For 10-Gigabit LRM using OM3 cable (50

 m multimode @ 1500/500 MHz*km), a mode conditioning patch cord is not required. Other multimode cables may require mode conditioning patch cords to achieve the LRM maximum distances.

B-5

Switch Ports and Network Cables

Mode Conditioning Patch Cord

Installing the Patch Cord

As shown in the illustration below, connect the patch cord to the transceiver with the section of single mode fiber plugged in to the Tx (transmit) port. Then, connect the other end of the patch cord to your network cabling patch panel, or directly to the network multimode fiber.

If you connect the patch cord directly to the network cabling, you may need to install a female-to-female adapter to allow the cables to be connected together.

Gigabit-LX port

To network multimode cabling

Mode Conditioning

Patch Cord

The multimode cable in the patch cord must match the characteristics of your network cable

Single mode section plugs into Tx port on Gigabit-LX Transceiver or

Gigabit-LX mini-GBIC

Figure B-1. Example: Connecting a Mode Conditioning Patch Cord for Gigabit-LX

Make sure you purchase a patch cord that has appropriate connectors on each end, and has multimode fibers that match the characteristics of the multimode fiber in your network. Most important, the core diameter of the multimode patch cord must match the core diameter of the multimode cable infrastructure (either 50 or 62.5 microns).

B-6

N o t e

Switch Ports and Network Cables

Twisted-Pair Cable/Connector Pin-Outs

Twisted-Pair Cable/Connector Pin-Outs

The HP Auto-MDIX Feature

In the

default configuration

, “Auto”, the

10/100Base-TX ports on the 10/100-TX and PoE zl Modules used in the 8200 zl switches all automatically detect the type of port on the connected device and operate as either an MDI or MDI-X port, whichever is appropriate. So for any connection, a straight-through twisted-pair cable can be used --

you no longer have to use crossover cables

, although crossover cables can also be used for any of the connections. The 100/1000-T zl Module supports the IEEE 802.3ab

standard, which includes the “Auto MDI/MDI-X” feature, which operates the same way.

HP Auto-MDIX was developed and shared with the IEEE for the development of the IEEE 802.3ab standard. HP Auto-MDIX and the IEEE 802.3ab Auto MDI/

MDI-X feature are completely compatible.

If you connect an 8200 zl switch twisted-pair port to another switch or hub, which typically have MDI-X ports, the 8200 zl switch port automatically operates as an MDI port. If you connect it to an end node, such as a server or

PC, which typically have MDI ports, the 8200 zl switch port operates as an

MDI-X port. In all cases, you can use standard straight through cables.

If you happen to use a correctly wired crossover cable, though, the switch will still be able to automatically detect the MDI/MDI-X operation and link correctly to the connected device.

If the port configuration is changed to any of the

fixed configurations

though, for example 100 Mbps/full duplex, the port operates as

MDI-X only

and the correct cable type must be used. In general, for connections to MDI ports, such as end nodes, use a straight-through cable; for connections to MDI-

X ports, such as on hubs and other switches, use a crossover cable.

Other Wiring Rules:

All twisted-pair wires used for 10 Mbps, and 100 Mbps operation must be twisted through the entire length of the cable. The wiring sequence must conform to EIA/TIA 568-B (not USOC). See the Pin Assignment tables below the cable illustrations later in this appendix for a listing of the signals used on each pin.

For 1000Base-T connections, all four pairs of wires in the cable must be available for data transmission. See “Note on 1000Base-T Cable Requirements” on

page B-1

for more information on 1000Base-T cabling.

For 10 Mbps connections to the ports, you can use Category 3, 4, or 5

100-ohm differential unshielded twisted-pair (UTP) or shielded twistedpair (STP) cable, as supported by the IEEE 802.3 10Base-T standard.

B-7

Switch Ports and Network Cables

Twisted-Pair Cable/Connector Pin-Outs

For 100 Mbps connections to the ports, use Category 5 100-ohm differential UTP or STP cable only, as supported by the IEEE 802.3u 100Base-TX standard.

For 1000 Mbps connections, Category 5 or better 100-ohm differential UTP or STP cable only, as supported by the IEEE 802.3ab 1000Base-T standard;

Category 5e or better is recommended.

Straight-Through Twisted-Pair Cable for

10 Mbps or 100 Mbps Network Connections

Because of the HP Auto-MDIX operation of the 10/100 ports on the switches, for all network connections, to PCs, servers or other end nodes, or to hubs or other switches, you can use straight-through cables.

If any of these ports are given a fixed configuration, for example 100 Mbps/

Full Duplex, the ports operate as MDI-X ports, and straight-through cables

must

be then used for connections to PC NICs and other MDI ports.

B-8

Cable Diagram

Switch Ports and Network Cables

Twisted-Pair Cable/Connector Pin-Outs

.

N o t e

Figure B-2. Straight-through Cable Diagram for 10/100 Mbps Network Connection

Pins 1 and 2 on connector “A”

must

be wired as a twisted pair to pins 1 and 2 on connector “B”.

Pins 3 and 6 on connector “A”

must

be wired as a twisted pair to pins 3 and 6 on connector “B”.

Pins 4, 5, 7, and 8 are not used in this application, although they may be wired in the cable.

Pin Assignments

Switch End (MDI-X)

Signal Pins

receive + receive - transmit + transmit -

1

2

3

6

1

2

3

6

Computer, Transceiver, or Other End (MDI)

Pins Signal

transmit + transmit - receive + receive -

B-9

Switch Ports and Network Cables

Twisted-Pair Cable/Connector Pin-Outs

Crossover Twisted-Pair Cable for

10 Mbps or 100 Mbps Network Connection

The HP Auto-MDIX operation of the 10/100 ports on the switches also allows you to use crossover cables for all network connections, to PCs, servers or other end nodes, or to hubs or other switches.

If any of these ports are given a fixed configuration, for example 100 Mbps/

Full Duplex, the ports operate as MDI-X ports, and crossover cables

must

be then used for connections to hubs or switches or other MDI-X network devices.

Cable Diagram

.

N o t e

Figure B-3. Cross-over Cable Diagram for 10/100 Mbps Network Connection

Pins 1 and 2 on connector “A”

must

be wired as a twisted pair to pins 3 and 6 on connector “B”.

Pins 3 and 6 on connector “A”

must

be wired as a twisted pair to pins 1 and 2 on connector “B”.

Pins 4, 5, 7, and 8 are not used in this application, although they may be wired in the cable.

Pin Assignments

Switch End (MDI-X)

Signal Pins

receive + receive - transmit + transmit -

1

2

3

6

6

3

2

1

Hub or Switch Port, or Other MDI-X Port End

Pins Signal

transmit - transmit + receive - receive +

B-10

Switch Ports and Network Cables

Twisted-Pair Cable/Connector Pin-Outs

Straight-Through Twisted-Pair Cable for

1000 Mbps Network Connections

1000Base-T connections require that all four pairs or wires be connected.

Cable Diagram

.

N o t e

Figure B-4. Straight-through Cable Diagram for 1000 Mbps Network Connection

Pins 1 and 2 on connector “A”

must

be wired as a twisted pair to pins 1 and 2 on connector “B”.

Pins 3 and 6 on connector “A”

must

be wired as a twisted pair to pins 3 and 6 on connector “B”.

Pins 4 and 5 on connector “A”

must

be wired as a twisted pair to pins 4 and 5 on connector “B”.

Pins 7 and 8 on connector “A”

must

be wired as a twisted pair to pins 7 and 8 on connector “B”.

Pin Assignments

For 1000Base-T operation, all four pairs of wires are used for both transmit and receive.

B-11

Switch Ports and Network Cables

Twisted-Pair Cable/Connector Pin-Outs

B-13

C

Safety and Regulatory Statements

Safety Information

!

WARNING

Caution

Documentation reference symbol. If the product is marked with this symbol, refer to the product documentation to get more information about the product.

A

WARNING

in the manual denotes a hazard that can cause injury or death.

A Caution in the manual denotes a hazard that can damage equipment.

Do not proceed beyond a

WARNING

or Caution notice until you have understood the hazardous conditions and have taken appropriate steps.

Grounding

These are safety class I products and have protective earthing terminals. There must be an uninterruptible safety earth ground from the main power source to the product's input wiring terminals, power cord, or supplied power cord set. Whenever it is likely that the protection has been impaired, disconnect the power cord until the ground has been restored.

For LAN cable grounding:

If your LAN covers an area served by more than one power distribution system, be sure their safety grounds are securely interconnected.

LAN cables may occasionally be subject to hazardous transient voltages (such as lightning or disturbances in the electrical utilities power grid). Handle exposed metal components of the network with

Caution.

Servicing

There are no user-serviceable parts inside these products. Any servicing, adjustment, maintenance, or repair must be performed only by service-trained personnel.

These products do not have a power switch; they are powered on when the power cord is plugged in.

C-1

Safety and Regulatory Statements

Informations concernant la sécurité

Informations concernant la sécurité

!

WARNING

Caution

Symbole de référence à la documentation. Si le produit est marqué de ce symbole, reportez-vous à la documentation du produit afin d'obtenir des informations plus détaillées.

Dans la documentation, un

WARNING

indique un danger susceptible d'entraîner des dommages corporels ou la mort.

Un texte de mise en garde intitulé Caution indique un danger susceptible de causer des dommages à l'équipement.

Ne continuez pas au-delà d'une rubrique

WARNING

ou Caution avant d'avoir bien compris les conditions présentant un danger et pris les mesures appropriées.

Cet appareil est un produit de classe I et possède une borne de mise à la terre. La source d'alimentation principale doit être munie d'une prise de terre de sécurité installée aux bornes du câblage d'entrée, sur le cordon d'alimentation ou le cordon de raccordement fourni avec le produit. Lorsque cette protection semble avoir été endommagée, débrancher le cordon d'alimentation jusqu'à ce que la mise à la terre ait été réparée.

Mise à la terre du câble de réseau local:

■ si votre réseau local s'étend sur une zone desservie par plus d'un système de distribution de puissance, assurez-vous que les prises de terre de sécurité soient convenablement interconnectées.

Les câbles de réseaux locaux peuvent occasionnellement être soumis à des surtensions transitoires dangereuses (telles que la foudre ou des perturbations dans le réseau d'alimentation public). Manipulez les composants métalliques du réseau avec précautions.

Aucune pièce contenue à l'intérieur de ce produit ne peut être réparée par l'utilisateur.

Tout dépannage, réglage, entretien ou réparation devra être confié exclusivement à un personnel qualifié.

Cet appareil ne comporte pas de commutateur principal ; la mise sous tension est effectuée par branchement du cordon d'alimentation.

C-2

Safety and Regulatory Statements

Hinweise zur Sicherheit

Hinweise zur Sicherheit

!

WARNING

Caution

Symbol für Dokumentationsverweis. Wenn das Produkt mit diesem

Symbol markiert ist, schlagen Sie bitte in der Produktdokumentation nach, um mehr Informationen über das Produkt zu erhalten.

Symbol für Dokumentationsverweis. Wenn das Produkt mit diesem

Symbol markiert ist, schlagen Sie bitte in der Produktdokumentation nach, um mehr Informationen über das Produkt zu erhalten.

Symbol für Dokumentationsverweis. Wenn das Produkt mit diesem

Symbol markiert ist, schlagen Sie bitte in der Produktdokumentation nach, um mehr Informationen über das Produkt zu erhalten.

Fahren Sie nach dem Hinweis WARNING oder Caution erst fort, nachdem Sie den Gefahrenzustand verstanden und die entsprechenden Maßnahmen ergriffen haben.

Dies ist ein Gerät der Sicherheitsklasse I und verfügt über einen schützenden Erdungsterminal. Der Betrieb des Geräts erfordert eine ununterbrochene Sicherheitserdung von der Hauptstromquelle zu den Geräteingabeterminals, den Netzkabeln oder dem mit Strom belieferten Netzkabelsatz voraus. Sobald Grund zur Annahme besteht, daß der Schutz beeinträchtigt worden ist, das Netzkabel aus der Wandsteckdose herausziehen, bis die Erdung wiederhergestellt ist.

Für LAN-Kabelerdung:

Wenn Ihr LAN ein Gebiet umfaßt, das von mehr als einem Stromverteilungssystem beliefert wird, müssen Sie sich vergewissern, daß die

Sicherheitserdungen fest untereinander verbunden sind.

LAN-Kabel können gelegentlich gefährlichen Übergangsspannungen ausgesetzt werden (beispielsweise durch Blitz oder Störungen in dem

Starkstromnetz des Elektrizitätswerks). Bei der Handhabung exponierter

Metallbestandteile des Netzwerkes Vorsicht walten lassen.

Dieses Gerät enthält innen keine durch den Benutzer zu wartenden Teile. Wartungs-,

Anpassungs-, Instandhaltungs- oder Reparaturarbeiten dürfen nur von geschultem

Bedienungspersonal durchgeführt werden.

Dieses Gerät hat keinen Netzschalter; es wird beim Anschließen des Netzkabels eingeschaltet.

C-3

Safety and Regulatory Statements

Considerazioni sulla sicurezza

Considerazioni sulla sicurezza

!

WARNING

Caution

Simbolo di riferimento alla documentazione. Se il prodotto è contrassegnato da questo simbolo, fare riferimento alla documentazione sul prodotto per ulteriori informazioni su di esso.

La dicitura

WARNING

denota un pericolo che può causare lesioni o morte.

La dicitura Caution denota un pericolo che può danneggiare le attrezzature.

Non procedere oltre un avviso di

WARNING

o di Caution prima di aver compreso le condizioni di rischio e aver provveduto alle misure del caso.

Questo prodotto è omologato nella classe di sicurezza I ed ha un terminale protettivo di collegamento a terra. Dev'essere installato un collegamento a terra di sicurezza, non interrompibile che vada dalla fonte d'alimentazione principale ai terminali d'entrata, al cavo d'alimentazione oppure al set cavo d'alimentazione fornito con il prodotto.

Ogniqualvolta vi sia probabilità di danneggiamento della protezione, disinserite il cavo d'alimentazione fino a quando il collegaento a terra non sia stato ripristinato.

Per la messa a terra dei cavi LAN:

■ se la vostra LAN copre un'area servita da più di un sistema di distribuzione elettrica, accertatevi che i collegamenti a terra di sicurezza siano ben collegati fra loro; i cavi LAN possono occasionalmente andare soggetti a pericolose tensioni transitorie (ad esempio, provocate da lampi o disturbi nella griglia d'alimentazione della società elettrica); siate cauti nel toccare parti esposte in metallo della rete.

Nessun componente di questo prodotto può essere riparato dall'utente. Qualsiasi lavoro di riparazione, messa a punto, manutenzione o assistenza va effettuato esclusivamente da personale specializzato.

Questo apparato non possiede un commutatore principale; si mette scotto tensione all'inserirsi il cavo d'alimentazione.

C-4

Safety and Regulatory Statements

Consideraciones sobre seguridad

Consideraciones sobre seguridad

!

WARNING

Caution

Símbolo de referencia a la documentación. Si el producto va marcado con este símbolo, consultar la documentación del producto a fin de obtener mayor información sobre el producto.

Una

WARNING

en la documentación señala un riesgo que podría resultar en lesiones o la muerte.

Una Caution en la documentación señala un riesgo que podría resultar en averías al equipo.

No proseguir después de un símbolo de

WARNING

o Caution hasta no haber entendido las condiciones peligrosas y haber tomado las medidas apropiadas.

Este aparato se enmarca dentro de la clase I de seguridad y se encuentra protegido por una borna de puesta a tierra. Es preciso que exista una puesta a tierra continua desde la toma de alimentación eléctrica hasta las bornas de los cables de entrada del aparato, el cable de alimentación o el juego de cable de alimentación suministrado. Si existe la probabilidad de que la protección a tierra haya sufrido desperfectos, desenchufar el cable de alimentación hasta haberse subsanado el problema.

Puesta a tierra del cable de la red local (LAN):

Si la LAN abarca un área cuyo suministro eléctrico proviene de más de una red de distribución de electricidad, cerciorarse de que las puestas a tierra estén conectadas entre sí de modo seguro.

Es posible que los cables de la LAN se vean sometidos de vez en cuando a voltajes momentáneos que entrañen peligro (rayos o alteraciones en la red de energía eléctrica). Manejar con precaución los componentes de metal de la LAN que estén al descubierto.

Este aparato no contiene pieza alguna susceptible de reparación por parte del usuario.

Todas las reparaciones, ajustes o servicio de mantenimiento debe realizarlos solamente el técnico.

Este producto no tiene interruptor de potencia; se activa cuando se enchufa el cable de alimentación.

C-5

Safety and Regulatory Statements

Informações de Segurança

Informações de Segurança

AVISO

!

Cuidado

Símbolo de referência à documentação. Se o produto estiver marcado com este símbolo, consulte a documentação do produto para obter mais informações sobre ele.

Um

AVISO

no manual indica um perigo que possa causar ferimentos ou morte.

Um Cuidado no manual indica um perigo que possa danificar o equipamento.

Não passe por um

AVISO

ou uma indicação de Cuidado sem entender as condições de perigo e tomar as atitudes apropriadas.

Aterramento

Estes são produtos de classe de segurança I, e contam com terminais de aterramento protetores. É preciso haver um aterramento de segurança ininterrupto da principal fonte de energia até os terminais de ligação de entrada, o cabo de alimentação ou o conjunto de cabo de alimentação do produto.

Sempre que parecer provável que a proteção tenha sido danificada, desconecte o cabo de alimentação até que o aterramento seja restaurado.

Para aterramento de cabo de LAN:

Caso sua LAN cubra uma área servida por mais de um sistema de distribuição de energia, certifique-se de que os aterramentos de segurança deles estejam interconectados com segurança.

Os cabos de LAN podem ocasionalmente estar sujeitos a tensões transitórias perigosas (como raios ou perturbações na rede de energia). Tenha cuidado ao manipular componentes metálicos da rede.

Manutenção

Não há peças internas que possam sofrer manutenção pelo usuário nestes produtos. Qualquer manutenção, ajuste ou reparo deve ser realizado apenas por pessoal treinado.

Estes produtos não têm um botão liga/desliga; eles são ativados quando o cabo de alimentação é conectado.

C-6

Safety Information (Japan)

Safety and Regulatory Statements

Safety Information (Japan)

C-7

Safety and Regulatory Statements

Safety Information (China)

Safety Information (China)

C-8

Safety and Regulatory Statements

EMC Regulatory Statements

EMC Regulatory Statements

U.S.A.

FCC Class A

This equipment has been tested and found to comply with the limits for a Class

A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause interference to radio communications. Operation of this equipment in a residential area may cause interference in which case the user will be required to correct the interference at his own expense.

Canada

This product complies with Class A Canadian EMC requirements.

Australia/New Zealand

This product complies with Australia/New Zealand EMC Class A requirements.

Warning

This is a Class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures.

C-9

Safety and Regulatory Statements

EMC Regulatory Statements

Japan

VCCI Class A

Korea

Taiwan

C-10

Regulatory Model Identification Number

For regulatory identification purposes, the HP 8200 zl switches are assigned a Regulatory Model Number. The

Regulatory Model Number for these switches is RSVLC-

0503.

This regulatory number should not be confused with the marketing name (HP 8212 zl Switch), or product numbers

(J9091A/B, J8715A/B, J9475A).

Safety and Regulatory Statements

EMC Regulatory Statements

European Community

DECLARATION OF CONFORMITY

according to ISO/IEC 17050-1 and EN 17050-1

Supplier's Name:

Supplier's Address: declares, that the product

Hewlett-Packard Company

DoC #: RSVLC-0503-10132010

8000 Foothills Blvd., Roseville, CA 95747 U.S.A.

Product Name and Model:

HP E5406zl Switch, HP E5412zl Switch

HP E8206zl Switch, HP E8212zl Switch

Product Number(s): 2)

J8697A,

J8699A, J9447A,

J8698A,

J8700A, J9448A

J8715B, J9091A

Regulatory Model Number:

1)

RSVLC-0503

J9475A,

J9477A,

Product Options:

J8736A, J8702A, J8705A, J8706A, J8707A, J8708A, J8712A, J8713A,

J8714A, J4858B, J4858C, J4859B, J4859C, J4860B, J4850C, J8177B,

J8177C, J8436A, J8437A, J8438A, J8439A, J8440A, J8714A, J9051A,

J9052A, J9054B, J9092A*, J9093A*, J9095A*, J9099B, J9100B, J9142B,

J9143B, J9144A, J9154A, J9155A, RSVLC-0503-A, RSVLC-0503B,

J9545A, J9543A, J9484A, J9567A, J9306A, J9307A, J9308A, J9309A,

J9478A,

J

9370A, J9289A, J9535A, J9534A, J9538A, J9536A, J9537A,

J9549A, J9550A, J9547A, J9548A, J9637A

* For use with HP Networking Switch Series E8200 only

conforms to the following Product Specifications and Regulations:

EMC:

Class A

EN 55022:2006 +A1:2007

EN 55024:1998 +A1:2001 +A2:2003

EN 61000-3-2:2006

EN 61000-3-3:1995 +A1:2001 +A2:2005

FCC CFR 47 Part 15

Safety

:

EN 60950-1:2001 +A11:2004

IEC 60950-1:2001

EN 60825-1:1994 +A1:2002 +A2:2001

This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:

(1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.

The product herewith complies with the requirements of the Low Voltage Directive 2006/95/EC, the EMC

Directive 2004/108/EC, the Machinery Directive 2006/42/EC and carries the marking accordingly.

Additional Information:

1)

2)

This product is assigned a Regulatory Model Number which stays with the regulatory aspects of the design. The

Regulatory Model Number is the main product identifier in the regulatory documentation and test reports, this number should not be confused with the marketing name or the product numbers.

This product was tested with HP branded products only.

Roseville,13 October 2010 HP Networking EVPG

Local contact for regulatory topics only:

EMEA: Hewlett-Packard GmbH, HQ-TRE, Herrenberger Strasse 140, 71034 Boeblingen, Germany

U.S.: Hewlett-Packard, 3000 Hanover St., Palo Alto 94304, U.S.A. 650-857-1501 www.hp.eu/certificates

C-11

Safety and Regulatory Statements

EMC Regulatory Statements

C-12

D

Recycle Statements

Waste Electrical and Electronic

Equipment (WEEE) Statements

Disposal of Waste Equipment by Users in Private Household in the European Union

This symbol on the product or on its packaging indicates that this product must not be disposed of with your other household waste. Instead, it is your responsibility to dispose of your waste equipment by handing it over to a designated collection point for the recycling of waste electrical and electronic equipment. The separate collection and recycling of your waste equipment at the time of disposal will help to conserve natural resources and ensure that it is recycled in a manner that protects human health and the environment. For more information about where you can drop off your waste equipment for recycling, please contact your local city office, your household waste disposal service or the shop where you purchased the product.

Bortskaffelse af affald fra husstande i den Europæiske Union

Hvis produktet eller dets emballage er forsynet med dette symbol, angiver det, at produktet ikke må bortskaffes med andet almindeligt husholdningsaffald. I stedet er det dit ansvar at bortskaffe kasseret udstyr ved at aflevere det på den kommunale genbrugsstation, der forestår genvinding af kasseret elektrisk og elektronisk udstyr. Den centrale modtagelse og genvinding af kasseret udstyr i forbindelse med bortskaffelsen bidrager til bevarelse af naturlige ressourcer og sikrer, at udstyret genvindes på en måde, der beskytter både mennesker og miljø. Yderligere oplysninger om, hvor du kan aflevere kasseret udstyr til genvinding, kan du få hos kommunen, den lokale genbrugsstation eller i den butik, hvor du købte produktet.

Seadmete jäätmete kõrvaldamine eramajapidamistes Euroopa Liidus

See tootel või selle pakendil olev sümbol näitab, et kõnealust toodet ei tohi koos teiste majapidamisjäätmetega kõrvaldada. Teie kohus on oma seadmete jäätmed kõrvaldada, viies need elektri- ja elektroonikaseadmete jäätmete ringlussevõtmiseks selleks ettenähtud kogumispunkti. Seadmete jäätmete eraldi kogumine ja ringlussevõtmine kõrvaldamise ajal aitab kaitsta loodusvarasid ning tagada, et ringlussev-

õtmine toimub viisil, mis kaitseb inimeste tervist ning keskkonda. Lisateabe saamiseks selle kohta, kuhu oma seadmete jäätmed ringlussevõtmiseks viia, võtke palun ühendust oma kohaliku linnakantselei, majapidamisjäätmete kõrvaldamise teenistuse või kauplusega, kust Te toote ostsite.

D-1

Recycle Statements

Waste Electrical and Electronic Equipment (WEEE) Statements

Laitteiden hävittäminen kotitalouksissa Euroopan unionin alueella

Jos tuotteessa tai sen pakkauksessa on tämä merkki, tuotetta ei saa hävittää kotitalousjätteiden mukana.

Tällöin hävitettävä laite on toimitettava sähkölaitteiden ja elektronisten laitteiden kierrätyspisteeseen.

Hävitettävien laitteiden erillinen käsittely ja kierrätys auttavat säästämään luonnonvaroja ja varmistamaan, että laite kierrätetään tavalla, joka estää terveyshaitat ja suojelee luontoa. Lisätietoja paikoista, joihin hävitettävät laitteet voi toimittaa kierrätettäväksi, saa ottamalla yhteyttä jätehuoltoon tai liikkeeseen, josta tuote on ostettu.

Élimination des appareils mis au rebut par les ménages dans l'Union européenne

Le symbole apposé sur ce produit ou sur son emballage indique que ce produit ne doit pas être jeté avec les déchets ménagers ordinaires. Il est de votre responsabilité de mettre au rebut vos appareils en les déposant dans les centres de collecte publique désignés pour le recyclage des équipements électriques et électroniques. La collecte et le recyclage de vos appareils mis au rebut indépendamment du reste des déchets contribue à la préservation des ressources naturelles et garantit que ces appareils seront recyclés dans le respect de la santé humaine et de l'environnement. Pour obtenir plus d'informations sur les centres de collecte et de recyclage des appareils mis au rebut, veuillez contacter les autorités locales de votre région, les services de collecte des ordures ménagères ou le magasin dans lequel vous avez acheté ce produit.

Entsorgung von Altgeräten aus privaten Haushalten in der EU

Das Symbol auf dem Produkt oder seiner Verpackung weist darauf hin, dass das Produkt nicht über den normalen Hausmüll entsorgt werden darf. Benutzer sind verpflichtet, die Altgeräte an einer Rücknahmestelle für Elektro- und Elektronik-Altgeräte abzugeben. Die getrennte Sammlung und ordnungsgemäße Entsorgung Ihrer Altgeräte trägt zur Erhaltung der natürlichen Ressourcen bei und garantiert eine Wiederverwertung, die die Gesundheit des Menschen und die Umwelt schützt. Informationen dazu, wo Sie Rücknahmestellen für Ihre Altgeräte finden, erhalten Sie bei Ihrer Stadtverwaltung, den örtlichen

Müllentsorgungsbetrieben oder im Geschäft, in dem Sie das Gerät erworben haben

D-2

Recycle Statements

Waste Electrical and Electronic Equipment (WEEE) Statements

Smaltimento delle apparecchiature da parte di privati nel territorio dell'Unione Europea

Questo simbolo presente sul prodotto o sulla sua confezione indica che il prodotto non può essere smaltito insieme ai rifiuti domestici. È responsabilità dell'utente smaltire le apparecchiature consegnandole presso un punto di raccolta designato al riciclo e allo smaltimento di apparecchiature elettriche ed elettroniche. La raccolta differenziata e il corretto riciclo delle apparecchiature da smaltire permette di proteggere la salute degli individui e l'ecosistema. Per ulteriori informazioni relative ai punti di raccolta delle apparecchiature, contattare l'ente locale per lo smaltimento dei rifiuti, oppure il negozio presso il quale è stato acquistato il prodotto.

Verwijdering van afgedankte apparatuur door privé-gebruikers in de Europese Unie

Dit symbool op het product of de verpakking geeft aan dat dit product niet mag worden gedeponeerd bij het normale huishoudelijke afval. U bent zelf verantwoordelijk voor het inleveren van uw afgedankte apparatuur bij een inzamelingspunt voor het recyclen van oude elektrische en elektronische apparatuur.

Door uw oude apparatuur apart aan te bieden en te recyclen, kunnen natuurlijke bronnen worden behouden en kan het materiaal worden hergebruikt op een manier waarmee de volksgezondheid en het milieu worden beschermd. Neem contact op met uw gemeente, het afvalinzamelingsbedrijf of de winkel waar u het product hebt gekocht voor meer informatie over inzamelingspunten waar u oude apparatuur kunt aanbieden voor recycling.

D-3

Recycle Statements

Waste Electrical and Electronic Equipment (WEEE) Statements

Descarte de Lixo Elétrico na Comunidade Européia

Este símbolo encontrado no produto ou na embalagem indica que o produto não deve ser descartado no lixo doméstico comum. É responsabilidade do cliente descartar o material usado (lixo elétrico), encaminhando-o para um ponto de coleta para reciclagem. A coleta e a reciclagem seletivas desse tipo de lixo ajudarão a conservar as reservas naturais; sendo assim, a reciclagem será feita de uma forma segura, protegendo o ambiente e a saúde das pessoas. Para obter mais informações sobre locais que reciclam esse tipo de material, entre em contato com o escritório da HP em sua cidade, com o serviço de coleta de lixo ou com a loja em que o produto foi adquirido.

D-4

Eliminación de residuos de equipos eléctricos y electrónicos por parte de usuarios particulares en la

Unión Europea

Este símbolo en el producto o en su envase indica que no debe eliminarse junto con los desperdicios generales de la casa. Es responsabilidad del usuario eliminar los residuos de este tipo depositándolos en un "punto limpio" para el reciclado de residuos eléctricos y electrónicos. La recogida y el reciclado selectivos de los residuos de aparatos eléctricos en el momento de su eliminación contribuirá a conservar los recursos naturales y a garantizar el reciclado de estos residuos de forma que se proteja el medio ambiente y la salud. Para obtener más información sobre los puntos de recogida de residuos eléctricos y electrónicos para reciclado, póngase en contacto con su ayuntamiento, con el servicio de eliminación de residuos domésticos o con el establecimiento en el que adquirió el producto.

Bulgarian recycling notice

Index

Numerics

1000Base-BX … B-3 fiber-optic cable specifications … B-3

1000Base-LH … B-3 fiber-optic cable specifications … B-3

1000Base-T

1000Base-T

fiber-optic cable specifications … B-3

10-GbE port configuration, optimizing … 2-34, 2-35

A

Act LED … 1-10

Actv LED … 1-9

auto MDI/MDI-X operation … B-8, B-11

HP Auto-MDIX feature … B-7

auxiliary or USB port

location on switch … 1-5, 1-6

B

basic connectivity, example topology … 2-32

basic switch configuration

IP address … 3-3 manager password … 3-3 subnet mask … 3-3

Switch Setup screen … 3-2

battery

replacing battery … 2-13

blinking LEDs

error indications … 5-4

Bootp

automatic switch configuration … 3-2

for in-band console access … 2-27

buttons

Clear button … 1-14

LED Mode Select button … 1-12

Reset button … 1-13

C

cabinet

mounting the switch in … 2-7

cables

connecting cables to switch ports … 2-25

effects of non-standard cables … 5-1

serial for direct console connection … 2-28

cables, twisted pair

category 3, 4, 5 … B-7 connector pin-outs … B-7

crossover cable pin-out … B-10

HP Auto-MDIX feature … B-7

MDI-X to MDI connections … B-8, B-11

MDI-X to MDI-X connections … B-10

pin-outs … B-9, B-11 straight-through cable pin-out … B-9, B-11 switch-to-computer connection … B-8, B-11

switch-to-switch or hub connection … B-10

wiring rules … B-7

CF Status LED … 1-8

Clear button

deleting passwords … 1-14 description … 1-14 location on switch … 1-5, 1-6, 1-14 restoring factory default configuration … 1-14,

5-13

to delete password protection … 3-4

CLI prompt, console

displaying … 2-28

configuration

checking when troubleshooting … 5-3

DHCP/Bootp … 3-2

IP address … 3-3

IP address, manually … 3-3 manager password … 3-3

restoring factory defaults … 1-14, 5-13

subnet mask … 3-3

Switch Setup screen … 3-2

connecting the switch to a power source … 2-21

Index – 1

console

checking messages during troubleshooting … 5-11

displaying the CLI prompt … 2-28

features … 2-27 how to connect in-band … 2-27 how to connect out-of-band … 2-27

serial cable connection … 2-28

Switch Setup screen … 3-2

telnet access … 2-30, 3-5

terminal configuration … 2-27

console port

description … 1-13

location on switch … 1-5, 1-6

crossover cable

pin-out … B-10

use with fixed port configurations … B-7

D

deleting passwords … 1-14

DHCP

automatic switch configuration … 3-2

for in-band console access … 2-27

diagnostic tests … 5-10

checking the console messages … 5-11 checking the LEDs … 5-4, 5-11

end-to-end connectivity … 5-12

testing the switch only … 5-11

testing twisted-pair cabling … 5-12

DIM Status LED … 1-8

downloading new code … 5-14

Dwn LED … 1-9

E

edge switch, example topology as … 2-33

electrical specifications … A-1

EMC regulatory statements … C-9

environmental specifications … A-2

EPS

LEDs … 2-22 operating characteristics … 2-22 operation … 2-22

EPS (PoE) power … 2-21

equipment cabinet

mounting the switch in … 2-7

2 – Index

example network topologies … 2-32

as an edge switch … 2-33

basic connectivity … 2-32

F

factory default configuration, restoring … 1-14, 5-13

Fan Status LED … 1-9, 1-10

showing error conditions … 5-4

fans

replacing fan trays … 4-5

Fault LED

behavior during self test … 2-20

blinking definition … 1-7, 1-9, 1-11, 1-12

description … 1-7 location on switch … 1-5, 1-6, 1-7

showing error conditions … 5-4

FDx LED … 1-10

features

console … 2-27

fiber-optic cables

1000Base-BX … B-3

1000Base-LH … B-3

1000Base-T … B-3

flash memory

replacing PCMCIA card … 4-6, 4-8, 4-9

front of switch

Clear button … 1-14

console port … 1-13

Mode Select button and indicator LEDs … 1-12

Reset button … 1-13

full-duplex fixed configuration

effects on network connections … 5-2

H

horizontal surface, mounting switch on … 2-10

hot swap

modules … 1-19

Transceivers … 1-19

hot swapping … 4-1

redundant power supply … 1-17, 2-16

resetting the switch for new module type … 2-31

switch modules … 2-30

HP Auto-MDIX

feature description … B-7

I

in-band

console access, types of … 2-27

managing the switch … 3-1

included parts … 2-1

installation

connecting the switch to a power source … 2-21

horizontal surface mounting … 2-10

precautions … 2-5, 2-6

rack or cabinet mounting … 2-7

summary of steps … 2-3

IP address

configuring … 3-3

using for switch management … 3-5

behavior during error conditions … 5-4

behavior during self test … 2-20

Power Status … 1-10

behavior during self test … 2-20

showing error conditions … 5-4

Self Test … 1-9

behavior during self test … 2-20

showing error conditions … 5-4

SSM Status … 1-8

Stby … 1-9

Link LEDs … 1-11

link test … 5-12

L

LED Mode Select

button … 1-12

indicator LEDs … 1-10, 1-12

LEDs

Act … 1-10

Actv … 1-9

behavior during self test … 2-19

blinking definition … 1-7, 1-9, 1-11, 1-12

CF Status … 1-8

checking during troubleshooting … 5-11

DIM Status … 1-8

Dwn … 1-9

error indications … 5-4

Fan Status … 1-9, 1-10

showing error conditions … 5-4

Fault … 1-7

behavior during self test … 2-20

showing error conditions … 5-4

FDx … 1-10

Link … 1-11

Max … 1-10

MM status … 1-9

Mode

description … 1-12 selecting the display … 1-12

mode select indicators … 1-10

Module Status … 1-11

showing error conditions … 5-4

on switch chassis … 1-7

on switch modules … 1-11

Power … 1-7

M

Max LED … 1-10

MDI-X to MDI network cable … B-8, B-11

MDI-X to MDI-X network cable … B-10

mini-GBICs

indications of unsupported … 5-7

supported types … 1-18

MM status LEDs … 1-9

Mode LEDs

description … 1-12 selecting the display … 1-12

module slots

location on switch … 1-5, 1-6, 1-11

Module Status LEDs … 1-11

showing error conditions … 5-4

modules, switch

hot swapping … 2-30

LEDs … 1-11

list of available types … 1-17

mounting the switch

in a rack or cabinet … 2-7

precautions … 2-5, 2-6

on a horizontal surface … 2-10

N

network cables

HP Auto-MDIX feature … B-7 twisted-pair connector pin-outs … B-7 twisted-pair, wiring rules … B-7

network devices

connecting to the switch … 2-25

Index – 3

network ports

connecting to … 2-25

LEDs for … 1-11

network topologies, examples of … 2-32

non-standard network cables, effects … 5-1

O

optimizing 10-GbE port configuration … 2-34, 2-35

out-of-band console access … 2-27, 3-5

P

parts included with the switch … 2-1

passwords

configuring … 3-3

deleting … 1-14

deleting with the Clear button … 3-4 if you lose the password … 3-4

physical specifications, switch … A-1

Ping test … 5-12

pin-outs, twisted-pair cables … B-7

port configuration

checking when troubleshooting … 5-3

port LEDs

Link … 1-11

ports

Mode … 1-12

console … 2-27

HP Auto-MDIX feature … B-7

network connections … 2-25

Power LED

behavior during error conditions … 5-4

behavior during self test … 2-20

description … 1-7 location on switch … 1-5, 1-6, 1-7

Power Status LEDs … 1-10

behavior during self test … 2-20

showing error conditions … 5-4

power supply

connecting to a power source … 2-21

installation cautions … 1-17, 2-16

making redundant power connections … 2-21

replacing … 4-2

power supply shelf … 2-21

EPS (PoE) power … 2-21

Power-over-Ethernet

PoE … 2-21

precautions

installing power supply … 1-17, 2-16

mounting the switch in a rack or cabinet … 2-5,

2-6 power requirements … 2-5, 2-6

Proactive Network tools

diagnostics with … 5-9

R

rack

mounting the switch in … 2-7

rebooting the switch

to initialize changed module type … 2-11

recycle statements … D-1

redundant power connections … 2-21

redundant power supply

installation cautions … 1-17, 2-16

regulatory statements … C-9

replacing components

management module battery … 2-13

power supply … 4-2

replacing hardware

disk drive … 4-10

fans … 4-5

flash memory card … 4-6, 4-8, 4-9

Reset button

description … 1-13 location on switch … 1-5, 1-6, 1-13

restoring factory default configuration … 5-13

resetting the switch

factory default reset … 5-13

for module hot swap … 2-31

location of Reset button … 1-13

troubleshooting procedure … 5-11

routing features … 1-20

S

safety and regulatory statements … C-1

safety specifications … A-3

selecting the Mode LED display … 1-12

self test

Fault LED behavior … 2-20

LED behavior during … 2-19

Power LED behavior … 2-20

Self Test LED behavior … 2-20

4 – Index

Self Test LED

behavior during factory default reset … 5-13

behavior during self test … 2-20

description … 1-9

showing error conditions … 5-4

serial cable

for direct console connection … 2-28

slots for modules

location on switch … 1-5, 1-6, 1-11

specifications

electrical … A-1

environmental … A-2

physical … A-1

safety … A-3

SSM Status LED … 1-8

Stby LED … 1-9

straight-through cable

pin-out … B-9, B-11

use with fixed port configurations … B-7

subnet mask, configuring … 3-3

summary

of switch installation … 2-3

supported mini-GBICs … 1-18

switch

connecting to a power source … 2-21

electrical specifications … A-1

environmental specifications … A-2

included parts … 2-1

mounting in a rack or cabinet … 2-7

mounting on a horizontal surface … 2-10

physical specifications … A-1

switch chassis

LED descriptions … 1-7

switch modules

booting the switch to initialize changed module type … 2-11

hot swapping … 2-30

LEDs descriptions … 1-11

list of available types … 1-17

Switch Setup screen … 3-2

configuring a subnet mask … 3-3 configuring an IP address … 3-3 field descriptions … 3-3

T

telnet access to the console … 2-30, 3-5

terminal configuration … 2-27

testing

checking the console messages … 5-11 checking the LEDs … 5-11

diagnostic tests … 5-10

end-to-end communications … 5-12 link test … 5-12

Ping test … 5-12

switch operation … 5-11

switch-to-device communications … 5-12 twisted-pair cabling … 5-12

tips for troubleshooting … 5-1

topologies

effects of improper topology … 5-2

examples of … 2-32

as an edge switch … 2-33

basic connectivity … 2-32

Transceivers

hot swap feature … 1-19

troubleshooting … 5-1 basic tips … 5-1

checking port configuration … 5-3

checking the console messages … 5-11 checking the LEDs … 5-11

common network problems … 5-1

connecting to fixed full-duplex devices … 5-2

diagnostic tests … 5-10

effects of improper topology … 5-2

effects of non-standard cables … 5-1

link test … 5-12

Ping test … 5-12

Proactive Network tools … 5-9

restoring factory default configuration … 5-13

testing connections to other devices … 5-12 testing end-to-end communications … 5-12

testing the switch … 5-11

testing the twisted-pair cables … 5-12

twisted-pair cable

crossover cable pin-out … B-10

pin-outs … B-7, B-9, B-11 straight-through cable pin-out … B-9, B-11 switch-to-computer connection … B-8, B-11

switch-to-switch or hub connection … B-10

testing … 5-12

twisted-pair ports

HP Auto-MDIX feature … B-7

Index – 5

V

VT-100 terminal

serial cable connection for … 2-28

W

wiring rules for twisted-pair cables … B-7

6 – Index

ProCurve 5400zl Switches

Installation and Getting Startd Guide

Technology for better business outcomes

To learn more, visit www.hp.com/networking/support

© Copyright 2011, 2013 Hewlett-Packard Development Company, L.P. The information contained herein is subject to change without notice. The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty.

HP will not be liable for technical or editorial errors or omissions contained herein.

June 2013

Manual Part Number

5998-2999

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