Extreme Networks Summit X150 Series Installation Manual

ExtremeXOS

®

Summit

®

Family Switches

Hardware Installation Guide

Summit X150 Series

Summit X250e Series



Summit X450a Series

Summit X450e Series


Extreme Networks, Inc.

3585 Monroe Street

Santa Clara, California 95051

(888) 257-3000

(408) 579-2800 http://www.extremenetworks.com

Published: June 2009

Part Number: 100286-00 Rev. 05

AccessAdapt, Alpine, Altitude, BlackDiamond, EPICenter, ExtremeWorks Essentials, Ethernet Everywhere, Extreme

Enabled, Extreme Ethernet Everywhere, Extreme Networks, Extreme Standby Router Protocol, Extreme Turbodrive,

Extreme Velocity, ExtremeWare, ExtremeWorks, ExtremeXOS, Go Purple Extreme Solution, ExtremeXOS ScreenPlay,

ReachNXT, Sentriant, ServiceWatch, Summit, SummitStack, Triumph, Unified Access Architecture, Unified Access

RF Manager, UniStack, the Extreme Networks logo, the Alpine logo, the BlackDiamond logo, the Extreme

Turbodrive logo, the Summit logos, and the Powered by ExtremeXOS logo are trademarks or registered trademarks of Extreme Networks, Inc. or its subsidiaries in the United States and/or other countries.

sFlow is a registered trademark of InMon Corporation.

Specifications are subject to change without notice.

All other registered trademarks, trademarks, and service marks are property of their respective owners.

© 2007 – 2009 Extreme Networks, Inc. All Rights Reserved.

For safety compliance information, see

Appendix A, “Safety Information.”

2 ExtremeXOS Summit Family Switches Hardware Installation Guide

Contents

Preface........................................................................................................................................... 9

Introduction ...............................................................................................................................9

Conventions..............................................................................................................................10

Related Publications .................................................................................................................10

Part 1: About the Summit Family Switches

Chapter 1: Summit Family Switches................................................................................................ 15

Overview of the Summit Switches ...............................................................................................15

Combination Ports and Failover ............................................................................................17

Summit X150 Series Switches ...................................................................................................18

Summit X150-24t Switch ....................................................................................................19

Summit X150-24p Switch ...................................................................................................20

Summit X150-48t Switch ....................................................................................................21

Summit X150 Series Switch LEDs ........................................................................................22

Summit X250e Series Switches..................................................................................................23

Summit X250e-24t Switch ..................................................................................................24

Summit X250e-24tDC Switch ..............................................................................................25

Summit X250e-24p Switch..................................................................................................26

Summit X250e-24x Switch ..................................................................................................27

Summit X250e-24xDC Switch ..............................................................................................28

Summit X250e-48t Switch ..................................................................................................29

Summit X250e-48tDC Switch ..............................................................................................30

Summit X250e-48p Switch..................................................................................................32

Summit X250e-48p Power Supplies .....................................................................................33

Internal Power Supply....................................................................................................33

External Power Supplies.................................................................................................33

Summit X250e Series Switch LEDs ......................................................................................34


Summit X350-24t Switch ....................................................................................................37

Summit X350-48t Switch ....................................................................................................38


Summit X450 Series, X450a Series, and X450e Series Switches...................................................41

Summit X450 Series Switches .............................................................................................42

Summit X450-24t Switch ..............................................................................................42

Summit X450-24x Switch ..............................................................................................43

Summit X450a Series Switches ............................................................................................44

Summit X450a-24t Switch.............................................................................................45

Summit X450a-24tDC Switch ........................................................................................46

Summit X450a-24x Switch ............................................................................................47

Summit X450a-24xDC Switch ........................................................................................49

Summit X450a-48t Switch.............................................................................................50

Summit X450a-48tDC Switch ........................................................................................51

Summit X450e Series Switches ............................................................................................53

Summit X450e-24p Switch ............................................................................................53

ExtremeXOS Summit Family Switches Hardware Installation Guide 3

4

Contents

Summit X450e-48p Switch ............................................................................................54

Summit X450e-48p Power Supplies................................................................................55

Internal Power Supply..............................................................................................56

External Power Supplies...........................................................................................56

Summit X450, X450a, and X450e Series Switch LEDs ...........................................................57


Summit X650-24t Switch ....................................................................................................59

Summit X650-24x Switch....................................................................................................60

VIM1-SummitStack Versatile Interface Module.......................................................................61

VIM1-10G8X Versatile Interface Module................................................................................61


Chapter 2: Summit Power Supplies................................................................................................. 63

Overview ..................................................................................................................................63

EPS-160 External Power Module (with EPS-T) .............................................................................64

EPS-LD External Power Supply Unit............................................................................................65

EPS-500 External Power Supply Unit..........................................................................................65

EPS-150DC External Power Module (with EPS-T2).......................................................................66

EPS-600LS External Power Module ............................................................................................66

PoE Redundant Power Configurations....................................................................................67

Single 600-LS Module Configuration: Redundant PoE Power.............................................67

Dual 600-LS Module Configuration: Full Power ................................................................67

Triple 600-LS Module Configuration: Full Redundant Power..............................................67

Internal-to-External PSU Transfer ...................................................................................68

Internal PSU Failure with Single EPS-600LS Module .................................................68

Two or Three EPS-600LS Modules ............................................................................68

External-to-Internal PSU Transfer ...................................................................................68

Active Internal PSU with Single 600-LS Module Failure..............................................68

Inactive Internal PSU with a Dual EPS-600LS Configuration and Module Failure...........68

Disconnecting the EPS-C/EPS-600LS........................................................................68

Summit X650 Power Supplies ....................................................................................................69

Part 2: Installing the Hardware

Chapter 3: Site Preparation............................................................................................................ 73

Planning Your Site ....................................................................................................................73

Meeting Site Requirements ........................................................................................................74

Operating Environment Requirements ...................................................................................74

Building and Electrical Codes .........................................................................................74

Wiring Closet Considerations ..........................................................................................75

Temperature .................................................................................................................75

Humidity ......................................................................................................................76

Spacing Requirements and Airflow..................................................................................76

Electrostatic Discharge ..................................................................................................76

Rack Specifications and Recommendations ...........................................................................76

Mechanical Recommendations for the Rack .....................................................................76

Protective Grounding for the Rack...................................................................................77

Space Requirements for the Rack ...................................................................................77

Securing the Rack .........................................................................................................77

Evaluating and Meeting Cable Requirements ...............................................................................78

ExtremeXOS Summit Family Switches Hardware Installation Guide

Contents

Cabling Standards ...............................................................................................................78

Cable Labeling and Record Keeping ......................................................................................78

Installing Cable...................................................................................................................79

Fiber Optic Cable ..........................................................................................................81

Cable Distances ............................................................................................................81

RJ-45 Connector Jackets .....................................................................................................82

Radio Frequency Interference ...............................................................................................83

Meeting Power Requirements .....................................................................................................83

PoE Devices .......................................................................................................................83

Power Supply Requirements .................................................................................................83

AC Power Cable Requirements..............................................................................................84

Replacing an AC Power Cable .........................................................................................84

Uninterruptible Power Supply Requirements ..........................................................................85

Selecting a UPS ............................................................................................................85

Calculating Volt-Amperage Requirements.........................................................................85

UPS Transition Time .....................................................................................................86

DC Power Requirements ......................................................................................................86

Applicable Industry Standards ....................................................................................................86

Chapter 4: Installing Summit Family Switches................................................................................. 87

Safety Information ....................................................................................................................87

Building a SummitStack Configuration ........................................................................................88

Slot Numbers .....................................................................................................................88

About Redundancy ..............................................................................................................89

Placing Summit Family Switches for Stacked Operation ..........................................................89

Connecting the Switches to Form the Stack Ring....................................................................89

Connecting a Stacking Cable to a Stacking Port .....................................................................91

Connecting the Console Port.................................................................................................92

Management Port Cabling ....................................................................................................92

Stacking Port LEDs .............................................................................................................92

Installing a Summit Family Switch (Models Other than Summit X650 Series) .................................92

Rack-Mounting a Summit Switch (Models Other than Summit X650 Series) .............................93

Free-Standing and Desktop Mounting of Multiple Switches .....................................................94

Removing an AC-Powered Summit Switch from a Rack (Models Other than Summit X650 Series)...

94

Installing and Removing Summit DC-Powered Switches ..........................................................95

Connecting the Internal DC Power Supply to the DC Source Voltage ...................................95

Grounding a Summit DC-Powered Switch.........................................................................96

Connecting the DC Wiring Harness to the DC Source Voltage .............................................97

Attaching the DC Wiring Harness to the DC Power Socket on the Switch .............................98

Removing a Summit DC-Powered Switch from a Rack .............................................................99

Installing a Summit X650 Series Switch....................................................................................100

Pre-installation Requirements.............................................................................................100

Selecting Rear Mounting Brackets ......................................................................................100

Installing the Switch in a Two-Post Rack .............................................................................101

Installing the Switch in a Cabinet or Four-Post Rack.............................................................104

Installing Summit X650 Power Supplies....................................................................................106

Installing a Summit X650 AC Power Supply.........................................................................106

Installing a Summit X650 DC Power Supply ........................................................................108

Required Tools and Materials .......................................................................................108

Preparing the Cables ...................................................................................................109

Installing the Power Supply ..........................................................................................109


6

Contents

Connecting the Ground Cable .......................................................................................110

Connecting the PSU to the DC Source Voltage................................................................111

Removing Summit X650 Series Switches ..................................................................................113

Removing the Power Supplies.............................................................................................113

Removing a Summit X650 AC Power Supply’ .................................................................114

Removing a DC Power Supply .......................................................................................114

Removing a Summit X650 Series Switch from a Two-Post Rack.............................................115

Removing a Summit X650 Series Switch from a Cabinet or Four-Post Rack ............................117

Connecting Network Interface Cables ........................................................................................118

Initial Management Access ......................................................................................................119

Connecting Equipment to the Console Port ..........................................................................119

Logging In for the First Time ..............................................................................................120

Chapter 5: Installing Summit External Power Supplies................................................................... 121

Safety ....................................................................................................................................121

Pre-installation Requirements ..................................................................................................122

Installing an EPS-160 External Power Module (with EPS-T) ........................................................122

Rack-Mounting the EPS-T ..................................................................................................122

Installing an EPS-160 Power Supply into an EPS-T ..............................................................123

Connecting the EPS-160 Power Supply to the Switch ...........................................................123

Removing an EPS-160 Power Supply from an EPS-T ............................................................125

Installing an EPS-LD External Power Supply ..............................................................................125

Rack-mounting the EPS-LD Power Supply ...........................................................................125

Connecting the EPS-LD to the Switch .................................................................................126

Connecting the EPS-LD to Power ........................................................................................127

Removing an EPS-LD ........................................................................................................128

Installing an EPS-500 External Power Supply Unit .....................................................................128

Rack-mounting an EPS-500 Power Supply ..........................................................................128

Connecting the EPS-500 Power Supply ...............................................................................129

Removing an EPS-500 Power Supply ..................................................................................131

Installing an EPS-150DC External Power Module (with EPS-T2) ..................................................131

Rack-mounting the EPS-T2 ................................................................................................131

Installing an EPS-150DC Power Supply...............................................................................132

Connecting the DC Wiring Harness to the DC Source Voltage ...........................................132

Installing an EPS-150DC Unit into an EPS-T2 ...............................................................133

Connecting the DC Wiring Harness to the DC Power Socket on the EPS-150DC .................134

Connecting the EPS-150DC to a Switch ........................................................................134

Removing an EPS-150DC Power Module .............................................................................136

Installing an EPS-600LS External Power Module .......................................................................137

Installing an EPS-C Chassis ...............................................................................................137

Installing an EPS-600LS Power Supply ...............................................................................139

Removing an EPS-600LS Power Module..............................................................................141

Installing Summit X650 Series Power Supplies ..........................................................................141

Installing an AC Power Supply ............................................................................................141

Chapter 6: Summit Option Cards................................................................................................... 143

Overview ................................................................................................................................143

Safety Information ..................................................................................................................144

Summit XGM-2xn Option Card..................................................................................................144

Mixing ZR XENPAKs with Other Types.................................................................................145


Contents

Summit XGM2-2xn Option Card................................................................................................145

Summit XGM2-2xf Option Card ................................................................................................146

Summit XGM2-2sf Option Card ................................................................................................147

Summit XGM2-2bt Option Card ................................................................................................147

Installing a Summit Port Option Card ........................................................................................148

Chapter 7: Maintenance Procedures for Summit X650 Series Switches.......................................... 151

Replacing a Summit X650 AC PSU...........................................................................................151

Replacing a Summit X650 DC Power Supply .............................................................................153

Removing the PSU ............................................................................................................153

Installing the Replacement PSU .........................................................................................154

Connecting the Ground Wire...............................................................................................155

Connecting the DC Power Cables ........................................................................................155

Replacing a Summit X650 Fan Module .....................................................................................157

Replacing a Versatile Interface Module (VIM1)...........................................................................158

Part 3: Appendices

Appendix A: Safety Information .................................................................................................... 163

Considerations Before Installing ...............................................................................................163

Installing External Power Supply Units ......................................................................................164

Maintenance Safety.................................................................................................................165

General Safety Precautions ......................................................................................................165

Cable Routing for LAN Systems ................................................................................................165

PoE Devices .....................................................................................................................166

Selecting Power Supply Cords ..................................................................................................166

Battery Replacement and Disposal............................................................................................167

Fiber Optic Ports—Optical Safety .............................................................................................168

SFP (Mini-GBIC), XENPAK, and XFP Regulatory Compliance .................................................168

Appendix B: Technical Specifications .......................................................................................... 175

Summit X150 Series Switches .................................................................................................175

Summit X250e Series Switches................................................................................................178



Summit X450a Series Switches................................................................................................188

Summit X450e Series Switches................................................................................................192


Summit X650 Power Supplies ..................................................................................................198

Summit External Power Supplies ..............................................................................................199

Console Connector Pinouts.......................................................................................................203

Index .......................................................................................................................................... 205


Contents


Preface

This preface provides an overview of this guide, describes guide conventions, and lists other publications that might be useful.

WARNING!

Service to all equipment should be performed by trained and qualified service personnel only.

Before installing or removing any components of the system, or before carrying out any maintenance procedures, you must thoroughly read the safety information provided in

Appendix A of this guide.

Failure to follow this safety information can lead to personal injury or damage to the equipment.

Introduction

This guide provides the required information to install the following Extreme Networks ® Summit ® switches:

●

●

Summit X150 series switches

Summit X250e series switches

●

●

●

●

●



Summit X450a series switches



The guide also contains information about site preparation, switch functionality, and switch operation.

NOTE

The Summit X150 series switches, Summit X250e series switches, Summit X350 series switches, Summit X450 series switches, Summit X450e series switches, and Summit X450a series switches are called the Summit family switches when referred to collectively.

This guide is intended for use by network administrators responsible for installing and setting up network equipment. It assumes a basic working knowledge of:

●

●

Local area networks (LANs)

Ethernet concepts

●

●

●

Ethernet switching and bridging concepts

Routing concepts

Simple Network Management Protocol (SNMP)

See the ExtremeXOS Concepts Guide and the ExtremeXOS Command Reference Guide for information about configuring Extreme Networks Summit family switches.


10

Preface

NOTE

If the information in the installation note or release note shipped with your Extreme Networks switch differs from the information in this guide, follow the installation or release note.

Conventions

Table 1 and Table 2 list conventions used throughout this guide.

Table 1: Notice Icons

Icon Notice Type

Note

Alerts you to...

Important features or instructions.

Caution Risk of personal injury, system damage, or loss of data.

Warning Risk of severe personal injury.

Table 2: Text Conventions

Convention

Screen displays

The words “enter” and “type”

[Key] names

Words in italicized type

Description

This typeface represents information as it appears on the screen, or command syntax.

When you see the word “enter” in this guide, you must type something, and then press the Return or Enter key. Do not press the Return or Enter key when an instruction simply says “type.”

Key names appear in text in one of two ways:

• Referenced by their labels, such as “the Return key” or “the Escape key”

• Written with brackets, such as [Return] or [Esc]

If you must press two or more keys simultaneously, the key names are linked with a plus sign (+). Example:

Press [Ctrl]+[Alt]+[Del].

Italics emphasize a point of information or denote new terms at the place where they are defined in the text. Book titles are printed in italics.

Related Publications

The Extreme Networks ExtremeXOS ® switch documentation set includes:

● ExtremeXOS Concepts Guide

●

●

●

ExtremeXOS Command Reference Guide

ExtremeXOS Release Notes

BlackDiamond ® 20808 Switch Hardware Installation Guide


●

●

●

●

BlackDiamond 10808 Switch Hardware Installation Guide

BlackDiamond 12800 Series Switches Hardware Installation Guide

BlackDiamond 8800 Series Switches Hardware Installation Guide

Extreme Networks Pluggable Interface Modules Installation Guide

Documentation for Extreme Networks products is available from the Extreme Networks website at the following location: http://www.extremenetworks.com/services/documentation

You can select and download the following Extreme Networks documentation from the Documentation

Overview page:

●

●

Software User Guides

Hardware Installation Guides

You can find archived user guides for software at: http://www.extremenetworks.com/services/documentation/swuserguides.asp

You can also find archived installation guides for hardware at: http://www.extremenetworks.com/services/documentation/hwuserguides.asp


Preface


1

About the Summit Family Switches

1

Summit Family Switches

This chapter describes the Summit family switches. The chapter includes the following sections:

●

Overview of the Summit Switches on page 15

●

●

Summit X150 Series Switches on page 18

Summit X250e Series Switches on page 23

●

●

●


Summit X450 Series, X450a Series, and X450e Series Switches on page 41


Overview of the Summit Switches

The Summit family switches are compact enclosures 1.75 inches high (1 U). They provide 24 or 48 high-density copper or fiber optic ports operating at speeds up to 10 Gbps, with combination copper/fiber uplink ports. PoE connections and options for adding 10-Gbps or 100 Gbps uplink connections are available on some models. Many Summit switches include high-speed stacking interfaces that allow you to connect up to eight Summit switches into a single SummitStack ™ management entity. Summit models are available for AC or DC power connection; all Summit switches make provision for redundant power supplies. Most models have connections for optional external redundant power supplies; the Summit X650 series switches provide two bays for pluggable power supplies.

Table 3

and Table 4 list the Summit switch series and summarize the features available in each series.

Table 3: Summit Switch Features—Summit X150, X250e, and 350 Series

Feature

Maximum autonegotiating

10/100BASE-TX ports


10/100/1000-BASE-TX ports

Summit X150

Series

26 or 50

2

Summit X250e

Series

26 or 50

24 or 48

Summit 350

Series

—

24 or 48

Maximum 1-Gbps Ethernet ports

(SFP)

2

Maximum 10-Gbps Ethernet ports —

SummitStack support

Total switching capacity

2 4

2 2

No Yes No

8.8–17.6 Gbps 48.8–97.6 Gbps 128–256 Gbps

Redundant power

DC power available

Power over Ethernet (802.3af)

Yes (external)

No

Yes

Yes (external)

Yes

Yes

Yes (external)

Yes

No


16


Table 4: Summit Switch Features—Summit X450, X450a, X450e, and X650 Series

Feature


10/100BASE-TX ports


10/100/1000-BASE-TX ports


(SFP)


(XFP, XENPAK, SFP+)

SummitStack support

Total switching capacity

Redundant power

DC power available

Power over Ethernet (802.3af)

Summit X450

Series

—

24 or 48

4

Summit X450a

Series

—

24 or 48

4

Summit X450e

Series

—

24 or 48

4


—

—

4

2 2 2 24 (default)

32 (with VIM1-10G8X)

Yes Yes Yes Yes

128–256 Gbps 128–256 Gbps 128–256 Gbps 488–680 Gbps

Yes (external) Yes (external) Yes (external) Yes (hot-swappable)

No

Yes

Yes

Yes

No

Yes

No

No

Table 5

shows the switch models in each Summit series.

Table 5: Summit Family Switches

Summit X150

Series

Summit

X150-24t

Summit

X150-24p

Summit

X150-48t

Summit X250e

Series

Summit

X250e-24t

Summit

X250e-24tDC

Summit

X250e-24p

Summit

X250e-24x

Summit

X250e-24xDC

Summit

X250e-48t

Summit

X250e-48p

Summit X350

Series

Summit

X350-24t

Summit

X350-48t

Summit X450

Series

Summit

X450-24t

Summit

X450-24x

Summit X450a

Series

Summit

X450a-24t

Summit

X450a-24tDC

Summit

X450a-24x

Summit

X450a-24xDC

Summit

X450a-48t

Summit

X450a-48tDC

Summit X450e

Series

Summit

X450e-24p

Summit

X450e-48p

Summit X650

Series

Summit

X650-24t

Summit

X650-24x

Refer to the following sections for specific hardware details about each series:

●


●

●



●

●

Summit X450 Series, X450a Series, and X450e Series Switches on page 41

“Summit X650 Series Switches” on page 58


NOTE

See the ExtremeXOS Concepts Guide and the ExtremeXOS Command Reference Guide for feature-specific information about the Summit switches and for information regarding switch configuration.

Combination Ports and Failover

Summit family switches provide two or four uplink ports implemented as combination ports that pair a copper port using RJ-45 connectors with an optical port using LC connectors. The copper port operates as an autonegotiating 10/100/1000BASE-T port. The optical port allows Gigabit Ethernet uplink connections through Extreme Networks small form factor pluggable (SFP) interface modules. See the individual switch descriptions for the port numbers of the combination ports on each switch model.

Summit family switches support automatic failover from an active fiber port to a copper backup or from an active copper port to a fiber port. If one of the uplink connections fails, the Summit uplink connection automatically fails over to the second connection. To set up a redundant link on a combination port, connect the active 1000BASE-T and fiber links to both the RJ-45 and SFP interfaces of that port.

Gigabit Ethernet uplink redundancy on the Summit family switches follows these rules:

●

●

With both the SFP and 1000BASE-T interfaces connected on a combination port, only one interface can be activated. The other is inactive.

If only one interface is connected, the switch activates the connected interface.

● The switch determines whether the port uses the fiber or copper connection based on the order in which the connectors are inserted into the switch. When the switch senses that an SFP and a copper connector are inserted, the switch enables the uplink redundancy feature. For example, if you first connect copper ports 25 and 26 on a Summit XX250e-24t switch, and then insert SFPs into ports 25 and 26, the switch assigns the copper ports as active ports and the fiber ports as redundant ports.

Hardware determines when a link is lost and swaps the primary and redundant ports to maintain stability. After a failover occurs, the switch keeps the current port assignment until another failure occurs or a user changes the assignment using the CLI. For more information about configuring automatic failover on combination ports, see the ExtremeXOS Concepts Guide .



Summit X150 Series Switches

The Summit X150 series switches provide 24 or 48 fixed 10/100BASE-T Ethernet ports that deliver high-density copper connectivity for 2.4 Gbps or 4.8 Gbps. Models are available with PoE and without

PoE. Each Summit X150 series switch has two combination ports that provide 10/100/1000 BASE-T or

SFP connectivity for 2 Gbps of copper or fiber connectivity. A serial console port on the front panel allows you to connect a terminal and perform local management. On the back of the switch, an Ethernet management port can be used to connect the system to a parallel management network for administration. Alternatively, you can use an Ethernet cable to connect this port directly to a laptop to view and locally manage the switch configurations.

The rear panel of the switch provides an AC power input socket and a redundant power connector. The internal power supply operates from 100 VAC to 240 VAC. The switch automatically adjusts to the supply voltage. The redundant power connector allows you to connect the switch to the EPS-160 or

EPS-500 external power supply. When a compatible external power supply is used with the Summit

X150 series switch, the internal and external power supplies are fully fault tolerant and load-sharing.

If one power supply fails, the other power supply will provide sufficient power to operate the switch.

The Summit X150e series switches include the following switches:

●

Summit X150-24t Switch

●

●

Summit X150-24p Switch



Summit X150-24t Switch

The front panel of the Summit X150-24t switch ( Figure 1

) includes:

● Twenty-four fixed autosensing 10/100BASE-T ports (ports 1–24) that provide 2.4 Gbps of high-density copper connectivity

●

●

●

Two combination ports (ports 25–26) using RJ-45 connectors and SFPs to provide 2 Gbps of copper or fiber connectivity

For information about SFPs, see the Extreme Networks Pluggable Interface Modules Installation Guide .

LEDs to indicate port status and switch operating conditions.

For a description of the LEDs and their operation, see “Summit X150 Series Switch LEDs” on page 22

.

Serial console port used to connect a terminal and perform local management.

Figure 1: Summit X150-24t Switch Front Panel

10/100 Mbps ports

Console port

Stack

1

2

Combination ports

SH_050B

The rear panel of the Summit X150-24t switch ( Figure 2

) includes:

● Ethernet management port with associated LEDs

● Redundant power input connector for optional connection to the EPS-160 External Power Module.

See

“EPS-160 External Power Module (with EPS-T)” on page 64 for more information. The

connecting redundant power supply cable is shipped with the EPS-160 unit.

● AC power input socket

Figure 2: Summit X150-24t Switch Rear Panel

Management port

External power supply connection

Power socket

SH_051



Summit X150-24p Switch

The front panel of the Summit X150-24p switch ( Figure 3 ) includes:

● Twenty-four fixed autosensing 10/100BASE-T PoE ports (ports 1–24). In addition to 4 Gbps of high-density copper connectivity, these ports also provide a full 15.4 Watts of PoE per port.

●

●

●





.


Figure 3: Summit X150-24p Switch Front Panel

10/100 Mbps ports

Console port

20

Combination ports

SH_052A

The rear panel of the Summit X150-24p switch includes:


●

●

Redundant power input connector for use optional connection to the EPS-500 External Power Supply

(Model No. 10911) with full PoE power support.

See

“EPS-500 External Power Supply Unit” on page 65

for more information. The connecting redundant power supply cable is shipped with the EPS-500 unit.

AC power input socket

Figure 4: Summit X150-24p Switch Rear Panel

Management port


Power socket

SH_053



The front panel of the Summit X150-48t switch ( Figure 5

) includes:

● Forty-eight fixed autosensing 10/100BASE-T ports (ports 1–48) that provide 4.8 Gbps of high-density copper connectivity

●

●

●





.



10/100 Mbps ports Console port

Combination ports

SH_054A

The rear panel of the Summit X150-48t switch ( Figure 6

) includes:

● Management port with associated LEDs

●

●

Redundant power input connector for optional connection to the EPS-160 External Power Module.

See





Management port


Power socket

SH 055


22


Summit X150 Series Switch LEDs

Table 6

lists the of LEDs on the Summit X150 switches, along with their associated colors and meanings.

.

Table 6: LEDs on the Summit X150 Series Switches

Label or Type

Front Panel

MGMT

FAN

PSU-I

(Internal power supply)

PSU-E

(External power supply)

Port number

1 – 24 or 1 – 48

Port number

25, 26 or 49, 50

(Shared ports)

Color/State

Blinking green (fast)

Steady green

Blinking green (slow)

Blinking amber

Off

Steady green

Blinking amber

Off

Steady green

Blinking amber

Off

Steady green

Blinking amber

Off

Steady green

Blinking green

Off

Steady green

Blinking green

Off

Meaning

Power-on self-test (POST) in progress.

POST passed. System is booting image.

Normal operation.

Switch diagnostics are running.

or

System is disabled. POST failed or system overheated.

No external power attached.

Normal operation.

Fan failure. Switch will continue to operate unless it overheats.

No power.

Normal operation.

Failure.

No power.

Normal operation.

Failure.

No external power attached.

Link is OK.

Port is transmitting packets.

Link is not present.

or

Port is disabled.

Link is OK.

Activity.


or

Port is disabled.

Additional Port LED Meanings for PoE Switch: Summit X150-24p

All front-panel ports Steady green Link OK; port is not powered.

Steady amber

Blinking green

Link is OK; port is powered; no traffic.

Link is OK and transmitting packets; port is not powered.

Blinking amber

Slow blinking amber

Alternating amber and green

Off

Link is OK and transmitting packets; port is powered.

No link or disabled port; port is powered.

Port has a power fault.

Port is not powered, has no link, or is disabled.


Table 6: LEDs on the Summit X150 Series Switches (Continued)

Color/State Meaning Label or Type

Rear Panel

Management Port Link is OK.

Right LED:

Steady green

Left LED:

Blinking green

Both LEDs off

Activity.


Summit X250e Series Switches

The Summit X250e series switches provide 24 or 48 Ethernet ports that deliver high-density fast

Ethernet connectivity using fixed 10/100/1000BASE-T ports or installable small form pluggable (SFP) optical modules. Fixed-port models are available either with or without PoE. Each Summit X250e series switch has two combination ports that provide 10/100/1000 BASE-T or SFP connectivity for 2 Gbps of copper or fiber connectivity. A serial console port on the front panel allows you to connect a terminal and perform local management. An Ethernet management port can be used to connect the system to a parallel management network for administration. Alternatively, you can use an Ethernet cable to connect this port directly to a laptop to view and locally manage the switch configurations.

On the back of the switch, two high-speed stacking ports allow you to combine multiple units into a single SummitStack ™ management entity. The rear panel also provides an AC or DC power input socket and a redundant power connector. (See specific switch descriptions for more information about the power options.) The switch automatically adjusts to the supply voltage. The redundant power connector allows you to connect the switch to the EPS-160, EPS-500, or EPS-150DC external power supply. When a compatible external power supply is used with the Summit X250e series switch, the internal and external power supplies are fully fault tolerant and load-sharing. If one power supply fails, the other power supply will provide sufficient power to operate the switch.

The Summit X250e series switches include the following switches:

●

Summit X250e-24t Switch

●

●

Summit X250e-24tDC Switch

Summit X250e-24p Switch

●

●

●

●

●

●

Summit X250e-24x Switch

Summit X250e-24xDC Switch

Summit X250e-48t Switch

Summit X250e-48tDC Switch


Summit X250e-48p-TAA Switch

NOTE

The Summit X250e-48p-TAA switch is compliant with the Trade Agreements Act (TAA). Functionally, it is completely equivalent to the Summit X250e-48p switch. In the descriptions that follow, references to the Summit X250e-48p switch also apply to the Summit X250e-48p-TAA switch.



Summit X250e-24t Switch

The front panel of the Summit X250e-24t switch ( Figure 7 ) includes:


●

●

●

●




For a description of the LEDs and their operation, see “Summit X250e Series Switch LEDs” on page 34

.

Stack number indicator showing the position of this switch in a stacked configuration.


Figure 7: Summit X250e-24t Switch Front Panel

10/100 Mbps ports

Console port

24

Stack

1

2

Stack number indicator Combination ports

SH_038B

The rear panel of the Summit X250e-24t switch ( Figure 8

) includes:


●

●

Two high-performance stacking ports with associated LEDs


See



● AC power input socket.

The internal AC power supply operates from 100 VAC to 240 VAC.

Figure 8: Summit X250e-24t Switch Rear Panel

Management port


Redundant Power Input

! See Manual

10 Gigabit stacking ports

Power socket

SH_039


Summit X250e-24tDC Switch

The front panel of the Summit X250e-24tDC switch (

Figure 33

) includes:


●

●

●

●





.



Figure 9: Summit X250e-24tDC Switch Front Panel

10/100 Mbps ports

Console port

DC

Stack

1

2


SH_057_front_x250e-24tdc

The rear panel of the Summit X250e-24tDC switch ( Figure 34

) includes:


●

●


Redundant power input connector for optional connection to the EPS-150DC External Power Module

(Model No. 10909).

●

●

See

“EPS-150DC External Power Module (with EPS-T2)” on page 66

for more information. The connecting redundant power supply cable is shipped with the EPS-150DC unit.

DC power input socket

The power supply operates from -36 VDC to -72 VDC.

Grounding lug

NOTE

For centralized DC power connection, this product is intended to be installed in a restricted access location (such as a dedicated equipment room, equipment closet, or central office) in accordance with Articles 110-16, 110-17, and

110-18 of the National Electric Code, ANSI/NFPA 70.


26


Figure 10: Summit X250e-24tDC Switch Rear Panel

Management port



! See Manual

- 4 8 V

1 . 5 A M a x


DC power socket

Grounding lug

SH_058_rear_x250e-24t-xdc

Summit X250e-24p Switch

The front panel of the Summit X250e-24p switch (

Figure 11

) includes:

● Twenty-four fixed autosensing 10/100BASE-T PoE ports (ports 1–24). In addition to 2.4 Gbps of high-density copper connectivity, these ports also provide a full 15.4 Watts of PoE per port.

●

●

●

●





.



Figure 11: Summit X250e-24p Switch Front Panel

10/100 Mbps ports

Console port

Stack

1

2


SH_040B


The rear panel of the Summit X250e-24p switch ( Figure 12 ) includes:


●

●


Redundant power input connector for use with the EPS-500 External Power Supply (Model No.

10911) with full PoE power support.

●

See



AC power input socket.


Figure 12: Summit X250e-24p Switch Rear Panel

Management port



Power socket

SH_041

Summit X250e-24x Switch

The front panel of the Summit X250e-24x switch ( Figure 7

) includes:

● Twenty-four 100BASE-FX ports (ports 1–24) that provide 2.4 Gbps of high-density fiber connectivity

● Two combination ports (ports 25–26) using RJ-45 connectors and SFPs to provide 2 Gbps of copper or fiber connectivity

●

●

●




.



Figure 13: Summit X250e-24x Switch Front Panel

Combination ports

Stack number indicator 100BASE-X ports


Console port

SH_056A

27

28


The rear panel of the Summit X250e-24x switch ( Figure 8

) includes:


●

●


Redundant power input connector for use with the EPS-160 External Power Module.

See





Figure 14: Summit X250e-24x Switch Rear Panel

Management port



! See Manual


Power socket

SH_039

Summit X250e-24xDC Switch

The front panel of the Summit X250e-24xDC switch ( Figure 7 ) includes:

● Twenty-four 100BASE-FX ports (ports 1–24) that provide 2.4 Gbps of high-density fiber connectivity

● Two combination ports (ports 25–26) using RJ-45 connectors and SFPs to provide 2 Gbps of copper or fiber connectivity

●

●

●




.



Figure 15: Summit X250e-24xDC Switch Front Panel

Combination ports

DC


Console port

SH_059_front_x250e-24xdc


The rear panel of the Summit X250e-24xDC switch ( Figure 8

) includes:


●

●


Redundant power input connector for use with the EPS-150DC External Power Module (Model No.

10909).

●

●

See





Grounding lug

NOTE



Figure 16: Summit X250e-24xDC Switch Rear Panel

Management port



! See Manual

- 4 8 V

1 . 5 A M a x


DC power socket

Grounding lug

SH_058_rear_x250e-24t-xdc

Summit X250e-48t Switch

The front panel of the Summit X250e-48t switch ( Figure 17

):

● Forty-eight fixed autosensing 10/100BASE-T ports (ports 1–48) that provide 4.8 Gps of high-density copper connectivity

●

●

●

●





.





Figure 17: Summit X250e-48t Switch Front Panel



SH_044B

The rear panel of the Summit X250e-48t switch ( Figure 18 ) includes:


●

●



See





Figure 18: Summit X250e-48t Switch Rear Panel

Management port


30

Stacking ports Power socket

SH_045

Summit X250e-48tDC Switch

The front panel of the Summit X250e-48tDC switch (

Figure 17

):

● Forty-eight fixed autosensing 10/100BASE-T ports (ports 1–48) that provide 4.8 Gps of high-density copper connectivity

●

●

●

●





.




Figure 19: Summit X250e-48tDC Switch Front Panel



SH_062_front-x250e-48tdc

The rear panel of the Summit X250e-48tDC switch ( Figure 18

) includes:


●

●


Redundant power input connector for use with the EPS-150DC External Power Module (Model No.

10909).

●

●

See



DC power input socket.


Grounding lug

NOTE



Figure 20: Summit X250e-48tDC Switch Rear Panel

Management port



! See Manual

- 4 8 V

2 . 0 A M a x


DC power socket

SH_063_rear_x250e-48tdc


32



●

●


Figure 21

) includes:

●

●

●

Forty-eight fixed autosensing 10/100BASE-T PoE ports (ports 1–48). In addition to 4.8 Gbps of high-density copper connectivity, these ports provide a full 15.4 Watts of PoE per port when used with the EPS-600LS External Power Module.





.






SH_042B

●

●

●


●

Management port with associated LEDs


Redundant power input connector for use with one or more EPS-600LS External Power Modules

(Model No. 10913) installed in an EPS-C chassis (Model No. 10912).

The PoE capability of the Summit X250e-48p switch varies depending on the number of external

power modules in use. For more information, see “EPS-600LS External Power Module” on page 66

.

The connecting redundant power supply cable is shipped with the EPS-C chassis.

AC power input socket.



Management port



Power socket

SH_043


Summit X250e-48p Power Supplies

The Summit X250e-48p switch is powered by both an internal power supply and an optional external redundant power supply system.

Internal Power Supply

The internal Summit X250e-48p internal power supply is capable of 370 W of PoE power. It supplies

15.4 W to each port for a 24-port configuration and 7.7 W to each port for a 48-port configuration or any combination of ports where total PoE power does not exceed 370 watts. If the total system demands exceed this power limit, you can specify one of the following:

●

●

Port priorities to identify which ports should be ranked higher when allocating power

Port disconnect precedence to specify the method of shutting off ports when not enough PoE power is available

NOTE

A full discussion of these concepts can be found in the ExtremeXOS 12.0 Concepts Guide , Power over Ethernet section.

External Power Supplies

The EPS-600LS External Power Module provides optional redundant power for the Summit X250e-48p switch. Through the redundant power input connector on the rear panel, the switch can be powered by one, two, or three external power modules installed in the EPS-C External Power Supply Chassis.

The PoE capability of the Summit X250e-48p varies depending on the number of external power modules in use.

Table 7

summarizes the PoE power behavior for the Summit X250e-48p switch based on the number of power supply modules in use.

Table 7: Number of External Power Modules and Corresponding PoE Behavior

Internal Power

Supply Status

Internal power supply:

Power on

Internal power supply:

Power Failure

EPS-600LS (1x)

370 W of redundant power

370 W of external power only

EPS-600LS (2x)


Internal power supply disabled


EPS-600LS (3x)

740 W of external power only with 2:1 redundancy

Internal power supply disabled


External PSU/Chassis

Failed/Disconnected

370 W of internal power only

No PoE power

For specifications and installation instructions for the external power module, see “EPS-600LS External

Power Module” on page 66

.


34


Summit X250e Series Switch LEDs

Table 8

describes the LEDs on the Summit X250e switches.

Table 8: LEDs on the Summit X250e Series Switches

Label or Type

Front Panel

MGMT

Color/State Meaning

FAN

PSU-I


PSU-E


Port number

1 – 24 or 1 – 48

Port number

25, 26 or 49, 50

(Shared ports)


Steady green


Blinking amber

Off

Steady green

Blinking amber

Off

Steady green

Blinking amber

Off

Steady green

Blinking amber

Off

Steady green

Blinking green

Off

Steady green

Blinking green

Off

Stack 1,2 Steady green

Blinking green

Stack Number Indicator Top half of number blinking

Lower half of number blinking

Number lights steadily

Power-on self-test (POST) in progress


Normal operation.

Switch diagnostics are running.

or


No external power attached

Normal operation

Fan failure. Switch will continue to operate unless it overheats.

No power

Normal operation

Failure

No power

Normal operation

Failure


Link is OK.



or

Port is disabled.

Link is OK



or

Port is disabled.

Link OK on the indicated stack port.

Activity on the indicated stack port.

This switch is the stack master.

This switch is the stack backup.

This switch is a standby switch (neither the master nor the backup).


Table 8: LEDs on the Summit X250e Series Switches (Continued)

Label or Type Color/State Meaning

Additional Port LED Meanings for PoE Switches: Summit X250e-24p & Summit X250e-48p

All front-panel ports Steady green Link OK. port not powered.

Steady amber Link OK, port is powered, no traffic

Blinking green

Blinking amber

Slow blinking amber


Off

Link OK, transmitting packets, port not powered.

Link OK, transmitting packets, port is powered.

No link or disabled port, port is powered

Port has a power fault.

Port is not powered, has no link, or is disabled.

Rear Panel

Management Port

Stack Port 1, Stack

Port 2

Right LED: Steady green

Left LED: Blinking green

Both LEDs off

Steady green

Blinking green

Off

Link OK

Activity


Link OK

Activity

No link


The Summit X350 series switches provide 24 or 48 Ethernet ports that deliver high-density fast Ethernet connectivity using fixed 10/100/1000BASE-T ports. Each Summit X350 series switch has four combination ports that provide 10/100/1000 BASE-T or SFP connectivity for 2 Gbps of copper or fiber connectivity. A serial console port on the front panel allows you to connect a terminal and perform local management. An Ethernet management port can be used to connect the system to a parallel management network for administration. Alternatively, you can use an Ethernet cable to connect this port directly to a laptop to view and locally manage the switch configurations.

The rear panel of the switch has an option slot to accommodate one of the following Summit option cards:

■

■

Summit XGM2-2xf option card, which allows you to add one or two 10-Gigabit XFP modules

Summit XGM2-2xn option card, which allows you to add one or two 10-Gigabit XFP modules

■

■

Summit XGM2-2bt option card, which allows you to add one or two fixed 10GBASE-T ports

Summit XGM2-2sf option card, which allows you to add one or two 10-Gigabit SFP+ modules

For option card installation instructions, see

Chapter 4, “Summit Option Cards.”

Power connectors on the rear panel of the switch include an AC power input socket and a redundant power connector. The internal AC power supply operates from 100 VAC to 240 VAC. The switch automatically adjusts to the supply voltage. The redundant power connector allows you to connect the switch to the EPS-500 external power supply. When a compatible external power supply is used with the Summit X350 series switch, the internal and external power supplies are fully fault tolerant and load-sharing. If one power supply fails, the other power supply provides sufficient power to operate the switch.



The Summit X350 series switches include the following switches:

●


●




The front panel of the Summit X350-24t switch ( Figure 23 ) includes:

● Twenty fixed autosensing 10/100/1000 BASE-T ports (ports 1–20) that provide 20 Gbps of high-density copper connectivity

●

●

●

Four combination ports (ports 21-24) using RJ-45 connectors and SFPs to provide 4 Gbps of copper or fiber connectivity

For information about SFPS, see the Extreme Networks Pluggable Interface Modules Installation Guide .


For a description of the LEDs and their operation, see Table 9 .



10/100/1000 Mbps ports

Console port

Combination ports

S H_064

The rear panel of the Summit X350-24t switch ( Figure 24 ) includes:

● Slot for the one of the following Summit option cards:

■ Summit XGM2-2xf option card, which allows you to add one or two 10-Gigabit XFP modules

See

“Summit XGM2-2xf Option Card” on page 146 .

■

■

Summit XGM2-2xn option card, which allows you to add one or two 10-Gigabit XFP modules

See

“Summit XGM2-2xn Option Card” on page 145

Summit XGM2-2bt option card, which allows you to add one or two fixed 10GBASE-T ports

See

“Summit XGM2-2bt Option Card” on page 147

●

●

●

■ Summit XGM2-2sf option card, which allows you to add one or two 10-Gigabit SFP+ modules

See

“Summit XGM2-2sf Option Card” on page 147


Redundant power input connector for optional connection to the EPS-500 External Power Module

(Model No. 10907).

See




The power supply operates from 100 VAC to 240 VAC.


38



Management port


10 Gigabit uplink option

Power socket

SH_065_rear_X350_24t



●

●

●

●

Forty-four fixed autosensing 10/100/1000 BASE-T ports (ports 1-44) that provide 44 Gbps of high-density copper connectivity

Four combination ports (ports 45-48) using RJ-45 connectors and SFPs to provide 4 Gbps of fiber or copper connectivity



For a description of the LEDs and their operation, see “Summit X450, X450a, and X450e Series

Switch LEDs” on page 57

.



Com b in a tion port s

MGMT

FAN

P S U-1

P S U-E

S t a ck 10G

1 1

2 2

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 45X 46X 47X 48X B a nd On = Link

Blinking = Activity

S h red Port s


Console port

S H_066


●

●


● Slot for the one of the following Summit option cards:

■ Summit XGM2-2xn option card, which allows you to add one or two 10-Gigabit XFP modules

See

“Summit XGM2-2xn Option Card” on page 145

.

■

■


See


Summit XGM2-2sf option card, which allows you to add one or two 10-Gigabit SFP+ modules

See

“Summit XGM2-2sf Option Card” on page 147

.

●

■ Summit XGM2-2bt option card, which allows you to add one or two fixed 10GBASE-T ports

See

“Summit XGM2-2bt Option Card” on page 147

.


Redundant power input connector for optional connection to the EPS-500 External Power Supply

Unit (Model No. 10911).

See


for more information. The connecting redundant power supply cable is shipped with the EPS-500 power supply.




Management port



Power socket

SH_067_rear_X350-48t


40



Table 11

lists the LEDs and their associated colors and meanings.


Label or Type

Front Panel

MGMT

Color/State Meaning

FAN

PSU-I


PSU-E


Blinking green (fast) Power-on self-test (POST) in progress

Steady green POST passed. System is booting image.

Normal operation.

Blinking green

(slow)

Blinking amber Switch diagnostics are running.

or


Steady green

Blinking amber

Off

Steady green

Normal operation

Failure

No power

Normal operation

Blinking amber

Off

Steady green

Blinking amber

Off

Failure

No power

Normal operation

Failure


Front-panel Port LEDs

Ethernet Ports

1 – 24 or 1 – 48 (21 – 24 and 45 – 48 are shared ports)

Steady green

Blinking green

Off

Link OK

Activity


or

Port is disabled.

Rear Panel

Management Port

SFP 1G Port

XENPAK 10G Port

Steady green

Blinking green

Off

Steady green

Blinking green

Steady green

Blinking green

Off

Link OK

Activity


Link OK

Activity

Link OK

Activity

Link down


Summit X450 Series, X450a Series, and X450e Series

Switches

The Summit X450 series, Summit X450a series, and Summit X450e series switches provide 24 or 48

Ethernet ports. These switches deliver high-density fast Ethernet connectivity using fixed

10/100/1000BASE-T ports or installable small form pluggable (SFP) optical modules. Models in different series are available both with and without PoE and in AC or DC power versions.

Each Summit X450, X450a, or X450e series switch has four combination ports that provide 10/100/1000

BASE-T or SFP connectivity for 4 Gbps of copper or fiber connectivity. A serial console port on the front panel allows you to connect a terminal and perform local management. An Ethernet management port on the back panel can be used to connect the system to a parallel management network for administration. Alternatively, you can use an Ethernet cable to connect the Ethernet management port directly to a laptop to view and locally manage the switch configurations.

The rear panel of the switch has an option slot to accommodate one of the following Summit option cards:

●

●

●

Summit XGM-2xn option card, which allows you to add one or two 10-gigabit XENPAK modules

Summit XGM2-2xn option card, which allows you to add one or two 10-gigabit XENPAK modules


Option card compatibility depends on the specific switch series. See the individual switch descriptions for the option card supported on each switch. For option card installation instructions, see

Chapter

4, “Summit Option Cards.”

Two high-speed stacking ports allow you to combine multiple units into a single SummitStack ™ management entity. Power connectors include an AC or DC power input socket and a redundant power connector. (See specific switch descriptions for more information about the power options.) The switch automatically adjusts to the supply voltage. The redundant power connector allows you to connect the switch to the an external power supply. When a compatible external power supply is used with the

Summit X450, X450a, or X450e series switch, the internal and external power supplies are fully fault tolerant. For most switches, if one power supply fails, the other power supply will provide sufficient power to operate the switch. For information about power supply redundancy with the Summit

X450a-48p switch, see

“Summit X450e-48p Power Supplies” on page 55

.

For information about each switch series, see the following sections:

●


●

●

Summit X450a Series Switches on page 44



42



The Summit X450 series switches are 24-port switches without PoE options. The ports are implemented as fixed 10/100/1000BASE-t RJ-45 ports or as installable SFP modules. These switches are available only with AC internal power supplies.

The Summit X450 series of switches consists of the following switches:

●

Summit X450-24t Switch on page 42

●

Summit X450-24x Switch on page 43



● Twenty fixed autosensing 10/100/1000 BASE-T ports (ports 5-24) that provide 20 Gbps of high-density copper connectivity

●

●

●

●






.




Mini-GBIC ports 10/100/1000 Mbps ports

Console port

Band On = Link

Blinking = Activity

STACK NO.

Shared Ports


S450_002D


● Slot for the Summit XGM-2xn option card, which allows you to add one or two 10-Gigabit XENPAK modules

●

●

●

For information about the Summit XGM-2xn option card, see

“Summit XGM-2xn Option Card” on page 144 .




(Model No. 10907).

See




● AC power input socket



Management port




Power socket

S450_003A

Summit X450-24x Switch

The front panel of the Summit X450-24x switch ( Figure 29 ) includes:

● Twenty fixed SFP ports (ports 5-24) that provide 20 Gbps of high-density fiber connectivity

●

●




●

●



.



Figure 29: Summit X450-24x Switch Front Panel

10/100/1000 Mbps ports Mini-GBIC ports

Console port

Band On = Link

Blinking = Activity

STACK NO.

Shared Ports


S450_001D

The rear panel of the Summit X450-24x switch (

Figure 30 ) includes:

● Slot for the Summit XGM-2xn option card, which allows you to add one or two 10-gigabit XENPAK modules

For information about the Summit XGM-2xn option card, see

“Summit XGM-2xn Option Card” on page 144

.


44


●

●

●

●




(Model No. 10907).

See





Figure 30: Summit X450-24x Switch Rear Panel

Management port




Power socket

S450_003A

Summit X450a Series Switches

The Summit X450a series switches are 24-port or 48-port switches without PoE options. The Ethernet ports are implemented as fixed 10/100/1000BASE-T RJ-45 ports or as installable SFP modules. These switches are available with either AC or DC internal power supplies. The switch automatically adjusts to the supply voltage. The internal AC power supply operates from 100 VAC to 240 VAC. The internal

DC power supply operates from -36 VDC to -72 VDC.

The Summit X450a series switches include the following switches:

●

Summit X450a-24t Switch

●

●

●

●

●

Summit X450a-24tDC Switch

Summit X450a-24x Switch

Summit X450a-24xDC Switch

Summit X450a-48t Switch

Summit X450a-48tDC Switch


Summit X450a-24t Switch

The front panel of the Summit X450a-24t switch (

Figure 31

) includes:


●

●

●

●






.



Figure 31: Summit X450a-24t Switch Front Panel


Console port


SH_018B

The rear panel of the Summit X450a-24t switch (

Figure 32

) includes:

● Slot for one of the following Summit option cards:

●

●

■

■

Summit XGM2-2xn option card, which allows you to add up to two 10-Gigabit XENPAK modules

Summit XGM2-2xf option card, which allows you to add up to two 10-Gigabit XFP modules

For information about these Summit option cards, see

“Summit XGM2-2xn Option Card” on page 145 or




●

●

Redundant power input connector for optional connection to a redundant power supply, either the

EPS-LD External Power Supply Unit (Model No. 45019) or the EPS-500 External Power Supply

(Model 10911). The connecting redundant power supply cable is shipped with the external power supply.

For more information about the external power supplies, see

“EPS-LD External Power Supply Unit” on page 65 or “EPS-500 External Power Supply Unit” on page 65

.





Figure 32: Summit X450a-24t Switch Rear Panel

Management port


46



Power socket

SH_028

Summit X450a-24tDC Switch

The front panel of the Summit X450a-24tDC switch (



●

●

●

●






.



Figure 33: Summit X450a-24tDC Switch Front Panel


Console port

MGMT

FAN

PSU-1

PSU-E

10G

1

2

1

2

STACK NO.

Stack number indicator

Solid ON=Link

Blinking=Activity

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 21X 22X 23X 24X

Shared Ports

Combination ports

SH_020B

The rear panel of the Summit X450a-24tDC switch (

Figure 34

) includes:


■

■







●

●

●

●

●

Ethernet management port with associated LEDs



(Model No. 10909).

See





Grounding lug

NOTE



Figure 34: Summit X450a-24tDC Switch Rear Panel

Management port


- 4 8 V

2 . 0 A M a x

Grounding lug



DC power socket

SH_026_rear_X450a-24tdc

Summit X450a-24x Switch

The front panel of the Summit X450a-24x switch (

Figure 35

) includes:

● Twenty fixed 1000BASE-X ports (ports 1-20) that provide 20 Gbps of high-density fiber (SFP) connectivity

●

●

●

●






.




48


Figure 35: Summit X450a-24x Switch Front Panel

Combination ports

MGMT

FAN

PSU-1

PSU-E

Solid ON = Link

Blinking = Activity

10G

1

2

Stack

1

2

STACK NO.

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

21X

22X

23X

24X


Console port

SH_033B

●

●

●

The rear panel of the Summit X450a-24x switch ( Figure 36

) includes:


■

■








●

Redundant power input connector for optional connection to an external redundant power supply, either the EPS-LD External Power Supply Unit (Model No. 45019) or the EPS-500 External Power

Supply (Model 10911). The connecting redundant power supply cable is shipped with the external power supply.

For more information about the external power supplies, see


.



Figure 36: Summit X450a-24x Switch Rear Panel

Management port




Power socket

SH_031


Summit X450a-24xDC Switch

The front panel of the Summit X450a-24xDC switch (


● Twenty fixed autosensing 1000BASE-X ports (ports 1-20) that provide 20 Gbps of high-density fiber

(SFP) connectivity

●

●

●

●

Four combination ports (ports 21-24). using RJ-45 connectors and SFPs to provide 4 Gbps of copper or fiber connectivity





.



Figure 37: Summit X450a-24xDC Switch Front Panel

Shared ports

MGMT

FAN

PSU-1

PSU-E

Solid ON = Link

Blinking = Activity

10G

1

2

Stack

1

2

STACK NO.

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

21X

22X

23X

24X


Console port

SH_034A

The rear panel of the Summit X450a-24xDC switch (

Figure 38

) includes:

● Slot for one of the following Summit option cards

■

■






●

●

●

●

●




(Model No. 10909). The connecting redundant power supply cable is shipped with the EPS-150DC unit.

See


for more information.


The power supply operates from -36 V DC to -72 V DC.

Grounding lug


50


NOTE



Figure 38: Summit X450a-24xDC Switch Rear Panel

Management port


- 4 8 V

2 . 5 A M a x

Grounding lug



DC power socket

SH_032_X450a-24xdc

Summit X450a-48t Switch

The front panel of the Summit X450a-48t switch (

Figure 39

) includes:

● Forty-four fixed autosensing 10/100/1000 BASE-T ports (ports 1-44) that provide 44 Gbps of high-density copper connectivity

●

●

●

●

Four combination ports (ports 45-48) using RJ-45 connectors and SFPs to provide 4 Gbps of fiber or copper connectivity





.



Figure 39: Summit X450a-48t Switch Front Panel

Combination ports

MGMT

FAN

PSU-1

PSU-E

Stack 10G

1 1

2 2

STACK NO.

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 45X 46X 47X 48X

Band On = Link

Blinking = Activity

Shared Ports

SH_016C


The rear panel of the Summit X450a-48t switch (

Figure 40

) includes:

● Slot for one of the following Summit option cards

■

■






●

●

●

●



Redundant power input connector for optional connection to the EPS-500 External Power Supply

Unit (Model No. 10911). The connecting redundant power supply cable is shipped with the EPS-500 power supply.

See





Figure 40: Summit X450a-48t Switch Rear Panel

Management port




Power socket

SH_029

Summit X450a-48tDC Switch

The front panel of the Summit X450a-48tDC switch (


● Forty-four fixed autosensing 10/100/1000 BASE-T ports (ports 1-44) that provide 44 Gbps of high-density copper connectivity

● Four combination ports (ports 45-48) using RJ-45 connectors and SFPs


●

●

●




.




52


Figure 41: Summit X450a-48tDC Switch Front Panel


Combination ports

MGMT

FAN

PSU-1

PSU-E

Stack 10G

1 1

2 2

STACK NO.

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 45X 46X 47X 48X

Band On = Link

Blinking = Activity

Shared Ports

SH_016D

The rear panel of the Summit X450a-48tDC switch (

Figure 40

) includes:


■ Summit XGM2-2xn option card, which allows you to add up to two 10-Gigabit XENPAK modules

■ Summit XGM2-2xf option card, which allows you to add up to two 10-Gigabit XFP modules

●

For information regarding these compatible Summit option cards, see

“Summit XGM2-2xn Option

Card” on page 145 or

“Summit XGM2-2xf Option Card” on page 146

.


●

●



(Model No. 10909). The connecting redundant power supply cable is shipped with the EPS-150DC unit.

See



●

●


The power supply operates from -36 V DC to -72 V DC.

Grounding lug

NOTE



Figure 42: Summit X450a-48tDC Switch Rear Panel

Management port


- 4 8 V

4 . 5 A M a x

Grounding lug



DC power socket

SH_034brear48t



The Summit X450e series switches are 24-port or 48-port PoE-capable switches. The Ethernet ports are implemented as fixed 10/100/1000BASE-T RJ-45 ports. These switches are available only with AC internal power supplies.

The Summit X450e series of switches consists of the following switches:

●


●




Figure 43

) includes:

● Twenty fixed autosensing 10/100/1000 BASE-T PoE ports (ports 1-20) that provide high-density copper connectivity and a full 15.4 Watts of PoE per port

● Four combination ports (ports 21-24) using RJ-45 connectors and SFPs to provide 4 Gbps of copper or fiber connectivity


NOTE

All 24 ports can provide PoE power.

●

●

● LEDs to indicate port status and switch operating conditions.



.




10/100/1000 Mbps PoE ports

Console port

MGMT

FAN

PSU-1

PSU-E

PORTS 1 -24

POWERED (AMBER) ON=LINK NO POWER (GREEN) ON=LINK

FLASHING=ACTIVITY

OFF=NO LINK/DISABLED

ALTERNATE AMBER/GREEN=PWR FAULT

FLASHING=ACTIVITY

OFF=NO LINK/DISABLED

10G

1

2

Stack

1

2

STACK NO.

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 21X 22X 23X 24X

Shared Ports


SH_015B



■

■







54


●

●

●

●



Redundant power input connector for optional connection to an external redundant power supply with full PoE power support, either the EPS-LD External Power Supply Unit (Model 45019) or the

EPS-500 External Power Supply (Model 10911). The connecting redundant power supply cable is shipped with the power supply.

See






Management port




Power socket

SH_027



Figure 45

) includes:

● Forty-four fixed autosensing 10/100/1000 BASE-T PoE ports (ports 1-44) that provide high-density copper connectivity and a full 15.4 Watts of PoE per port when used with the EPS-C/EPS-600LS

● Four combination ports (ports 45-48) using RJ-45 connectors and SFPs to provide 4 Gbps of copper or fiber connectivity


NOTE

All 48 ports are capable of providing PoE power

●

●

● LEDs to indicate port status and switch operating conditions.



.





Combination ports

Stack 10G

1 1

2 2

MGMT

FAN

PSU-1

PSU-E

STACK NO.

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 45X

46X

47X

48X

Solid ON = Link

Blinking = Activity

Shared Ports



Console port

SH_030B



●

●

■

■








●

●

Redundant power input connector for optional connection to the EPS-C chassis (Model No. 10912).

This chassis can hold up to three EPS-600LS External Power Modules (Model No. 10913). The connecting redundant power supply cable is shipped with the EPS-C chassis.

The PoE capability of the Summit X450e-48p switch varies depending on the number of external

power modules in use. For more information, see “Summit X450e-48p Power Supplies” on page 55

and

“EPS-600LS External Power Module” on page 66 .




Management port




Power socket

SH_033

Summit X450e-48p Power Supplies

The Summit X450e-48p switch is powered by both an internal power supply and an optional external redundant power supply system.


56


Internal Power Supply. The internal Summit X450e-48p power supply is capable of 370 W of PoE power:

15.4 W supplied to each port for a 24-port configuration and 7.7 W supplied to each port for a 48-port configuration or any combination of ports where total PoE power does not exceed 370 watts. If the total system demands exceed this power limit, you can specify:

●

●

Port priorities to identify which ports should be ranked higher when allocating power

Port disconnect precedence to specify the method of shutting off ports when not enough PoE power is available

NOTE

A full discussion of these concepts is in the ExtremeXOS 12.0 Concepts Guide, Power over Ethernet section.

External Power Supplies. The Summit X450e-48p switch can be powered by one, two, or three external power modules through the redundant power input connector on the rear of the switch.

The EPS-C (External Power Supply Chassis) is shipped with the redundant power supply cable that connects to the redundant input connector on the rear of the switch. The EPS-C chassis can hold from one to three 600-Watt EPS-600LS (External Power Module) units.

The PoE capability of the Summit X450e-48p switch varies depending on the number of external power modules in use.

Table 10 summarizes the PoE power behavior for the Summit X450e-48p switch based

on the number of power supply modules in use.

Table 10: Number of External PSUs and Corresponding PoE Behavior

Internal PSU

Status

Internal PSU:

Power On

Internal PSU:

Power Failure

EPS-600LS (1x)



EPS-600LS (2x)


Internal PSU disabled


EPS-600LS (3x)







No PoE power

For more information, see “EPS-600LS External Power Module” on page 66

.


Summit X450, X450a, and X450e Series Switch LEDs

Table 11

describes the LEDs for the Summit X450, X450a, and X450e switches.

Table 11: LEDs on the Summit X450, X450a, and X450e Switches

Label or Type

Front Panel

MGMT

FAN

PSU-I


PSU-E


Ethernet Ports

1 – 24 or 1 – 48 (21 –24 and

45 – 48 are shared ports)

Stack Number Indicator

Color/State


Steady green


Blinking amber

Off

Steady green

Blinking amber

Off

Steady green

Blinking amber

Off

Steady green

Blinking amber

Off

Steady green

Blinking green

Off

Top half of number blinking

Lower half of number blinking

Number lights steadily

Meaning

Power-on self-test (POST) in progress.


Normal operation

Switch diagnostics running.

or



Normal operation

Failure

No power

Normal operation

Failure

No power

Normal operation

Failure


Link OK

Activity

Link is not present or port is disabled.

This switch is the stack master.

This switch is the stack backup.

LED dark

This switch is a standby node (neither the master nor the backup).

This stackable switch is not in stacking mode.

Additional Port LED meanings for PoE switches: Summit X450e-24p & Summit X450e-48p

All front-panel ports Steady amber Port is powered with link, no traffic

Blinking amber

Slow blinking amber

Port is powered with link, traffic

Port is powered, with no link


Off

Port is faulted

Port is not powered, no link or disabled

Rear Panel

Management Port Steady green

Blinking green

Link OK

Activity


58


Table 11: LEDs on the Summit X450, X450a, and X450e Switches (Continued)

Label or Type

Stacking Port

SFP 1G Port

XENPAK 10G Port

Color/State

Steady green

Blinking green

Steady green

Blinking green

Steady green

Blinking green

Off

Meaning

Link OK

Activity

Link OK

Activity

Link OK

Activity

Link down


The Summit X650 series switches provide 24 front-panel Ethernet ports that deliver 10-Gigabit Ethernet connectivity using fixed 10GBASE-T RJ-45 ports or installable SFP+ optical modules.

The Summit X650 series switches include two base models:

● Summit X650-24t switch

● Summit X650-24x switch

The rear panel of the switch requires an installed option card called a versatile interface module or VIM.

The available types of VIM are:

●

●

VIM1-SummitStack versatile interface module

VIM1-10G8X versatile interface module

NOTE

VIMs are not hot-swappable. You must power off the switch before you remove or install a VIM.

A serial console port on the front panel of the Summit X650 series switch allows you to connect a terminal and perform local management. An Ethernet management port can be used to connect the system to a parallel management network for administration. Alternatively, you can use an Ethernet cable to connect this port directly to a laptop to view and locally manage the switch configurations. The

Ethernet management port supports 10/100/1000 Mbps speeds. A USB port on the front panel will be supported in a future release.

The rear panel of the switch has a replaceable versatile interface module (VIM) that provides two

40-Gigabit stacking ports and either four 1-gigabit SFP ports or eight 10-gigabit SFP+ ports. Cooling is provided by a replaceable fan module. Two power supply bays accommodate either AC or DC power supplies.




● Twenty-four fixed autosensing 1000/10000 BASE-T ports (ports 1-24) that provide high-density copper connectivity

●

●

●

●

10/100/1000 Mbps management port

Console port

LEDs


Figure 47: Summit X650-24t Front Panel

LEDs Console port




● Installed virtual interface module (VIM) (VIM1-SummitStack shown)

●

●

Replaceable fan tray

Two power supply bays for either AC or DC power supplies

Figure 48: Summit X650-24t Rear Panel

Versatile interface module (VIM) Fan tray

Two power supply

(PSU) slots

SH_075

SH_077


60


Summit X650-24x Switch

The front panel of the Summit X450-24x switch ( Figure 49 ) includes:

● Twenty-four ports that can use 10GBASE-X SFP+ optical modules. (Ports 1-24 can also be populated with 1000BASE-X SFP modules.)

●

●

●

●

For information about supported optical modules, see the latest version of the ExtremeXOS release notes.


Console port

LEDs


Figure 49: Summit X650-24x Front Panel

LEDs SFP+ ports Console port


10/100/1000 management port

The rear panel of the Summit X650-24x switch (


● Installed virtual interface module (VIM) (VIM1-SummitStack shown)

●

●

Replaceable fan tray

Two power supply bays for either AC or DC power supplies

Figure 50: Summit X650-24x Rear Panel

Versatile interface module (VIM) Fan tray

Two power supply

(PSU) slots

SH_076

SH_077


VIM1-SummitStack Versatile Interface Module

The VIM1-SummitStack versatile interface module (

Figure 51

) provides four cages for installed SFP optical modules. These ports (numbered 25 through 28) function the same as the front-panel ports. The

VIM1-SummitStack supports 1000-BASE SFPs. For a complete list of supported SFPs, refer to the most recent version of the ExtremeEXOS release notes.

The VIM1-SummitStack also provides two high-performance stacking ports that allow you to combine multiple units into a single SummitStack management entity. The VIM1-SummitStack is the default

VIM1 module shipped with the base Summit X650 platform. Ports 23 and 24 of the front panel are shared with the two rear-panel stacking ports on the VIM1-SummitStack module.

By default, stacking is not enabled, and all 24 front panel ports are available. When stacking is enabled, you have access to 22 10GBASE ports and 2 stacking ports. For more information about configuring and operating a SummitStack configuration, refer to the ExtremeXOS Concepts Guide and the ExtremeXOS

Command Reference Guide .

Figure 51: VIM1-SummitStack Versatile Interface Module

SFP ports

LEDs Stacking ports

SH_086

VIM1-10G8X Versatile Interface Module

The VIM1-10G8X versatile interface module (

Figure 52

) provides eight cages for installed SFP or SFP+ optical modules. For information about the supported optical modules, refer to the most recent version of the ExtremeXOS release notes.

The VIM1-10G8X also provides two high-performance stacking ports that allow you to combine multiple units into a single SummitStack management entity. The stacking ports on the VIM1-10G8X module are not shared with the front panel ports.

Figure 52: VIM1-10G8X Versatile Interface Module

SFP/SFP+ ports

25 27

25

26 28

30 31

30 32

LEDs

29

26 27 28

30 31 32

Stacking ports

SH_087


62



Table 12 describes the LEDs on the Summit X650 series switches.


Label or Type

Front Panel LEDs

MGMT

Color/State

Blinking Green

Blinking Amber

Meaning

FAN

PSU-1

Off

Steady Green

Blinking Amber

Off

Steady Green

Blinking Amber

Off

PSU-2 Steady Green

Blinking Amber

Off

Steady green Stack 1 – 4

2-digit Stack number Indicator

Blinking green

Left digit (1) Blinking

Normal operation

Power-on self test (POST) failed; diagnostic test in progress


Normal operation

Failure

No power

Normal operation

Failure

No power

Normal operation

Failure

No power

Link OK on the indicated stack port.

Activity on the indicated stack port.

Right digit (1 – 8)

Ethernet Ports

1 – 24

Management Port

Off

Upper half blinking

Lower half blinking

Lit steadily

Steady Green

Blinking Green

Steady Green

Blinking Green

This switch is the stack master node (see description of right digit).

This switch is the stack backup node.

Indicates the position of this switch in the

SummitStack configuration.

This switch is the stack master node.

This switch is the stack backup node.

This switch is a standby node in the stack.

Link OK

Activity

Link OK

Activity

Back Panel

Stacking Port LED

SFP/SFP+ port LED

Power supply LED

Steady Green

Blinking Green

Steady Green

Blinking Green

Blinking Green

Steady Green

Blinking Red

Steady Red

Link OK

Activity

Link OK

Activity

AC in; no output

Normal operation

Output error

Critical error


2

Summit Power Supplies

This chapter describes Extreme Networks power supplies available for use with the Summit family switches. The Summit X650 series switches have replaceable power supplies; redundant external power supplies are available for the other Summit series.

This chapter includes the following sections:

●

Overview on page 63

●

●

EPS-160 External Power Module (with EPS-T) on page 64

EPS-LD External Power Supply Unit on page 65

●

●

●

●

EPS-500 External Power Supply Unit on page 65

EPS-150DC External Power Module (with EPS-T2) on page 66

EPS-600LS External Power Module on page 66

Summit X650 Power Supplies on page 69

Overview

Summit family switches are shipped with an internal power supply (replaceable on the Summit X650 series switches) that supplies all of the power needed for most switch operation. An optional redundant power supply can be added to most Summit models to protect against a power supply failure and to provide increased support for PoE operation on applicable switches.

Table 13 lists the Summit family switches and compatible external power supplies.

Table 13: Summit Switch and EPS Compatibility

Compatible EPS Switch Model


Summit X450-24t EPS-160 External Power Module with EPS-T

Model Number

Summit X450-24x EPS-160 External Power Module with EPS-T

EPS-500 External Power Supply Unit

EPS-160: 10907

EPS-

T: 10906

EPS-160: 10907

EPS-

T: 10906

10911


Summit X450a-24t

Summit X450a-24tDC

Summit X450a-24x

Summit X450a-24xDC

EPS-LD External Power Supply Unit 45019

EPS-500 External Power Supply Unit 10911

EPS-150DC External Power Module with EPS-T2 EPS-150DC: 10909

EPS-T2: 10910

EPS-LD External Power Supply Unit


45019

10911

EPS-150DC External Power Module with EPS-T2 EPS-150DC: 10909

EPS-T2: 10910



Table 13: Summit Switch and EPS Compatibility (Continued)

Switch Model

Summit X450a-48t


Summit X450e-24p

Compatible EPS


Summit X450e-48p

EPS-LD External Power Supply Unit


EPS-600LS External Power Module with

EPS C Chassis


Summit X250e-24t EPS-160 External Power Module with EPS-T

Summit X250e-24p

Summit X250e-24x

Summit X250e-48t

Summit X250e-48p


EPS-160 External Power Module with EPS-T


EPS-600LS External Power Module with

EPS C chassis


Summit X150-24t EPS-160 External Power Module with EPS-T

Summit X150-24x

Summit X150-24p

Summit X150-48t




Summit X650 Series Switches N/A

Model Number

10911

45019

10911

EPS-600LS: 10913

EPS-C: 10912

EPS-160: 10907

EPS-

T: 10906

10911

EPS-160: 10907

EPS-

T: 10906

EPS-160: 10907

EPS-

T: 10906

EPS-600LS: 10913

EPS-C: 10912

EPS-160: 10907

EPS-

T: 10906

EPS-160: 10907

EPS-

T: 10906

10911

EPS-160: 10907

EPS-

T: 10906

64

NOTE

The Summit switches listed in each section of this chapter run ExtremeXOS software. For information about compatible switches running ExtremeWare, refer to the Consolidated “i” and “e” Hardware Installation Guide .

EPS-160 External Power Module (with EPS-T)

The EPS-160 External Power Module (Model 10907) is a modular power supply for use with the EPS-T chassis. You can use the EPS-160 as a redundant power supply with the following Extreme Networks switches:

●

●

Summit X150-24t switch

Summit X150-24x switch

●

●

●

●


Summit X250e-24t switch

Summit X250e-24x switch



●

●



The EPS-T is a rack-mountable chassis or tray that holds one or two EPS-160 power supplies. Each EPS-

160 power supply provides one-to-one redundancy for an attached Extreme Networks switch.

You can order the EPS-T chassis with one or two EPS-160 power supplies already installed. You can also order an additional power supply from your Extreme Networks reseller.

NOTE

Each EPS-160 power supply is shipped with an AC cord for use in North America and a special redundant power

supply cord ( Figure 53 )

.

Figure 53: Redundant Power Cord Connector

ES4K027

EPS-LD External Power Supply Unit

You can use the Extreme Networks EPS-LD External Power Supply Unit (Model 45019) as a redundant power supply with the following Extreme Networks switches:

●

●

Summit X450a-24t switch

Summit X450e-24p switch

When attached to the Summit X450e-24p, the EPS-LD provides 465 W total power with 375 W dedicated for PoE applications.

EPS-500 External Power Supply Unit

●

●

●

●

●

●

The Extreme Networks EPS-500 External Power Supply Unit (Model 10911) provides additional power to compatible Power over Ethernet (PoE) switches and other Extreme switches. You can use the EPS-500 power supply as a redundant power supply with the following Extreme Networks switches:

Summit X150-24p switch





Summit X450a-24x switch


66


●

●


Summit X450e 24p switch

The EPS-500 power supply provides up to 500 W of total power and up to 375 W of power dedicated to

PoE applications. When this power supply is used one of the listed Summit switches, the internal and external power supplies are fully fault tolerant and load-sharing. If one power supply fails, the other power supply will provide sufficient power to operate the switch.

EPS-150DC External Power Module (with EPS-T2)

The EPS-150DC External Power Module (Model 10909) is a modular power supply for use in the EPS-T2

External Power System Tray. You can use the EPS-150DC as a redundant power supply with the following Extreme Networks switches:

●

●

Summit X250e-24tDC switch

Summit X250e-24xDC switch

●

●

●

●


Summit X450a-24tDC switch

Summit X450a-24xDC switch


When this power supply is used one of the listed Summit switches, the internal and external power supplies are fully fault tolerant and load-sharing. If one power supply fails, the other power supply will provide sufficient power to operate the switch.

The EPS-T2 is a rack-mountable chassis or tray that holds one or two EPS-150DC power supplies. Each

EPS-150DC provides one-to-one redundancy to an attached Extreme switch. You must install the EPS-

150DC power supply in the EPS-T2 tray.

NOTE

For centralized DC power connection, this product is intended to be installed in restricted access locations

(dedicated equipment rooms, equipment closets, or the like) in accordance with Articles 110-16, 110-17, and 110-

18 of the National Electric Code, ANSI/NFPA 70.

EPS-600LS External Power Module

The EPS-600LS External Power Module (Model 10913) is a 600-watt redundant power supply unit that can be used with the following Extreme Networks switches:

●

●



NOTE

Each EPS-600LS power module is shipped with an AC cord for use in North America, and each EPS-C chassis is shipped with a special redundant power supply cord for connection to the Summit switch. Make sure that the EPS-C chassis is installed in the rack system before installing an EPS-600LS unit.


PoE Redundant Power Configurations

You install one, two, or three EPS-600LS power modules in the EPS-C chassis (Model 10912) to build an external redundant power system for the Summit switch. A redundant power cable shipped with the

EPS-C chassis provides the connection between the external power system and the redundant power input connector on the back of the switch.

The PoE capability of the Summit X450e-48p or X250e-48p varies depending on the number of external

power modules in use. Table 14

summarizes the PoE power behavior for the Summit X450e-48p or

X250e-48p switch based on the number of power modules in use.

Table 14: External Power Modules and Corresponding PoE Behavior

Internal PSU

Status

Internal PSU:

Power On

Internal PSU:

Power Failure

EPS-600LS (1x)



EPS-600LS (2x)




EPS-600LS (3x)

740 W of external power only with 2 + 1 redundancy


740 W of external power only with 2 + 1 redundancy




No PoE power

Single 600-LS Module Configuration: Redundant PoE Power

A single EPS-600LS power module provides redundant PoE power capability with the same 370-watt capacity as the internal power supply. The internal Summit X450e-48p or X250e-48p power supply is capable of 370 W of PoE power: 15.4 W supplied to each port for a 24-port configuration and 7.7 W supplied to each port for a 48-port configuration.

●

●

If the internal power supply fails, the external power module will provide power to PoE devices at the same power levels as the internal power supply without any power interruptions.

If the EPS-600LS power module fails or is removed, the internal power supply continues to provide

PoE power without any power interruptions.

Dual 600-LS Module Configuration: Full Power

Two EPS-600LS power modules provide full power at 740 W, which allows 15.4 W of PoE power to all

48 ports. In this full-power configuration, the internal power supply is disabled, and therefore redundant power is not available.

Triple 600-LS Module Configuration: Full Redundant Power

Three EPS-600LS power modules provide the full 740 W of power for 15.4 W of PoE power to all 48 ports. In addition, this configuration provides 2:1 redundancy. Should one of the EPS-600LS power modules fail, the third power module continues to provide uninterrupted full PoE power. The internal power supply is disabled in this configuration.


68


Internal-to-External PSU Transfer

This section describes the conditions that would cause the Summit X450e-48p or X250e-48p switch to draw power from the external power unit.

Internal PSU Failure with Single EPS-600LS Module. When an EPS-C with a single EPS-600LS is connected to the Summit X450e-48p or X250e-48p switch and the internal PSU fails, power is drawn from the EPS-

600LS without power interruption to the PoE connected devices.

Two or Three EPS-600LS Modules. When the Summit X450e-48p or X250e-48p switch detects that an EPS-

C is connected and providing stable power from two or three EPS-600LS power modules, the PoE power budget is automatically recalculated to enable 740 W of PoE power. The internal PSU is disabled to prevent damage from excessive current demands beyond the internal PSU's capabilities.

External-to-Internal PSU Transfer

This section describes the conditions where power from an external power module either fails or is disconnected.

Active Internal PSU with Single 600-LS Module Failure. When an EPS-C configured with a single EPS-

600LS module is connected to the Summit X450e-48p or X250e-48p switch and the EPS-600LS fails or is disconnected, power is drawn from the internal PSU without power interruption to the PoE connected devices.

Inactive Internal PSU with a Dual EPS-600LS Configuration and Module Failure. This section describes the

PoE behavior when an EPS-C chassis configured with two EPS-600LS modules is connected to the

Summit X450e-48p or X250e-48p switch and one or both EPS-600LS modules fail or are disconnected.

It is possible for one external power module to fail while the second power module continues to function. If one EPS-600LS fails, the PoE power budget is automatically reduced to 370 W for the

Summit X450e-48p or X250e-48p switch. PoE port power management occurs as described in the

ExtremeXOS 12.0 Concepts Guide , Power over Ethernet section. With only a single operating power module, the remaining EPS-600LS behaves as a redundant power module. The internal PSU is returned to an active state to provide redundant capability.

If both external power modules fail or are disconnected, PoE power is interrupted while transferring

PoE power back to the internal PSU. The internal PSU is then limited to 370 W of PoE power. The PoE power budget is automatically adjusted accordingly. Power management will occur as described in the

ExtremeXOS 12.0 Concepts Guide , Power over Ethernet section.

Disconnecting the EPS-C/EPS-600LS. To manually disconnect an EPS-C or to remove the EPS-600LS modules, the recommended practice is to disconnect the EPS-600LS modules one at a time, pausing two seconds between each EPS-600LS disconnect. This enables a graceful power transition from the external

PSUs to the internal PSU.


Example: Two active EPS-600LS modules in an EPS-C a Unplug one EPS-600LS unit from its power source.

PoE power is automatically reduced to 370 watts and the internal PSU is enabled providing redundant 370 watt PoE power.

b Wait at least two seconds before disconnecting the remaining EPS-600LS unit.

c Unplug the second EPS-600LS unit from its power source.

The internal PSU is already enabled and provides uninterrupted 370 watts of PoE power.

NOTE

After an EPS-600LS unit is disconnected from its power source, it may be removed from the EPS-C. See

“Removing an EPS-600LS Power Module” on page 141 for complete disconnect and removal details.

d Disconnect the EPS-C from the switch.

Summit X650 Power Supplies

The Summit X650 series switches can be powered by either of the following power supplies:

● Summit X650 AC PSU (Model 10914)

● Summit X650 DC PSU (Model 10915)

Either power supply provides 850 W of power to the switch.

The Summit X650 series switches accommodate one or two Summit X650 PSUs. In a redundant power configuration, both power supplies are fully fault-tolerant and load-sharing. You can remove one power supply without interrupting switch operation.

NOTE

Extreme Networks does not recommended using the Summit X650 DC PSU in combination with a Summit X650 AC

PSU in the same Summit X650 series switch.




2

Installing the Hardware

3

Site Preparation

This chapter includes the following sections:

●

Planning Your Site on page 73

●

●

Meeting Site Requirements on page 74

Evaluating and Meeting Cable Requirements on page 78

●

●

Meeting Power Requirements on page 83

Applicable Industry Standards on page 86

By carefully planning your site, you can maximize the performance of your existing network and ensure that it is ready to migrate to future networking technologies.

The information in this chapter is intended for the system administrator, network equipment technician, network manager, or facilities manager responsible for installing and managing the network hardware.

The chapter assumes a working knowledge of local area network (LAN) operations, and a familiarity with communications protocols that are used on interconnected LANs.

Installation, maintenance, and removal of a switch, chassis, or its components must be done by qualified service personnel only. Qualified service personnel have had appropriate technical training and experience that is necessary to be aware of the hazards to which they are exposed when performing a task and of measures to minimize the danger to themselves or other people.

NOTE

Before installing or removing any components of the system, or before carrying out any maintenance procedures, you must read the safety information provided in

Appendix A of this guide.

Planning Your Site

To install your equipment successfully, you should plan your site carefully. The site planning process has three major parts:

● Meeting site requirements

The physical installation site must meet the following requirements for a safe and successful installation:

■

■

Building and electrical code requirements

Environmental, safety, and thermal requirements for the equipment you plan to install

●

■ Equipment rack requirements

Evaluating and meeting cable requirements

After examining your physical site and verifying that all environment requirements are met, evaluate and compare your existing cable plant with the requirements of the Extreme Networks equipment to determine if you need to install new cables.


74


● Meeting power requirements

To run your equipment safely, you must meet the specific power requirements for each switch and external power supply unit installed in the system. For power specifications of the switches, see the

specific switch listings in Appendix B, “Technical Specifications.” For power specifications of the

external power supplies, see

“Summit External Power Supplies” on page 199 .

Meeting Site Requirements

This section requirements to consider when preparing your installation site, including:

●

Operating Environment Requirements

●

Rack Specifications and Recommendations

Operating Environment Requirements

Verify that your site meets all environmental and safety requirements.

Virtually all areas of the United States are regulated by building codes and standards. During the early planning stages of installing or modifying your LAN, it is important that you develop a thorough understanding of the regulations that pertain to your location and industry.

Building and Electrical Codes

Building and electrical codes vary depending on your location. Comply with all code specifications when planning your site and installing cable. The following sections are provided as a resource to obtain additional information.

Information about major building codes is located at the following websites:

● International Code Council (ICC); 5203 Leesburg Pike; Falls Church, Virginia 22041 USA.

http://www.iccsafe.org

http://www.sbcci.org

Five authorities on electrical codes are:

● National Electrical Code (NEC) Classification (USA only)—a recognized authority on safe electrical wiring. Federal, state, and local governments use NEC standards to establish their own laws, ordinances, and codes on wiring specifications. The NEC classification is published by the National

Fire Protection Association (NFPA). The address is NFPA; 1 Batterymarch Park; Quincy,

Massachusetts 02169 USA. http://www.nfpa.org

●

●

●

Underwriters’ Laboratory (UL) (USA only)—an independent research and testing laboratory. UL evaluates the performance and capability of electrical wiring and equipment to determine whether they meet certain safety standards when properly used. Acceptance is usually indicated by the words “UL Approved” or “UL Listed.” The address is UL; 333 Pfingsten Road; Northbrook, Illinois

60062-2096 USA. http://www.ul.com

National Electrical Manufacturing Association (NEMA) (USA only)—an organization of electrical product manufacturers. Members develop consensus standards for cables, wiring, and electrical components. The address is NEMA; 1300 N. 17th Street; Rosslyn, Virginia 22209. http://www.nema.org

Electronics Industries Alliance (EIA)—a trade association that develops technical standards, disseminates marketing data, and maintains contact with government agencies in matters relating to


● the electronics industry. The address is EIA; 2500 Wilson Boulevard; Arlington, Virginia 22201 USA. http://www.eia.org

Federal Communications Commission (FCC) (USA only)—a commission that regulates all interstate and foreign electrical communication systems that originate in the United States according to the

Communications Act of 1934. The FCC regulates all U.S. telephone and cable systems. The address is

FCC; 445 12th Street S.W.; Washington, D.C. 20554 USA. http://www.fcc.gov

Wiring Closet Considerations

Be aware of the following recommendations for your wiring closet:

●

●

Be sure that your system is easily accessible for installation and service. See “Rack Specifications and

Recommendations” on page 76 for information.

Use appropriate AC or DC power, power distribution, and grounding for your specific installation.

●

●

Use a vinyl floor covering in your wiring closet. (Concrete floors accumulate dust, and carpets can cause static electricity.)

Prevent unauthorized access to wiring closets by providing door locks. Install the equipment in a secured, enclosed, and restricted access location, ensuring that only qualified service personnel have access to the equipment.

●

●

●

Provide adequate overhead lighting for easy maintenance.

Be sure that each wiring closet has a suitable ground. All equipment racks and equipment installed in the closet should be grounded.

Be sure that all system environmental requirements are met, such as ambient temperature and humidity.

NOTE

Extreme Networks recommends that you consult an electrical contractor for commercial building and wiring specifications.

Temperature

Extreme Networks equipment generates a significant amount of heat. It is essential that you provide a temperature-controlled environment for both performance and safety.

Install the equipment only in a temperature- and humidity-controlled indoor area that is free of airborne materials that can conduct electricity. Too much humidity can cause a fire. Too little humidity can produce electrical shock and fire.

Follow these general thermal recommendations for your wiring closet:

●

●

Be sure that the ventilation in the wiring closet is adequate to maintain a temperature below 104° F

(40° C).

Install a reliable air conditioning and ventilation system.

●

●

●

Keep the ventilation in the wiring closet running during non-business hours; otherwise, the equipment can overheat.

Maintain an ambient operating temperature of 32° to 104° F (0° to 40° C).

Maintain a storage temperature of -40° to 158° F (-40° to 70° C).


76


NOTE

As with all electrical equipment, Extreme Networks product lifetimes degrade with increased temperature. If possible, temperatures should be kept at approximately 78 ° F (25 ° C) or lower.

Humidity

To maximize equipment life, keep operating humidity between 50% and 70% relative humidity (noncondensing) during typical operation. The equipment can operate between 10% and 95% relative humidity (non-condensing) for short intervals.

Spacing Requirements and Airflow

Be sure that cables and other equipment do not block the air intake or outflow on an Extreme Networks

Summit family switch. It is best to have at least 3 inches (8 cm) of clear space in front of the air intake and outflow vents on the sides of the switch; airflow moves from side to side. For proper airflow through a Summit family switch, leave clear space on the left and right sides of the switch.

Depending on other conditions in the equipment room, it may be possible to install the switches closer to each other; consult your Extreme Networks Customer Support representative for guidance.

Electrostatic Discharge

Your system must be protected from static electricity or electrostatic discharge (ESD). Take the following measures to ensure optimum system performance:

●

●

Remove materials that can cause electrostatic generation (such as synthetic resins) from the wiring closet. Check the appropriateness of floor mats and flooring.

Connect metal chassis, conduit, and other metals to ground using dedicated grounding lines.

● Use electrostatically safe equipment. If you are working with pluggable interface modules, wear an

ESD-preventive wrist strap and connect the metal end to a grounded equipment rack or other source of ground.

Rack Specifications and Recommendations

Racks should conform to conventional standards. In the United States, use EIA Standard RS-310C:

Racks, Panels, and Associated Equipment. In countries other than the United States, use IEC Standard

297. In addition, verify that your rack meets the basic mechanical, space, and earthquake requirements that are described in this section.

Mechanical Recommendations for the Rack

Use equipment racks that meet the following mechanical recommendations:

● Use an open style, 19-inch rack to facilitate easy maintenance and to provide proper ventilation.

●

●

●

Use a rack made of steel or aluminum.

The rack should use the universal mounting rail hole pattern that is identified in IEC Standard 297.

The rack should have designated earth grounding connections (typically on the base).


●

●

●

The rack must meet earthquake safety requirements equal to that of the installed chassis.

The mounting holes should be flush with the rails to accommodate the chassis.

The rack should support approximately 600 pounds (272 kilograms).

Protective Grounding for the Rack

Use a rack grounding kit and a ground conductor that is carried back to earth or to another suitable building ground.

At a minimum, follow these guidelines to ground equipment racks to the earth ground:

● CAD weld appropriate wire terminals to building I-beams or earth ground rods.

● For a Summit DC-powered switch, use a minimum 14 AWG stranded copper wire for grounding.

AC-powered Summit switches do not need separate chassis grounding.

●

●

Position the earth ground as close to the equipment rack as possible to maintain the shortest wiring distance possible.

Use a ground impedance tester or micro-ohm meter to test the quality of earth ground connection at the chassis. This will ensure good grounding between the chassis, rack, and earth ground.

NOTE

Because building codes vary worldwide, Extreme Networks strongly recommends that you consult an electrical contractor to ensure proper equipment grounding for your specific installation.

Space Requirements for the Rack

Provide enough space in front of and behind the switch so that you can service it easily. Allow a minimum of 48 inches (122 cm) in front of the rack and 30 inches (76 cm) behind the rack. When using a relay (two-post) rack, provide a minimum of 24 inches (61 cm) of space behind the mounted equipment.

Extra room on each side is optional.

WARNING!

Extreme Networks switches do not have a switch for turning power to the unit on and off. For systems using an AC power supply, power to the switch is disconnected by removing the wall plug from the electrical outlet.

For DC-powered Summit switches (X450a-24tDC, X450a-24xDC, and X450a-48tDC) and the EPS-150DC power supply, turn off power to the chassis by de-energizing the circuit that feeds the power supply; this is usually accomplished by turning off a circuit breaker. Disconnecting the DC wiring harness from the DC power source requires the performance of a qualified, licensed electrician.

Securing the Rack

The rack should be attached to the wiring closet floor with 3/8-inch (9.5 mm) lag screws or equivalent hardware. The floor under the rack should be level within 3/16-inch (5 mm). Use a floor-leveling cement compound if necessary or bolt the racks to the floor as shown in

Figure 54

.



Figure 54: Properly Secured Rack

78

SPG_009

Brace open equipment racks if the channel thickness is less than 1/4 inch (6.4 mm).

Evaluating and Meeting Cable Requirements

This section addresses requirements for the cable you should use when installing your network equipment. It includes:

●

●

Cabling Standards

Cable Labeling and Record Keeping

●

●

●

Installing Cable

RJ-45 Connector Jackets

Radio Frequency Interference

Cabling Standards

Extreme Networks recommends using the Building Industry Consulting Service International (BICSI)

Registered Communications Distribution Designer (RCDD), which is globally recognized as a standard in site planning and cabling. For information, go to: http://www.bicsi.org

Cable Labeling and Record Keeping

A reliable cable labeling system is essential when planning and installing a network. Maintaining accurate records helps you to:

●

●

Relocate devices easily.

Make changes quickly.

●

●

Isolate faults in the distribution system.

Locate the opposite end of any cable.


● Know the types of network devices that your cabling infrastructure can support.

Follow these guidelines when setting up a cable labeling system suitable for your installation:

● Identify cables by securely attaching labels to all cable ends.

●

●

Assign a unique block of sequential numbers to the group of cables that run between each pair of wiring closets.

Assign a unique identification number to each equipment rack.

●

●

●

Identify all wiring closets by labeling the front panel of your Extreme Networks equipment and other hardware.

Keep accurate and current cable identification records.

Post records near each equipment rack. Include the following cable drop information: the cable source, destination, and jumper location.

Installing Cable

Consider the following recommendations when you connect cable to your network equipment:

● Examine cable for cuts, bends, and nicks.

●

●

Support cable using a cable manager that is mounted above connectors to avoid unnecessary weight on the cable bundles.

Use cable managers to route cable bundles to the left and right of the network equipment to maximize accessibility to the connectors.

●

●

●

●

●

Provide enough slack, approximately 2 to 3 inches (5.08 to 7.62 cm), to provide proper strain relief as shown in

Figure 55

.

Bundle cable using hook-and-loop straps to avoid injuring cables.

If you build your own cable, be sure that connectors are properly crimped.

When installing a patch panel using twisted pair wiring, untwist no more than 1 inch (2.54 cm) of the cable to avoid radio frequency (RF) interference.

Discharge the RJ-45 Ethernet cable before plugging it into a port on the switch.

CAUTION

Unshielded twisted pair (UTP) cable can build up ESD charges when being pulled into a new installation. Before connecting any category 5 UTP cable to the switch, discharge ESD from the cable by plugging the RJ-45 connector into a LAN static discharge device or use an equivalent method.

●

●

Use plenum-rated cable when it is necessary for safety and fire rating requirements. Consult your local building codes to determine when it is appropriate to use plenum-rated cable, or refer to IEC standard 850.

Keep all ports and connectors free of dust.



Figure 55: Properly Installed and Bundled Cable

Cable managers supporting and directing cables

Proper bundling of cables

80

Adequate slack, and bend radius

S PG_008


Fiber Optic Cable

Fiber optic cable must be handled carefully during installation. Every cable has a minimum bend radius, for example, and fibers will be damaged if the cables are bent too sharply. It is also important not to stretch the cable during installation. We recommend that the bend radius for fiber optic cable

equal 2 inches (5.08 cm) minimum for each 90-degree turn as shown in Figure 56 .

NOTE

Kinks and sharp bends can destroy or impair the cable’s ability to convey light pulses accurately from one end of the cable to the other. Use care in dressing the optical fiber cables: provide satisfactory strain relief to support the cable and maintain an adequate bend radius at all cable turns, particularly where the cable connects to the I/O module.

Figure 56: Bend Radius for Fiber Optic Cable

Minimum

2-in. (5.08-cm) radius in 90∞ bend

Optical fiber cable

90∞

S PG_002

Cable Distances

Table 15 shows cable media types and maximum distances that support reliable transmission in

accordance with international standards except where noted.

Table 15: Media Types and Maximum Distances

Standard

1000BASE-SX

(850 nm optical window)

1000BASE-LX


1000BASE-LX70


Media Type

50/125 μm multimode fiber


62.5/125 μm multimode fiber





10/125 μm single-mode fiber

10/125 μm single-mode fiber*

10/125 μm single-mode fiber

500

500

–

–

–

Mhz•Km

Rating

400

500

160

200

400

Maximum Distance

(Meters)

500

550

220

275

550

550

550

5,000

10,000

70,000



Table 15: Media Types and Maximum Distances (Continued)

Standard

1000BASE-T

100BASE-TX

10BASE-T

Media Type

Category 5 and higher UTP cable



Mhz•Km

Rating

–

–

–


(Meters)

100

100

100

* Proprietary to Extreme Networks. Connections between two Extreme Networks 1000BASE-LX interfaces that use 10/125 μm single-mode fiber can use a maximum distance of 10,000 meters.

RJ-45 Connector Jackets

Use RJ-45 cable with connector jackets that are flush with the connector or that have connectors with a no-snag feature.

Using cable with jackets that are wider than the connectors can cause:

● Connectors that are not properly aligned with the port.

● Crowded cable installation, which can cause connectors to pop out of the port.

Figure 57 shows examples of connector jacket types that are not recommended as well as those that are

recommended.

Figure 57: RJ-45 Connector Jacket Types

82

Not recommended

Better

Best

0.1" = 1mm actual

39.37% : 254%

S PG_001


Radio Frequency Interference

If you use UTP cabling in an installation, take precautions to avoid RF interference. RF interference can cause degradation of signal quality, and, in an Ethernet network environment, can cause excessive collisions, loss of link status, or other physical layer problems that can lead to poor performance or loss of communication.

To prevent RF interference, avoid the following situations:

● Attaching UTP cable to AC power cables

●

●

Routing UTP cable near antennas, such as a ham radio antenna

Routing UTP cable near equipment that could exhibit RF interference, such as ARC welding equipment

●

●

●

Routing UTP cable near electrical motors that contain coils

Routing UTP cable near air conditioner units

Routing UTP cable near electrical transformers

In areas or applications where these situations cannot be avoided, use fiber optic cabling or shielded twisted pair cabling (STP).

Meeting Power Requirements

This section describes power requirements, including:

●

PoE Devices

●

●

●

Power Supply Requirements

AC Power Cable Requirements

Uninterruptible Power Supply Requirements

PoE Devices

When connecting power over Ethernet (PoE) devices to a PoE switch, all connections between the PoE device and the switch must remain within the same building and use a low-voltage power distribution system per IEEE 802.3af.

Power Supply Requirements

Follow these recommendations when you plan power supply connections for the Summit family switches:

● Place the equipment in an area that accommodates the power consumption and component heat dissipation specifications.

●

●

Be sure that your power supply meets the site DC power or AC power requirements of the network equipment.

When you connect power to installed equipment, do not make this connection through an extension cord or power strip.


84


●

●

If your switch includes more than one power supply, connect each power supply to a different, independent power source.

If a power source fails, it will affect only the switch power supply to which it is connected. If all switch power supplies are connected to a single power source, the entire switch is vulnerable to a power source failure.

In regions that are susceptible to electrical storms, we recommend that you plug your system into a surge suppressor.

For power specifications for the Summit family switches, see

Appendix B, “Technical Specifications.”

AC Power Cable Requirements

Use an AC power cable appropriate for your country. Check your local electrical codes and regulatory agencies for power cable requirements. The countries listed in

Table 16 have additional requirements as

listed in the table.

Table 16: AC Power Cable Requirements

Country

USA and Canada

Denmark

Switzerland

Argentina

Requirements

• The cable set must be UL approved and CSA certified.

• The minimum specification for the flexible cable is No. 18 AWG (1.5 mm 2 ),

Type SVT or SJT, 3-conductor.

• The cable set must have a rated current capacity of at least the amount rated for each specific product.

• The attachment plug must be either an Earth-grounding type with a NEMA 5-

15P (10 A, 110 V) configuration or a NEMA L6-15P (10 A, 208/240 V)

The supply plug must comply with section 107-2-D1, standard DK2-1a or DK2-5a.

The supply plug must comply with SEV/ASE 1011.

The supply plug must comply with Argentinian standards.

NOTE

When using dual power supplies, make sure that each AC power supply attaches to an independent power source.

Replacing an AC Power Cable

If a power cable plug is unsuitable and must be replaced, connect the power supply wires for the switch according to the following scheme:

●

●

Brown wire to the Live (Line) plug terminal, which may be marked with the letter “L” or colored red.

Blue wire to the Neutral plug terminal, which may be marked with the letter “N” or colored black.

● Yellow/Green wire to the Ground plug terminal, which may be marked with the letter “E” (the

Earth symbol) or colored yellow/green.


Uninterruptible Power Supply Requirements

An uninterruptible power supply (UPS) is a device that sits between a power supply (such as a wall outlet) and a device (such as a switch) to prevent outages, sags, surges, and bad harmonics from adversely affecting the performance of the device.

A UPS traditionally can perform the following functions:

● Absorb relatively small power surges.

●

●

●

Smooth out noisy power sources.

Continue to provide power to equipment during line sags.

Provide power for a period of time after a blackout has occurred.

In addition, some UPS devices or UPS-plus-software combinations provide the following functions:

● Automatically shut down equipment during long power outages.

●

●

Monitor and log power supply status.

Display the voltage (current draw) of the equipment.

●

●

●

●

Restart equipment after a long power outage.

Display the voltage currently on the line.

Provide alarms on certain error conditions.

Provide short-circuit protection.

Selecting a UPS

To determine UPS requirements for your switch, answer these questions:

● What are the amperage requirements?

●

●

●

What is the longest potential time period that the UPS would be required to supply backup power?

Where will the UPS be installed?

What is the maximum transition time that the installation will allow? (See “UPS Transition Time” on page 86

)

NOTE

Extreme Networks recommends that you use a UPS that provides online protection.

Calculating Volt-Amperage Requirements

To determine the size of UPS that you need:

1 Locate the voltage and amperage requirements for each piece of equipment. These numbers are usually located on a sticker on the back or bottom of your equipment. Then multiply the numbers together to get Volt-Amperes (VA):

VA = Volts x Amperes

2 Add the VA from all the pieces of equipment together to find the total VA requirement.

To determine the minimum volt-amperage requirements for your UPS, Extreme Networks recommends that you add 30% to the total.



UPS Transition Time

Transition time is the time that is necessary for the UPS to transfer from utility power to full-load battery power. For Extreme Networks products, a transition time of less than 20 milliseconds is required for optimum performance.

DC Power Requirements

This system should be installed in a DC-I battery return configuration.In a DC-I configuration, the battery return conductor should be connected directly to the central office power return bus, and not to the equipment frame or the grounding means of the equipment.

Applicable Industry Standards

For more information, see the following ANSI/TIA/EIA standards:

● ANSI/TIA/EIA-568-A—discusses the six subsystems of a structured cabling system.

●

●

●

ANSI/TIA/EIA-569-A—discusses design considerations.

ANSI/TIA/EIA-606—discusses cabling system administration.

ANSI/TIA/EIA-607—discusses commercial building grounding and bonding requirements.

You can access these standards at: http://www.ansi.org

or http://www.tiaonline.org


4

Installing Summit Family Switches

This chapter describes the installation process for the Summit family switches and provides information about how to build a SummitStack configuration.

The chapter includes the following topics:

●

Safety Information on page 87

●

●

Building a SummitStack Configuration on page 88

Installing a Summit Family Switch (Models Other than Summit X650 Series) on page 92

●

●

●

●

●

●

Installing and Removing Summit DC-Powered Switches on page 95

Installing a Summit X650 Series Switch on page 100

Installing Summit X650 Power Supplies on page 106

Removing Summit X650 Series Switches on page 113

Connecting Network Interface Cables on page 118

Initial Management Access on page 119

NOTE

Read the information in this chapter thoroughly before you attempt to install or remove a Summit switch.

Safety Information

Only trained service personnel should perform service to Extreme Networks switches and their components. Trained service personnel have read all related installation manuals, have the technical training and experience necessary to be aware of the hazards to which they are exposed in performing a task, and are aware of measures to minimize the danger to themselves or other persons.

NOTE

See

Appendix A, “Safety Information”

for additional safety information and Appendix B, “Technical Specifications”

for additional information regarding regulatory compliance certifications.

CAUTION

Be sure that proper ESD controls are in use before switch maintenance is performed. This includes but is not limited to wrist straps that are grounded to the switch chassis and earth grounds.

WARNING!

Be sure to connect the chassis ground wire before you connect any DC power cables.

Be sure to disconnect the ground wire after you disconnect all DC power cables.



Building a SummitStack Configuration

If you intend to use the SummitStack feature, read this section before installing the set of Summit family switches that will be included in the SummitStack configuration. A stack consists of a group of up to eight Summit switches that are connected together using stacking cables to form a connected ring, as shown in

Figure 58 .

Figure 58: Summit Switches Connected in a SummitStack Configuration

Stack Port 1 Stack Port 2

SummitStack cables

Summit switches



88


BD_165C

The stacking cables are available from Extreme Networks.

Table 17

lists the stacking cables available at this time.

Table 17: Available SummitStack Stacking Cables

Part Number

16106

16107

16108

16105

Description

SummitStack/UniStack cable



SummitStack cable

Length

0.5 meter (1.6 ft)

1.5 meters (4.9 ft)

3 meters (9.8 ft)

5 meters (16.4 ft)

Slot Numbers

Each switch (or node) in the stack is assigned a “slot number” during the initial software configuration of the stack. Starting at the switch with the console connection, numbers are assigned in numerical order following the physical path of the connected stacking cables. For example, if you follow the cabling recommendations presented in

“Connecting the Switches to Form the Stack Ring” on page 89

and configure the stack from the console on the switch at the top of the physical stack, the switches will be assigned numbers 1 through 8 from the top down.

Each Summit switch has a seven-segment LED on its front panel, called the stack number indicator.

When a stack is operating, the indicator displays the slot number for the switch. (This LED does not light on switches that are not operating in stacking mode.) A quick way to verify that the cable connections match the software configuration is to check the stack number indicator on each switch. If the slot numbers do not line up in the order you arranged the switches, this may indicate that the stacking cable setup differs from what you intended when you configured the software. In this case, reconnect the cables in the correct order and perform the software configuration again.


About Redundancy

When your stack is operational, one switch is the primary (or master) switch that is responsible for running network protocols and managing the stack. To provide recovery in case of a break in the stack connections, you can configure redundancy by designating a backup switch to take over as master if the master switch fails. When you perform the initial software configuration of the stack, the “easy setup” configuration option automatically configures redundancy, with slot 1 as the master and slot 2 as the backup. You can also configure additional switches as “master-capable” to become a stack master in case the initial backup switch fails.

In a stack with multiple master-capable switches, it is possible for more than one switch to try become the stack master if the stack is physically severed. Such a dual-master condition would cause confusion and loss of connectivity in your networks. To resolve a dual-master condition, you must be able to log in to each severed stack segment, either over the management network (using the Ethernet management port on a switch in the segment) or through a direct console port connection to each switch in the segment.

Stack configuration, easy setup, and redundancy are fully described in the ExtremeXOS 12.0 Concepts

Guide .

Placing Summit Family Switches for Stacked Operation

This section summarizes the recommended best practices for installing Summit switches for a

SummitStack configuration. For detailed information about how to configure and manage the stack and how a stack operates, refer to the ExtremeXOS 12.0 Concepts Guide .

When you install switches for a SummitStack configuration, follow these recommendations:

● Use the shortest possible stacking cables to connect the switches in the stack; this reduces the likelihood that the stacking cables might be accidentally damaged or disconnected. Stacking cables

are available in lengths from 0.3 meters to 5 meters (see Table 17

).

●

●

When possible, place all switches for the stack in the same rack; this facilitates using shorter stacking cables.

Because the switches will form a ring, make sure that no two switches in the stack are located more than 5 meters apart.

●

●

●

●

For simplicity and ease of connecting the stacking cables, plan to designate the top switch in the physical stack as the stack master. This is the switch through which you will perform the initial stack configuration, using the console port.

Connect the stacking cables in the order and arrangement shown in Table 18 and Table 19 .

On the stack master switch, connect the Ethernet management port to your management network.

To provide management access to the stack in case of a failure in the master switch, connect all switches that will participate in redundancy to your management network using the Ethernet management port on each switch.

Connecting the Switches to Form the Stack Ring

After you have installed the individual Summit switches, connect the switches together using the stacking cables.

Table 18 and Table 19

list the recommended order for connecting the stacking ports in

two sample configurations; Figure 59 and

Figure 60

show the cable connections. Although you can connect them in any order, connecting the switches as shown in these examples will produce better predictability and easier software configuration. Connect Stack Port 2 on one switch to Stack Port 1 on the switch with the next higher slot number.



Table 18: Recommended Order for Stacking Connections (8-Switch Stack)

6

7

8

4

5

2

3

Slot

Number

1

Connect Stack Port 1 on this switch to . . .

Slot 8 Port 2

Slot 1 Port 2

Slot 2 Port 2

Slot 3 Port 2

Slot 4 Port 2

Slot 5 Port 2

Slot 6 Port 2

Slot 7 Port 2


Slot 2 Port 1

Slot 3 Port 1

Slot 4 Port 1

Slot 5 Port 1

Slot 6 Port 1

Slot 7 Port 1

Slot 8 Port 1

Slot 1 Port 1

Figure 59: SummitStack Cable Connections Using Eight Summit Switches

BD_159B

90

Table 19: Recommended Stacking Port Connections (4-Switch Stack)

3

4

Slot

Number

1

2


Slot 4 Port 2

Slot 1 Port 2

Slot 2 Port 2

Slot 3 Port 2


Slot 2 Port 1

Slot 3 Port 1

Slot 4 Port 1

Slot 1 Port 1


Figure 60: SummitStack Cable Connections Using Four Summit Switches

BD_164A

Connecting a Stacking Cable to a Stacking Port

To connect a Summit stacking cable:

1

Align the cable connector with the stacking port connector on the back of the first switch ( Figure 61 ).

2 Firmly press the cable connector into place on the mating stacking port connector.

3 Align and tighten the retaining screws on the cable connector.

Repeat steps

1 through 3 to connect the cable to the second switch.

Figure 61: Connecting a Summit Stacking Cable

ES4K037

CAUTION

Avoid making sharp bends in the cable. Sharp bends can stress the cable and cause damage.


92


Connecting the Console Port

To begin the software configuration for a new stack, you must have at least one console port connected.

Connect a console to the console port of the switch that you intend to become the master of the stack. If you are going to configure redundancy, you may wish to connect to the console ports of all switches in the stack that you will configure to be master-capable. If you followed the cabling examples in

Table 18

and

Table 19 , and you use the easy-setup configuration procedure, only slots 1 and 2 will be allowed to

become master.

Management Port Cabling

Connect the master, backup, and all other master-capable switches to your management network using the Ethernet management port on the rear panel of each switch. If you choose the default redundancy setup, only slots 1 and 2 are allowed to become master. You may connect all switch management ports in the stack if you choose to do so. There is an alternate IP address configuration that will allow you to directly log into an individual switch in the stack through its management port.

Stacking Port LEDs

Each stacking port has an LED. The LED is steady green if the link is OK, blinking green if traffic is present, and off if no signal is present.

Installing a Summit Family Switch (Models Other than

Summit X650 Series)

This section describes how to install the following Summit family switches:

● Summit X150 series

●

●

Summit X250e series

Summit X350 series

●

●

●

Summit X450 series

Summit X450a series

Summit X450e series

For instructions to install the Summit X650 series switches, see “Installing a Summit X650 Series Switch” on page 100 .

A Summit family switch can be mounted in a standard 19-inch (48.26 cm) rack or placed free-standing on a tabletop. The installation process includes the following tasks:

1 Install the switch in a rack or on a table.

2 Ground the switch (DC-powered units only).

3 Connect a redundant power supply (if applicable).

4 Connect power cables.

5 Connect network interface cables.


If you are installing Summit family switches for use in a SummitStack configuration, read “Building a

SummitStack Configuration” on page 88 before you install the switches.

For information about grounding and connecting DC-powered Summit family switches, see “Installing and Removing Summit DC-Powered Switches” on page 95

.

For information about installing and connecting redundant power supplies, see Chapter 5, “Installing

Summit External Power Supplies.”

Rack-Mounting a Summit Switch (Models Other than

Summit X650 Series)

This section describes how to install Summit switches in the following series:

● Summit X150

●

●

Summit X250e

Summit X350

●

●

●

Summit X450

Summit X450a

Summit X450e

To install the switch in a rack, you need the following tools and equipment:

● Mounting brackets (provided)

● Screws (provided) to secure the mounting brackets to the switch

■ Eight M3 screws for Summit X350, X450, X450a, and X450e series switches

●

●

■ Twelve M4 screws for Summit X150 and X250e series switches

Four rack mounting screws

The screw size will vary based on your organization’s rack system; screws are not provided.

Screwdriver for securing the switch to your organization’s rack

The screwdriver size will vary based on the requirements of your organization’s rack system.

To rack-mount a Summit switch:

1 Place the switch upright on a secure work surface.

2 Place a mounting bracket over the mounting holes on one side of the unit.

3

Insert the screws and fully tighten with a suitable screwdriver, as shown in Figure 62 .


94


Figure 62: Attaching the Mounting Bracket

33

34

35

36

37

38

39

40

41

42

43

44

4

5

46

47

4 8

45X

46X

47X

48X

S olid O

Blinki

N = Link ng =

Activity

S h a red

Port s

S450_007

S H_035 b

Summit X350, X450, X450a, and X450e, series

Summit X150 and X250e series

4 Repeat steps

2 and 3

for the other side of the switch.

5 Insert the switch into the rack.

●

●

Take care to load the rack so that it is not top-heavy. Start from the bottom and work up.

Do not cover vents that would restrict airflow. Leave a half-rack space between the units for adequate ventilation.

6 Secure the switch with suitable screws (not provided).

7 Connect the switch to the redundant power supply (if applicable). For instructions on installing and

connecting redundant power supplies, see Chapter 2, “Summit Power Supplies.”

8 Connect the power cables.

●

●

For AC-powered units, connect the power cable to the AC power connector on the back of the switch. Then connect the power cable to an AC power socket.

For information about DC-powered units, see

“Installing and Removing Summit DC-Powered

Switches” on page 95

.

Free-Standing and Desktop Mounting of Multiple Switches

Summit family switches are supplied with four self-adhesive rubber pads. Apply the pads to the underside of each device by placing the pad in the marked area at each corner of the switch, ensuring that all corners aligned. You can safely place up to four Summit family switches on top of one another.

Removing an AC-Powered Summit Switch from a Rack (Models

Other than Summit X650 Series)

To remove an AC-powered Summit switch from a rack:

1 Remove power from the switch.

Unplug the power cables from the from the wall outlets first and then from the switch.

2 Disconnect the Summit switch from the redundant power supply (if applicable).

3 Loosen and remove the four screws holding the switch in place in the system rack.

4 Carefully remove the switch from the rack and place it on a secure, flat surface.


NOTE

For information about DC-powered units, see “Removing a Summit DC-Powered Switch from a Rack” on page 99

.

For information about removing a Summit X650 series switch from a rack, see

“Removing a Summit X650 Series

Switch from a Two-Post Rack” on page 115 .

Installing and Removing Summit DC-Powered Switches

This section provides additional details about installing or removing the following Summit DC-powered switches:

●

●

Summit X250e-24tDC

Summit X250e-24xDC

●

●

●

●

Summit X250e-48tDC

Summit X450a-24tDC

Summit X450a-24xDC

Summit X450a-48tDC

You must adhere to specific safety requirements when you connect or disconnect a DC power source for one of these Summit switches.

NOTE

For centralized DC power connection, these products are intended to be installed in Restricted Access Locations

(Dedicated Equipment Rooms, Equipment Closets, or the like) in accordance with Articles 110-16, 110-17, and


NOTE

An optional redundant power supply, the EPS-150DC, is available for use with the Summit DC-powered switches.

When the EPS-150DC is used with a DC-powered Summit switch, the power supplies (internal and redundant) are fully fault tolerant and load-sharing. If one power supply fails, the other power supply will provide sufficient power to

operate the switch. Refer to “EPS-150DC External Power Module (with EPS-T2)” on page 66

for further details.

Connecting the Internal DC Power Supply to the DC Source Voltage

Before you connect the switch to a power source, complete the physical installation of the switch in the equipment rack, as described in

“Rack-Mounting a Summit Switch (Models Other than Summit X650

Series)” on page 93

.

If you are installing a Summit DC-powered switch, you must ground the chassis before connecting the

switch to the DC source voltage (see “Grounding a Summit DC-Powered Switch” below).


96


Grounding a Summit DC-Powered Switch

Before you connect the power input cable to a Summit DC-powered switch, you must ground the chassis, following the instructions in this section.

Gather the following materials to ground the Summit DC-powered switch:

● Stranded copper wire cable, minimum size 14 AWG, maximum size 6 AWG

●

●

The wire should be long enough to reach from the installed switch to the facility ground point

Torque screwdriver with 1/4-inch flat blade

Additional grounding hardware appropriate to the earth ground connection at your site

WARNING!

Be sure to connect the chassis ground wire before you connect any power cables.

To ground the switch:

1 At one end of the wire, strip the insulation to expose 1/2 inch (12 mm) of bare wire.

2 Identify the grounding lug on the back of the switch. The grounding lug is next to the edge of the back panel, identified by the international symbol for earth ground. Depending on the switch model,

the grounding lug may be on either side (see Figure 63 ).

Figure 63: Location of the Grounding Lug

Grounding lug

Summit X450a series

DC-powered Switch

Grounding lug

Summit X250e series

DC-powered Switch

SH_060_grounding_lug

3

Insert the stripped wire into the grounding lug (see Figure 64 and Figure 65

).


Figure 64: Attaching the Ground Wire to a Summit x450a Series Switch

Grounding lug

Ground wire

SH_061_ground_switch

Figure 65: Attaching the Ground Wire to a Summit X250e Series Switch

Grounding lug

Ground wire

SH_06 7 _gro u n d _ X 250e

4 Using a straight-tip torque screwdriver, tighten the retaining screw to 20 pound-inches

(2.25 Newton-meters).

5 Connect the other end of the wire to a known reliable earth ground point at your site.

Connecting the DC Wiring Harness to the DC Source Voltage

After the internal DC power supply is installed, it must be connected to a DC power source. A three-wire, 6-foot long DC wiring harness is included with the Summit DC switch and internal DC power supply. The DC wiring harness must be properly connected to the DC source voltage at your facility by a qualified electrician before the connector on the wiring harness can be attached to the DC power supply socket on the switch.

Figure 66

shows the wiring harness and connector. For information about the wire-to-pin connection, see

Table 42 on page 202

.

WARNING!

The Summit X450a-24tDC or Summit X450a-24xDC switch and rack must be connected to protective earth ground before installing any switch components.



WARNING!

Wiring the DC input power harness to your facilities DC source voltage must be performed by a qualified, licensed electrician. After the wiring harness is connected to a permanent DC voltage source by a qualified, licensed electrician, you can remove, replace and maintain a Summit DC-powered switch without further electrician assistance. However, always be sure that the DC circuit is de-energized before connecting or disconnecting the DC power connections at the rear of the switch.

CAUTION

The DC wiring harness must be properly connected to a DC main circuit breaker rated no greater than 20 A.

CAUTION

Provide proper connection and strain relief on the DC wiring harness in accordance with all local and national electrical codes.

Figure 66: Three-wire Cable Harness

98

EWUG005

NOTE

Each wire on the harness has been properly marked for proper attachment to the DC power source. Leave these labels on each lead wire for future reference.

Attaching the DC Wiring Harness to the DC Power Socket on the Switch

After the DC wiring harness is connected to a permanent DC voltage source by a qualified, licensed electrician, you can remove, replace, and maintain the Summit DC-powered switch without further electrician assistance.

NOTE

Be sure that the DC circuit is de-energized before you connect the DC wiring harness to the DC power socket.


CAUTION


To attach the DC wiring harness to the internal DC power supply:

1 Plug the DC wiring harness connector into the DC power supply socket on the rear of the switch

(see

Figure 67 )

The pins must align properly for the cable to completely connect. Do not force the cable into the

socket until the keyway is aligned properly. Refer to Figure 66 for the DC wiring harness connector.

Figure 67: DC Power Socket on a Summit X250e Series DC-Powered Switch


! See Manual

- 4 8 V

1 . 5 A M a x

DC po w er soc k et

SH_068_DC_connec t or

NOTE

Figure 67

shows the rear panel of a Summit X250e series DC-powered switch. The rear panel of other Summit

DC-powered switches may vary slightly; however, the DC power socket is of the same type and the connection process is the same for all DC-powered switches.

2 Tighten the retainer nut on the connector until it is finger-tight.

3 Energize the DC circuit.

Removing a Summit DC-Powered Switch from a Rack

WARNING!

Be sure to disconnect all DC power cables before you disconnect the chassis ground wire.

CAUTION


To remove a DC-powered Summit switch from an equipment rack:

1 De-energize the DC circuit for all power connections.

2 Loosen the retainer nut and unplug the DC power connector from the DC power socket on the rear of the switch.

3 Disconnect the Summit switch from the redundant power supply (if applicable).


100


4 At the back of the switch, loosen the retaining screw on the ground lug and pull the ground wire out of the lug. Move the ground wire out of the way.

5 Loosen and remove the four rack system mount screws holding the switch in place against the system rack.

6 Carefully remove the switch from the rack and place it on a secure, flat surface.

WARNING!

Removing the DC wiring harness from your facilities DC source voltage requires the performance of a qualified, licensed electrician.

Installing a Summit X650 Series Switch

The Summit X650 series switch fits into a standard 19-inch equipment rack. The provided rack-mounting brackets are adaptable to either two-post or four-post (cabinet) mounting.

The installation process includes the following tasks:

1 Install the switch in the rack.

2 Install one or two power supplies and connect power cables.

3 Connect network interface cables.

If you are installing Summit X650 series switches for use in a SummitStack configuration, read

“Building a SummitStack Configuration” on page 88 before you install the switches.

NOTE

Take care to load the rack so that it is not top-heavy. Start installing equipment at the bottom and work up.

Pre-installation Requirements

Installing the Summit X650 switch requires two people to maneuver the switch and attach mounting hardware.

To allow safe handling of the switch during the installation process, make sure you have the following available space around the rack:

● Back: Minimum 30 inches behind the rack posts or back of the cabinet.

● Sides: For a two-post rack installation, allow adequate space for access to the sides of the switch so that the front mounting brackets can be attached to the switch.

Selecting Rear Mounting Brackets

To allow installation of the switch in cabinets of different depths, the Summit X650 series switch has two sets of rear mounting brackets. Use the bracket that best suits the cabinet depth or rack depth where the switch will be installed:

●

●

Shorter brackets—cabinets or racks 25 inches to 31 inches (63.5 cm to 76.7 cm) deep

Longer brackets—cabinets or racks 25 inches to 36 inches (63.5 cm to 91.4 cm) deep

For a two-post rack installation, the shorter brackets are recommended.


Installing the Switch in a Two-Post Rack

To install the switch in a two-post rack:

1 Attach an ESD-preventive wrist strap to your wrist and connect the metal end to an appropriate ground point on the rack.

2 Using rack-mounting screws suitable for your rack, attach a rear mounting bracket to the back of each rack post (

Figure 68

)

Do not tighten the screws all the way. You should be able to move the brackets against the rack post.

Figure 68: Attaching a Rear Mounting Bracket—Two-Post Rack Installation

S H_097


102


3 From the back of the equipment rack, slide the switch into place over the mounting brackets (see

Figure 69

). Make sure the brackets slide between the support pegs on both sides of the switch.

Figure 69: Sliding the Switch onto the Rear Mounting Brackets

S H_0 8 2

4 Push the switch forward as far as it will go, until the bracket support pegs are against the T of the

mounting bracket ( Figure 70 ).

Securely tighten the rack mounting screws.

Figure 70: Fastening the Rear Mounting Brackets—Two-Post Rack

S H_09 8


5 At the front of the switch, place a front mounting bracket against each side of the switch, in front of

the ventilation openings in the side of the switch ( Figure 71

)

Make sure there is space between the bracket and the ventilation openings.

Figure 71: Positioning the Front Mounting Brackets—Two-Post Rack

S H_099

6 Using the provided screws, attach each front bracket to the switch (

Figure 71

).

7 Slide the switch back in the rack until the front mounting brackets are against the front of the rack post (

Figure 72

).

Make sure that the ventilation holes in the side of the switch are within the open channel of the rack post.

Figure 72: Securing the Front Mounting Brackets to the Rack

S H_100

8 Using mounting screws suitable for your equipment rack, secure the mounting brackets to the front of the rack post.



Installing the Switch in a Cabinet or Four-Post Rack

To install the switch in a cabinet or four-post rack:

1 At the back of the cabinet, attach a rear mounting bracket to each rear post, as shown in

Figure 73

Figure 73: Attaching Rear Mounting Brackets—Cabinet Installation

S H_102


3 Set the switch on a secure work surface.

4 At the front of the switch, attach a rack-mounting bracket to each side (

Figure 74 ).

Position the bracket with the flange at the front edge of the switch.

Figure 74: Attaching the Front Mounting Brackets—Cabinet Installation

104

SH_078

5 From the front of the cabinet, slide the switch onto the rear mounting brackets ().


Figure 75: Installing the Switch—Cabinet Installation

S H_0 8 0

6 Slide the switch all the way into the cabinet and secure the mounting brackets to the front rack posts

using suitable screws ( Figure 76 ).

Figure 76: Securing the Switch to the Front Rack Posts—Cabinet Installation

SH_084

7 At each side, fasten the mounting bracket to the back rack post using suitable screws.



Installing Summit X650 Power Supplies

The Summit X650 series switch is shipped without installed power supplies. The switch accommodates one or two Summit X650 power supply units (PSUs).

Installing a Summit X650 AC Power Supply

CAUTION

Make sure that the AC PSU circuit is not overloaded. Use proper over-current protection, such as a circuit-breaker, to prevent over-current conditions.

To install a Summit X650 AC PSU:

1 Attach an ESD-preventive wrist strap to your bare wrist and connect the metal end to an appropriate grounding point.

2

If necessary, remove a blank panel from the back of the Summit X650 series switch ( Figure 77 ).

Figure 77: Removing a Blank Panel

106

SH_088

3

Verify that the PSU is right side up, with the latching tab at the right of the unit (see Figure 78

).

4

Carefully slide the PSU all the way into the power supply bay (see Figure 78

). Push the PSU in until the latch snaps into place.

CAUTION

Do not slam the PSU into the switch.


Figure 78: Installing a PSU

SH_089

5

To install a second PSU, repeat steps 3 and 4

.

NOTE

If PSUs are not installed in both power supply bays, be sure to install a cover over the unoccupied bay. Unoccupied bays must always be covered to maintain proper system ventilation and EMI levels.

6

Connect the power cord to the PSU ( Figure 79 ):

a Rotate the power cord retainer to the left.

b Connect the AC power cord to the power input socket.

c Rotate the power cord retainer to the right over the power cord connector.

Figure 79: Connecting the AC Power Cord

1 2

S H_105

7 Connect the other end of the power cord to a grounded AC power outlet.

WARNING!

Always be sure that the source outlet is properly grounded before plugging the AC power cord into the AC PSU.


108


Installing a Summit X650 DC Power Supply

CAUTION

Make sure that the Summit X650 DC PSU circuit is not overloaded. Use proper over-current protection, such as a circuit-breaker, to prevent over-current conditions. You may use up to a 30-Amp breaker.

To install the Summit X650 DC PSU, perform the following tasks in the order listed:

1 Prepare the power cables and ground cable by attaching the provided connection lugs to the cables

(see next section).

2 Insert the PSU into the Summit X650 series switch (see page.

3 Connect the ground (see page).

4 Have a qualified licensed electrician connect the PSU to the DC source voltage (see page).


Required Tools and Materials

You need the following tools and materials to install or remove a Summit X650 DC PSU:

● Two spade terminals (Tyco part number 130496 or equivalent) for connecting the input power cables

(provided)

●

●

One ring terminal (Tyco part number 130496 or equivalent) and screw with captive lock washer

(type M3.5) for connecting the ground wire (both provided)

#12 AWG stranded copper cable for grounding the PSU and connecting the PSU to the DC power source

●

●

●

●

●

●

●

A DC power cord is not included with the Summit X650 DC PSU. You must provide the #12 AWG stranded copper cable. Recommended insulation colors are:

■

■

Red for the –48V connection (–)

Black for the –48V RTN connection (+)

■ Green or green with yellow stripe for the ground connection

Connection hardware appropriate to the installation site:

■

■

Hardware for connecting the power wires to the DC source

Hardware for connecting the ground wire to the site grounding point

Stripping tool

Crimping tool for attaching the lug to the ground wire

#1 Phillips screwdriver

Torque screwdriver and wrench or torque driver with attachments for tightening screws and nuts

ESD-preventive wrist strap

Thermal protective gloves (required for removal of a PSU)

Connection lugs for power and ground and a screw for connecting the ground wire are shipped with the power supply.


Preparing the Cables

A ring terminal and two spade terminals are provided with the PSU. You need a crimping tool to attach the terminals to the power and ground cables.

To prepare the cables:

1 On each wire, strip 0.25 inch of insulation from one end.

2

Insert the stripped wire end all the way into the barrel of the terminal ( Figure 80 ) and crimp the

terminal securely to the wire.

Figure 80: Attaching Terminals to Cables

Power connection wire

SH_109

Gro u nd wire

SH_110

Installing the Power Supply

CAUTION

The handle on the Summit X650 DC PSU is not designed to be used to lift or carry the Summit X650 series switch.

To install a Summit X650 DC PSU:

1 Attach an ESD-preventive wrist strap to your bare wrist and connect the metal end to an appropriate ground point on the rack.

2

If necessary, remove a blank panel from the back of the Summit X650 series switch ( Figure 81 ).

Figure 81: Removing a Blank Panel


SH_106

109


3 Verify that the PSU is right side up (see

Figure 82 ).

4



CAUTION


Figure 82: Installing a Summit X650 DC PSU

110

SH_107

5

To install more PSUs, repeat steps 3 and 4

.

Connecting the Ground Cable

WARNING!

Be sure to connect the chassis ground wire before you connect any power cables.

Be sure to disconnect the ground wire after you disconnect all power cables.

To connect the ground wire:

1 Verify that the DC circuit is de-energized.


3

Identify the grounding point on the front panel of the PSU (see Figure 83 ).

4 Insert an M3.5 screw (provided) through the ring terminal and into the grounding point on the PSU.

5 Tighten the screw to 12.6 inch-pounds.



Figure 83: Connecting the Ground Wire

1

2

1 = Grounding point

2 = Ground wire

SH_108

Connecting the PSU to the DC Source Voltage

The DC power connection at your facility must be made by a qualified electrician, following the instructions in this section.

WARNING!

Always make sure that the DC circuit is de-energized before connecting or disconnecting the DC power cables on the

Summit X650 DC PSU.

CAUTION

Provide proper connection and strain relief on the DC power cables in accordance with all local and national electrical codes.

To connect the DC power input cables:



3

Slide the cover off the terminal block ( Figure 84 ).

4 Connect the DC power input cables as follows: a On each terminal, loosen the screw enough to allow the spade terminal to slide underneath the captive square washer. b Slide the spade terminal of the negative wire (–48 V) under the captive square washer on the negative terminal (labeled –48V).

c Slide the spade terminal of the positive wire (–48 V RTN) under the captive square washer on the positive terminal (labeled RTN).



Figure 84: Connecting the DC Power Cables (Part 1)

RTN

-48V

(+)

(–)

SH_111 d

Tighten both screws on the terminal block to 11 inch-pounds ( Figure 85 ).

5

Slide the cover into place over the terminal block ( Figure 85 ).



RTN

-48V

(+)

(–)

SH_112

6 Connect the cables to the DC source voltage, using hardware appropriate to the installation site and following local and national electrical codes.


Leave the ESD strap permanently connected to the rack, so that the strap is always available when you need to handle ESD-sensitive components.

Removing Summit X650 Series Switches

This section provides procedures for removing a Summit X650 series switch from a two-post or four-post equipment rack.

Removing the Power Supplies

Before you remove a Summit X650 series switch from the rack, remove all installed power supplies.



Removing a Summit X650 AC Power Supply’

To remove an AC power supply:


2 Disconnect all power cords from the back of the switch.

3 Remove all installed power supplies (

Figure 86 ):

a On each power supply, push the latching tab to the left as you pull the handle to disengage the power supply from its internal connectors.

b Carefully slide the power supply out of the switch and set it aside.

Figure 86: Removing an AC Power Supply

114

S H_096

Removing a DC Power Supply

WARNING!

Be sure to disconnect all power cables before you disconnect the chassis ground wire.

CAUTION

The DC PSU may be hot to the touch; use thermal protective gloves when handling the PSU during removal.

To remove a Summit X650 DC PSU:

1 De-energize the DC circuit.


3 Disconnect the DC power cables as follows: a Slide the cover off the terminal block.


b Loosen the screws that secure the cable terminals to the terminal block.

c Slide the wires out from under the captive washers.

4 Disconnect the ground wire as follows: a Remove the screw that secures the ground wire to the PSU.

b Move the wire away from the PSU.

5 Push the latching tab to the left as you pull outward on the handle to disengage the PSU internal connectors (see figure).

Figure 87: Removing a DC PSU

SH_113

Removing a Summit X650 Series Switch from a Two-Post Rack

Removing the Summit X650 switch from a rack requires two people to maneuver the switch and disconnect the mounting hardware.

CAUTION

Make sure that proper ESD controls are in use before maintenance is performed. This includes but is not limited to wrist straps that are grounded to the switch chassis and earth grounds.

To remove the Summit X650 series switch from a two-post rack:


2 Verify that the power supplies have been removed from the switch.

3 At the front of the equipment rack, support the switch while you remove the rack-mounting screws holding the front mounting brackets in place against the rack post (

Figure 88 ).


116


Figure 88: Removing the Front Mounting Screws from a Two-Post Rack

S H_100

4 Remove the screws holding the front mounting brackets to the sides of the switch, and set the mounting brackets aside.

5 Support the front and back of the switch as you slide the switch back, off the rear mounting

brackets, and out of the rack ( Figure 89

).

Set the switch on a secure work surface.

Figure 89: Removing the Switch from a Two-Post Rack

S H_101


6 Remove the rack-mounting screws and detach the rear mounting brackets from the rack post

(

Figure 90

).

Figure 90: Removing the Rear Mounting Brackets—Two-Post Rack

S H_097

Removing a Summit X650 Series Switch from a Cabinet or

Four-Post Rack

Removing the Summit X650 switch from a cabinet or rack requires two people to maneuver the switch and disconnect the mounting hardware.

To remove the Summit X650 series switch from a cabinet or four-post rack:


2 Disconnect all power cords from the back of the switch.

3 Remove all installed power supplies: a Push the latching tab to the left as you pull the handle to disengage the power supply from its internal connectors.

b Carefully slide the power supply out of the switch and set it aside.

4

Support the front of the switch while you remove the front rack mounting screws ( Figure 91 ).

5 Carefully slide the switch forward out of the cabinet and off the rear mounting brackets.



Figure 91: Removing the Switch from a Cabinet

118

S H_104

6 Set the switch on a secure work surface. Using a #1 Phillips screwdriver, remove the front mounting brackets from the sides of the switch.

7 Remove the rear mounting brackets from the rear rack posts.

Connecting Network Interface Cables

Use the appropriate type of cable to connect the ports of your switch to another switch or router. For connections to the 10GBASE-T ports on the Summit X650-24t switch, see

Table 20

for cable types and distances.

Table 20: Cable Distances for 10GBASE-T Ports

Cable Type

CAT5E

CAT6

CAT6A


55 meters

55 meters

100 meters

NOTE

Cables used for connection to the 10GBASE-T ports on the Summit X650-24t switch must meet the minimum requirements of the IEEE 802.3an standard.


Working carefully, one port at a time:

1 Verify that you have identified the correct cable for the port.

2 Use an alcohol wipe or other appropriate cleaning agent to clean the cable connectors; make sure they are free of dust, oil, and other contaminants.

3 If you are using optical fiber cable, align the transmit (Tx) and receive (Rx) connectors with the correct corresponding connectors on the switch or the I/O module.

4 Press the cable connectors into their mating connectors on the switch or I/O module until the cable connector is firmly seated.

5

Repeat steps 1 through 4 for the remaining cables on this or other switches or I/O modules.

6 Dress and secure the cable bundle to provide appropriate strain relief and protection against bends and kinks.

Initial Management Access

When you take your switch from the box and set it up for the first time, you must connect to the console to access the switch and perform initial security configuration. At this time you can also manually configure an IP address for the default VLAN.

Connecting Equipment to the Console Port

Connection to the console port is used for direct local management. The console port settings are:

● Baud rate—9600

●

●

Data bits—8

Stop bit—1

●

●

Parity—None

Flow control—XON/XOFF

The terminal or PC with terminal-emulation software that you connect to an Extreme Networks switch must be configured with these settings. This procedure is described in the documentation supplied with the terminal.

Appropriate cables are available from your local supplier, or you can make your own. To ensure the electromagnetic compatibility of the unit, use only shielded serial cables. For connector pinouts associated with the console port, see

“Console Connector Pinouts” on page 203 .


120


Logging In for the First Time

After your switch has completed all power on self-tests, it is operational. You can log in and configure an IP address for the default VLAN (named default ).

NOTE

The management port is part of the management VLAN by default.

To manually configure the IP settings:

1 Connect a terminal or PC with terminal-emulation software to the console port on the Summit switch.

2 At the terminal, press [Return] one or more times until you see the login prompt.

3 At the login prompt, enter the default user name admin to log on with administrator privileges. For example: login: admin

Administrator capabilities allow you to access all switch functions.

4 The system will ask a series of questions about the default management settings, which allow all forms of management access for convenience in setting the initial configuration. Answer each question based on the level of security needed for the particular management access type.

NOTE

For more information about logging in to the switch and configuring switch management access, see the

ExtremeXOS 12.0 Concepts Guide .

5 At the password prompt, press [Return].

The default user name admin has no password assigned to it. When you have successfully logged on to the system, the command line prompt displays the system name (for example, SummitX450> ) in its prompt.

NOTE

For more information about how to assign a specific system name, see the ExtremeXOS 12.0 Concepts Guide .

6 Assign an IP address and subnetwork mask for VLAN default by typing: configure vlan default ipaddress 123.45.67.8 255.255.255.0

Your changes take effect immediately.

7 Save your configuration changes so that they will be in effect after the next system reboot by typing: save

The configuration is saved to the configuration database of the MSM modules in the switch.

NOTE

For more information about saving configuration changes, see the ExtremeXOS 12.0 Concepts Guide .

8 When you are finished with these tasks, log out of the switch by typing: logout


5

Installing Summit External Power Supplies

This chapter describes how to install external power supplies with the Summit family switches. The chapter includes the following sections:

●

●

Safety on page 121

Installing an EPS-160 External Power Module (with EPS-T) on page 122

●

●

●

●

Installing an EPS-LD External Power Supply on page 125

Installing an EPS-500 External Power Supply Unit on page 128

Installing an EPS-150DC External Power Module (with EPS-T2) on page 131

Installing an EPS-600LS External Power Module on page 137

Read the information in this chapter thoroughly before you attempt to install or remove an external power supply.

Safety


NOTE

See

Appendix A, “Safety Information”

for additional safety information and Appendix B, “Technical Specifications”

for additional information regarding regulatory compliance certifications.

CAUTION


CAUTION

The EPS must be installed or removed only by trained service personnel in accordance with the installation instructions. Before installing or removing any components of the system, or before carrying out any maintenance procedures, you must read the safety information provided in

Appendix A of this guide. Not following these

precautions can result in equipment damage or shock.

WARNING!

Always be sure that the DC circuit is de-energized before connecting or disconnecting the DC wiring harness at the

DC power socket on the rear of the EPS-150DC unit, and before connecting or disconnecting the redundant power cord between the switch and the EPS-150DC unit.


122


Pre-installation Requirements

You need the following tools and equipment to install an external power supply:

● Electrostatic discharge (ESD)-preventive wrist strap

●

●

●

# 1 Phillips screwdriver

Rack mount screws suitable for your organization’s equipment rack

Screwdriver suitable for use with your rack-mount screws

NOTE

When you connect an external power supply, consider all of the equipment that is connected to the power supply circuit to ensure that the circuit is not overloaded. Use proper overcurrent protection, such as a circuit breaker, to prevent overcurrent conditions.

The switch and each redundant power supply source should be plugged into separate branch circuits to provide redundancy.

Installing an EPS-160 External Power Module (with

EPS-T)

You can order the EPS-T chassis with one or two EPS-160 power supplies already installed. You can also order an additional power supply from your Extreme Networks reseller.

The EPS-T can be mounted in a rack or placed free-standing on a tabletop.

NOTE

Each EPS-160 power supply is shipped with an AC cord for use in North America and a special redundant power supply cord.

Rack-Mounting the EPS-T

CAUTION

Do not use the rack-mount brackets to suspend the EPS-T from under a table or desk, or to attach the EPS-T to a wall.

To rack mount the EPS-T:

1 Place the EPS-T upright on a stable surface, with the front facing you.

2 Remove the mounting bracket kit from the packaging.

3 Attach the mounting brackets as follows: a Place a mounting bracket over the mounting holes on one side of the EPS-T (see

Figure 92 ).

b Insert the screws and fully tighten them using a screwdriver.



ES4K026 c

Repeat steps a and b for the other side of the EPS-T.

4 Slide the EPS-T into a 19-inch rack and secure it using appropriate rack-mount screws.

Installing an EPS-160 Power Supply into an EPS-T

To install an EPS-160 power supply into the EPS-T:

1 Remove the EPS-160 power supply from the packing material.

2 Remove the cover plate from an empty slot on the EPS-T.

3 Insert the power supply into the empty slot on the EPS-T.

4 Tighten the captive thumbscrews to secure the power supply to the EPS-T.

5 Connect the EPS-160 power supply to the Summit switch, following the instructions in

“Connecting the EPS-160 Power Supply to the Switch” on page 123

.

Connecting the EPS-160 Power Supply to the Switch

One end of the EPS-160 cord has a keyed connector to ensure correct alignment of the connector

(

Figure 93 ). The key is a plastic tab on the cord connector housing that fits into the EPS-160 unit to

ensure correct alignment of the connector.

Figure 93: Redundant Power Cord Connector

ES4K027

CAUTION

Always connect the redundant power supply cord before you attach the AC power cord to the EPS-160 power supply.


124


To connect the EPS-160 power supply to the switch:

1 Connect the keyed end of the redundant power supply cord to the EPS-160 power supply (see

Figure 94

).

2

Connect the other end of each EPS-160 power supply cord to the Extreme switch (see Figure 94 ).

This connector end can only be inserted into the switch with the end marked TOP facing up.

NOTE

If your switch was shipped with a metal cover plate over the redundant power input connector, remove the cover.

WARNING!

The redundant power input connector on the rear of the switch contains high energy and is a burn hazard. Use care when connecting the redundant power supply cord to the rear of the switch.

Figure 94: Redundant Power Connections

Slot for plug

To AC

Keyed end of redundant power cable

Redundant power cable

S450_008

3 Connect the provided AC power cord to the AC connector on each unit.

NOTE

For countries other than the USA, you might require a different AC cord that is not supplied. Contact your sales representative for the appropriate cord type and for information regarding the voltage and current requirements of the power supply.

The PSU-E LED on the front of the EPS-160 should light solid green to indicate that it is ready.

Figure 21

shows the LED meanings for the EPS-160.

Table 21: LED Meanings on the EPS-160 Power Supply

Power LED

Green, solid

Off

Indicates

The external power supply is operating normally.

The external power supply is not connected.


Removing an EPS-160 Power Supply from an EPS-T

To remove an EPS-160 power supply from an EPS-T:

1 Disconnect the AC power by removing the plug from the wall.

2 Disconnect the AC power cord from the EPS-160.

3 Disconnect the redundant power cord from the EPS-160.

4 Loosen the captive retaining screws on the front of the EPS-160 and slide it out of the EPS-T.

Installing an EPS-LD External Power Supply

The EPS-LD power supply can be mounted in a rack or placed free-standing on a tabletop. You can position the EPS-LD facing either the front or the back of the rack. For this reason, each unit has two sets of mounting holes on each side. Extreme Networks recommends that you position the EPS-LD so that the power output connectors on the EPS-LD unit are on the same side as the external connector on the connecting switch.

CAUTION

Do not use the rack-mount brackets to suspend the EPS-LD from under a table or desk, or to attach the unit to a wall.

NOTE

If you are using the EPS-LD outside North America, the input power cord must have an IEC320-C14 connector and the appropriate power input plug for the country in which you are operating. The cord must be 10 feet or less and at least 16-gauge copper wire.

Rack-mounting the EPS-LD Power Supply

NOTE

When installing an EPS-LD in a rack, make sure air vents are not restricted. Allow for elevated ambient operating temperatures when the EPS-LD is installed adjacent to other equipment. Be sure you mount the equipment in the rack so that the load is evenly distributed.

To rack-mount each EPS-LD unit:

1 Place the EPS-LD unit upright on a stable surface, with the side you want to face to the front of the switch toward you.


3 Attach the mounting brackets as follows: a Place a mounting bracket over the mounting holes on one side of the unit (see

Figure 95

).

b Insert the provided screws and fully tighten them using a screwdriver.




Collin's

ES4K026

XM_054 c

Repeat steps a and b for the other side of the EPS-LD unit.

4 Slide the EPS-LD into a 19-inch rack and secure it using appropriate rack-mount screws.

NOTE

Extreme Networks recommends that you position the EPS-LD so that the output connectors are on the same side as the external connector on the connecting switch. If you mount the EPS-LD with the connectors facing in the opposite direction from the Summit switch connector, leave at least 1 U between the switch and the EPS-LD through which to slide the power cords. Do not route the power cords around the equipment rack.

Connecting the EPS-LD to the Switch

CAUTION

Do not attach the AC power cord to the EPS-LD unit until the unit is properly grounded at the electrical outlet and the redundant power supply cord is connected.

One end of the EPS-LD cord has a keyed connector to ensure correct alignment of the connector

(

Figure 96 ). The key is a plastic tab on the cord connector housing that fits into the EPS-LD unit to

ensure correct alignment of the connector.

Figure 96: EPS-LD Cord with Key

126

Collin's

ES4K027

XM_055

To connect the EPS-LD to the switch:

1 Connect the keyed end of the cord to the power supply unit (see

Figure 97

).

2 Align and tighten the captive retaining screws on the connector.

3 Connect the other end of the EPS-LD cord to the Extreme switch.

The connector fits in only one direction.


NOTE


WARNING!


Figure 97: Connecting an EPS-LD Unit to a Switch

Keyed end of redundant power cable Slot for key

EPS-LD

To AC

Extreme switch

Redundant power cable

To AC

Collin's

ES4K021A

XM_053

Connecting the EPS-LD to Power

Make sure the EPS-LD is connected to the switch before you connect the AC power.

CAUTION

The EPS-LD does not have a switch for turning the unit on and off. You disconnect power to the EPS-LD by removing the plug from the electrical outlet. Make sure that this connection is easily accessible.

To connect the EPS-LD to power:

1 Connect the AC input power cord to the AC connector on the EPS-LD.

2 Connect the other end of the AC cord to the electrical outlet.

Make sure the electrical outlet is properly grounded.

The Power LED on the front of the EPS-LD turns solid green to indicate that it is ready.

Table 22 shows the LED meanings for the EPS-LD power supply.

Table 22: LED Meanings on the EPS-LD

Power LED

Green, solid

Off

Indicates




128


Removing an EPS-LD

To remove an EPS-LD power supply:


2 Disconnect the AC power cord from the EPS-LD unit.

3 Disconnect the cord between the Extreme switch and the EPS-LD.

4 Remove the screws from the EPS-LD mounting brackets.

5 Slide the EPS-LD out of the rack.

Installing an EPS-500 External Power Supply Unit

You can position the EPS-500 facing either the front or the back of the rack. For this reason, each unit has two sets of mounting holes on each side. Extreme Networks recommends that you position the EPS-

500 unit so that the power output connectors of the EPS-500 unit are on the same side as the external connector on the connecting switch.

The EPS-500 unit can be mounted in a rack or placed free-standing on a tabletop.

NOTE

If you are using the EPS-500 outside of North America, the input power cord must utilize an IEC320-C13 input connector and the appropriate power input plug for the country in which you are operating the unit. The input power cord must be at least 18 AWG copper wire and it must be less than 10 feet (3 m) long.

Rack-mounting an EPS-500 Power Supply

CAUTION

When installing an EPS-500 in a rack system, make sure that the air vents are not restricted. Allow for elevated ambient operating temperatures when the unit is installed adjacent to other equipment. To avoid hazardous conditions due to uneven mechanical loading, make sure that the equipment is mounted properly in the rack system.

Do not use the rack-mount brackets to suspend the EPS-500 from under a table or desk, or to attach the unit to a wall.

To rack-mount each EPS-500:

1 Place the EPS-500 upright on a stable surface, with the side you want to face to the front of the switch toward you.


3 Attach the mounting brackets as follows: a

Place a mounting bracket over the mounting holes on one side of the EPS-500 (see Figure 98 ).

b Insert the provided screws and fully tighten the screws using a screwdriver.


Figure 98: Attaching a Mounting Bracket

Collin's

ES4K026

XM_073 c

Repeat steps a and b on the opposite side of the EPS-500.

4 Slide the EPS-500 into a 19-inch rack and secure it using appropriate rack-mount screws.I

NOTE

Extreme Networks recommends that you position the EPS-500 so that the output connectors are on the same side as the external connector on the connecting switch. If you position the EPS-500 with the connectors facing in the opposite direction from the Summit switch connector, leave at least 1 u between the switch and the EPS-

500 through which to slide the power cords. Do not route the power cords around the equipment rack.

Connecting the EPS-500 Power Supply

CAUTION

Do not attach the AC power cord to the EPS-500 unit until the unit is properly grounded at the electrical outlet and the redundant power cord is connected.

One end of the EPS-500 cord has a keyed connector to ensure correct alignment of the connector

(

Figure 99 ). The key is a plastic tab on the connector housing that fits into the EPS-500 unit to ensure

correct alignment of the connector.

Figure 99: EPS-500 Redundant Power Cord with Connector Key

Collin' s

E S 4K027

XM_055

1 Connect the keyed end of the EPS-500 redundant power cord to the power supply unit (see

Figure 100 ).

2 Connect the other end of the redundant power cord to the Extreme switch.

The connector fits the slot in only one direction.


130


NOTE


WARNING!


Figure 100: Connecting an EPS-500 Unit to a Switch

Keyed end of redundant power cord Slot for key

EPS-500

To AC

Extreme switch

Redundant power cord

To AC

Collin's

ES4K021A

XM_074

3 Connect the AC input power cord to the AC connector on the EPS-500 unit.

CAUTION

The EPS-500 unit does not have a switch for turning the unit on and off. Disconnect power to the EPS-500 unit by removing the plug from the electrical outlet. Be sure that this connection is easily accessible to you.

4 Connect the other end of the AC power cord to the electrical outlet.

Be sure that the electrical outlet is properly grounded.

The Power LED on the front of the EPS-500 unit turns solid green to indicate that it is ready.

Table 23

shows the LED meanings for the power supply.

Table 23: LED Meanings on the EPS-500 Power Supply

Power LED

Green, solid

Off

Indicates




Removing an EPS-500 Power Supply

To remove an EPS-500 power supply:


2 Disconnect the AC power cord from the EPS-500 power supply.

3 Remove the redundant power cord that connects the switch to the power supply.

4 Remove the mounting screws securing the power supply to the rack.

5 Slide the power supply out of the rack.

Installing an EPS-150DC External Power Module (with

EPS-T2)

The EPS-150DC power supply is a modular power supply for use in the EPS-T2 External Power System

Tray. The EPS-T2 is a rack-mountable chassis or tray that holds one or two EPS-150DC power supplies.

Each EPS-150DC provides one-to-one redundancy to an attached Extreme Networks switch. You must install the EPS-150DC power supply in the EPS-T2 tray.

NOTE

For centralized DC power connection, this product is intended to be installed in restricted access locations

(dedicated equipment rooms, equipment closets, or the like) in accordance with Articles 110-16, 110-17, and 110-

18 of the National Electric Code, ANSI/NFPA 70.

CAUTION

Do not use the rack-mount brackets to suspend the EPS-T2 from under a table top or desk, or to attach the EPS-T2 to a wall.

Rack-mounting the EPS-T2

To install the EPS-T2:

1 Place the EPS-T2 upright on a secure surface, with the front facing you.


3 Attach the mounting brackets as follows: a

Place a mounting bracket over the mounting holes on one side of the EPS-T2 (see Figure 101 ).

b Insert the provided screws and fully tighten with a screwdriver.




132

ES4K026 c

Repeat steps a and b for the other side of the EPS-T2.

4 Slide the EPS-T2 into a 19-inch rack and secure it using appropriate rack-mount screws.

Installing an EPS-150DC Power Supply

NOTE

Install the EPS-T2 before you begin installing the EPS-150DC.

WARNING!

Always be sure that the DC circuit is de-energized before connecting or disconnecting the DC wiring harness at the

DC power socket on the rear of the EPS-150DC unit, and before connecting or disconnecting the redundant power cord between the switch and the EPS-150DC unit.

Installing an EPS-150DC unit consists of the following tasks:

●

Connecting the DC wiring harness to the DC source voltage (see page 132 ).

●

This task must be performed by a licensed, qualified electrician.

Installing an EPS-150DC unit in an EPS-T2 (see

page 133 )

●

●

Connecting the DC wiring harness to the DC power socket on the EPS-150DC (see page 134 )

Connecting the EPS-150DC to a switch (see page 134

)

Perform these four tasks in the order they are described.

Connecting the DC Wiring Harness to the DC Source Voltage

The EPS-150DC power module must be connected to a DC power source. A three-wire, 6-foot long DC

wiring harness ( Figure 102

) is included with the EPS-150DC unit. The DC wiring harness must be properly connected to the DC source voltage at your facility by a qualified electrician before the connector on the wiring harness can be attached to the DC power supply socket on the rear of the unit.

See

Appendix B, “Technical Specifications” for information about connector pinouts and for DC power

specifications to be used in connecting the wiring harness to the DC source voltage.


WARNING!

Wiring the EPS-150DC DC wiring harness to your facilities DC source voltage must be performed by a qualified, licensed electrician. After the wiring harness is connected to a permanent DC voltage source by a qualified, licensed electrician, you can remove, replace and maintain the ESP-150DC without further electrician assistance. However, always be sure that the DC circuit is de-energized before connecting or disconnecting the DC power connection at the rear of the EPS-150DC unit.

CAUTION

The DC wiring harness must be properly connected to a DC main circuit breaker or fuse rated no greater than 20 A.

Provide proper connection and strain relief on the DC wiring harness in accordance with all local and national electrical codes.

Figure 102: Three-wire Cable Harness

EWUG005

NOTE

Each wire on the harness has been properly marked for proper attachment to the DC power source. Leave these labels on each lead wire for future reference.

Installing an EPS-150DC Unit into an EPS-T2

WARNING!

The EPS-150DC unit and rack must be connected to protective earth ground.

To install an individual EPS-150DC into an EPS-T2:

1 Attach an ESD-preventive wrist strap to your wrist and connect the metal end to the ground receptacle on the top right corner of the switch front panel.

2 Remove the EPS-150DC from the packing material.

3 Insert the EPS-150DC into the front of the EPS-T2.

4 Tighten the provided thumbscrews to secure the power supply to the tray.


134


Connecting the DC Wiring Harness to the DC Power Socket on the EPS-150DC

After the DC wiring harness is connected to a permanent DC voltage source by a qualified, licensed electrician, you can remove, replace, and maintain the EPS-150DC unit without further electrician assistance.

WARNING!

Always be sure that the DC circuit is de-energized before connecting the DC wiring harness to the DC power socket.

To connect the DC wiring harness to the EPS-150DC unit:

1 Verify that the DC power is turned off at the source.

2 Plug the DC cable connector into the DC power supply socket on the rear of the EPS-150DC unit.

The pins must align properly for the cable to completely connect. Do not force the cable into the socket until the keyway is aligned properly. Refer to

Figure 102

for the DC wiring harness connector

and to Figure 103 for the DC power socket location on the rear of the EPS-150DC unit.

Figure 103: Connecting the Input Cable to the EPS-150DC Unit

EPS-150DC in EPS-T2

DC wiring harness

EPS-15DC_001C

3 Tighten the retainer nut on the connector until it is finger tight.

Connecting the EPS-150DC to a Switch

If you are connecting the EPS-150DC unit to a Summit X450a-48tDC switch, you must ground the

switch before connecting power. For instructions on grounding the switch, see “Grounding a Summit

DC-Powered Switch” on page 96

.

WARNING!

Always be sure that the DC circuit is de-energized before connecting the EPS-150DC to the switch.

One end of the EPS-150DC cord has a keyed connector to ensure correct alignment of the connector

(

Figure 104

). The key is a plastic tab on the connector housing that fits into the EPS-150DC unit to ensure correct alignment of the connector.


Figure 104: EPS-150DC Redundant Power Cord with Connector Key

Collin' s

E S 4K027

XM_055

To connect the EPS-150DC to a switch:

1 Verify that the DC power is turned off at the source.

2 Identify the keyed end of the redundant power cable.

3 Holding the keyed connector so that the side labeled “Top” is facing up, connect the EPS-150DC

redundant power cable to the power supply unit (see Figure 105

).

4 Align and tighten the connector retaining screws to secure the cable connector to the power supply unit.

5 Connect the other end of the redundant power cord to the Extreme switch.

The connector fits the slot in only one direction.

6 Align and tighten the captive retaining screws to secure the cable connector to the switch.

Figure 105: Connecting an EPS-150DC Unit to a Switch

Keyed end of redundant power cord Slot for key

- 4 8 V

2 . 0 A M a x

Extreme switch

To DC Power

Source

DC wiring harness

EPS-150DC

Redundant power cord

DC wiring harness

To DC

Power

Source

EPS-150DC_002B


The Power LED on the front of the EPS-150DC unit turns solid green to indicate that it is ready.

Table 23

shows the LED meanings for the power supply.


136


Table 24: LED Meanings on the EPS-150DC Power Supply

Power LED

Green, solid

Off

Indicates

The external power module is operating normally.

The external power module is not connected.

Removing an EPS-150DC Power Module

WARNING!

Always be sure that the DC circuit is de-energized before disconnecting any cables and attempting to remove an

EPS-150DC unit.

WARNING!

Removing the DC wiring harness from your facilities DC source voltage requires the performance of a qualified, licensed electrician.

To disconnect and remove an EPS-150DC unit:

1 Attach the ESD strap to your wrist and connect the metal end to the ground receptacle on the topright corner of the switch front panel.


3 Remove power from the EPS-150DC power module by unplugging the DC connector from the DC power supply socket on the rear of the EPS-150DC unit.

Loosen the retainer nut on the DC power connector and unplug the connector from the back of the power unit.

4 At each end of the redundant power cable, unscrew the captive retaining screws on the power connector and disconnect the cable from the switch and the EPS-150DC unit.

5 Loosen the thumbscrews on the front of the EPS-150DC unit until they are completely free of the

EPS-T tray, and slide the EPS-150 unit out of the tray.


Installing an EPS-600LS External Power Module

You install one, two, or three EPS-600LS power modules (model 10913) in the EPS-C chassis (Model No.

10912) to build an external redundant power system for a Summit PoE-capable switch. A redundant power cable shipped with the EPS-C chassis provides the connection between the external power system and the redundant power input connector on the back of the switch.

NOTE

Each EPS-600LS power module is shipped with an AC cord for use in North America, and each EPS-C chassis is shipped with a special redundant power supply cord for connection to the Summit switch. Make sure that the EPS-C chassis is installed in the rack system before installing an EPS-600LS unit.

Installing an EPS-C Chassis

CAUTION

Do not use the rack mount brackets to suspend the EPS-C from under a table top or desk, or to attach the EPS-C unit to a wall.

The EPS-C is intended for use only with a Summit X450e-48p or X250e-48p switch. You can install the

EPS-C above or below the Summit switch (see Figure 106

).

Figure 106: EPS-C and Summit Switch

ESP-C

EPS-C

PSU1

DC good

AC good

PSU2 PSU3

Stack 10G

1 1

2 2

1

MGMT

FAN

PSU-1

PSU-E

STACK NO.

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

35

36

37

38

39

40

41

42 43 44 45 46

47

48

45X

46X 47X 48X Solid ON = Link

Blinking = Activity

Shared Ports


ESP-C_02

To rack-mount the EPS-C:

1 Place the EPS-C upright on a secure work surface.


3 Attach the mounting brackets as follows: a Place a rack mount bracket over the mounting holes on one side of the unit.

b

Insert the provided screws and fully tighten them using a screwdriver (see Figure 107

).


138



EPS-C

EP

S-C

Rack Mount Bracket

EPS-C_01 c

Repeat steps a and b for the other side of the EPS-C.

4 Slide the EPS-C into a 19-inch rack and secure it using appropriate rack-mount screws.

5

Connect the keyed end of the redundant power cord to the EPS-C (see Figure 108

). Verify that the side of the connector marked TOP is facing up.

The key is a plastic tab on the cable connector housing that fits into the EPS-C to ensure correct alignment of the connector.

6 Connect the other end of the redundant power cord to the Summit X450e-48p or X250e-48p switch

(see

Figure 108

). Be sure that the side of the connector marked TOP is facing up.

Figure 108: Installing the Redundant Power Cord

Connect First

Redundant Power Output

! See Manual

EPS-C_03A


Installing an EPS-600LS Power Supply

To install an EPS-600LS unit into an EPS-C:

1 If necessary, remove a cover plate from a slot in the EPS-C.

2 Slide the EPS-600LS into an empty slot in the EPS-C (see

Figure 109 ).

CAUTION

Be sure that empty slots in the EPS-C chassis are always covered by a cover plate when not in use. The EPS-C is shipped with slots 2 and 3 covered and slot 1 open. Extreme Networks recommends that you populate slot 1 with an EPS-600LS unit first, but this is not required. You can install EPS-600LS units into any of the slots in the EPS-C. The installation sequence does not affect the performance of the power supply units, but empty slots must be covered at all times.

Figure 109: Installing the EPS-600LS Unit in the EPS-C Chassis

! See Manual

O.T.P

DC OK

AC OK

3 Slide the unit completely into the chassis until the front of the EPS-600LS is flush with the surface of the EPS-C (see

Figure 110

).

4 Tighten the two captive screws on the EPS-600LS unit into the EPS-C (see

Figure 110

). This secures the unit in place.



Figure 110: Securing the EPS-600LS to the EPS-C Chassis

! See Manual

O.T.P

DC OK

AC OK

Tighten Screws

EPS-600LS

EPS-C_05A

5 Connect the AC power cord to the AC connector on the EPS-600LS unit (see

Figure 111 ).

Use the cable clip on the EPS-600LS unit to hold the AC power cord in place (see Figure 111 ).

CAUTION

The EPS-600LS unit does not have a switch for turning the unit on and off. Disconnect power to the EPS-600LS unit by removing the plug from the electrical outlet. Make sure that this connection is easily accessible to you.

Figure 111: Installing the Redundant Power Cord

Cable Clip

! See Manual

O.T.P

DC OK

AC OK

140

To AC

Power Cord

EPS-C_06A

6 Connect the other end of the AC power cord to the electrical outlet (see

Figure 111

).


Be sure that the electrical outlet is properly grounded.

7 Repeat steps 1 through 6 for each EPS-600LS unit.

Removing an EPS-600LS Power Module

To manually disconnect an EPS-C or to remove the EPS-600LS modules, the recommended practice is to disconnect the EPS-600LS modules one at a time, pausing two seconds after each EPS-600LS disconnect.

This enables a graceful power transition from the external PSUs to the internal PSU.

To remove an EPS-600LS unit:


2 Release the cable clip securing the AC power cord to the EPS-600LS unit.

3 Disconnect the AC power cord from the EPS-600LS unit.

4 Loosen the captive screws on the EPS-600LS unit securing it to the EPS-C.

5 Slide the EPS-600LS unit out of the EPS-C.

Installing Summit X650 Series Power Supplies

The Summit X650 series switches have two bays to accommodate either AC or DC power supplies. In a redundant power configuration, both power supplies must be the same type, either two AC supplies or two DC supplies. The Summit X650 series switches do not support mixing AC and DC power supplies in the same switch.

Installing an AC Power Supply

To install a Summit X650 series AC power supply:

1 If necessary, remove a blank cover from a power supply bay.

2 Align the power supply with the




6

Summit Option Cards

This chapter describes Summit option cards available for use with Summit X350 series, X450 series,

X450a series, and X450e series switches. The chapter includes the following sections

●

●

●

●

●

●

●

●

Overview on page 143

Safety Information on page 144

Summit XGM-2xn Option Card on page 144

Summit XGM2-2xn Option Card on page 145

Summit XGM2-2xf Option Card on page 146

Summit XGM2-2sf Option Card on page 147

Summit XGM2-2bt Option Card on page 147

Installing a Summit Port Option Card on page 148

NOTE

Read the information in this chapter thoroughly before attempting to install or remove a Summit option card.

Overview

Five types of Summit port option card are available for the Summit X350, X450, X450a, and X450e series switches:

●

●

●

●

●

Summit XGM-2xn option card: Adds one or two 10-gigabit XENPAK optical transceivers to a

Summit X450 series switch.

Summit XGM2-2xn option card: Adds one or two 10-gigabit XENPAK optical transceivers to a

Summit X450a series or X450e series switch.

Summit XGM2-2xf option card: Adds one or two 10-gigabit XFP modules to a Summit X350 series,

X450a series or X450e series switch.

XGM2-2sf option card: Adds one or two 10-Gigabit SFP+ modules to a Summit X350 series, X450a series, or X450e series switch.

XGM2-2bt option card: adds one or two fixed 10GBASE-T ports to a Summit X350 series, X450a series, or X450e series switch.

These option cards are installed in an option slot on the rear panel of compatible switches. The option slot is covered by a blank panel if the option card is not installed.


144



CAUTION

Pluggable optical modules may become very hot after prolonged use. Take care when removing a pluggable optical module from the option card. If the pluggable optical module is too hot to touch, disengage the module and allow it to cool before removing it completely.


Before installing a Summit option card into your network:

●

●

Read the latest installation and safety information in this chapter and the section specific to the optic type you are installing.

See

Appendix A, “Safety Information,”

for additional safety information and Appendix B, “Technical

Specifications,” for additional information regarding regulatory compliance certifications.

WARNING!

When working with laser optic modules, always take the following precautions to prevent exposure to hazardous radiation:

●

●

●

●

Never look at the transmit LED/laser through a magnifying device while it is powered on.

Never look directly at a fiber port on the switch or at the ends of a fiber cable when they are powered on.

Invisible laser radiation can occur when the connectors are open. Avoid direct eye exposure to the beam when optic connections are unplugged.

Never alter, modify, or change an optic device in any way other than suggested in this document.

Summit XGM-2xn Option Card

●

●

The Summit XGM-2xn option card allows you to add up to two 10-gigabit XENPAK modules to the following switches:

Summit X450-24x switch, running ExtremeXOS 11.2.0 (or later)

Summit X450-24t switch, running ExtremeXOS 11.2.0 (or later)

●

●

●

●

●

The Summit XGM-2xn option card is compatible with the following 10-gigabit XENPAK modules:

SR XENPAK module, operating in the 850 nm range

LR XENPAK module, operating in the 1310 nm range

ER XENPAK module, operating in the 1550 nm range

ZR XENPAK module, operating in the 1550 nm range

LX-4 XENPAK module, operating in the 1269-1355 nm range

For more information about these XENPAK modules, refer to the Extreme Networks Pluggable Interface

Modules Installation Guide .


NOTE

The ExtremeXOS software also recognizes standards-based CX-4 XENPAKs; contact your CX-4 module vendor to obtain these.

Mixing ZR XENPAKs with Other Types

Table 25 lists the supported combinations of XENPAK types using ZR XENPAKs in a Summit X450

series switch. You can either install one ZR XENPAK and leave one slot empty or install one ZR

XENPAK and one SR XENPAK; the Summit X450 series switch does not support any other XENPAK combinations when a ZR XENPAK module is installed. You must put the specified modules in the specified slots, as shown in

Table 25 , for the switch to discover the ZR XENPAK correctly.

.

Table 25: Summit X450 ZR XENPAK Combinations

Left Slot

ZR XENPAK

ZR XENPAK

Right Slot

Empty

SR XENPAK

Summit XGM2-2xn Option Card

●

●

●

●

●

●

●

The Summit XGM2-2xn option card allows you to add up to two 10-gigabit XENPAK modules to the following switches:

Summit X450a-24t switch, running ExtremeXOS 11.5.0 (or later)

Summit X450a-24tDC switch, running ExtremeXOS 11.5.0 (or later)

Summit X450a-24x switch, running ExtremeXOS 11.6.1 (or later)

Summit X450a-24xDC switch, running ExtremeXOS 11.6.1 (or later)


Summit X450e-24p switch, running ExtremeXOS 11.5.0 (or later)


●

●

●

●

●

●

The Summit XGM2-2xn option card is compatible with the following 10-gigabit XENPAK modules:

SR XENPAK module, operating in the 850 nm range

LR XENPAK module, operating in the 1310 nm range

ER XENPAK module, operating in the 1550 nm range

ZR XENPAK module, operating in the 1550 nm range

LX-4 XENPAK module, operating in the 1269-1355 nm range

LW XENPAK module, operating in the 1310 nm range

Figure 112

shows the Summit XGM2-2xn option card.



Figure 112: Summit XGM2-2xn Option Card

146

SH_010

NOTE

Refer to the Extreme Networks Pluggable Interface Modules Installation Guide for more information about XENPAK modules.

Standards-based CX-4 XENPAKs are also recognized by ExtremeXOS; contact your CX-4 module vendor to obtain these.

Summit XGM2-2xf Option Card

●

●

●

●

●

●

●

The Summit XGM2-2xf option card allows you to add up to two 10-gigabit XFP modules to the following switches:


Summit X450a-24tDC switch, running ExtremeXOS 11.5.0 (or later)

Summit X450a-24x switch, running ExtremeXOS 11.6.1 (or later)

Summit X450a-24xDC switch, running ExtremeXOS 11.6.1 (or later)




●

●

The Summit XGM2-2xf option card is compatible with the following 10-gigabit XFP modules:

LR XFP module

SR XFP module

Figure 113

shows the Summit XGM2-2xf option card.


Figure 113: Summit XGM2-2xf Option Card

SH_011

NOTE

Refer to the Extreme Networks Pluggable Interface Modules Installation Guide for more information about XFP modules.

Summit XGM2-2sf Option Card

The XGM2-2sf option card allows you to add one or two 10-Gigabit SFP+ modules to the following switches:

● Summit X350 series switch, running ExtremeXOS 12.2.1 or later

●

●

Summit X450a series switch, running ExtremeXOS 12.2.1 or later

Summit X450e series switch, running ExtremeXOS 12.2.1 or later

For current information about compatible SFP+ modules and the minimum required software, refer to the most recent version of the ExtremeXOS release notes.

Summit XGM2-2bt Option Card

The XGM2-2bt option card allows you to add two fixed 10GBASE-T ports to the following switches:

● Summit X350 series switch, running ExtremeXOS 12.2.1 or later

●

●

Summit X450a series switch, running ExtremeXOS 12.2.1 or later

Summit X450e series switch, running ExtremeXOS 12.2.1 or later

The 10GBASE-T standard (IEEE 802.3an) allows the use of standard CAT5E, CAT6, or CAT6A cable for

connection to the XGM2-2bt ports (see Table 26 ).

Table 26: Cable Distances for the XGM2-2bt Option Card

Cable Type

CAT5E

CAT6

CAT6A


55 meters

75 meters

100 meters


148


Installing a Summit Port Option Card

CAUTION

Summit port option cards are not hot-swappable. Disconnect power to the switch before installing or removing a

Summit option card. After the Summit port option card is installed in a compatible switch, you can hot-swap pluggable optical modules. Use only optical modules approved by Extreme Networks.

●

●

You need the following tools and equipment to install a Summit option card:


# 1 Phillips screwdriver

CAUTION


All Summit port option cards are installed the same way. The instructions in this section apply to all option cards for the Summit X350, X450a, and X450e series switches.

To install the Summit port option card:

1 Disconnect the AC power and any redundant power supply from the Summit switch.

2 Attach the ESD-preventive wrist strap to your wrist and connect the metal end to the equipment rack.

3 Remove the screws holding the filler panel over the option slot on the back of the switch

(

Figure 114 ). Remove the filler panel and set it aside. Save the screws for re-use.

Figure 114: Option Slot Filler Panel

Filler Panel

ES4K041

4 Align the sheet metal edges on the option card with the card guides in the switch housing. Carefully slide the option card into the switch housing until the connectors engage and the card is flush with the back panel of the switch (

Figure 115 ).


Figure 115: Installing a Summit Port Option Card (XGM-2xn Shown)

Summit Option

Card

ES4K042

5 Using the screws from the cover plate, secure the option card to the back panel of the switch.

For information about installing or replacing the pluggable optical modules in the Summit option card, refer to the Extreme Networks Pluggable Interface Modules Installation Manual .

NOTE

If you install only one pluggable optical module in the Summit option card, attach the appropriate cover plate or dust cover over the remaining open optical module slot or cage.

Be sure that the switch option slot always has either an installed Summit option card or a faceplate over the opening. An open slot could divert air from the switch and cause overheating.




7

Maintenance Procedures for Summit X650

Series Switches

This chapter describes how to replace components in a Summit X650 series switch. This chapter includes the following sections:

●

●

●

Replacing a Summit X650 AC PSU on page 151

Replacing a Summit X650 Fan Module on page 157

Replacing a Versatile Interface Module (VIM1) on page 158

NOTE

Read the information in this chapter thoroughly before attempting to replace one of the listed Summit X650 components.

Replacing a Summit X650 AC PSU

In a redundant power configuration, you can replace one Summit X650 AC PSU without powering down the switch.

●

●

You need the following tools and materials to replace a Summit X650 AC PSU:


Thermal protective gloves

To replace a Summit X650 AC PSU:

1 Attach an ESD-preventive wrist strap to your bare wrist and connect the metal end to an appropriate grounding point.

2 Disconnect the AC power cord from the wall outlet.

3 Rotate the wire retainer to the left and out of the way, and then disconnect the power cord.

4 Push the latching tab to the left as you pull outward on the handle to disengage the PSU internal

connectors (see Figure 116

).

Figure 116: Removing an AC PSU

S H_096


Maintenance Procedures for Summit X650 Series Switches

5 Carefully slide the PSU the rest of the way out of the switch.

CAUTION

Power supplies may become very hot during operation. Wear thermal protective gloves when you remove a power supply from an operating switch.

NOTE

If you are not installing a replacement PSU, install a cover over the unoccupied power supply bay. Unoccupied bays must always be covered to maintain proper system ventilation and EMI levels.

6 Verify that the replacement PSU is right side up, with the latching tab at the right of the unit (see

Figure 117 ).

7 Carefully slide the PSU all the way into the power supply bay (see

Figure 117


Figure 117: Installing an AC PSU

152

SH_089

CAUTION


8

Connect the power cord to the PSU ( Figure 118

): a Rotate the power cord retainer to the left.

b Connect the AC power cord to the input power connector.

c Rotate the power cord retainer to the right over the power cord connector.


Figure 118: Connecting the AC Power Cord

1 2

S H_105

9 Connect the other end of the power cord to a grounded AC power outlet.

WARNING!

Always be sure that the source outlet is properly grounded before plugging the AC power cord into the AC PSU.

Replacing a Summit X650 DC Power Supply

In a redundant power configuration, you can replace one Summit X650 DC PSU without powering down the switch.

You need the following tools and materials to replace a Summit X650 DC PSU:

● #1 Phillips screwdriver

●

●

●

Torque screwdriver and wrench or torque driver with attachments for tightening screws and nuts


Thermal protective gloves (required for removal of a PSU)

WARNING!

Be sure to disconnect all power cables before you disconnect the chassis ground wire.

Removing the PSU

To remove an installed Summit X650 DC PSU:



3 Disconnect the DC power cables as follows: a Slide the cover off the terminal block.

b Loosen the screws that secure the cable terminals to the terminal block.

c Slide the wires out from under the captive washers.



4 Disconnect the ground wire as follows: a Remove the screw that secures the ground wire to the PSU.

b Move the wire away from the PSU.

5 Push the latching tab to the left as you pull outward on the handle to disengage the PSU internal

connectors (see Figure 119

).

Figure 119: Removing a DC PSU

154

SH_113

Installing the Replacement PSU

To install a replacement Summit X650 DC PSU:

1 Verify that the PSU is right side up (see

Figure 120 )

2



CAUTION


Figure 120: Installing a Summit X650 DC PSU

SH_107


Connecting the Ground Wire

To connect the ground wire to the Summit X650 DC PSU:


2

Identify the grounding point on the front panel of the PSU (see Figure 121

).

3 Insert an M3.5 screw (provided) through the ring terminal and into the grounding point on the PSU.

4 Tighten the screw to 12.6 inch-pounds.


Figure 121: Connecting the Ground Wire

1

2

1 = Grounding point

2 = Ground wire

SH_108

Connecting the DC Power Cables

To connect the DC power cables to the Summit X650 DC PSU:



3

Slide the cover off the terminal block ( Figure 122

).

4 Connect the DC power input cables as follows: a On each terminal, loosen the screw enough to allow the spade terminal to slide underneath the captive square washer. b Slide the spade terminal of the negative wire (–48 V) under the captive square washer on the negative terminal (labeled –48V).

c Slide the spade terminal of the positive wire (–48 V RTN) under the captive square washer on the positive terminal (labeled RTN).




RTN

-48V

(+)

(–)

SH_111 d

Tighten both screws on the terminal block to 11 inch-pounds ( Figure 124

).

5

Slide the cover into place over the terminal block ( Figure 124

).



RTN

-48V

(+)

(–)

SH_112


Replacing a Summit X650 Fan Module

You need the following tools and equipment to replace a Summit X650 series fan module:

● ESD-preventive wrist strap

● 1/2-inch flat-blade screwdriver

CAUTION

Be sure to finish the replacement procedure promptly. The switch may overheat if it is left without cooling for an extended period.

To replace the fan module:

1

Completely loosen the captive retaining screws at the lower corners of the fan module ( Figure 124 ).

2 Slide the fan module out of the switch and set it aside.



Figure 124: Removing a Fan Module

SH_090

3

Carefully slide the replacement fan module into the switch ( Figure 125 ).

Figure 125: Installing a Fan Module

158

SH_091

4 Align and fully tighten the captive retaining screws.

Replacing a Versatile Interface Module (VIM1)

You need the following tools and materials to replace a VIM1 module:

● ESD-preventive wrist strap

● #2 Phillips screwdriver

CAUTION

Summit VIM1 modules are not hot-swappable. Disconnect power to the switch before removing an installed VIM1 module. After a VIM1 module is installed in a compatible switch, you can hot-swap SFP and SFP+ modules. Use only SFP and SFP+ modules approved by Extreme Networks.

To replace a VIM1 module:


2 Disconnect the switch power.

3 Remove the installed VIM1 module (

Figure 126 ):


a Remove the retaining screws at the top corners of the module, and set the screws aside in a safe place.

Save the retaining screws to secure the new module in the switch.

b Rotate the inserter/extractor levers downward to disconnect the internal module connectors.

c Carefully slide the module out of the switch and set it on an anti-static surface.

Figure 126: Removing a VIM1 Module (VIM1-SummitStack Module Shown)

S H_092

4 Remove the replacement VIM1module from its anti-static packaging.

5 Install the replacement VIM1 module in the switch (

Figure 127 ):

a Make sure the inserter/ejector levers are rotated down.

b Carefully slide the module into the switch until the inserter/ejector levers begin to rotate upward.

c Simultaneously rotate both levers upward to seat the module internal connectors.

d Insert and tighten the retaining screws you removed earlier.

Figure 127: Installing a VIM1 Module

S H_093




3

Appendices

A


WARNING!

Read the following safety information thoroughly before installing Extreme Networks products. Failure to follow this safety information can lead to personal injury or damage to the equipment.


This appendix includes the following sections:

●

Considerations Before Installing on page 163

●

●

Installing External Power Supply Units on page 164

Maintenance Safety on page 165

●

●

●

●

●

General Safety Precautions on page 165

Cable Routing for LAN Systems on page 165

Selecting Power Supply Cords on page 166

Battery Replacement and Disposal on page 167

Fiber Optic Ports—Optical Safety on page 168

Considerations Before Installing

Consider the following items before installing equipment.

● The system is designed to operate in a typical environmentally controlled Telco environment. Choose an indoor area that has the following characteristics:

■

■

■

Temperature- and humidity-controlled, such that the maximum ambient room temperature shall not exceed 40ºC (104ºF)

Clean and free from airborne materials that can conduct electricity

Well ventilated and away from sources of heat including direct sunlight

●

●

●

■

■

Away from sources of vibration or physical shock

Isolated from strong electromagnetic fields produced by electrical devices

■ Secured, enclosed, and restricted-access, ensuring that only trained and qualified service personnel have access to the equipment

Establish at least 3 inches clearance on all sides for effective ventilation. Do not obstruct the air intake vent on the front, side, or rear ventilation grills. Locate the system away from heat sources.

Make sure that your equipment is placed in an area that accommodates the power consumption and component heat dissipation specifications.

Make sure that your power supplies meet the site power or AC power requirements of the all network equipment.


164


Installing External Power Supply Units

For the ratings and power requirements of each power supply unit, see Appendix B, “Technical

Specifications” or the data sheet for the power supply at

http://www.extremenetworks.com

.

WARNING!

Be sure that the requirements listed in this section are satisfied when installing all Extreme Networks power supplies.

When you install external power supplies:

● Plug power supplies only into properly grounded electrical outlets to help prevent electrical shock and comply with international safety standards.

●

●

Use only power cords that are certified for use within the country of use. Do not attempt to modify

AC power cords.

Make sure the wall outlet is installed near the equipment and is easily accessible for quick disconnect.

●

●

●

●

Make sure the voltage and frequency of your power outlet match the system electrical ratings for the equipment. The building and/or power source must provide overload protection.

Use a surge suppressor, line conditioner, or uninterruptible power supply to protect the system from momentary increases or decreases in electrical power.

When inserting a power supply into the bay, do not use excessive force.

If multiple power supplies are used with a switch, connect each power supply to a different, independent power source. If a single power source fails, it will affect only that power supply to which it is connected. If all the power supplies on a single switch are connected to the same power source, the entire switch is vulnerable to a power failure.

WARNING!

Wiring a DC power cord to your facility DC source voltage must be performed by a qualified, licensed electrician.

Extreme Networks AC external power supplies do not have switches for turning the unit on and off. Remove the wall plug from the electrical outlet to disconnect the power from an Extreme Networks AC external power supply. Make sure that this connection is easily accessible.

Do not connect an EPS-600LS power supply to an electrical outlet when the power supply is outside the EPS-C chassis; doing so would expose a hazardous energy and poses a potential shock and fire hazard.

Do not put your hand into an open power supply bay when a power supply is not present. Empty power supply bays require a cover plate at all times.


Maintenance Safety

When you perform maintenance procedures on Extreme Networks equipment, follow these recommendations:

● Use only original accessories and/or components approved for use with this system. Failure to follow these instructions may damage the equipment or violate required safety and EMC regulations.

●

●

●

●

The chassis cover should only be removed by Extreme Networks personnel. There are no customer serviceable components in this system. Repairs to the system must be performed by an Extreme

Networks factory service technician.

In systems that have power-on buttons, the power on button may not turn off all system power. To remove power from the system, you must unplug all power cords from wall outlets. The power cord is the disconnect device to the main power source.

Disconnect all power cords before working near power supplies, unless otherwise instructed by a maintenance procedure.

Replace a power cord immediately if it shows any signs of damage.

●

●

When you work with optical devices, power supplies, or other modular accessories, put on an ESDpreventive wrist strap to reduce the risk of electronic damage to the equipment. Connect the other end of the strap to an appropriate grounding point on the equipment rack. Leave the ESD-preventive wrist strap permanently attached to the equipment rack so that it is always available when you need to handle ESD-sensitive components.

Install all cables in a manner that avoids strain. Use tie wraps or other strain relief devices.

General Safety Precautions

Follow these guidelines:

● Do not try to lift objects that you think are too heavy for you.

●

●

When you are installing equipment in a rack, load heavier devices in the lower half of the rack first to avoid making the rack top-heavy.

For Summit desktop equipment installations, do not place a monitor or other objects on top of the equipment. The chassis cover is not designed to support weight.

●

●

Only use tools and equipment that are in perfect condition. Do not use equipment with visible damage.

Routing cables: Route cables in a manner that prevents possible damage to the cables and avoids causing accidents, such as tripping.

Cable Routing for LAN Systems

The Summit family switches meet the requirements for LAN system equipment. LAN systems are designed only for intra-building installations; that is, cable runs between devices must be in the same building as the connected units.


166


This equipment can be connected between buildings if any one of the following conditions is true:

● Cable runs between buildings are less then 140 feet long.

●

●

Cable runs between buildings are directly buried.

Cable runs between buildings are in an underground conduit, where a continuous metallic cable shield or a continuous metallic conduit containing the cable is bonded to each building grounding electrode system.

CAUTION

Failure follow these requirements for cable routing conditions may expose the user to electrical shock and expose the unit to errors or damage.

WARNING!

The intra-building ports of the equipment or subassembly is suitable for connection to intrabuilding or unexposed wiring or cabling only. The intra-building port(s) of the equipment or subassembly MUST NOT be metallically connected to interfaces that connect to the outside plant (OSP) or its wiring. These interfaces are designed for use as intra-building interfaces only (Type 2 or Type 4 ports as described in GR-1089-CORE, Issue 4) and require isolation from the exposed OSP cabling. The addition of Primary Protectors is not sufficient protection in order to connect these interfaces metallically to OSP wiring.

PoE Devices

When connecting power over Ethernet (PoE) devices to a PoE switch, all connections between the PoE device and the switch must remain inside the same building and use a low-voltage power distribution system per IEEE 802.3af.

Selecting Power Supply Cords

Extreme Networks provides power input cords shipped in the product box for use in the US and

Canada. Power supply cords for use outside of the United States and Canada are typically provided separately by third-party distribution centers. Contact the Extreme Networks TAC for questions regarding the proper selection of a power input cord for your specific switch.

The following are power cord requirements for use on AC-powered Summit family switches and compatible external power supplies:

● Wire: 18 AWG (.823mm

2 ) minimum, 3-conductor flexible cable, Type SVT, SJT, HAR or equivalent, no longer then 15ft

●

●

●

Wall plug: Suitable for use in country of installation & approved by local regulatory authority

Device connector: IEC320-C13, rated at 10 A, 250 VAC

Power cord assembly: Must be rated at 10A, 250V by in-country regulatory authority

WARNING!

When using multiple power supplies, make sure that each power supply is attached to independent circuits breakers.

See the installation instructions for the power supply for proper sizing of circuit breaker.

Make sure that the source outlet is properly grounded according to the country’s local electrical requirements before


plugging the AC supply power cord into a power supply.

For specific product input power requirements refer to the data sheet of the product or modular power supply at http://www.extremenetworks.com or to

Appendix B of this guide.

The following countries have specific safety instructions concerning power connectors:

● Argentina: The supply plug must comply with Argentinean standards.

●

●

Australia: Use AS 3112 for 110/220 VAC power supplies.

Denmark: The supply plug must comply with section 107-2-D1, standard DK2-1a or DK2-5a.

●

●

●

●

●

International: Use CEE 7/7 for 110/220 VAC power supplies.

Japan:

●

●

Use JIS 8303 for 110/220 VAC power supplies.

The power cord provided with the power supply, switch, or chassis is for use only with that specific product from Extreme Networks; it is not for use with any other product from Extreme

Networks or any other vendors' equipment.

North America: The cord set must be cULus listed or cCSAus listed.

Switzerland: The supply plug must comply with SEV/ASE 1011.

United Kingdom: Use BS 1363 for 110/220 VAC power supplies.

NOTE

This equipment is not intended to be directly powered by power distribution systems where phase-phase voltages exceed 240V AC (2P+PE), such as those used in Norway, France, and other countries. For these applications it is recommended that a transformer be used to step down the voltage to < 240V AC from phase-phase, or that you make a connection to a (P+N+PE) power distribution where voltages do not exceed 240V AC.

All installations should confirm that the product is reliably grounded according to the country’s local electrical codes.

NOTE

Building codes vary worldwide; therefore, Extreme Networks strongly recommends that you consult an electrical contractor to ensure proper equipment grounding and power distribution for your specific installation & country.

Battery Replacement and Disposal

Batteries included with Extreme products are encapsulated and must be replaced by qualified Extreme

Service personnel only. Contact your Extreme Service personnel for product replacement. Do not attempt to replace the battery. If these instructions are disregarded and replacement of these batteries is attempted, the following guidelines must be followed to avoid danger of explosion:

●

●

Replace with the same or equivalent battery type as recommended by the battery manufacturer.

Dispose of the battery in accordance with the battery manufacturer’s recommendation.


168


Fiber Optic Ports—Optical Safety

The following safety warnings apply to all optical devices used in Extreme Networks equipment that are removable or directly installed in an I/O module or chassis system. Such devices include but are not limited to gigabit interface converters (GBICs), small form factor pluggable (SFP) modules (or mini-

GBICs), XENPAK transceivers, and XFP laser optic modules.

WARNING!

Laser optic modules become very hot after prolonged use. Be careful when removing a laser optic module from the chassis or option card. If the laser optic module is too hot to touch, disengage the laser optic module and allow it to cool before removing it completely.

WARNING!

When working with laser optic modules, always take the following precautions to avoid exposure to hazardous radiation.

●

●

●

Never look at the transmit LED/laser through a magnifying device while it is powered on.

Never look directly at a fiber port on the switch or at the ends of a fiber cable when they are powered on.

●

Invisible laser radiation can occur when the connectors are open. Avoid direct eye exposure to the beam when optical connections are unplugged.

Never alter, modify, or change an optical device in any way other than suggested in this document.

SFP (Mini-GBIC), XENPAK, and XFP Regulatory Compliance

Extreme Networks pluggable optical modules meet the following regulatory requirements:

● Class 1 Laser Product

●

●

●

EN60825-1+A2:2001 or later, European laser standard

FCC 21 CFR Chapter 1, Subchapter J in accordance with FDA & CDRH requirements

Application of CE Mark in accordance with 89/336/EEC EMC and 73/23/EEC Low Voltage

Directives

●

●

UL and/or CSA registered component for North America

47 CFR Part 15, Class A when installed into Extreme products

NOTE

Extreme Networks optical modules are tested to work in all supported Extreme Networks switches. We recommend that all customers use Extreme Networks optical modules in their Extreme Networks switches. Extreme Networks assumes no liability for third-party optical modules. Although Extreme Networks does not block third-party optical modules, we cannot ensure that all third-party optical modules operate properly in all Extreme Networks switches.

The customer assumes all risks associated with using third-party optical modules in Extreme Networks switches.


Sicherheitshinweise

WARNUNG!

Vor der Installation der Produkte von Extreme Networks sind die nachfolgenden Sicherheitshinweise aufmerksam zu lesen. Die Nichtbeachtung dieser Sicherheitshinweise kann zu Verletzungen oder Schäden an der Ausrüstung führen.

Installation, Wartung und Ausbau eines Switch, einer Grundplatte oder einer seiner Komponenten dürfen nur von geschultem und qualifiziertem Servicepersonal durchgeführt werden! Geschulte und qualifizierte Servicetechniker verfügen über die erforderliche technische Ausbildung und Erfahrung, um mögliche Gefahren bei der Durchführung von Servicearbeiten zu erkennen und Maßnahmen zur

Minimierung der Gefahr für sich bzw. andere zu treffen.

Hinweise zur Installation

WARNUNG!

Beachten Sie vor der Installation der Ausrüstung folgende Punkte.

Stellen Sie sicher, dass die nachfolgend aufgeführten Bedingungen erfüllt sind:

● Das System ist für den Einsatz in einer typischen Umgebung gemäß Telco-Vorgaben vorgesehen.

Wählen Sie einen Aufstellort mit den folgenden Eigenschaften:

■

■

■

Innenbereich mit Temperatur- und Feuchtigkeitsregelung, wobei die maximale Raumtemperatur

40°C (104ºF) nicht überschreiten darf.

Sauber und frei von elektrisch aufladbaren Teilchen in der Luft.

Ausreichende Belüftung und Abstand zu Wärmequellen, einschließlich direktem Sonnenlicht

●

●

●

●

●

■

■

■

■

Ausreichender Abstand zu Quellen, die Erschütterungen oder Schläge/Stöße hervorrufen können

Isolierung von starken elektromagnetischen Feldern, wie sie durch Elektrogeräte erzeugt werden

Sicherer, abgeschlossener Arbeitsbereich mit beschränktem Zugang, sodass nur geschultes und qualifiziertes Servicepersonal Zugriff auf das Gerät hat

Die Ausrüstung im unteren Teil des Gestells installieren, um zu vermeiden, dass der obere Teil des Gestells zu schwer wird.

In für elektrische Stürme anfälligen Gebieten wird empfohlen, das System an einen

Spannungsstoßunterdrücker anzuschließen.

Auf allen Seiten für mindestens 7,5 cm (3") Abstand sorgen, um eine ausreichende Belüftung zu gewährleisten. Die Lufteinlassöffnung an den vorderen, seitlichen und hinteren Entlüftungsgittern nicht blockieren. Das System nicht in der Nähe von Wärmequellen aufstellen.

Sicherstellen, dass die Ausrüstung in einem Bereich aufgestellt wird, der den Spezifikationen für

Leistungsaufnahme und Wärmeabstrahlung der Komponenten entspricht.

Sicherstellen, dass Ihre Netzteile die Anforderungen an die Strom- oder Wechselstromversorgung vor Ort für alle Netzwerkgeräte erfüllen.

Bei den Extreme-Produkten handelt es sich um digitale Geräte der Klasse A gemäß Teil 15 der FCC-

Richtlinien und anderen internationalen Richtlinien. Der Gerätebetrieb unterliegt den folgenden

Voraussetzungen: (1) Das Gerät kann schädliche Interferenzen verursachen, und (2) das Gerät muss


170

Safety Information jede empfangene Interferenz zulassen, einschließlich einer Interferenz, die einen unerwünschten

Betrieb verursachen kann.

Installation von Netzteilen

WARNUNG!

Bei der Installation sämtlicher Netzteile von Extreme Networks muss sichergestellt werden, dass die nachfolgend aufgeführten Anforderungen erfüllt sind. Angaben zu Nennleistung und Leistungsbedarf finden sich in den

Installationsanweisungen für das jeweilige Netzteil (Power Supply Unit, PSU).

Folgende Anforderungen müssen unbedingt erfüllt sein:

● Wenn der mit Wechsel- oder Gleichstrom betriebene Switch von Extreme Networks mit einem externen grünen/gelben Erdungskabel ausgestattet ist, dann muss zunächst dieses Erdungskabel zwischen der Grundplatte und einem geeigneten Erdungspunkt angeschlossen werden, bevor andere

Verbindungen zum Gerät hergestellt werden; dies gilt auch für den Anschluss an das Wechsel- bzw.

Gleichstromnetz. Beim Ausbau des Geräts aus dem Gestell muss das Erdungskabel als letztes getrennt werden.

●

●

●

●

Netzteile nur an vorschriftsmäßig geerdete Steckdosen anschließen, um die Gefahr elektrischer

Schläge zu vermeiden und die Konformität mit internationalen Sicherheitsnormen zu gewährleisten.

Nur Stromkabel verwenden, die für den Einsatz in dem jeweiligen Land zugelassen sind.

Wechselstromkabel dürfen nicht manipuliert werden.

Die Wandsteckdose muss in der Nähe der Anlage installiert und leicht zugänglich sein, um eine schnelle Trennung vom Netz zu ermöglichen.

Spannung und Frequenz der Steckdose müssen den elektrischen Nenndaten des Systems entsprechen. Das Gebäude bzw. die Stromquelle muss mit einem Überlastschutz ausgestattet sein.

●

●

●

Einen Spannungsstoßunterdrücker, einen Netzfilter oder eine unterbrechungsfreie Stromversorgung verwenden, um das System vor einer vorübergehenden Zu- oder Abnahme der elektrischen Leistung zu schützen.

Bei laufendem Betrieb austauschbare Netzteile: Das Netzteil vorsichtig, nicht mit Kraft in das

Aufnahmefach einsetzen.

Bei Einsatz mehrer Netzteile in einem Switch sind die Netzteile jeweils an unterschiedliche, unabhängige Stromquellen anzuschließen. Auf diese Weise ist bei einem Ausfall einer einzelnen

Stromquelle nur das daran angeschlossene Netzteil betroffen. Wenn alle Netzteile eines einzelnen

Switch an dieselbe Stromquelle angeschlossen sind, ist der gesamte Switch für einen Ausfall der

Stromversorgung anfällig.

Leistungsspezifikationen für Netzteile von Extreme Networks finden sich in Anhang B dieses

Dokuments oder im Netzteil-Datenblatt unter http://www.extremenetworks.com

.

WARNUNG!

Die 325 W DC-Netzteile von Extreme Networks sind nicht mit Ein-/Ausschaltern ausgestattet. Vor dem Einstecken des Gleichstromkabels in den Gleichstromanschluss des 325 W DC-Netzteils von Extreme Networks sowie vor dem

Abziehen des Kabels sicherstellen, dass der Gleichstromkreis abgeschaltet ist.

Das Gleichstromkabel des 325 W DC-Netzteils muss von einem qualifizierten, zugelassenen Elektriker an die

Gleichspannungsquelle in Ihrem Gebäude angeschlossen werden.

Extreme Networks 325 W AC Netzteile haben keinen An- Aus Schalter. Die Stromzufuhr zu einem Extreme Networks


325 W AC Netzteil wird durch das Ziehen des Netzkabels unterbrochen. Es ist sicherzustellen das diese Verbindung leicht zugänglich ist.

Das Netzteil nicht ausserhalb von dem Gehäuse an das Netz anschliessen da hierdurch gefährliche Spannungen zugänglich werden sowie die Gefahr von einem elektrischem Schlag und/ oder Feuergefahr besteht.

Nicht die Hand in den Netzteilschacht einführen wenn das Netzteil entfernt ist. Leere Netzteilschächte müssen immer mit eine Abdeckplatte bedeckt sein.

Wartungssicherheit

Folgende Vorsichtsmaßnahmen müssen getroffen werden:

● Nur für den Einsatz mit diesem System zugelassene Originalzubehörteile bzw. -komponenten verwenden. Die Nichtbeachtung dieser Anweisungen kann zu Schäden an der Ausrüstung oder sogar zu einem Verstoß gegen die erforderlichen Sicherheitsbestimmungen und EMV-Vorschriften führen.

●

●

Die Abdeckung der Grundplatte darf nur durch Personal von Extreme Networks entfernt werden.

Das System enthält keine vom Kunden zu wartenden Komponenten. Reparaturen am System sind von einem Werkstechniker von Extreme Networks durchzuführen.

Der An-/Aus-Schalter des Systems darf nicht die gesamte Stromversorgung zum System unterbrechen. Zur Unterbrechung der Wechselstromversorgung zum System müssen alle Stromkabel aus den Wandsteckdosen gezogen werden. Das Stromkabel dient zur Trennung von der

Netzstromversorgung.

●

●

●

●

●

Vor dem Entfernen der Rückwand eines Extreme Networks-Switch muss die gesamte Stromzufuhr unterbrochen werden.

Vor der Aufnahme von Arbeiten in der Nähe von Stromquellen alle Stromkabel abziehen, sofern nicht im Rahmen eines Wartungsverfahrens anders vorgegeben.

Beim Umgang mit Modulen, optischen Geräten, Netzteilen oder anderen modularen Zubehörteilen das ESD-Schutzarmband anlegen, um das Risiko einer Beschädigung der Geräte durch elektrostatische Entladungen zu verringern. Das Armband zum Schutz elektrostatisch gefährdeter

Bauteile (ESB) grundsätzlich an der Grundplatte befestigt lassen, damit es beim Umgang mit diesen

Bauteilen immer zur Hand ist.

Alle Kabel so verlegen, dass übermäßige Belastungen vermieden werden. Kabelbinder oder

Zugentlastungsklemmen verwenden.

Ein Stromkabel bei Anzeichen von Beschädigungen unverzüglich austauschen.

Allgemeine Sicherheitsvorkehrungen

Folgende Richtlinien sind unbedingt zu befolgen:

● Keine Gegenstände heben, die möglicherweise zu schwer sind.

●

●

●

Bei einer Installation in einem Gestell darauf achten, dass schwere Geräte unten im Gestell eingebaut werden, um Gefahren durch Umkippen zu vermeiden.

Bei Summit Desktop-Switches keinen Monitor oder andere Gegenstände auf die Anlage stellen. Die

Abdeckung der Grundplatte ist nicht darauf ausgelegt, Gewicht zu tragen.

Nur Werkzeuge und Ausrüstung verwenden, die sich in einwandfreiem Zustand befinden. Keine

Ausrüstung verwenden, die sichtbare Beschädigungen aufweist.


172


● Verlegen von Kabeln: Kabel so verlegen, dass keine Schäden entstehen oder Unfälle, z. B. durch

Stolpern, verursacht werden können.

Auswahl der Stromkabel

Je nachdem, welchen Switch Sie erworben haben, werden die Wechselstromnetzteile von Extreme

Networks entweder nur mit einem 110-VAC-Kabel oder mit einem 110-VAC-Kabel und einem 208/220-

VAC-Kabel geliefert. Die von Extreme Networks gelieferten Stromkabel sind nur für den Einsatz in den

Vereinigten Staaten und Kanada ausgelegt und zugelassen. Stromkabel für den Einsatz außerhalb der

Vereinigten Staaten und Kanada werden normalerweise von einem Drittanbieter geliefert und müssen die folgenden Anforderungen erfüllen:

●

●

Die Stromkabel müssen offiziell für das Land zugelassen sein, in dem sie verwendet werden sollen.

Die Stromkabel müssen mit einem für das Einsatzland zugelassenen Wandsteckkontakt mit der geeigneten Nennleistung ausgerüstet sein.

●

●

●

Die Konfiguration der Steckvorrichtung (die Steckverbindung zur Einheit, nicht zur Wandsteckdose) muss für eine Gerätesteckdose gemäß EN60320/IEC320-C14 ausgeführt sein.

Die Länge der Stromkabel muss weniger als 5 m (15 Fuß) betragen.

Die Mindestspezifikation für das flexible Kabel lautet:

●

■

■

Nr. 18 AWG (0,823 mm2) für Einheiten mit einem Bemessungsstrom von weniger als 10 A, oder

Nr. 18 AWG (0,823 mm2) bis 2 m Länge für Einheiten mit einem Bemessungsstrom von 10 A oder höher, oder

■ Nr. 16 AWG (1,0 mm2) bis 5 m Länge für Einheiten mit einem Bemessungsstrom von 10 A oder höher

Bei allen Kabeln muss es sich um 3-adrige Kupferleiter vom Typ SVT oder SJT, HAR oder einen

äquivalenten Typ handeln.

Verwenden Sie immer ein Wechselstromkabel, das den Vorschriften Ihres Landes entspricht. Erkundigen

Sie sich über die örtlichen Vorschriften für Elektroinstallationen und fragen Sie bei den zuständigen

Aufsichtsbehörden nach den Anforderungen an Stromkabel. Nähere Angaben zu den

Leistungsspezifikationen von Netzteilen finden sich unter http://www.extremenetworks.com oder in

Anhang B dieses Dokuments.

WARNUNG!

Vor dem Anschließen des Wechselstromkabels an ein Netzteil muss sichergestellt werden, dass die Steckdose vorschriftsgemäß geerdet ist.

Für die unten aufgeführten Länder gelten zusätzlich folgende Anforderungen:

● Argentinien: Der Netzstecker muss den argentinischen Standards entsprechen.

●

●

Australien: Versorgungssteckdose, 15 A Minimum, AS 3112 für 110/220-VAC-Netzteile

Dänemark: Der Netzstecker muss die in Abschnitt 107-2-D1 der Norm DK2-1a oder DK2-5a aufgeführten Bestimmungen erfüllen.


●

●

●

●

●

●

Japan:

■

■

Versorgungssteckdose, 15 A, JIS 8303 für 110/220-VAC-Netzteile.

Das mit dem Netzteil, dem Switch oder der Grundplatte gelieferte Verbindungskabel ist nur für den Einsatz mit dem spezifischen Produkt von Extreme Networks vorgesehen und darf nicht mit anderen Geräten von Extreme Networks oder anderen Anbietern verwendet werden.

Nordamerika: Versorgungssteckdose, 15 A, NEMA 5-15 für 110-VAC-Netzteile und NEMA L6-15P für 208/220-VAC-Netzteile

Schweiz: Der Netzstecker muss der Richtlinie SEV/ASE 1011 entsprechen.

Großbritannien: Versorgungssteckdose, 15 A, BS 1363 für 110/220-VAC-Netzteile

International: Versorgungssteckdose, 15 A, CEE 7/7 für 110/220-VAC-Netzteile

Nur Frankreich und Peru:

Diese Einheit kann nicht über IT†-Netzteile mit Strom versorgt werden. Wenn Ihre Netzteile vom

Typ IT sind, muss dieses Gerät mit 230 V (2P+T) unter Verwendung eines Trenntrafos mit einem

Verhältnis von 1:1 versorgt werden. Der zweite Anschlusspunkt muss als neutral definiert und direkt an die Erde angeschlossen werden.

Hinweis: Die Bauvorschriften sind weltweit verschieden; Extreme Networks empfiehlt daher ausdrücklich, einen Elektroinstallateur zu beauftragen, um die sachgemäße Geräteerdung und

Stromverteilung für Ihre spezifische Installation sicherzustellen.

Austauschen und Entsorgen von Batterien

Im Umgang mit Batterien sind folgende Hinweise zu beachten:

● Austauschen der Lithium-Batterie: Die in diesem Gerät enthaltenen Batterien können nicht vom

Anwender ausgetauscht werden. Wenden Sie sich für einen Austausch des kompletten Gerätes bitte an die Servicemitarbeiter von Extreme. Sollte der Versuch eines Austausches unternommen werden, sind zur Vermeidung einer Explosionsgefahr folgende Richtlinien zu beachten: a Die Batterie nur durch eine identische oder eine gleichwertige, vom Hersteller empfohlene

Batterie ersetzen.

b Die Batterie gemäß den Empfehlungen des Herstellers entsorgen.

Lichtleiteranschlüsse: Optische Sicherheit

WARNUNG!

Beim Umgang mit Lichtleitermodulen sind folgende Vorsichtsmaßnahmen zu beachten:

●

●

●

●

Niemals durch ein Vergrößerungsgerät auf die übertragende LED/den Laser schauen, wenn diese(r) eingeschaltet ist.

Niemals direkt auf einen Lichtleiteranschluss am Switch oder auf die Enden eines Faserkabels schauen, wenn diese eingeschaltet sind.

Bei offenen Anschlüssen kann es zu unsichtbarer Laserstrahlung kommen. Direkter Augenkontakt mit dem

Strahl ist zu vermeiden.

Ein optisches Gerät niemals auf andere Weise verändern oder modifizieren als in diesem Dokument angegeben.



Einhaltung behördlicher Vorschriften durch SFP (Mini-GBIC), XENPAK und XFP

●

●

●

Laserprodukt der Klasse 1

EN60825-1+A2:2001 oder jünger, Europäische Richtlinie für Lasersysteme

Anwendung der CE-Kennzeichnung gemäß der Richtlinien 89/336/EWG EMV und 73/23/EWG für

Niederspannungsgeräte


B

Technical Specifications

This appendix includes the following specifications for Summit switch series and related components:

●


●

●



●

●

●

●

●

●


Summit X450a Series Switches on page 188



Summit External Power Supplies on page 199

Console Connector Pinouts on page 203


The Summit X150 series includes the following switches:


●

●



Table 27: Summit X150 Series Switch Technical Specifications

Physical Dimensions




Height: 1.73 inches (4.4 cm)

Width: 17.35 inches (44.1 cm)

Depth: 12.13 inches (30.8 cm)




Weight




Packaged Dimensions




12.01 lb (5.46 kg)

14.9 lb (6.8 kg)

15.1 lb (6.9 kg)

Height: 12.6 inches (32 cm)

Width: 23.6 inches (60 cm)

Depth: 18.5 inches (47 cm)



Depth: 22 inches (56 cm)

Packaged Weight



13.2 lb (6.0 kg)

14.9 lb (6.8 kg)


176


Table 27: Summit X150 Series Switch Technical Specifications (Continued)

15.1 lb (6.9 kg) Summit X150-48t switch

Summit X150-24t Power

Operational voltage range

Nominal input ratings

Input current

Line frequency range

Inrush current

Power supply cord type

Power supply input socket

Power cord input plug

Power cord wall plug

Power supply cord gauge

Efficiency

Heat dissipation (BTU)

Heat dissipation (Watts)

Power consumption (BTU)

Power consumption (Watts)

Summit X150-24p Power



Input current

90 to 264 V

100 to 240 V , 50/60 Hz, 1.0 A

0.5 A @ 115 V (low-line)

0.25 A @ 230 V (high-line)

47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14

IEC 320 C13

Refer to

“Selecting Power Supply Cords” on page 166

.

18 AWG (0.82mm

2 ) copper stranded

83%

122.8

36

122.8

36


Inrush current






Efficiency








Input current

90 to 264 V

100 to 240 V , 50/60 Hz, 5.25 A

4.4 A @ 115 V (low-line)

2.2 A @ 230 V (high-line)

47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14

IEC 320 C13

Refer to


.

18 AWG (0.82mm

2 ) copper stranded

81%

204.7

60

1706

500


Inrush current






90 to 264 V

100 to 240 V , 50/60 Hz, 1.0 A

0.6 A @ 115 V (low-line)


47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14

IEC 320 C13

Refer to


.

18 AWG (0.82 mm 2 ) copper stranded



Efficiency





Safety Standards

North American Safety of ITE

83%

170.6

50

170.6

50

European Safety of ITE

International Safety of ITE

UL 60950-1:2003 1st Ed., Listed Device (US)

CSA 22.2#60950-1-03 1st Ed.(Canada)

Complies with FCC 21CFR 1040.10 (US Laser Safety)

CDRH Letter of Approval (US FDA Approval)

IEEE 802.3af 6-2003 Environment A for PoE Applications

EN 60950-1:2001+A11

EN 60825-1+A2:2001 (Lasers Safety)

TUV-R GS Mark by German Notified Body

73/23/EEC Low Voltage Directive

CB Report & Certificate per IEC 60950-1:2001 Country Deviations

AS/NZX 60950-1 (Australia /New Zealand)

EMI/EMC Standards

North America EMC for ITE

European EMC standards

International EMC certifications

Country-specific

Telecom Standards

IEEE 802.3 Media Access Standards

FCC CFR 47 part 15 Class A (USA)

ICES-003 Class A (Canada)

EN 55022:1998 Class A

EN 55024:1998 Class A includes IEC 61000-4-2, 3, 4, 5, 6, 8, 11

EN 61000-3-2,3 (Harmonics & Flicker)

ETSI EN 300 386:2001 (EMC Telecommunications)

89/336/EEC EMC Directive

CISPR 22:1997 Class A (International Emissions)

CISPR 24:1997 Class A (International Immunity)

IEC/EN 61000-4-2 Electrostatic Discharge, 8kV Contact, 15kV Air,

Criteria A

IEC/EN 61000-4-3 Radiated Immunity 10V/m, Criteria A

IEC/EN 61000-4-4 Transient Burst, 1kV, Criteria A

IEC/EN 61000-4-5 Surge, 2kV L-L, 2kV L-G, Level 3, Criteria A

IEC/EN 61000-4-6 Conducted Immunity, 0.15-80MHz, 10V/m unmod.

RMS, Criteria A

IEC/EN 61000-4-11 Power Dips & Interruptions, >30%, 25 periods,

Criteria C

VCCI Class A (Japan Emissions)

AS/NZS 3548 ACA (Australia Emissions)

CNS 13438:1997 Class A (BSMI-Taiwan)

MIC Mark, EMC Approval (Korea)


ETSI EN 300 019 (Environmental for Telecommunications)

IEEE 802.3ab 1000BASE-T


178



Environmental Data

Environmental Standards

Operating conditions

Storage & transportation conditions

(packaged)

Acoustic noise (in dBA per ISO 7779)

EN/ETSI 300 019-2-1 v2.1.2 - Class 1.2 Storage

EN/ETSI 300 019-2-2 v2.1.2 - Class 2.3 Transportation

EN/ETSI 300 019-2-3 v2.1.2 - Class 3.1e Operational

EN/ETSI 300 753 (1997-10) - Acoustic Noise

ASTM D3580 Random Vibration Unpackaged 1.5G

Temperature range: 0° C to 40° C (32° F to 104° F)

Humidity: 95% relative humidity, non-condensing

Altitude: 0 to 3,000 meters (9,850 feet)

Shock (half sine): 30 m/s 2 (3 g), 11 ms, 60 shocks

Random vibration: 3 to 500 MHz @ 1.5g rms

Temperature: –40° C to 70° C (–40° F to 158° F)

Humidity: 60% to 95% relative humidity, non-condensing

Packaged shock (half sine): 180 m/s 2 (18 g), 6 ms, 600 shocks

Packaged sine vibration: 5 to 62 Hz @ velocity 5 mm/s,

62 to 500 Hz @ 0.2 G

Packaged random vibration: 5 to 20 Hz @ 1.0 ASD w/–3 dB/oct.

from 20 to 200 Hz

14 drops minimum on sides & corners @ 42" (<15 kg box)

Summit X150-24t: 45 (high fan speed)

37 (low fan speed)

Summit X150-24p: 44 (high fan speed)

39 (low fan speed)


37 (low fan speed)


The Summit X250e series includes the following switches:

● Summit X250e-24t switch

●

●



●

●

●

●

●






Table 28: Summit X250e Series Switch Technical Specifications








Summit X250e-48tDC









Table 28: Summit X250e Series Switch Technical Specifications (Continued)

Weight


Summit X250e-24tDC


Summit X250e-24x

Summit X250e-24xDC




12.01 lb (5.46 kg)

9.99 lb (4.49 kg)

14.9 lb (6.8 kg)

10.21 lb (4.64 kg)

9.97 lb (4.53 kg)

15.1 lb (6.9 kg)

12.14 lb (5.52 kg)

17.0 lb (7.7 kg)










Packaged Weight














Depth: 22 inches (56 cm)

13.2 lb (6.0 kg)

13.1 lb (6.0 kg)

13.2 lb (6.0 kg)

14.9 lb (6.8 kg)

15.1 lb (6.9 kg)

15.5 lb (7.0 kg)

17.0 lb (7.7 kg)

Summit X250e-24t Power



Input current


Inrush current



90 to 264 V

100 to 240 V , 50/60 Hz, 1.0 A

0.5 A @ 115 V (low-line)

0.25 A @ 230 V (high-line)

47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14




IEC 320 C13

Refer to


.

18 AWG (0.82mm

Efficiency 83%

2 ) copper stranded


Heat dissipation (BTU/hr))

36

122.8


Power consumption (BTU/hr))

36

122.8


180



Summit X250e-24p Power



Input current


Inrush current



90 to 264 V

100 to 240 V , 50/60 Hz, 5.25 A

4.4 A @ 115 V (low-line)


47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14




IEC 320 C13

Refer to


.

18 AWG (0.82mm

Efficiency 81%

2 ) copper stranded


Heat dissipation (BTU/hrs)

60

204.7


Power consumption (BTU/hrs)

500

1706

Summit X250e-24x Power



Input current


Inrush current



90 to 264 V

100 to 240 V , 50/60 Hz, 1.0 A

0.6 A @ 115 V (low-line)


47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14




IEC 320 C13

Refer to


.

18 AWG (0.82 mm

Efficiency 80%

2 ) copper stranded


Heat dissipation (BTU/hr)

46

157


Power consumption (BTU/hr)

46

157

Summit X250e-24xDC Power & Acoustic Sound

Operational voltage range -40 to -57.6 V


Input current

-48 V , 2.0 A

1.25 A a t -40 V (low-line)

0.75 A a t -57.6 V (high-line)

Inrush current


20 A at 48 V

30 A at 72 V

DC

Power cord input plug TYCO 206060-1





Efficiency





None provided

14 AWG copper stranded

83%

42

143.3

42

143.3

Summit X250e-24tDC Power



Input current

Inrush current





Efficiency





-40 to -57.6 V

-48 V , 2.0 A

0.

8 A a t -40 V (low-line)


20 A at 48 V, 30 A at 72 V

DC

TYCO 206060-1

None provided


78%

31

105.8

31

105.8

Summit X250e-48t Power



Input current


Inrush current



90 to 264 V

100 to 240 V , 50/60 Hz, 1.0 A

0.6 A @ 115 V (low-line)


47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14




IEC 320 C13

Refer to


.

18 AWG (0.82mm

Efficiency 83%

2 ) copper stranded



50

170.6



50

170.6


Operational voltage range 90 to 264 V


182




Input current


Inrush current






Efficiency





100 to 240 V , 50/60 Hz, 5.5 A

4.5 A @ 115 V (low-line)

2.25 A @ 230 V (high-line)

47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14

IEC 320 C13

Refer to


.


78%

75

255.9

525

1791.4

Summit X250e-48tDC Power



Input current

Inrush current





Efficiency









-40 to -57.6 V

-48 V , 2.0 A

1.25 A a t -40 V (low-line)


20 A @ 48 V, 30 A @ 72 V

DC

TYCO 206060-1

None provided


78%

47

160.4

47

160.4


CSA 22.2#60950-1-03 1st Ed.(Canada)




EN 60950-1:2001+A11












Country-specific



EN 55022:1998 Class A








Criteria A





RMS, Criteria A


Criteria C




MIC Mark, EMC Approval (North Korea)










(packaged)










Random vibration: 3 to 500 Hz @ 1.5g rms

Storage temperature: –40° C to 85° C (–40° F to 185° F)

Storage and transportation humidity: 60% to 95% relative humidity, non-condensing



62 to 500 Hz @ 0.2 G

Packaged random vibration: 5 to 20 Hz @ 1.0 ASD w/–3 dB/oct. from 20 to 200 Hz



184



Acoustic noise (in dBA per ISO 7779) Summit X250e-24t: 45 (high fan speed)

37 (low fan speed)

Summit X250e-24p: 44 (high fan speed)

39 (low fan speed)

Summit X250e-24x: 42 (high fan speed)

35 (low fan speed)

Summit X250e-24xDC: 45 (high fan speed)

37 (low fan speed)

Summit X250e-24tDC: 45 (high fan speed)

37 (low fan speed)

Summit X250e-48t: 47 (high fan speed)

37 (low fan speed)

Summit X250e-48p: 46 (high fan speed)

39 (low fan speed)

Summit X250e-48tDC: 47 (high fan speed)

37 (low fan speed)



● Summit X350-24t

● Summit X350-48t







Depth: 15.3 inches (38.9cm)




Weight






13.75 lb (6.24 kg)

15.75 lb (7.14 kg)


Width: 22.4 inches (57cm)


Packaged Weight



18.7 lb (8.5 kg)

20.4 lb (9.3kg)






Input current


Inrush current






Efficiency








Input current

90 to 264 V

100 to 240 V , 50/60 Hz, 1.0 A

0.75 A @ 115 V (low-line)

0.4A @ 230 V (high-line)

47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14

IEC 320 C13

Refer to


.

18 AWG (0.82mm

2 ) copper stranded

77%

255.9

75

255.9

75


Inrush current






Efficiency







90 to 264 V

100 to 240 V , 50/60 Hz, 1.0 A

1.45 A @ 115 V (low-line)

0.65 A @ 230 V (high-line)

47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14

IEC 320 C13

Refer to


.


81%

392.4

115

170.6

392.4




CSA 22.2#60950-1-03 1st Ed.(Canada)




EN 60950-1:2001+A11







186







Country-specific




EN 55022:1998 Class A








Criteria A





RMS, Criteria A


Criteria C




MIC Mark, EMC Approval (Korea)









(packaged)

Acoustic noise (in dBA per ISO 7779)










Random vibration: 3 to 500 MHz @ 1.5g rms

Storage temperature: –40° C to 70° C (–40° F to 158° F)




62 to 500 Hz @ 0.2 G

Packaged random vibration: 5 to 20 Hz @ 1.0 ASD w/–3 dB/oct. from

20 to 200 Hz



37 (low fan speed)

Summit X150-24p: 44 (high fan speed)

39 (low fan speed)


37 (low fan speed)













Weight



Power

Summit switch

Min voltage/associated current

Max voltage/associated current

Line frequency

Heat dissipation, Watts/BTU

Power supply cord selection

14 lb (6.35 kg)

13.8 lb (6.26 kg)

Auto-ranging 100 V to 240 V AC, 50/60 Hz

1.5 A at 100 V

1 A at 240 V AC

50 to 60 Hz

160 W/546 BTU/hr

Refer to


.









CSA 22.2#60950-1-03 1st Ed.(Canada)



NOM/NYCE (Mexico)


EN 60950-1:2001+A11








EN 55022:1998 Class A






188




Country-specific




IEC/EN 61000-4-2 Electrostatic Discharge, 8kV Contact, 15kV Air, Criteria A



IEC/EN 61000-4-5 Surge, 2kV, 4kV, Criteria A

IEC/EN 61000-4-6 Conducted Immunity, 0.15-80MHz, 10V/m unmod. RMS,

Criteria A


Criteria C








Environmental standards


Storage & transportation conditions (packaged)






Temperature range 0 °C to 40 °C (32 °F to 104 °F)

Humidity:10% to 95% relative humidity, non-condensing

Shock (half sine): 30 m/s 2 (3g), 11ms, 18 shocks

Random vibration: 3 to 500 Hz @ 1.5 g rms

Transportation temperature: –40° C to 70° C (–40° F to 158° F)



Packaged random vibration: 5 to 200 Hz @ 1.0 ASD (1m 2 /s 2 ), w/–3 dB/octave


Acoustic Sound ( Summit X450-24t and SummitX450-24x)

Sound power in accordance with

EN 300 753 (10-1997)

Sound power: 61 dBA per ISO 7779

Declared sound power: 6.3 belsA per ISO 7779 & ISO 9296

Sound pressure in accordance with NEBS GR-63 Issue 2

Bystander sound pressure: 49 dBA rear @ 0.6m


The Summit X450a series includes the following switches:

● Summit X450a-24t switch

●

●



●

●




Table 31: Summit X450a Series Switch Technical Specifications













Depth: 17 inches (43.2 cm)

Weight














Packaged Weight







Summit X450a-24t Power



Input current

13.75 lb (6.24 kg)

12.25 lb (5.57 kg)

13 lb (5.9 kg)

12.50 lb (5.67 kg)

15.75 lb (7.14 kg)

14.25 lb (6.50 kg)




18.7 lb (8.5 kg)

16.8 lb (7.7 kg)

18.7 lb (8.5 kg)

16.8 lb (7.7 kg)

20.4 lb (9.3 kg)

17.75 lb (8.0 kg)


Inrush current







Power consumption, Watts/BTU

Summit X450a-24tDC Power



90 to 264 V

100 to 240 V , 50/60 Hz, 1.0 A

1.0 A @ 115 V (low-line)


47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14

IEC 320 C13

Refer to


.


100 W/341.2 BTU/hr

100 W/341.2 BTU/hr

–36 to –72 V

–48 V , 2.0 A


190


Table 31: Summit X450a Series Switch Technical Specifications (Continued)

Nominal input current

Inrush current






Heat dissipation, Watts, BTU

Power consumption, Watts, BTU

2.0 A @ -36 V (low-line)

1.0 A @ -72 V (high-line)

20 A @ 48 V, 30 A @ 72 V

DC

TYCO PN 206061-1

TYCO PN 206060-1

None provided

14 AWG

75 W, 368.5 BTU/hr

75 W, 368.5 BTU/hr

Summit X450a-48t Power & Acoustic Sound




100 to 240 V , 50/60 Hz, 1.5 A

1.45 A @ 115 V (low-line)

0.65 A @ 230 V (high-line)


Inrush current



47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14






IEC 320 C13

Refer to


.

18 AWG (0.82 mm

2

) copper stranded

160 W, 511.8 BTU/hr

160 W, 511.8 BTU/hr

Summit X450a-48tDC Power


Nominal input voltage

Input current

Inrush current

Input wire harness




–36 to –72 V

–48 V , 4.5 A

4.0 A @ –36 V DC (low-line)

2.0 A @ –72 V DC (high-line)

29 A @ 48 V, 30 A @ 72 V

Extreme part number 250088

14 AWG

TYCO PN 206060-1

TYCO PN 206061-1

Summit X450a-24x Power & Acoustic Sound




100 to 240 V , 50/60 Hz, 1.0 A

1.0 A @ 115 V (low-line)



Inrush current





47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14

IEC 320 C13

Refer to


.






Summit X450a-24xDC Power



Input current











98 W, 334.4 BTU/hr

98 W, 334.4 BTU/hr

–36 to –72 V

–48 V , 2.5 A

2.5 A @ -36 V (low-line)

1.25 A @ -72 V (high-line)

DC

TYCO PN 206061-1

TYCO PN 206060-1

None provided

14 AWG

98 W, 334.4 BTU/hr

98 W, 334.4 BTU/hr




CSA 22.2#60950-1-03 1st Ed.(Canada)




EN 60950-1:2001+A11










Country-specific



EN 55022:1998 Class A








Criteria A





RMS, Criteria A


Criteria C






192












(packaged)

Sound power in accordance with EN

300 753 (10-1997)

Summit X450a-24t and X450a-48t

Bystander sound pressure in accordance with NEBS GR-63 Issue 2

Summit X450a-24t and X450a-48t











Transportation temperature: -40° C to 70° C (-40° F to 158° F)




62 to 500 Hz @ 0.2 G



Sound power: 62 dBA per ISO 7779

Declared sound power: 6.4 belsA per ISO 7779 & ISO 9296

Bystander sound pressure: 54 dBA right side @ 0.6m


The Summit X450e series includes the following switches:

● Summit X450e-24p switch

● Summit X450e-48p switch

Table 32: Summit X450e Series Switch Technical Specifications









Depth: 17 inches (43.2 cm)

Weight

Summit X450e-24p switch 14 lb (6.35 kg)



16.25 lb (7.4 kg) Summit X450e-48p switch







Packaged Weight






Input current

18.9 lb (8.6 kg)

21 lb (9.6 kg)


Inrush current





Power Supply Cord Gauge







90 to 264 V

100 to 240 V , 50/60 Hz, 5.25 A

4.25 A @ 115 V (low-line)


47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14

IEC 320 C13

Refer to


.

18 AWG (0.82mm

2 ) copper stranded

120 W, 409.5 BTU/hr

500 W, 1706.1 BTU/hr


Inrush current







Power consumption, Watts/BTU

90 to 264 V

100 to 240 V , 50/60 Hz, 6 A

5.25 A @ 115 V (low-line)


47 to 63 Hz

30 A @ 115 V, 60 A @ 230 V

AC

IEC 320 C14

IEC 320 C13

Refer to


.

18 AWG (0.82mm2) copper stranded

180 W/614.2 BTU/hr

603 W/2057.5 BTU/hr





CSA 22.2#60950-1-03 1st Ed.(Canada)




EN 60950-1:2001+A11





194



International Safety of ITE CB Report & Certificate per IEC 60950-1:2001 Country Deviations






Country-specific




EN 55022:1998 Class A








Criteria A





RMS, Criteria A


Criteria C













(packaged)















62 to 500 Hz @ 0.2 G


14 drops minimum on sides & corners @ 42"(<15kg box)




● Summit X650e-24t switch









Weight






50.7 lb (23 kg)

46.1 lb (20.9 kg)




Packaged Weight



52.9 lb (24 kg)

48.3 lb (21.9 kg)

Power: Summit X650-24t with VIM1-SummitStack Module

Nominal input ratings 100 to 240 V , 50/60 Hz, 8.0 A

Input current 7.4 A @ 100 V (low-line)




735 W, 2,508 BTU/hr

735 W, 2,508 BTU/hr

Power: Summit X650-24t with VIM1-10G8X Module

Nominal input ratings 100 to 240 V , 50/60 Hz, 8.0 A





797 W, 2,719 BTU/hr

797 W, 2,719 BTU/hr

Power: Summit X650-24x with VIM1-SummitStack Module

Nominal input ratings 100 to 240 V , 50/60 Hz, 4.75A





329 W, 1,123 BTU/hr

329 W, 1,123 BTU/hr

Power: Summit X650-24x with VIM1-10G8X Module

Nominal input ratings 100 to 240 V , 50/60 Hz, 4.75A





411 W, 1,402 BTU/hr

411 W, 1,402 BTU/hr


196








CSA 22.2#60950-1-03 1st Ed.(Canada)




EN 60950-1:2001+A11










Country-specific




EN 55022:1998 Class A








Criteria A





RMS, Criteria A


Criteria C

























(packaged)





62 to 500 Hz @ 0.2 G


14 drops minimum on sides & corners @ 42"(<15kg box)


198


Summit X650 Power Supplies

The Summit X650 power supplies can be used in the Summit X650-24t switch and the Summit X650-24x switch.

Two Summit X650 power supplies are available:

● Summit X650 AC PSU

● Summit X650 DC PSU

Table 34: Summit X650 AC PSU (Model 10914)

For use with the Summit X650-24t and X650-24x switches

Voltage input range 90 to 264 V


Nominal input current at full loads

100 to 240 V , 50 to 60 Hz, 10 A

12 A @ 90 V (low-line)

5 A @ 230 V (high-line)


Maximum inrush current

Output

47 to 63 Hz

100 A

12 V , 70 A max, 840 Watts

3.3 V , 6 A max, 19.8 Watts

Maximum continuous DC output shall not exceed 850 Watts.






Efficiency

AC

IEC 320 C14

IEC 320 C13

Refer to


.

18 AWG (0.82 mm 2 ; less than 2 m) or


80% with 60% to 100% load

Table 35: Summit X650 DC PSU (Model 10915)

For use with the Summit X650-24t and X650-24x switches

Nominal Input –48 to –60 V

DC Voltage Input Range

Maximum Input Amperages

Minimum wire size

DC Output

DC Output Power (W)

Operating temperature

–39 to –72 V

26 A @ 40 V

22 A @ 48 V

15 A @ 72 V


12 V

850 W

, 70 A/3.3 V , 6 A

Storage temperature

Operating humidity

Operational shock

0°C to 40°C (normal operation)

Short-term operation is permitted at –5°C to 0°C and 40°C to 50°C, for no more than 96 consecutive hours and a total of not more than

15 days in 1 year.

-40°C to 85°C

20% to 95% relative humidity, non-condensing

30 m/s 2 (3g)


Summit External Power Supplies

The following external power supplies are available for use with Summit X159 series, X250e series, X450 series, X450a series, and X450e series switches:

●

●

EPS-LD external power supply

EPS-160 external power module (used with EPS-T chassis)

●

●

●

EPS-500 external power supply

EPS-600LS external power module (used with EPS-C chassis)

EPS-150DC external power supply (used with EPS-T2 chassis)

Table 36: EPS-LD External Power Supply (Model 45019)

For use with the Summit X450a-24t and X450e-24p switches



Input Current

100 to 240 V

6 A at 100 V

, 50 to 60 Hz, 10 A

, 2.5 A at 240 V



Output

47 to 63 Hz

30 A at 115 V

-50 V

, 60 A at 230 V

, 7.5 A max, 375 Watts

12 V , 7.5 A max, 90 Watts






AC

IEC 320 C14

IEC 320 C13

Refer to


.

18 AWG (0.82mm

2 ; less than 2 m) or

16 AWG (1.3mm

2 ) copper stranded

Efficiency

Heat dissipation, Watts, BTU/hr

Power consumption, Watts, BTU/hr

Ambient operating temperature

>75%

123 W, 419.7 BTU/hr

5 88 a t 100% lo a d

W, 2006.3 BTU/hr

0° C to 40° C (32° F to 104° F)


Table 37: EPS-160 External Power Module (Model 10907)

For use with the Summit X150-24t, X150-48t, X250e-24t, X250e-24x, X250e-48t, X450-24t, and X450-24x switches



90 to 264 V

100 to 250 V, 4 to 2 A, 47 to 63 Hz


Input current

Line frequency


Output

47 to 63 Hz

2 A at 100 V

1 A at 240 V

50 to 60 Hz

30 A at 115 V , 50 A at 230 V


12 V , 11 A

5 V , 1.5 A

AC


200


Table 37: EPS-160 External Power Module (Model 10907) (Continued)


Power supply input plug



Efficiency




IEC 320 C14

IEC 320 C13

Refer to


.

18 AWG (0.82mm

2 ) copper stranded

80% at 100% load

38.5 W, 131.4 BTU/hr

178 W, 607.4 BTU/hr

0° C to 40° C (32° F to 104° F)

Table 38 shows the wire-to-pin connections for the connector on the rear panel of the EPS-160 power

supply.

Table 38: Pinouts for the Redundant Power Supply Connector

Connector

1

8

7

14

ES4K028

5

6

3

4

7

Pin Number

1

2

Wire Label

NC

GND

GND

GND

GND

+12 V

+12 V

10

11

12

13

14

Pin Number

8

9

Wire Label

RS+

GND

INT PG

EXT_CON

EXT_PG

+5 V

+12 V

Table 39: EPS-500 External Power Supply (Model 109110

For use with the Summit X150-24p, X250e-24p, X450a-24t, X450a-24x, X450a-48t, and X450e-24p switches




100 to 240 V , 50 to 60 Hz, 10 A

5.75 A @ 115 V (low-line)

2.80 A @ 230 V (high-line)



Output

47 to 63 Hz

30 A @ 115 V, 60 A @ 220 V

-50 V , 7.5 A max, 375 Watts

12 V , 10.5 A max, 126 Watts







Efficiency




AC

IEC 320 C14

IEC 320 C13

Refer to


.

18 AWG (0.82mm


16 AWG (1.3mm

2 ) copper stranded

>70% @ 100% load

158 W, 539.1 BTU/hr

659 W, 2248.6 BTU/hr

0° C to 40° C (32° F to 104° F)


Table 40: EPS-600LS External Power Module (Model 10913)

For use with the Summit X450e-48p and X250e-48p switches

Must be installed in the EPS-C chassis (Model 10912)




90 to 264 V

100-250 V

7 A @ 115 V

, 50-60 Hz, 10 A

(low-line)


Line frequency range 47 to 63 Hz

17 A @ 115 V/60 Hz, maximum load


Output power



600 W

AC

IEC 320 C14

IEC 320 C13 Power cord input plug



Refer to


18 AWG (0.82mm


16 AWG (1.3mm

2 ) copper stranded

85% nominal

.

Efficiency




219 W, 747.3 BTU/hr

801 W, 2733.1 BTU/hr

0° C to 40° C (32° F to 104° F)

Output Ratings for EPS-C chassis with 1, 2, or 3 installed EPS-600LS units

One EPS-600-LS unit 582 W output: –48 V/9 A (432 W), 12 V/12.5 A

Two EPS-600-LS units

Three EPS-600-LS units

1116 W output: –48 V/18 A (864 W), 12 V/21 A

1260 W output: –48 V/21 A (1008 W), 12 V/21 A


202


Table 41: EPS-150DC External Power Module (Model 10909)

For use with the Summit X450a-24tDC and Summit X450a-24xDC switches

Operational voltage range –36 to –72 V


Input current

–36 to –72 V , 6 A maximum

5.5 A @ –36 V (low-line)

2.6 A @ –72 V (high-line)


Inrush current

Input wire harness


47 to 63 Hz

20 A @ 48 V, 40 A @ 72 V

Extreme part number 250088-00

TYCO PN 206061-1




Input wire harness

Efficiency




Storage and transportation temperature

TYCO PN 206060-1

None provided

14 AWG

Extreme part number250088-00

> 75% at 100% load

45 W, 153.5 BTU/hr

195 W, 665.4 BTU/hr

0° C to 40° C

–40° C to 70° C

Table 42 provides the wire-to-pin connection specifications for the DC wiring harness shipped with the

EPS-150DC power supply.

Figure 128

shows the connector.

Table 42: Wire-to-Pin Connection Specifications

2

3

Pin Number Wire Color

1 Green/yellow

4

Red

Black unused

Circuit Connection

Chassis ground

Return

-48 V

Figure 128: Three-wire Wiring Harness

EWUG005


Console Connector Pinouts

This section provides connector pinouts for the console port and associated cables.

Table 43 describes the pinouts for a DB-9 console plug connector.

Table 43: Pinouts for the DB-9 Console Connector

Function

DCD (data carrier detect)

RXD (receive data)

TXD (transmit data)

DTR (data terminal ready)

GND (ground)

DSR (data set ready)

RTS (request to send)

CTS (clear to send)

5

6

3

4

7

8

Pin Number

1

2

Direction

In

In

Out

Out

-

In

Out

In

Figure 129

shows the pinouts for a 9-pin to 25-pin (RS-232) null-modem cable.

Figure 129: Null-Modem Cable Pinouts

Switch

Cable connector: 9-pin female

Screen

TxD

RxD

Ground

RTS

CTS

DSR

DCD

DTR

Shell

3

2

5

7

8

6

1

4

7

4

20

5

6

8

1

3

2

PC/Terminal

Cable connector: 25-pin male/female

Screen

RxD

TxD

Ground

RTS

DTR

CTS

DSR

DCD

25pin



Figure 130

shows the pinouts for a 9-pin to 9-pin (PC-AT) null-modem serial cable.

Figure 130: PC-AT Serial Null-modem Cable Pinouts

Switch

Cable connector: 9-pin female

Screen

TxD

RxD

Ground

RTS

CTS

DSR

DCD

DTR

Shell

3

2

5

7

8

6

1

4

7

4

20

5

6

8

1

3

2

PC/Terminal

Cable connector: 25-pin male/female

Screen

RxD

TxD

Ground

RTS

DTR

CTS

DSR

DCD

25pin


Index

Numerics

10GBASE-T ports, 118

A

amperage, calculating for UPS, 85

ANSI standards, 86

automatic failover, setting up, 17

B

bend radius, 79, 81

BICSI standards, 78

building codes, 74

Building Industry Consulting Service

International.

See BICSI

bundling cable, 79

C cable

category 5, 79

for 10GBASE-T ports, 118

installing

fiber optic, 81

recommendations, 79 labeling, 79

SummitStack, 88

types and distances, 81

cable connections, 118

cable slack, 79

cabling standards

ANSI, 86

BICSI, 78

category 5 cable, 79

combination ports, 17

commercial building standards, 86

connecting fiber optic cable, 119

connector jackets, RJ-45, 82

connector pinouts

DB-9 console connector, 203

DC wiring harness, 202

null-modem cable, 203

null-modem serial cable, 204

redundant power connector, 200

console port

in a stacked configuration, 92


settings, 119

Summit X150 series, 18

Summit X250e series, 23



Summit X450a series, 41



conventions, text, 10

D

DB-9 pinouts, 203

DC power, connecting

EPS-150DC, 132

Summit X650 DC PSU, 111

DC wiring harness

connecting to DC source, 132

connecting to EPS-150DC, 134

specifications, 202

DC-powered switches

removing, 99

Summit X250e-24tDC, 25

Summit X450a-24tDC, 46

Summit X450a-48tDC, 51

design standards, 86

dual 10-Gigabit uplinks

in Summit X450 switches, 41

installing, 143

E

electrical codes, 74

electrostatic discharge.

See ESD environmental requirements

building codes, 74 electrical codes, 74

humidity, 76

temperature, 75 wiring closet, 75

EPS-150DC power supply

features, 66

installing, 131

specifications, 202

with Summit X250e-24tDC switch, 25

with Summit X450a-24tDC switch, 47

with Summit X450a-24xDC switch, 29, 49

with Summit X450a-48tDC switch, 31, 52

205

206

Index

EPS-160 power supply

features, 64

installing, 122

specifications, 199

with EPS-T, 65

with Summit X450-24t switch, 42

with Summit X450-24x switch, 44

EPS-500 power supply

features, 65

installing, 128

specifications, 200

with Summit X350-24t switch, 37

with Summit X350a-48t switch, 39


with Summit X450e-24p switch, 54

EPS-600LS power supply

features, 66

installing, 137

specifications, 201



EPS-C chassis (with EPS-600LS), 137

EPS-LD power supply

features, 65

installing, 125

specifications, 199


with Summit X450a-24x switch, 48


EPS-T2 (with EPS-150DC), 66, 131

equipment rack

grounding, 77

mechanical recommendations, 76

mounting holes, 77 securing, 77 service access, 77 space requirements, 77

ESD

discharge from cable, 79

system protection, 76

F fiber optic cable

bend radius, 81

connections, 119

first switch login, 120

G grounding

DC-powered switch, 96

racks, 77

requirements, 86


wiring closet, 75

H

humidity, 76

I

industry standards, 86

initial switch login, 120

installation

10-gigabit uplinks, 143

DC-powered switch, 95

Summit family switch, 92

Summit X650 AC power supply, 106

Summit X650 DC power supply, 108

Summit X650 series switch, 100

Summit XGM2-2xf option card, 146

SummitStack configuration, 88

IP settings, configuring, 120

L

labeling system for cables, 78

labels, cable, 79

LEDs

EPS-150DC power supply, 136

EPS-160 power supply, 124, 127

EPS-500 power supply, 130

stack number indicator, 62

stacking port, 92

Summit X150 series switches, 22

Summit X250e series switches, 34

Summit X350 switches, 40



local management connection, 119

logging in to the switch, 120

M management port

in a stacked configuration, 92






maximum cable distances, 81

N

network interface connections, 118

null-modem cable pinouts, 203


O

operating environment requirements, 75

option cards

XGM2-2xf, 146

XGM2-2xn, 145

XGM-2bt, 147

XGM-2sf, 147

XGM-2xn, 144

P

PC-AT serial null-modem cable pinouts, 204

physical layer problems, 83

pinouts

DB-9 console connector, 203

DC wiring harness, 202

null-modem cable, 203

PC-AT serial null-modem cable, 204

redundant power connector, 200

plenum-rated cable, 79

PoE devices, power requirements, 83

ports

combination, 17

console port settings, 119

power cable

country-specific requirements, 84 replacing, 84

power requirements

PoE devices, 83

power cable, 84

power supplies, 83

power supply unit (PSU)

EPS-150DC, 66, 131, 202

EPS-160, 64, 122, 199

EPS-500, 65, 128, 200

EPS-600LS, 66, 137, 201

EPS-LD, 65, 125, 199

Summit X650, 198

Summit X650 AC, 106, 198

Summit X650 DC, 108

R rack installation


EPS-C chassis, 137

EPS-LD power supply, 125

EPS-T chassis, 122

EPS-T2 chassis, 131

Summit X650 switch, 100

switch, 93

rack specifications

grounding, 77

Index

mechanical recommendations, 76 mounting holes, 76, 77

securing to floor, 77 space requirements, 77

standards, 76

radio frequency interference.

See RF interference

redundant uplink ports, 17

related publications, 10

removing



EPS-600LS power module, 141


Summit switch, 94

Summit X450a-48t switch, 99

Summit X650 AC PSU, 151


Summit X650 fan module, 157

Summit X650 series switch

four-post rack (cabinet), 117

two-post rack, 115

VIM1 module, 158

replacement

Summit X650 AC PSU, 151


requirements

power cable, 84

RF interference

patch panel installation, 79

preventing, 83

RJ-45 cable, 82

rules for redundant uplink ports, 17

S

safety requirements. See

environmental requirements

service access to the rack, 77

signal quality and RF interference, 83

site planning process, 73

slack in cable, 79

slot number in a stack, 88

space requirements, rack, 77

specifications




EPS-600LS power supply, 201


power cable, 84


Summit X250e series switch, 178


Summit X450a series switches, 189


208

Index


Summit X650 AC power supply, 198

Summit X650 DC power supply, 198


stack master, 89

stacking

connecting cables, 91

connection order, 89 redundancy, 89

slot number, 88 stacking cables, 88

stacking LEDs, 62

standards

cabling, 78, 86

commercial building, 86 grounding, 86

Summit family switches

DC-powered, 99

desktop mounting, 94

installation summary, 92

LEDs




Summit X450, 450a, 450e series, 57


rack-mounting, 93

removing, 94

See also

specific series names

XGM-2xn option card, 144

Summit option cards

types, 143

XGM2-2xf, 146

XGM2-2xn, 145

XGM-2bt, 147

XGM-2sf, 147

XGM-2xn, 144


features, 18

LEDs, 22

specifications, 175

Summit X150-24p switch, 20

Summit X150-48t switch, 21



features, 23

LEDs, 34

specifications, 178

Summit X250e-24p switch, 26

Summit X250e-24t switch, 24

Summit X250e-24tDC switch, 25

Summit X250e-24x switch, 27, 28


Summit X250e-48t switch, 29, 30


features, 35

LEDs, 40




features, 42

LEDs, 57

specifications, 187


Summit X450-24x switch, 43

Summit X450a series switches

features, 44

LEDs, 57

specifications, 189


Summit X450a-24tDC switch, 46

Summit X450a-24x switch, 47

Summit X450a-24xDC switch, 49


Summit X450a-48tDC switch, 51

Summit X450a-48t switch, removing, 99


features, 53

LEDs, 57

specifications, 192



Summit X650 AC power supply

installation, 106

specifications, 198

Summit X650 DC power supply

installation, 108

specifications, 198

Summit X650 power supply

features, 69


features, 58

LEDs, 62

specifications, 195

Summit X650 24t switch, 59

Summit X650-24x switch, 60

Summit XGM2-2bt option card, 147

Summit XGM2-2sf option card, 147

Summit XGM2-2xf option card, 146

Summit XGM2-2xn option card, 145

Summit XGM-2xn option card, 144

SummitStack configuration, 88

switch, initial login, 120

T technical specifications





Summit X450a series switches, 189




Telco environment, 163

temperature, wiring closet, 75

text conventions, 10

tools for installing equipment

external power supply, 122

Summit option card, 148

Summit switch, 93

transition time, UPS, 86

U

unshielded twisted pair. See

UTP uplink redundancy

on Summit switches, 17 setting up, 17

UPS (uninterruptible power supply), 85

UTP cable

bend radius, 79 category 5, 79 discharge ESD, 79

RF interference, 83

W wiring closet

electrostatic discharge, 76

floor coverings, 75 grounding, 75

humidity, 76

rack, securing, 77

temperature, 75

wiring terminals, 77

X

XENPAK modules, 144

XGM2-2bt option card, 147

XGM2-2sf option card, 147

XGM2-2xf option card, 146

XGM2-2xn option card, 145

XGM-2xn option card, 144


Index

209

Index


Extreme Networks Summit X150 Series Installation Manual

ExtremeXOS

®

Summit

®

Family Switches

Hardware Installation Guide

Summit X150 Series

Summit X250e Series

Summit X350 Series

Summit X450 Series

Summit X450a Series

Summit X450e Series

Summit X650 Series

Contents

Preface

Introduction

Conventions

Table 1: Notice Icons

Table 2: Text Conventions

Related Publications

About the Summit Family Switches

Summit Family Switches

Overview of the Summit Switches

Table 3: Summit Switch Features—Summit X150, X250e, and 350 Series

Table 4: Summit Switch Features—Summit X450, X450a, X450e, and X650 Series

Table 5: Summit Family Switches

Combination Ports and Failover

Summit X150 Series Switches

Summit X150-24t Switch

Figure 1: Summit X150-24t Switch Front Panel

Figure 2: Summit X150-24t Switch Rear Panel

Summit X150-24p Switch

Figure 3: Summit X150-24p Switch Front Panel

Figure 4: Summit X150-24p Switch Rear Panel

Summit X150-48t Switch

Figure 5: Summit X150-48t Switch Front Panel

Figure 6: Summit X150-48t Switch Rear Panel

Summit X150 Series Switch LEDs

Table 6: LEDs on the Summit X150 Series Switches

Table 6: LEDs on the Summit X150 Series Switches (Continued)

Summit X250e Series Switches

Summit X250e-24t Switch

Figure 7: Summit X250e-24t Switch Front Panel

Figure 8: Summit X250e-24t Switch Rear Panel

Summit X250e-24tDC Switch

Figure 9: Summit X250e-24tDC Switch Front Panel

Figure 10: Summit X250e-24tDC Switch Rear Panel

Summit X250e-24p Switch

Figure 11: Summit X250e-24p Switch Front Panel

Figure 12: Summit X250e-24p Switch Rear Panel

Summit X250e-24x Switch

Figure 13: Summit X250e-24x Switch Front Panel

Figure 14: Summit X250e-24x Switch Rear Panel

Summit X250e-24xDC Switch

Figure 15: Summit X250e-24xDC Switch Front Panel

Figure 16: Summit X250e-24xDC Switch Rear Panel

Summit X250e-48t Switch

Figure 17: Summit X250e-48t Switch Front Panel

Figure 18: Summit X250e-48t Switch Rear Panel

Summit X250e-48tDC Switch

Figure 19: Summit X250e-48tDC Switch Front Panel

Figure 20: Summit X250e-48tDC Switch Rear Panel

Summit X250e-48p Switch

Figure 21: Summit X250e-48p Switch Front Panel

Figure 22: Summit X250e-48p Switch Rear Panel

Summit X250e-48p Power Supplies

Internal Power Supply

External Power Supplies

Table 7: Number of External Power Modules and Corresponding PoE Behavior

Summit X250e Series Switch LEDs

Table 8: LEDs on the Summit X250e Series Switches

Table 8: LEDs on the Summit X250e Series Switches (Continued)

Summit X350 Series Switches

Summit X350-24t Switch

Figure 23: Summit X350-24t Switch Front Panel

Figure 24: Summit X350-24t Switch Rear Panel

Summit X350-48t Switch

Figure 25: Summit X350-48t Switch Front Panel

Figure 26: Summit X350-48t Switch Rear Panel