Allied Telesis AT-8100S-16F8-SC, AT-8100S-24, AT-8100S-24F-LC, AT-8100S-24C, AT-8100S-16F8-LC User Manual

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8100S Series

Fast Ethernet Switches

 AT-8100S/24C

 AT-8100S/24

 AT-8100S/24POE

 AT-8100S/16F8-SC

 AT-8100S/16F8-LC

 AT-8100S/24F-LC

Stack Installation Guide

613-001478 Rev. D

Allied Telesis and the Allied Telesis logo are trademarks of Allied Telesis, Incorporated. All other product names, company names, logos or other designations mentioned herein are trademarks or registered trademarks of their respective owners.

Allied Telesis, Inc. reserves the right to make changes in specifications and other information contained in this document without prior written notice. The information provided herein is subject to change without notice. In no event shall Allied Telesis, Inc. be liable for any incidental, special, indirect, or consequential damages whatsoever, including but not limited to lost profits, arising out of or related to this manual or the information contained herein, even if Allied Telesis, Inc. has been advised of, known, or should have known, the possibility of such damages.

Electrical Safety and Emissions Standards

This product meets the following standards.

U.S. Federal Communications Commission

Radiated Energy

Note: This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with this instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.

Note: Modifications or changes not expressly approved of by the manufacturer or the FCC, can void your right to operate this equipment.

Industry Canada

This Class A digital apparatus complies with Canadian ICES-003.

Cet appareil numérique de la classe A est conforme à la norme NMB-003 du Canada.

RFI Emissions FCC Class A, EN55022 Class A, EN61000-3-2, EN61000-3-3, VCCI

Class A, C-TICK, CE

Warning: In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures.

EMC (Immunity) EN55024

Electrical Safety EN60950-1 (TUV), UL 60950-1 (

CULUS

)

Laser Safety EN60825

Translated Safety Statements

Important: The  indicates that translations of the safety statement are available in the PDF document “Translated Safety Statements” posted on the Allied Telesis website at www.alliedtelesis.com.

Preface .............................................................................................................................................................................. 13

Document Conventions .......................................................................................................................................................14

Contacting Allied Telesis .....................................................................................................................................................15

Chapter 1: Overview ........................................................................................................................................................ 17

Features ..............................................................................................................................................................................18

8100S Models ..............................................................................................................................................................18

10/100 Mbps Twisted Pair Ports ..................................................................................................................................18

Fiber Optic Ports ..........................................................................................................................................................18

Power over Ethernet.....................................................................................................................................................18

10/100/1000 Mbps Twisted Pair Ports .........................................................................................................................19

SFP Slots .....................................................................................................................................................................19

Stacking Ports ..............................................................................................................................................................19

LEDs.............................................................................................................................................................................20

MAC Address Table .....................................................................................................................................................20

Installation Option.........................................................................................................................................................20

Management Software and Interfaces .........................................................................................................................20

Management Methods..................................................................................................................................................20

Fanless Models ............................................................................................................................................................20

8100S Twisted Pair Series Switches...................................................................................................................................21

Front Panels .................................................................................................................................................................22

Front Panel Components .............................................................................................................................................22

8100S Fiber Optic Series Switches .....................................................................................................................................23

Hardware Features.......................................................................................................................................................23

Front Panels .................................................................................................................................................................24

Fiber Optic Ports ..........................................................................................................................................................25

Back Panel Components .....................................................................................................................................................26

Management Panel .............................................................................................................................................................27

Naming Conventions.................................................................................................................................................28

Model

10/100Base-TX Twisted Pair Ports......................................................................................................................................30

Speed ...........................................................................................................................................................................30

Duplex Mode ................................................................................................................................................................30

Wiring Configuration.....................................................................................................................................................30

Maximum Distance.......................................................................................................................................................31

Power Over Ethernet....................................................................................................................................................31

Cable Requirements.....................................................................................................................................................31

Port Pinouts..................................................................................................................................................................31

10/100/1000Base-T Twisted Pair Ports ...............................................................................................................................32

Speed ...........................................................................................................................................................................32

Duplex Mode ................................................................................................................................................................32

Wiring Configuration.....................................................................................................................................................32

Maximum Distance.......................................................................................................................................................33

Power Over Ethernet....................................................................................................................................................33

Cable Requirements.....................................................................................................................................................33

Port Pinouts..................................................................................................................................................................33

SFP Slots.............................................................................................................................................................................34

Power Over Ethernet ...........................................................................................................................................................35

PoE Standards .............................................................................................................................................................35

Powered Device Classes .............................................................................................................................................35

Contents

Power Budget .............................................................................................................................................................. 36

Port Prioritization ......................................................................................................................................................... 37

Wiring Implementation................................................................................................................................................. 38

S1 and S2 Stacking Ports................................................................................................................................................... 39

eco-friendly Button.............................................................................................................................................................. 40

LEDs ................................................................................................................................................................................... 41

10/100Base-TX Twisted Pair Port LEDs...................................................................................................................... 41

10/100/1000Base-T Twisted Pair Port LEDs ............................................................................................................... 42

100Base-FX Port LEDs ............................................................................................................................................... 43

SFP Slot LED .............................................................................................................................................................. 44

S1 and S2 Stack Ports LEDs....................................................................................................................................... 45

Stack ID LED ............................................................................................................................................................... 46

Console Port ....................................................................................................................................................................... 47

Power Supplies................................................................................................................................................................... 48

Power Connectors .............................................................................................................................................................. 49

Chapter 2: Stacking Overview ........................................................................................................................................ 51

Stacking Guidelines ............................................................................................................................................................ 52

Master Switch ..................................................................................................................................................................... 54

Stacking Port Topologies.................................................................................................................................................... 55

Active Boot Configuration File............................................................................................................................................. 57

Initialization Process ........................................................................................................................................................... 59

Chapter 3: Beginning the Installation ............................................................................................................................ 61

Installation Overview........................................................................................................................................................... 62

Reviewing Safety Precautions ............................................................................................................................................ 63

Planning the Installation...................................................................................................................................................... 67

Choosing the Switches of the Stack ............................................................................................................................ 67

Choosing a Site ........................................................................................................................................................... 68

Unpacking the Switch ......................................................................................................................................................... 69

8100S Series Switches................................................................................................................................................ 69

AT-8100S/24C Switch ................................................................................................................................................. 70

Chapter 4: Installing and Labeling the Switches in an Equipment Rack .................................................................... 71

Installing the Switches in an Equipment Rack .................................................................................................................... 72

Labeling the Switches......................................................................................................................................................... 77

Chapter 5: Assigning the Stack ID Numbers and Cabling the Stacking Ports .......................................................... 79

Powering on a Switch ......................................................................................................................................................... 80

Verifying and Setting the Stack ID Numbers....................................................................................................................... 82

...

Starting a Local Management Session .............................................................................................

Starting a Telnet Management Session....................................................................................................................... 83

Changing the Stack ID Number................................................................................................................................... 85

Cabling the Stacking Ports.................................................................................................................................................. 87

Chapter 6: Powering On and Verifying the Stack ......................................................................................................... 91

Powering on AC Switches................................................................................................................................................... 92

Monitoring the Initialization Processes ........................................................................................................................ 93

Powering On DC Switches.................................................................................................................................................. 97

Verifying the Installation.................................................................................................................................................... 101

Chapter 7: Cabling the Network Ports .........................................................................................................................103

Cabling the Twisted Pair and Fiber Optic Ports ................................................................................................................ 104

Twisted Pair Ports ..................................................................................................................................................... 104

Fiber Optic Ports........................................................................................................................................................ 105

General Guidelines.................................................................................................................................................... 105

Installing Optional SFP Transceivers................................................................................................................................ 106

Managing the Stack .......................................................................................................................................................... 110

Local Management .................................................................................................................................................... 110

Telnet Management................................................................................................................................................... 110

Secure Shell Management ........................................................................................................................................ 111

Web Browser Management ....................................................................................................................................... 112

........................ 82

Stack Installation Guide for 8100S Series Switches

SNMP .........................................................................................................................................................................112

Specifying Ports in the Command Line Interface for Switches in a Stack ..................................................................112

Chapter 8: Troubleshooting .......................................................................................................................................... 115

Chapter 9: Adding or Removing Switches .................................................................................................................. 119

Removing or Replacing the Master Switch........................................................................................................................120

Uploading the Active Configuration File .....................................................................................................................121

Removing the Current Master Switch.........................................................................................................................122

Configuring the New Master Switch ...........................................................................................................................125

Connecting the New Master Switch to the Stack........................................................................................................127

Adding a New Member Switch...........................................................................................................................................128

Removing a Member Switch..............................................................................................................................................130

Appendix A: Technical Specifications ......................................................................................................................... 131

Physical Specifications ......................................................................................................................................................131

Environmental Specifications.............................................................................................................................................132

Power Specifications .........................................................................................................................................................132

Certifications......................................................................................................................................................................133

Quality and Reliability ........................................................................................................................................................133

RJ-45 Twisted Pair Port Pinouts........................................................................................................................................134

Fiber Optic Port Specifications ..........................................................................................................................................135

RJ-45 Style Serial Console Port Pinouts ...........................................................................................................................137

Stacking Port Pinouts ........................................................................................................................................................137

Contents

Figures

Figure 1: 8100S Series Switches..........................................................................................................................................22

Figure 2: Front Panel Components on the 8100S Twisted Pair Switches ............................................................................22

Figure 3: Front Panels of the 8100S Fiber Optic Series .......................................................................................................24

Figure 4: Front Panels of the 8100S Fiber Optic Series (Continued) ...................................................................................25

Figure 5: Back Panels of the Single Power Supply Switches ...............................................................................................26

Figure 6: Back Panels on the Dual Power Supply Models ...................................................................................................26

Figure 7: Management Panel ...............................................................................................................................................27

Figure 8: Model Naming Conventions for the Twisted Pair 8100S Series Switches ............................................................28

Figure 9: Model Naming Conventions of the Fiber Optic 8100S Series ...............................................................................28

Figure 10: 10/100Base-TX Port LEDs ..................................................................................................................................41

Figure 11: 10/100/1000Base-T Port LEDs............................................................................................................................42

Figure 12: 100Base-FX Port LED.........................................................................................................................................43

Figure 13: SFP Slot LEDs ....................................................................................................................................................44

Figure 14: Stacking Port S1 and S2 LEDs............................................................................................................................45

Figure 15: Stack ID LED.......................................................................................................................................................46

Figure 16: Duplex-chain and Duplex-ring Configurations .....................................................................................................56

Figure 17: Switches in an Equipment Rack..........................................................................................................................68

Figure 18: Stack on a Table or Desktop...............................................................................................................................68

Figure 19: Components of the 8100S Series Switches ........................................................................................................69

Figure 20: Components of the AT-8100S/24C Switch..........................................................................................................70

Figure 21: Turning the Switch Upside Down ........................................................................................................................72

gure 22: Removing the Rubber Feet .................................................................................................................................72

Figure 23: Attaching the Brackets to Install the Switch in an Equipment Rack ....................................................................73

Figure 24: Attaching the Brackets to Install the Switch in an Equipment Rack (Continued).................................................74

Figure 25: Attaching the Brackets to the AT-8100S/24C Switch to Install the Switch in an Equipment Rack ......................74

Figure 26: Attaching the Brackets to the AT-8100S/24C Switch to Install the Switch in an Equipment Rack (Continued) .. 75

Figure 27: Mounting the Switch in an Equipment Rack ........................................................................................................76

Figure 28: Labelling the Switches.........................................................................................................................................77

Figure 29: Connecting the AC Power Cord ..........................................................................................................................80

Figure 30: Connecting the Management Cable to the RJ-45 Terminal Port on the Switch ..................................................83

Figure 31: Connecting the Twisted Pair Cable to a Networking Port on the Switch .............................................................84

Figure 32: AlliedWare Plus Command Line Prompt .............................................................................................................85

Figure 33: STACK Command Confirmation Prompt .............................................................................................................85

Figure 34: Connecting the Stacking Cable ...........................................................................................................................87

Figure 35: Example Stack of Four Switches.........................................................................................................................88

Figure 36: Example Stack of Four Switches with a Redundant Path ...................................................................................89

Figure 37: Plugging in the AC Power Cords.........................................................................................................................92

Figure 38: Switch Initialization Messages.............................................................................................................................94

Figure 39: Switch Initialization Messages (Continued).........................................................................................................95

Figure 40: Switch Initialization Messages (Continued).........................................................................................................96

Figure 41: DC Terminal Block...............................................................................................................................................98

Figure 42: Stripped Wire.......................................................................................................................................................98

Figure 43: Inserting Wires into the DC Terminal Block.........................................................................................................99

Figure 44: SHOW STACK Command.................................................................................................................................101

Figure 45: Removing the Dust Plug from an SFP Slot .......................................................................................................107

Figure 46: Installing an SFP Transceiver............................................................................................................................107

gure 47

Figure 48: Positioning the SFP Handle in the Upright Position ..........................................................................................108

Figure 49: Connecting the Fiber Optic Cable to the SFP Module.......................................................................................109

: Removing the Dust Cover from the SFP Module ..............................................................................................108

Figures

Figure 50: PORT Parameter in the Command Line Interface.............................................................................................112

Figure 51: SHOW BOOT Command...................................................................................................................................121

Figure 52: Removing the Network Cables ..........................................................................................................................122

Figure 53: Removing the Fiber Optic Cable from the SFP Module.....................................................................................123

Figure 54: Installing the Dust Cover on the SFP Module....................................................................................................123

Figure 55: Removing the SFP Module................................................................................................................................124

Figure 56: Installing the Dust Cover in the SFP Slot...........................................................................................................124

Figure 57: Removing the Stacking Cables..........................................................................................................................125

Figure 58: RJ-45 Connector and Port Pin Layout ...............................................................................................................134

Figure 59: Stacking Port Pin Layout (Front View)...............................................................................................................137

Tables

Table 1: Hardware Features of the 8100S Twisted Pair Series ...........................................................................................21

Table 2: Hardware Features of the 8100S Fiber Optic Series .............................................................................................23

Table 3: General Specifications of the Fiber Optic Ports .....................................................................................................25

Table 4: Model Naming Conventions for the Twisted Pair 8100L and 8100S Series Switches ...........................................28

Table 5: Model Naming Conventions of the Fiber Optic 8100S Series Switches ................................................................29

Table 6: Twisted Pair Cable Requirements for the 10/100Base-TX Ports ...........................................................................31

Table 7: Twisted Pair Cable for the 10/100/1000Base-T Ports ...........................................................................................33

Table 8: Combo Ports ..........................................................................................................................................................34

Table 9: IEEE Powered Device Classes ..............................................................................................................................36

Table 10: 10/100Base-TX Port LEDs ..................................................................................................................................41

Table 11: 10/100/1000Base-T Port LEDs ............................................................................................................................42

Table 12: 100Base-FX Port LED .........................................................................................................................................43

Table 13: SFP Slot LED ......................................................................................................................................................44

Table 14: Stacking Port LED ...............................................................................................................................................45

Table 15: Installation Procedures ........................................................................................................................................62

Table 16: LEDs and Management Software Initialization ....................................................................................................93

Table 17: Product Dimensions ...........................................................................................................................................131

Table 18: Product Weights ................................................................................................................................................131

Table 19: Ventilation Requirements ...................................................................................................................................132

Table 20: Environmental Specifications .............................................................................................................................132

Table 21: Maximum Power Consumptions ........................................................................................................................132

Table 22: Input Voltages ....................................................................................................................................................132

Table 23: Product Certifications .........................................................................................................................................133

Table 24: MTBF .................................................................................................................................................................133

Table 25: Pin Signals for 10 and 100 Mbps .......................................................................................................................134

Table 26: Pin Signals - 1000 Mbps ....................................................................................................................................135

Table 27: Fiber Optic Port Specifications for the AT-8100S/16F8-SC Switch ................................................................... 135

Table 28: Fiber Optic Port Specifications for the AT-8100S/16F8-LC and AT-8100S/24F-LC Switches ..........................136

...............................................................................................137

Table 29: RJ-45 Style Serial Console Port Pin Signals ...

Table 30: Stacking Port Pin Signals ..................................................................................................................................137

...

Tables

Preface

Note

This guide contains instructions on how to install the 8100S Series of Fast Ethernet switches in a stack configuration. For instructions on how to install the switches as stand-alone units, refer to the Stand-alone Switch Installation Guide for 8100L and 8100S Series Switches.

This preface contains the following sections:

 “Document Conventions” on page 14

 “Contacting Allied Telesis” on page 15

This guide does not include the AT-8100S/48 and AT-8100S/48POE Switches. The initial release of the management software supports the 48-port switches as stand-alone units, but not in a stack. For further information, contact your Allied Telesis representative.

Preface

Note

Caution

Warning

Document Conventions

This document uses the following conventions:

Notes provide additional information.

Cautions inform you that performing or omitting a specific action may result in equipment damage or loss of data.

Warnings inform you that performing or omitting a specific action may result in bodily injury.

Contacting Allied Telesis

If you need assistance with this product, you may contact Allied Telesis technical support by going to the Support & Services section of the Allied Telesis web site at www.alliedtelesis.com/support. You can find links for the following services on this page:

 24/7 Online Support — Enter our interactive support center to

search for answers to your product questions in our knowledge database, to check support tickets, to learn about RMAs, and to contact Allied Telesis technical experts.

 USA and EMEA phone support — Select the phone number that

best fits your location and customer type.

 Hardware warranty information — Learn about Allied Telesis

warranties and register your product online.

 Replacement Services — Submit a Return Merchandise

Authorization (RMA) request via our interactive support center.

Stack Installation Guide for 8100S Series Switches

 Documentation — View the most recent installation and user

guides, software release notes, white papers, and data sheets for your products.

 Software Downloads — Download the latest software releases for

your managed products.

For sales or corporate information, go to www.alliedtelesis.com/ purchase and select your region.

Preface

Chapter 1

Note

Overview

This chapter contains the following sections:

 “Features” on page 18

 “8100S Twisted Pair Series Switches” on page 21

 “8100S Fiber Optic Series Switches” on page 23

 “Back Panel Components” on page 26

 “Management Panel” on page 27

 “Model Naming Conventions” on page 28

 “10/100Base-TX Twisted Pair Ports” on page 30

 “10/100/1000Base-T Twisted Pair Ports” on page 32

 “SFP Slots” on page 34

 “Power Over Ethernet” on page 35

 “S1 and S2 Stacking Ports” on page 39

 “eco-friendly Button” on page 40

 “LEDs” on page 41

 “Console Port” on page 47

 “Power Supplies” on page 48

 “Power Connectors” on page 49

This guide contains instructions on how to install the 8100S Series switches in a stack configuration with the S1 and S2 stacking ports. For instructions on how to install the switches as stand-alone units, refer to the Stand-alone Switch Installation Guide for 8100L and 8100S Series Switches.

Chapter 1: Overview

Features

Here is a list of the switches and their features:

8100S Models Here are the 8100S Series switches:

 AT-8100S/24C

 AT-8100S/24

 AT-8100S/24POE

 AT-8100S/16F8-SC

 AT-8100S/16F8-LC

 AT-8100S/24F-LC

10/100 Mbps Twisted Pair

Ports

Here are the basic features of the 10/100 Mbps twisted pair ports:

 8 or 24 ports per switch

 10Base-T and 100Base-TX compliant

 IEEE 802.3u Auto-Negotiation compliant

 Auto-MDI/MDIX

 100 meters (328 feet) maximum operating distance

 IEEE 802.3x flow control in 10/100Base-TX full-duplex operation

 IEEE 802.3x backpressure in 10/100Base-TX half-duplex

operation

 Support for jumbo frames up to 10KB

 RJ-45 connectors

Fiber Optic Ports Here are the basic features of the fiber optic ports:

 16 or 24 ports per switch

 100Base-FX compliant

 Duplex SC or duplex LC

 Maximum distance of 2 kilometers (1.24 miles) for the fiber optic

ports on the AT-8100S/16F8-LC, AT-8100S/16F8-SC, and AT-8100S/24F-LC Switches

Power over

Ethernet

Here are the basic features of Power over Ethernet (PoE):

 PoE and PoE+ supported on the 10/100Base-TX ports on the

AT-8100S/24POE Switch

 Powered device classes 0 to 4

 Power budget of 370 watts for the AT-8100S/24POE Switch

 Port prioritization

Note

Stack Installation Guide for 8100S Series Switches

10/100/1000

Mbps Twisted

Pair Ports

Here are the basic features of the 10/100/1000 Mbps twisted pair ports:

 Two ports per switch

 10Base-T, 100Base-TX, and 1000Base-T compliant

 IEEE 802.3u Auto-Negotiation compliant

 Auto-MDI/MDIX

 100 meters (328 feet) maximum operating distance

 IEEE 802.3x flow control in 10/100Base-TX full-duplex operation

 IEEE 802.3x backpressure in 10/100Base-TX half-duplex

operation

 IEEE 803.3z 1000Base-T flow control

 Support for jumbo frames up to 10KB

 RJ-45 connectors

SFP Slots Here are the basic features of the SFP slots:

 Two slots per switch

 Support 100Mbps 100Base-FX or 1000Mbps 1000Base-SX/LX

transceivers

The SFP slots are paired with the 10/100/1000Base-TX twisted pair ports on the switch to form combo ports. For information, refer to “SFP Slots” on page 34.

SFP transceivers must be purchased separately. For a list of supported transceivers, contact your Allied Telesis distributor or reseller.

Stacking Ports Here are the basic features of the stacking ports on the 8100S Series

switches:

 Two stacking ports

 10Gbps total bandwidth

 High-definition Multimedia Interface (HDMI) connectors

Chapter 1: Overview

Warning

LEDs Here are the port LEDs:

 Duplex mode and link/activity LEDs for the twisted pair ports

 Link/activity LEDs for the 100Base-FX fiber optic ports

 Link/activity LEDs for the SFP slots

 Link LEDs for the stacking ports

 Stack ID number LED

 eco-friendly button to turn off the LEDs to conserve electricity

MAC Address

Table

Installation

Option

Management

Software and

Interfaces

Here are the basic features of the MAC address tables of the switches:

 Storage capacity of 16,000 MAC address entries

 Automatic learning and aging

Here is the installation option for a stack of 8100S Series switches:

 19-inch equipment rack

You should install the switches of a stack in a standard 19-inch equipment rack. Allied Telesis does not recommend installing a stack on a table or desktop because it may create a hazardous work area.

Here are the management software and management interfaces:

 AlliedWare Plus Management Software

 Command line interface

 Web browser interface

Management

Methods

Here are the methods for managing the switches:

 Local management through the Console port

 Remote Telnet and Secure Shell management

 Remote HTTP and HTTPS web browser management

 SNMPv1, v2c, and v3

Fanless Models Here are the 8100S Series switches that do not have fans:

 AT-8100S/24 Switch

 AT-8100S/24C Switch

Stack Installation Guide for 8100S Series Switches

8100S Twisted Pair Series Switches

The three twisted pair models in the 8100S Series are listed here:

 AT-8100S/24C

 AT-8100S/24

 AT-8100S/24POE

For information on the fiber optic models, refer to “8100S Fiber Optic Series Switches” on page 23.

Table 1 lists the hardware features of the twisted pair models.

Table 1. Hardware Features of the 8100S Twisted Pair Series

Feature 24C 24 24POE

Number of 10/100Base-TX Ports 24 24 24

Number of 10/100/1000Base-T Ports 2 2 2

Number of SFP Slots for 100Mbps 100Base-FX or 1000Mbps 1000Base-SX/LX Transceivers

222

Stacking Ports Yes Yes Yes

Power over Ethernet No No Yes

Power over Ethernet Budget (Watts) - - 370

Powered Device Classes - - 0 to 4

Number of Power Supplies 1 2 2

Power Supply Type AC AC or DC AC

Console Management Port Yes Yes Yes

Ventilation Fan No No Yes

1. The SFP transceiver slots and 10/100/1000Base-T ports are paired together to form combo ports. Refer to “SFP Slots” on page 34 for background information.

Chapter 1: Overview

AT-8100S/24

AT-8100S/24POE

AT-8100S/24C

10/100Base-TX Ports

Combo 10/100/1000Base-T

Ports and SFP Slots

Management

Panel

Front Panels The front panels of the 8100S Series switches with twisted pair ports are

shown in Figure 1.

Front Panel

Components

Figure 1. 8100S Series Switches

Figure 2 identifies the front panel components on the models with twisted pair ports.

Figure 2. Front Panel Components on the 8100S Twisted Pair Switches

8100S Fiber Optic Series Switches

The three fiber optic models in the 8100S Series are listed here:

 AT-8100S/16F8-SC

 AT-8100S/16F8-LC

 AT-8100S/24F-LC

Stack Installation Guide for 8100S Series Switches

Hardware

Features

Table 2 lists the hardware features of the fiber optic 8100S Series switches.

Table 2. Hardware Features of the 8100S Fiber Optic Series

Feature 16F8-SC 16F8-LC 24F-LC

Number of 100Base-FX Fiber Optic Ports 16 16 24

Connectors Duplex SC Duplex LC Duplex LC

Maximum Distance per Port 2 kilometers

(1.24 miles)

2 kilometers (1.24 miles)

Number of 10/100Base-TX Ports 8 8 0

Number of 10/100/1000Base-T Ports 2 2 2

Number of SFP Slots for 100Mbps 100Base-FX or 1000Mbps 1000Base-SX/LX Transceivers

222

Stacking Ports Yes Yes Yes

Power over Ethernet No No No

Number of Power Supplies 2 2 2

Power Supply Type AC AC AC

Console Management Port Yes Yes Yes

Ventilation Fan Yes Yes Yes

1. The SFP transceiver slots and the 10/100/1000Base-T ports are paired together to form combo ports. Refer to “SFP Slots” on page 34 for background information.

Chapter 1: Overview

AT-8100S/16F8-SC

AT-8100S/16F8-LC

100Base-FX Fiber

Combo

Ports and SFP Slots

Optic Ports with

10/100Base-TX

Twisted Pair

Duplex SC Connectors

Ports

10/100/1000Base-T

Management

Panel

100Base-FX Fiber

Combo

Ports and SFP Slots

Optic Ports with

10/100Base-TX

Twisted Pair

Duplex LC Connectors

Ports

10/100/1000Base-T

Management

Panel

Front Panels The front panels of the fiber optic switches are shown in Figure 3 here and

Figure 4 on page 25.

Figure 3. Front Panels of the 8100S Fiber Optic Series

Stack Installation Guide for 8100S Series Switches

AT-8100S/24-LC

100Base-FX Fiber

Combo

Ports and SFP Slots

Optic Ports with

Duplex LC Connectors

10/100/1000Base-T

Management

Panel

Figure 4. Front Panels of the 8100S Fiber Optic Series (Continued)

Fiber Optic Ports Table 3 lists the general specifications of the fiber optic ports on the fiber

Number of Fiber Optic Ports 16 16 24

Connector Duplex SC Duplex LC Duplex LC

Wavelength 1310 nm for

Standard 100Base-FX 100Base-FX 100Base-FX

Speed 100 Mbps 100 Mbps 100 Mbps

Maximum Distance 2 kilometers

Fiber Optic Cable 50/125 or 62.5/

optic switches.

Table 3. General Specifications of the Fiber Optic Ports

Feature 16F8-SC 16F8-LC 24F-LC

transmitting and receiving.

(1.24 miles)

125 µm (core/ cladding) multimode fiber

1310 nm for transmitting and receiving.

2 kilometers (1.24 miles)

50/125 or 62.5/ 125 µm multimode fiber optic cable

1310 nm for transmitting and receiving.

2 kilometers (1.24 miles)

50/125 or 62.5/ 125 µm multimode fiber optic cable

optic cable

Chapter 1: Overview

AC Power

Connector

AC Power

Connector

AC Power

Connector

(Power Supply 2)

(Power Supply 1)

DC Power

Connector

DC Power

Connector

(Power Supply 2)

(Power Supply 1)

Dual AC Power Supply Models

Dual DC Power Supply Models

Back Panel Components

Figure 5 shows the back panel of the AT-8100S/24C Switch, which has a single power supply.

Figure 6 shows the back panels of the dual power supply models.

Figure 5. Back Panels of the Single Power Supply Switches

Figure 6. Back Panels on the Dual Power Supply Models

Management Panel

Console

eco-friendly

Button

Stack ID

Port

LED

Management

Stacking Ports

Stack Installation Guide for 8100S Series Switches

Figure 7 identifies the components of the management panel.

Figure 7. Management Panel

Chapter 1: Overview

Model Naming Conventions

The letters and numbers in the model names identify the hardware features of the switches. The naming conventions for the twisted pair 8100S Series switches are identified in Figure 8.

Figure 8. Model Naming Conventions for the Twisted Pair 8100S Series

The conventions are defined in Table 4.

Table 4. Model Naming Conventions for the Twisted Pair 8100L and

Switches

8100S Series Switches

Convention Definition

1 This is the product name.

2 The letter “S” indicates that the model is stackable.

The letter “L” indicates that the model is not stackable. (The non-stackable switches are not described in this manual. For installation instructions, refer to the

Stand-alone Switch Installation Guide for 8100L and 8100S Series Switches.)

3 This is the number of 10/100Base-TX ports.

4 The letters “POE” indicate support for Power over

Ethernet.

The letter “C” in the AT-8100S/24C model name denotes that the unit, which has just one power supply, is smaller and more compact than the other models.

The model naming conventions for the fiber optic 8100S Series switches are identified in Figure 9.

Figure 9. Model Naming Conventions of the Fiber Optic 8100S Series

Stack Installation Guide for 8100S Series Switches

The conventions are defined in Table 5.

Table 5. Model Naming Conventions of the Fiber Optic 8100S Series

Switches

Convention Definition

1 This is the product name.

2 The letter “S” indicates that the model is stackable.

3 This is the number of 100Base-FX fiber optic ports.

4 The letter “F” signifies fiber optic.

5 This is the number of 10/100Base-TX ports. The fiber

optic switches that have 10/100Base-TX ports are the AT-8100S/16F8-SC and AT-8100S/16F8-LC Switches.

6 This identifies the type of fiber optic connector. The

connectors are listed here:

 SC - Duplex SC

 LC - Duplex LC

Chapter 1: Overview

Note

10/100Base-TX Twisted Pair Ports

The switches have 8 or 24 10/100Base-TX ports.

Speed The ports can operate at either 10 or 100 Mbps. The speeds may be set

manually using the management software or automatically with AutoNegotiation (IEEE 802.3u), the default setting.

Duplex Mode The twisted pair ports can operate in either half- or full-duplex mode. The

duplex mode determines the manner in which a port transmits data. A port set to half-duplex can either transmit or receive data at one time, while a port operating in full-duplex can transmit and receive data at the same time. The best network performance is achieved with the full-duplex setting, but not all network equipment is designed to support that duplex mode.

The duplex modes, like port speeds, may be set manually using the management software or automatically with Auto-Negotiation (IEEE

802.3u), the default setting.

Wiring

Configuration

The speed and duplex mode settings of a port may be set independently of each other. For example, a port may be configured such that its speed is set manually while its duplex mode is established through AutoNegotiation.

A switch port that is connected to a network device that does not support Auto-Negotiation and has a fixed duplex mode of full-duplex should not set its duplex mode with Auto-Negotiation. A duplexmode mismatch in which a switch port and a network device operate at different duplex modes, may occur. The duplex modes of switch ports that are connected to network devices that do not support Auto-Negotiation should be set manually through the management software.

The wiring configuration of a port can be MDI or MDI-X. The wiring configurations of a switch port and a network device connected with straight-through twisted pair cabling have to be opposite, such that one device is using MDI and the other MDI-X. For instance, a switch port has to be set to MDI-X if it is connected to a network device set to MDI.

You may set the wiring configurations of the ports manually or let the switch configure them automatically with auto-MDI/MDI-X (IEEE 802.3abcompliant). This feature enables the switch to negotiate with network devices to establish the proper settings, so that the ports on the devices are using different wiring configurations.

Stack Installation Guide for 8100S Series Switches

Maximum

The ports have a maximum operating distance of 100 meters (328 feet).

Distance

Power Over

Ethernet

Cable

The 10/100Base-TX ports on the AT-8100S/24POE Switch supports Power over Ethernet (PoE), which is a standard whereby DC power is provided by the switch to network devices over the network twisted pair cables. The switch supports PoE (IEEE 802.3af) and PoE+ (IEEE

802.3at). For background information, refer to “Power Over Ethernet” on page 35.

The cable requirements of the ports are given in Table 6.

Requirements

Table 6. Twisted Pair Cable Requirements for the 10/100Base-TX Ports

Cable Type

Standard TIA/EIA 568-Bcompliant Category 3 shielded or unshielded cabling with 100 ohm impedance and a frequency of 16 MHz.

10Mbps 100Mbps

Non-

PoE

YesNoNoYesNoNo

PoE PoE+

Non-

PoE

PoE PoE+

Standard TIA/EIA 568-Acompliant Category 5 shielded or unshielded cabling with 100 ohm impedance and a frequency of 100 MHz.

Standard TIA/EIA 568-Bcompliant Enhanced Category 5 (Cat 5e) shielded or unshielded cabling with 100 ohm impedance and a frequency of 100 MHz.

Standard TIA/EIA 568-Bcompliant Category 6 or 6a shielded cabling.

Yes Yes No Yes Yes No

Yes Yes Yes Yes Yes Yes

Port Pinouts Refer to Table 25 on page 134 for the port pinouts of the 10/100Base-TX

ports.

Chapter 1: Overview

Note

10/100/1000Base-T Twisted Pair Ports

The switches have two 10/100/1000Base-T ports. These ports are paired with SFP slots to form combo ports.

Speed The ports can operate at 10, 100, or 1000 Mbps. The speeds may be set

manually using the management software or automatically with AutoNegotiation (IEEE 802.3u), the default setting.

The ports must be set to Auto-Negotiation to function at 1000 Mbps. They are not compatible with devices that are not IEEE 802.3u compliant.

Duplex Mode The twisted pair ports can operate in either half- or full-duplex mode. The

duplex modes, like port speeds, may be set manually using the management software or automatically with Auto-Negotiation (IEEE

802.3u), the default setting.

Wiring

Configuration

Stack Installation Guide for 8100S Series Switches

Maximum

Distance

Power Over

Ethernet

Cable

Requirements

The ports have a maximum operating distance of 100 meters (328 feet).

The 10/100/1000Base-T ports on the AT-8100S/24POE Switch does not support PoE.

The cable requirements of the ports are given in Table 7.

Table 7. Twisted Pair Cable for the 10/100/1000Base-T Ports

Cable Type 10Mbps 100Mbps 1000Mbps

Standard TIA/EIA 568-Bcompliant Category 3 shielded or unshielded cabling with 100 ohm impedance and a frequency of 16 MHz.

Standard TIA/EIA 568-Acompliant Category 5 or TIA/ EIA 568-B-compliant Enhanced Category 5 (Cat 5e) shielded or unshielded cabling with 100 ohm impedance and a frequency of 100 MHz.

Yes Yes No

Yes Yes Yes

Standard TIA/EIA 568-Bcompliant Category 6 or 6a shielded cabling.

Yes Yes Yes

Port Pinouts Refer to Table 25 on page 134 and Table 26 on page 135 for the port

pinouts to the 10/100/1000Base-T ports.

Chapter 1: Overview

SFP Slots

The switches have two slots for 100Mbps 100Base-FX or 1000Mbps 1000Base-SX/LX fiber optic transceivers. You may add transceivers to connect the switches to other network devices over large distances, build a high-speed backbone network between network devices, or connect high-speed devices, such as servers, to your network.

The switches support a variety of short and long distance, 100 and 1000 Mbps fiber optic SFP modules. For a list of supported SFP modules, contact your Allied Telesis representative or visit our web site.

The two SFP slots are paired with the 10/100/1000Base-T ports to form combo ports. The combo ports are listed in Table 8.

Table 8. Combo Ports

Model

AT-8100S/24C, AT-8100S/24, AT-8100S/24POE, AT-8100S/ 16F8-LC, AT-8100S/16F8-SC,

10/100/1000 Base-T Port

25R 25

26R 26

SFP Slot

and AT-8100S/24F-LC

The rules for using the combo ports are listed here:

 Only one port in a pair can be active at a time.

 The twisted pair port is the active port when the companion SFP

slot is empty, or when an SFP module is installed but has not established a link to an end node.

 The switch automatically deactivates the twisted pair port of a

combo port when the companion SFP module establishes a network link.

 The switch automatically reactivates the twisted pair port whenever

the companion SFP module loses its network link.

 In nearly all cases, a twisted pair port and an SFP module share

the same configuration settings, including port settings, VLAN assignments, access control lists, and spanning tree.

 An exception to the shared settings is port speed. If you disable

Auto-Negotiation on a twisted pair port and set the speed and duplex mode manually, the speed reverts to Auto-Negotiation when an SFP module establishes a link with an end node.

Power Over Ethernet

The AT-8100S/24POE Switch features Power over Ethernet (PoE) on the 10/100Base-TX ports. PoE is used to supply power to network devices over the same twisted pair cables that carry the network traffic.

The main advantage of PoE is that it can make it easier to install a network. The selection of a location for a network device is often limited by whether there is a power source nearby. This often limits equipment placement or requires the added time and cost of having additional electrical sources installed. But with PoE, you can install PoE-compatible devices wherever they are needed without having to worry about whether there are power sources nearby.

A device that provides PoE to other network devices is referred to as power sourcing equipment (PSE). The AT-8100S/24POE Switch acts as a PSE unit by adding DC power to the network cable, thus functioning as a central power source for other network devices.

Stack Installation Guide for 8100S Series Switches

Devices that receive their power from a PSE are called powered devices (PD). Examples include wireless access points, IP telephones, webcams, and even other Ethernet switches.

The switch automatically determines whether or not a device connected to a port is a powered device. Ports that are connected to network nodes that are not powered devices (that is, devices that receive their power from another power source) function as regular Ethernet ports, without PoE. The PoE feature remains activated on the ports but no power is delivered to the devices.

PoE Standards The AT-8100S/24POE Switch supports these PoE standards:

 PoE (IEEE 802.3af): This standard provides up to 15.4 watts at the

switch port to support powered devices that require up to 12.95 watts.

 PoE+ (IEEE 802.3at): This standard provides up to 30.0 watts at

the switch port to support powered devices that require up to 25.5 watts.

Powered Device

Classes

Powered devices are grouped into the five classes listed in Table 9 on page 36. The classes are based on the amount of power the devices require. The AT-8100S/24POE Switch supports all five classes.

Chapter 1: Overview

Table 9. IEEE Powered Device Classes

Class

Maximum Power

Output from a Switch

Port

Power Ranges of the

PDs

0 15.4W 0.44W to 12.95W

1 4.0W 0.44W to 3.84W

2 7.0W 3.84W to 6.49W

3 15.4W 6.49W to 12.95W

4 30.0W 12.95W to 25.5W

Power Budget The AT-8100S/24POE Switch has a power budget of 370 watts. This is

the maximum amount of power the switches can provide at one time to the powered devices.

The PoE switch has two power supplies. Each power supply is responsible for providing 185 watts, or half, of the power budget. Both power supplies must be connected to AC power sources for the switch to provide the full 370 watts. The power budget is reduced to 185 watts if only one power supply is connected to a power source.

The power requirements of the PoE devices determine the maximum number of devices the switch can support at one time. So long as the total power requirements of the powered devices is less than the power budget of the switch, the switch can supply power to all of the devices. But if the total power requirements exceed the power budget, the switch denies power to one or more ports using a mechanism referred to as port prioritization.

To determine whether the power requirements of the PoE devices you plan to connect to the switch exceed its power budget, refer to their documentation for their power requirements and add the requirements together. The switch should be able to power all of the devices simultaneously as long as the total is below its power budget. If the total exceeds the available power budget, you should consider reducing the number of PoE devices so that all of the devices receive power. Otherwise, the switch will power a subset of the devices, based on port prioritization.

The switch can handle different power requirements on different ports, enabling you to connect different classes of PoE equipment to the ports.

Stack Installation Guide for 8100S Series Switches

Port

Prioritization

If the power requirements of the powered devices exceed the switch’s power budget, the switch will deny power to some ports based on a system called port prioritization. You may use this mechanism to ensure that powered devices critical to the operations of your network are given preferential treatment by the switch in the distribution of power should the demands of the devices exceed the available capacity.

There are three priority levels:

 Critical

 High

 Low

Ports set to the Critical level, the highest priority level, are guaranteed power before any of the ports assigned to the other two priority levels. Ports that are connected to your most critical powered devices should be assigned to this level. Ports assigned to the other priority levels receive power only if all the critical ports are receiving power. If there is not enough power to support all the ports set to the Critical priority level, power is distributed based on port number, in ascending order.

The High level is the second highest level. Ports set to this level receive power only if all the ports set to the Critical level are already receiving power. If there is not enough power to support all of the ports set to the High priority level, power is provided to the ports based on port number, in ascending order.

The lowest priority level is Low. This is the default setting. Ports set to this level only receive power if all of the ports assigned to the other two levels are already receiving power. As with the other levels, if there is not enough power to support all of the ports set to the Low priority level, power is provided to the ports based on port number, in ascending order.

Power allocation is dynamic. Ports supplying power to powered devices may cease power transmission if the switch’s power budget is at maximum usage and new powered devices, connected to ports with higher priorities, become active.

You can use port prioritization on dual power supply PoE switches to protect your important networking devices from loss of power should one of the power supplies fail or lose power. By limiting the power requirements of the critical devices connected to a switch to less than 185 watts, the PoE power provided by a single power supply, a switch will be able to continue to power the critical devices even if it has only one functional power supply.

Chapter 1: Overview

Wiring

Implementation

The IEEE 802.3af standard defines two methods by which a PSE, such as the switch, can transmit DC power over twisted pair cables to PDs. These methods, known as modes A and B, identify the wire strands the switch should use when sending DC power to a PD.

Twisted pair cabling typically consists of eight strands. With 10Base-T and 100Base-TX devices, the strands connected to pins 1, 2, 3, and 6 on the RJ-45 connectors carry the network traffic while strands connected to pins 4, 5, 7, and 8 are unused. With 1000Base-T devices, all eight strands are used to carry network data.

It takes four strands to deliver DC power to a PD. With Mode A, the power is delivered on pins 1, 2, 3, and 6. These are the same pins in 10Base-T and 100Base-TX devices that carry the network data. With mode B, the power is provided over the spare strands.

The ports on the AT-8100S/24POE Switch deliver the power using pins 4, 5, 7, and 8, which corresponds to mode B in the IEEE 802.3af standard.

Powered devices that comply with the IEEE 802.3af standard are required to support both power delivery methods. Legacy devices that do not comply with the standard will work with the switch if they are powered on pins 4, 5, 7, and 8.

S1 and S2 Stacking Ports

The switch may be used as a stand-alone unit or as part of a stack in which multiple units are interconnected via the S1 and S2 stacking ports on the front panels. Compared to stand-alone switches, which function as independent units, the switches of a stack synchronize their actions to form a single, logical unit so that the switching operations, like spanning tree protocols, virtual LANs, and static port trunks, are able to span across all the units.

The two principal advantages of stacks are:

 You can manage multiple units simultaneously, thus simplifying

network management.

 You have more flexibility in how you configure some of the

features. For instance, a static port trunk on a stand-alone switch has to consist of ports from the same switch. In contrast, a static trunk on a stack may consist of ports from different switches in the same stack.

Stack Installation Guide for 8100S Series Switches

For more information, refer to Chapter 2, “Stacking Overview” on page 51.

This guide explains how to install the units in a stack. For instructions on how to install the switches as stand-alone units, refer to the Stand-alone Switch Installation Guide for 8100L and 8100S Series Switches.

Chapter 1: Overview

Note

eco-friendly Button

You may turn off the port LEDs to conserve electricity when you are not monitoring the switch. The LEDs may be toggled with the eco-friendly button on the front panel of the switch or the ECOFRIENDLY LED and NO ECOFRIENDLY LED commands in the Global Configuration mode of the command line interface.

Toggling the LEDs on and off does not interfere with the network operations of the device. The Stack ID LED is always on.

When checking or troubleshooting the network connections to the ports on the switch, you should always check to be sure that the LEDs are on by either pressing the eco-friendly button or issuing the ECOFRIENDLY LED and NO ECOFRIENDLY LED commands in the Global Configuration mode of the command line interface.

LEDs

Link/Activity

LED

Duplex Mode

LED

Duplex Mode

LED

Link/Activity

LED

Stack Installation Guide for 8100S Series Switches

Here are the descriptions of the switch’s LEDs.

10/100Base-TX

Twisted Pair Port

LEDs

The 10/100Base-TX twisted pair ports have link/activity and duplex mode LEDs.

Figure 10. 10/100Base-TX Port LEDs

The LEDs are described in this table.

Table 10. 10/100Base-TX Port LEDs

LED State Description

Link/Activity Off The port has not established a link to an

end node.

Solid green The port has established a link to an end

node.

Duplex Mode

Flashing green

Off The port is operating in half-duplex mode.

Solid green The port is operating in full-duplex mode.

The port is receiving or transmitting packets.

Chapter 1: Overview

Duplex Mode

LED

Duplex Mode

LED

Link/Activity

LED

Link/Activity

LED

Here are the LED guidelines:

 The LEDs do not display port speed. That information may be

viewed using the management software.

 The LEDs on the AT-8100S/24POE Switch do not display PoE

information. That information may be viewed using the management software.

 If the port LEDs are off, the switch may be operating in the low

power mode. To toggle on the LEDs, use the eco-friendly button.

10/100/1000Base-T

Twisted Pair Port

LEDs

The twisted pair ports in the combo ports have link/activity and duplex mode LEDs, just like the 10/100Base-TX ports.

Figure 11. 10/100/1000Base-T Port LEDs

Table 11 describes the LEDs for the 10/100/1000Base-T twisted pair ports.

Table 11. 10/100/1000Base-T Port LEDs

LED State Description

Link/Activity Off The port has not established a link to an

end node.

Solid green The port has established a link to an end

node.

Flashing green

The port is receiving or transmitting packets.

Stack Installation Guide for 8100S Series Switches

100Base-FX Port

LED

Table 11. 10/100/1000Base-T Port LEDs (Continued)

LED State Description

100Base-FX Port

LEDs

Duplex Mode

Each of the 100Base-FX ports on the AT-8100S/16F8-SC, AT-8100S/ 16F8-LC, and AT-8100S/24F-LC Switches has a single LED, labeled L/A for Link/Activity.

Off The port is operating in half-duplex mode.

Solid green The port is operating in full-duplex mode.

Figure 12. 100Base-FX Port LED

The 100Base-FX port LED is described in Table 12.

Table 12. 100Base-FX Port LED

LED State Description

Link/Activity Off The port has not established a link to a

network device.

Solid green The port has established a link to a

network device.

Flashing green

The port is receiving or transmitting packets to a network device.

Chapter 1: Overview

SFP Slot

LEDs

SFP Slot LED Each SFP slot has one LED.

Figure 13. SFP Slot LEDs

The SFP slot LED is described in Table 13.

Table 13. SFP Slot LED

LED State Description

Link/Activity Off The SFP slot is empty or the SFP module

has not established a link to a network device.

Solid green The SFP module has established a link to

a network device.

Flashing green

The SFP module is receiving or transmitting packets to a network device.

Stack Installation Guide for 8100S Series Switches

Note

Stacking Port

LEDs

S1 and S2 Stack

Ports LEDs

Each stacking port has one link/activity LED labelled LINK/ACT.

Figure 14. Stacking Port S1 and S2 LEDs

The stacking port LED is described in Table 14.

Table 14. Stacking Port LED

LED State Description

LINK/ACT Off The stacking port is not connected to

another switch or has not established a link.

Solid green The stacking port has established a link

with a stacking port on another switch.

The stacking port LEDs do not indicate packet activity.

Chapter 1: Overview

Stack ID

LED

Stack ID LED The Stack ID LED displays the ID number of the switch. A stand-alone

switch should have the ID number 0. Switches connected with the stacking ports to form a virtual stack must have unique numbers. Chapter 5, “Assigning the Stack ID Numbers and Cabling the Stacking Ports” on page 79 has the procedure for verifying and, if necessary, changing the ID number of the switch.

Figure 15. Stack ID LED

Console Port

Note

Stack Installation Guide for 8100S Series Switches

The Console port is used to configure the features and parameter settings of the switch. This type of management uses serial RS-232 and is commonly referred to as local or out-of-band management because it is not conducted over your network. To perform local management, you must be at the location of the switch and must use the management cable included with the switch.

To establish a local management session with the switch, you connect a terminal or a personal computer with a terminal emulation program to the Console port, which has an RJ-45 style (8P8C) connector, using the provided management cable. The cable which has RJ-45 RJ-style (8P8C) and DB-9 (D-sub 9-pin) connectors.

The Console port is set to the following specifications:

 Default baud rate: 9600 bps (Range is 9600 to 115200 bps)

 Data bits: 8

 Parity: None

 Stop bits: 1

 Flow control: None

These settings are for a DEC VT100 or ANSI terminal, or an equivalent terminal emulation program.

Chapter 1: Overview

Warning

Power Supplies

The switches are powered by two internal AC power supplies, except for the AT-8100S/24C Switch, which has one power supply. The supplies are not field-replaceable and each has a separate AC connector on the back panels.

Only one power supply is active at a time in non-PoE switches. The second power supply operates in a redundant state and is automatically activated by the switch if the active power supply loses power or fails. The change over is instantaneous, making it transparent to the network users. Power redundancy is available only when both AC connectors on the switch are connected to power sources.

For all operations excluding PoE, the power supplies in the AT-8100S/ 24POE Switch operate in the same manner as those in the non-PoE switches. One power supply operates in an active state while the other resides in a redundant state.

For PoE, however, the power supplies operate in a load-sharing manner, with each power supply providing 185 watts, half the total PoE budget of the switch. The maximum 370 watts power budget of PoE is only available when both power supplies are connected to power sources.

Refer to “Technical Specifications” on page 131 for the input voltage range.

Power cord is used as a disconnection device. To de-energize equipment, disconnect the power cord.  E3

This unit might have more than one power cord. To reduce the risk of electric shock, disconnect all power cords before servicing the unit.  E30

Power Connectors

Stack Installation Guide for 8100S Series Switches

The 8100S Series switches have two AC or DC power supply sockets on the back panels, except for the AT-8100S/24C Switch, which has just one AC power supply socket.

AC switches are powered on or off by connecting or disconnecting the power cords. DC switches are powered on or off by energizing or de-energizing the DC circuit breakers to which the switches are connected in the wiring closet.

Chapter 1: Overview

Chapter 2 Stacking Overview

This chapter contains the following sections:

 “Stacking Guidelines” on page 52

 “Master Switch” on page 54

 “Stacking Port Topologies” on page 55

 “Active Boot Configuration File” on page 57

 “Initialization Process” on page 59

Chapter 2: Stacking Overview

Stacking Guidelines

A stack is a group 8100S Series switches linked together with the S1 and S2 stacking ports to function as a unified Fast Ethernet switch. They synchronize their actions so that network operations, such as spanning tree protocols, virtual LANs, and static port trunks, span across all of the Fast Ethernet ports.

A stack has two principal advantages over stand-alone units:

 You can configure all of the switches in a stack from the same

management session, rather than individually from different sessions, thereby simplifying network management.

 You have more latitude when configuring some of the features. For

instance, to create a static port trunk on a stand-alone switch you have to choose ports from the same switch. In contrast, a static trunk on a stack can have ports from different switches in the same stack.

Here are the general guidelines for 8100S Series stacks:

 All 8100S Series switches support stacking.

 A stack can have up to eight switches or 208 ports.

 The switches of a stack may be the same model or different

models. For instance, a stack can have AT-8100S/24C, AT-8100S/ 24, and AT-8100S/16F8-SC Switches.

 Stacking is not supported on the 8100L Series switches.

 An 8100S Series stack cannot contain other stacking devices,

such as the AT-9400Ts Series switches.

 The 8100S Series switches do not need any additional modules or

software for stacking.

 Each switch must be assigned a unique stack ID number, in the

range of 1 to 8, with the STACK command in the Global Configuration mode. It must be assigned before the switch is connected to the stack. The stack will not function properly if there are two or more switches that have the same ID number.

 The default value for the stack ID number is 0, which is reserved

for stand-alone switches.

 A stack must have one master switch. The master switch is the

switch with the lowest stack ID number, usually ID number 1.

 The master switch can be any switch in the stack.

 If the master unit fails or is removed from the stack, the member

switch with the next lowest ID number takes over as the new master switch.

Stack Installation Guide for 8100S Series Switches

 The other units are referred to as member switches.

 The stacking feature described in this guide is unrelated to the

enhanced stacking feature described in the AT-8100 Series AlliedWare Plus Command Line Interface User’s Guide. They are

completely different features.

Chapter 2: Stacking Overview

Master Switch

A stack must have a master switch to coordinate and monitor stack operations. It verifies that the switches are using the same version of management software, that no two switches have the same ID number, and that the stacking ports are cabled correctly.

The selection of the master switch is based on the ID numbers. The master switch is the switch with the lowest ID number of all the switches in the stack. The selection occurs during the discovery process, described in “Initialization Process” on page 59, which the stack performs whenever you power on or reset it. If the master switch is removed from the stack or fails, the member switch with the next lowest ID number automatically becomes the new master switch. If that switch fails or is removed from the stack, then the switch with the next lowest ID number becomes the new master switch, and so on.

Stacking Port Topologies

Caution

The switches are connected together with the S1 and S2 ports in the management panels, and the stacking cables that come with the units.

There are two wiring configurations. The first topology is called the duplexchain topology. This topology connects the switches with a single pathway. A stacking port on one switch is connected to a stacking port in the next switch, which is connected to the next switch, and so on. The connections crossover to different stacking ports on the switches, such that the S1 port in one switch connects to the S2 port in the next switch.

The stack will not function if the connections to the S1 and S2 stacking ports do not crossover on the switches. If two S1 ports or two S2 ports are connected together, the switches will not form a stack and instead operate as stand-alone devices.

Stack Installation Guide for 8100S Series Switches

The second topology, the duplex-ring topology, is similar to the duplexchain, except that the unused stacking ports on the end switches of the stack are connected together to form a physical loop, creating two pathways through the stack. An example of both topologies is shown in Figure 16 on page 56.

Although the topologies are the same in terms of network speed and performance, the duplex-ring topology is the recommended wiring configuration because of the secondary path it provides through the stacking ports. The two pathways protect the switches of the stack against the loss of communications due to a failure of a stacking port, cable, or switch.

Chapter 2: Stacking Overview

Duplex-chain Configuration Duplex-ring Configuration

Figure 16 Duplex-chain and Duplex-ring Configurations

Active Boot Configuration File

The master switch stores the settings of the entire stack in a file in its file system. This file is referred to as the active boot configuration file. The switch updates the file with the most recent parameter changes whenever you issue the WRITE or COPY RUNNING-CONFIG STARTUP-CONFIG command.

The switch comes with two identical boot configuration files, called BOOT.CFG and QSTACK.CFG. The commands the files contain assign the switch the factory IP address 169.254.1.1 and activate the web browser server so that you may begin to manage the switch with Telnet or a web browser as soon as you set it up.

The BOOT.CFG file is the default active file. You may continue to use that file to store the parameter settings of the switch, or you may create another boot configuration file. There are several ways to do that, the easiest being the BOOT CONFIG-FILE command, because it both creates the file and designates it as the active boot configuration file.

Stack Installation Guide for 8100S Series Switches

The name of the active boot configuration file of the stack may be up to 16 alphanumeric characters, plus the .CFG extension. For example, you might name the file STACKBLF2RM4.CFG.

The QSTART.CFG file is identical to the BOOT.CFG file. You may use the file to restore the factory settings if you use the BOOT.CFG to store the parameter settings of the switch. You would simply copy the QSTART.CFG file as the BOOT.CFG file.

The master switch periodically sends the active boot configuration file over the stacking ports to the other switches in the stack, which save the file in their respective file systems. The master switch distributes the file so that should it stop functioning or be removed from the stack, any of the other switches can assume the role of master switch. Here are the events that prompt the master switch to distribute the active boot configuration to the member switches:

 The stack performs the discovery process when it is powered on or

reset and when a stacking cable is connected or disconnected. At the completion of the discovery process, the master switch sends its active boot configuration file to the member switches.

 When you enter the WRITE command to save your changes to the

parameter settings, to the active boot configuration file. After updating the file, the master switch sends it to the member switches.

The master switch changes the name of the active boot configuration file to BOOT.CFG as it sends the file to the other switches during the discovery process or in response to the WRITE command. Additionally, it

Chapter 2: Stacking Overview

instructs the other switches to designate that filename as the active boot configuration file so that they use that file if they become the master switch.

Here is an example of how the process works. Let’s assume your stack has three switches, assigned the ID numbers 1 to 3. The switch with the ID number 1 is the master switch because it has the lowest ID number of all the switches in the stack. Now assume that you use the BOOT CONFIGFILE to create a new active boot configuration file for the stack and call it STACKBLF2RM4.CFG. After configuring some of the stack parameter settings, you issue the WRITE command. In response, the master switch updates the STACKBLF2RM4.CFG file with your changes and then transmits it, with the new name BOOT.CFG, over the stacking ports to the other switches. In turn, they store the file in their file systems and, if they have not already, designate it as their active boot configuration file, so that they use that file should they become the master switch.

Now assume that you remove the master switch from the stack. The switch with the ID number 2 becomes the new master switch because it has the next lowest ID number. The configuration settings of the two remaining switches remain the same, even with the removal of the original master switch, because the new master switch has the same active boot configuration. The file just happens to have a different name. On the original master switch it was called STACKBLF2RM4.CFG, but on the new master unit it is BOOT.CFG.

So does this mean that you should use BOOT.CFG as the filename for the active boot configuration files on your stacks? It does not matter so long as you remember that if you use a different name, the master switch changes it to BOOT.CFG when it sends the file to the member switches.

Initialization Process

The switches of the stack synchronize their operations in a five phase process when they are powered on or reset, and prior to forwarding network traffic from their ports.

In the first three phases the switches initialize their management software and features. These phases take a total of approximately 40 seconds.

In the fourth phase, called the discovery process. the switches determine the number of devices in the stack, the cabling topology, and, in the case of the duplex-ring topology, the active path through the stacking ports. It is in this phase that the master switch of the stack is identified. The discovery process takes approximately 80 seconds.

In the fifth phase, the master switch uses its active boot configuration file in its file system to configure the settings of all of the switches in the stack. This phase may take from a few seconds to four minutes, depending on the size of the stack and the number and complexity of the commands in the file.

Stack Installation Guide for 8100S Series Switches

You can monitor the phases by watching the LEDs, which are defined in Table 16 on page 93, or by attaching a computer with a terminal emulator program to the Console port of the master switch, and watching the initialization messages, shown in Figure 38 on page 94 and Figure 39 on page 95.

The switches of the stack begin forwarding network traffic at the completion of the fifth phase.

Chapter 2: Stacking Overview

Chapter 3 Beginning the Installation

The chapter contains the following sections:

 “Installation Overview” on page 62

 “Reviewing Safety Precautions” on page 63

 “Planning the Installation” on page 67

 “Unpacking the Switch” on page 69

Chapter 3: Beginning the Installation

Installation Overview

Table 15 lists the installation procedures for a stack of 8100S Series switches. The procedures should be performed in the order presented in the table.

1 “Reviewing Safety Precautions” on page 63

2 “Planning the Installation” on page 67

3 “Unpacking the Switch” on page 69

4 “Installing the Switches in an Equipment Rack” on

5 “Labeling the Switches” on page 77

Table 15. Installation Procedures

Step Procedure

page 72

6 “Verifying and Setting the Stack ID Numbers” on page 82

7 “Cabling the Stacking Ports” on page 87

8 “Powering on AC Switches” on page 92 or “Powering On

DC Switches” on page 97

9 “Verifying the Installation” on page 101

10 “Cabling the Twisted Pair and Fiber Optic Ports” on

page 104

11 “Installing Optional SFP Transceivers” on page 106

Reviewing Safety Precautions

Note

Warning

Please review the following safety precautions before you begin to install the switch.

The  indicates that a translation of the safety statement is available in a PDF document titled “Translated Safety Statements” posted on the Allied Telesis website at www.alliedtelesis.com.

Class 1 Laser product.  L1

Do not stare into the laser beam.  L2

Stack Installation Guide for 8100S Series Switches

Do not look directly at the fiber optic cable ends or inspect the cable ends with an optical lens.  L6

To prevent electric shock, do not remove the cover. No userserviceable parts inside. This unit contains hazardous voltages and should only be opened by a trained and qualified technician. To avoid the possibility of electric shock, disconnect electric power to the product before connecting or disconnecting the LAN cables.  E1

Do not work on equipment or cables during periods of lightning activity.  E2

Power cord is used as a disconnection device. To de-energize equipment, disconnect the power cord.  E3

Chapter 3: Beginning the Installation

Warning

Note

Caution

Warning

Note

Warning

Caution

Class I Equipment. This equipment must be earthed. The power plug must be connected to a properly wired earth ground socket outlet. An improperly wired socket outlet could place hazardous voltages on accessible metal parts.  E4

Pluggable Equipment. The socket outlet shall be installed near the equipment and shall be easily accessible.  E5

Air vents must not be blocked and must have free access to the room ambient air for cooling.  E6

Operating Temperature. This product is designed for a maximum ambient temperature of 40° degrees C.  E7

All Countries: Install product in accordance with local and National Electrical Codes.  E8

Only trained and qualified personnel are allowed to install or replace this equipment.  E14

Circuit Overloading: Consideration should be given to the connection of the equipment to the supply circuit and the effect that overloading of circuits might have on overcurrent protection and supply wiring. Appropriate consideration of equipment nameplate ratings should be used when addressing this concern.  E21

Stack Installation Guide for 8100S Series Switches

Caution

Warning

Note

Warning

Note

Caution

Risk of explosion if battery is replaced by an incorrect type. Replace only with the same or equivalent type recommended by the manufacturer. Dispose of used batteries according to the manufacturer’s instructions.

Attention: Le remplacement de la batterie par une batterie de type incorrect peut provoquer un danger d’explosion. La remplacer uniquement par une batterie du même type ou de type équivalent recommandée par le constructeur. Les batteries doivent être éliminées conformément aux instructions du constructeur.  E22

Mounting of the equipment in the rack should be such that a hazardous condition is not created due to uneven mechanical loading.  E25

Use dedicated power circuits or power conditioners to supply reliable electrical power to the device.  E27

This unit might have more than one power cord. To reduce the risk of electric shock, disconnect all power cords before servicing the unit.  E30

If installed in a closed or multi-unit rack assembly, the operating ambient temperature of the rack environment may be greater than the room ambient temperature. Therefore, consideration should be given to installing the equipment in an environment compatible with the manufacturer’s maximum rated ambient temperature (Tmra).  E35

Installation of the equipment in a rack should be such that the amount of air flow required for safe operation of the equipment is not compromised.  E36

Chapter 3: Beginning the Installation

Warning

Caution

Warning

Reliable earthing of rack-mounted equipment should be maintained. Particular attention should be given to supply connections other than direct connections to the branch circuits (e.g., use of power strips).  E37

To reduce the risk of electric shock, the PoE ports on this product must not connect to cabling that is routed outside the building where this device is located.  E40

The unit does not contain serviceable components. Please return damaged units for servicing.  E42

When you remove an SFP module from this product, the case temperature of the SFP may exceed 40° C (158° F) Exercise caution when handling with unprotected hands.  E43

Planning the Installation

Warning

Observe these requirements when planning the installation of the stack.

The switches of a stack should only be installed in a standard 19inch equipment rack. Allied Telesis does not recommend placing switches on top of one another on a table or desktop because that could present a personal safety hazard if you need to move or replace switches.

 Check that the equipment rack is safely secured and will not tip

 Check that the power outlets for the switches are located near the

Stack Installation Guide for 8100S Series Switches

over. Devices in a rack should be installed starting at the bottom, with the heavier devices near the bottom of the rack.

devices and are easily accessible.

Choosing the

Switches of the

Stack

 Verify that the site provides easy access to the ports on the front of

the switches. This will make it easy for you to connect and disconnect cables, as well as view the port LEDs.

 Check that the site allows for adequate air flow around the units

and through the cooling vents on the front and rear panels. (The ventilation direction in units that have a cooling fan is from front to back, with the fan on the back panel drawing the air out of the unit.)

 Do not place objects on top of the switch.

 Do not expose the switch to moisture or water.

 Make sure the site is a dust-free environment.

 Use dedicated power circuits or power conditioners to supply

reliable electrical power to the network devices.

 Do not install the switch in a wiring or utility box because it will

overheat and fail from inadequate airflow.

Here are the guidelines for choosing the switches of the stack:

 The stack can have up to eight 8100S Series switches or 208

ports.

 The stack can have different 8100S Series switch models.

 Any 8100S Series switch model can be the master switch of the

stack.

Chapter 3: Beginning the Installation

To count the ports on the twisted pair models, include the two 10/100/ 1000Base-T ports along with the 10/100Base-TX ports, but not the SFP slots. For example, a stack of AT-8100S/24 Switches could have up to eight units:

8 switches x 26 ports = 208 ports

To count the ports on the fiber optic models, include the fiber optic, 10/ 100Base-TX, and 10/100/1000Base-T ports, but not the SFP slots. For example, a stack of AT-8100S/24F-LC Switches could have eights units:

8 switches x 26 ports = 208 ports

Choosing a Site The switches of a stack should be installed in a standard 19-inch

equipment rack and not more than one meter apart, the length of the stacking cable. The end switches cannot be more than one meter apart if you want to create the duplex-ring topology, shown in Figure 17.

Figure 17. Switches in an Equipment Rack

You may place the switches side-by-side on a table or desktop, as shown in Figure 18. However, you will not be able to create the duplex-ring topology with a stack of three or more switches, because the distance between the end switches will be more than one meter.

Figure 18. Stack on a Table or Desktop

Unpacking the Switch

One 8100S Series switch

Two rack mounting brackets

One 2 m (6.6 ft) local management cable with RJ-45 (8P8C) and DB-9 (D-sub 9-pin) connectors.

Eight bracket screws

Two regional AC power cords (Not included with DC powered switches.)

One 1 m (3.3 ft) stacking cable with two type A HDMI connectors.

Refer to the figures in this section to verify the contents of the shipping container of the switch. If any items are missing or damaged, contact your Allied Telesis sales representative for assistance.

Stack Installation Guide for 8100S Series Switches

8100S Series

Switches

The 8100S Series switches, except the AT-8100S/24C Switch, come with the components listed in Figure 19.

Figure 19. Components of the 8100S Series Switches

Chapter 3: Beginning the Installation

Note

One AT-8100S/24C Switch

One short rack mounting bracket

One 2 m (6.6 ft) local management cable with RJ-45 (8P8C) and DB-9 (D-sub 9-pin) connectors.

Eight bracket screws

One regional AC power cord

One 1 m (3.3 ft) stacking cable with two type A HDMI connectors.

One long rack mounting bracket

AT-8100S/24C

Switch

The AT-8100S/24C Switch comes with the items listed in Figure 20.

Figure 20. Components of the AT-8100S/24C Switch

You should retain the original packaging material in the event you need to return the unit to Allied Telesis.

Chapter 4 Installing and Labeling the Switches in an Equipment Rack

Here are the procedures in this chapter:

 “Installing the Switches in an Equipment Rack” on page 72

 “Labeling the Switches” on page 77

Chapter 4: Installing and Labeling the Switches in an Equipment Rack

Caution

Installing the Switches in an Equipment Rack

This procedure requires the following items:

 Eight bracket screws (included with the switch)

 Two equipment rack brackets (included with the switch)

 Flat-head screwdriver (not provided)

 Cross-head screwdriver (not provided)

 Four standard equipment rack screws (not provided)

Perform this procedure to install the switch in a 19-inch equipment rack,

The chassis may be heavy and awkward to lift. Allied Telesis recommends that you get assistance when mounting the chassis in an equipment rack.  E28

1. Place the unit upside down on a level, secure surface.

Figure 21. Turning the Switch Upside Down

2. Using a flat-head screwdriver, pry the rubber feet from the bottom of the switch.

Figure 22. Removing the Rubber Feet

3. Turn the switch over.

Stack Installation Guide for 8100S Series Switches

4. For all switches except the AT-8100S/24C Switch, secure the two rack mount brackets to the sides of the switch using the eight bracket screws included with the unit. Figure 23 here and Figure 24 on page 74 illustrate the four possible bracket positions.

Figure 23. Attaching the Brackets to Install the Switch in an Equipment

Rack

Chapter 4: Installing and Labeling the Switches in an Equipment Rack

Figure 24. Attaching the Brackets to Install the Switch in an Equipment

The AT-8100S/24C Switch comes with two short brackets and one long bracket. To install the device in an equipment rack, use one of the short brackets and the long bracket. Allied Telesis recommends installing the short bracket on the right side and the long bracket on the left side, as you face the front of the unit, so that the stacking ports on the unit align with the same ports on other 8100S Series switches in the equipment rack. The possible positions of the brackets are shown in Figure 25 here and Figure 26 on page 75.

Rack (Continued)

Figure 25. Attaching the Brackets to the AT-8100S/24C Switch to Install

the Switch in an Equipment Rack

Stack Installation Guide for 8100S Series Switches

Figure 26. Attaching the Brackets to the AT-8100S/24C Switch to Install

the Switch in an Equipment Rack (Continued)

Chapter 4: Installing and Labeling the Switches in an Equipment Rack

5. Have another person hold the switch in the equipment rack while you secure it using standard screws (not provided).

Figure 27. Mounting the Switch in an Equipment Rack

Repeat this procedure to install all of the switches in the equipment rack. Afterwards, go to “Labeling the Switches” on page 77.

Labeling the Switches

Starting with the top or bottom switch of the stack, assign each unit a number starting with 1 and affix labels with the numbers to their front panels or adjacent to the units on the equipment rack. The numbers will be their stack ID numbers, which you’ll assign in Chapter 5, “Assigning the Stack ID Numbers and Cabling the Stacking Ports” on page 79. The number has a range of 1 to 8. An example of a stack with four switches is shown in Figure 28. Please review the following before numbering the switches:

Stack Installation Guide for 8100S Series Switches

 The labels should also include the MAC addresses of the switches,

which are found on the labels on the back panels. Including the MAC addresses on the labels makes it easier to verify the composition of the stack.

 Although the switches can be numbered in any order, numbering

them in sequence starting with the top or bottom switch makes it easier to identify and manage them.

 The switch assigned stack ID number 1 is the master switch of the

stack. In a stack with different models of 8100S Series switches, the master switch can be any model.

Figure 28. Labelling the Switches

After labeling the units, go to Chapter 5, “Assigning the Stack ID Numbers and Cabling the Stacking Ports” on page 79.

Chapter 4: Installing and Labeling the Switches in an Equipment Rack

Chapter 5 Assigning the Stack ID Numbers and Cabling the Stacking Ports

The procedures in this chapter explain how to configure the stack ID numbers on the switches and cable the S1 and S2 stacking ports:

 “Powering on a Switch” on page 80

 “Verifying and Setting the Stack ID Numbers” on page 82

 “Cabling the Stacking Ports” on page 87

You must assign the stack ID numbers before cabling the S1 and S2 stacking ports.

Chapter 5: Assigning the Stack ID Numbers and Cabling the Stacking Ports

Note

Warning

Powering on a Switch

Power on one of the switches in the stack with these instructions.

1. Plug the power cord into the AC power connector on the back panel of the unit (see Figure 29).

If you are installing a DC powered switch, refer to “Powering On DC Switches” on page 97.

Power cord is used as a disconnection device. To de-energize equipment, disconnect the power cord.  E3

This unit might have more than one power cord. To reduce the risk of electric shock, disconnect all power cords before servicing the unit.  E30

Figure 29. Connecting the AC Power Cord

Stack Installation Guide for 8100S Series Switches

2. Connect the other end of the power cord to an appropriate AC power outlet. For power specifications for the switch, refer to “Power Specifications” on page 132.

3. Wait one minute for the switch to initialize its management software and then go to “Verifying and Setting the Stack ID Numbers” on page 82. For instructions on how to monitor the initialization processes, refer to “Monitoring the Initialization Processes” on page 93.

Chapter 5: Assigning the Stack ID Numbers and Cabling the Stacking Ports

Caution

Verifying and Setting the Stack ID Numbers

After the switch has initialized its management software, examine the number displayed on the Stack ID LED to see if it matches the number you want it to have in the stack. (This is the number you wrote on the switch’s label in “Labeling the Switches” on page 77.) Do one of the following:

 If the switch’s current ID number displayed on the Stack ID LED is

different from the intended ID number for the unit, perform the following procedures to change it.

 If the switch’s current ID number is the same as the intended ID

number for the unit, you do not need to set it because it is already set correctly. Power off the switch and perform the procedure “Powering on a Switch” on page 80 on the next switch in the stack. If you have verified and set the ID numbers on all of the switches, go to “Cabling the Stacking Ports” on page 87.

You may set the stack ID number on the switch from a local management session using the Console port or, because the switch has a factory IP address, from a Telnet management session from any of the unit’s networking ports. If you prefer to use the Console port, go to “Starting a Local Management Session,” next. To use the Telnet application protocol, go to “Starting a Telnet Management Session” on page 83. (You cannot use the web browser management interface to change the switch’s stack ID number.)

Starting a Local

Management

Session

Setting the stack ID number resets the switch. Some network traffic may be lost if the device is connected to a live network.

This procedure requires a terminal or a terminal emulator program and the management cable that comes with the switch. To start a local management session on the switch:

1. Connect the RJ-45 end of the management cable included with the 8100S Switch to the Console port on the front panel of the switch, as shown in Figure 30 on page 83.

Stack Installation Guide for 8100S Series Switches

Note

Figure 30. Connecting the Management Cable to the RJ-45 Terminal Port

on the Switch

2. Connect the other end of the cable to an RS-232 port on a terminal or a personal computer with a terminal emulation program.

3. Configure the terminal or terminal emulation program as follows:

Starting a Telnet

Management

Session

 Baud rate: Default is 9600 bps (Range is 9600 to 115200 bps)

 Data bits: 8

 Parity: None

 Stop bits: 1

 Flow control: None

The port settings are for a DEC VT100 or ANSI terminal, or an equivalent terminal emulator program.

4. Press Enter.

5. When prompted for a user name, go to “Changing the Stack ID Number” on page 85.

Setting the stack ID number from a Telnet management session requires Telnet client software on your computer. This procedure assumes that you will be connecting your computer to a twisted pair port on the switch. To start a Telnet management session on the switch using the factory IP address:

1. Assign your management workstation the IP address 169.254.n.n, with the subnet mask 255.255.0.0. The variable n can be from 1 to 255. You may not use the switch’s IP address 169.254.1.1. Refer to your computer’s documentation for instructions on how to set the IP address.

Chapter 5: Assigning the Stack ID Numbers and Cabling the Stacking Ports

Note

Your computer automatically defaults to an 169.254.n.n address if it is running a DHCP client and does not receive a response from a DHCP server. To have a DHCP client assign the address, disconnect your computer from your network, power it on, wait for the DHCP client to generate the IP address 169.254.n.n, and then connect the computer to your new 8100S Series switch.

2. Connect a straight-through twisted pair cable to one of the networking ports on the switch. You may connect the cable to any of the ports, except the Console port, which is not a networking port.

Figure 31. Connecting the Twisted Pair Cable to a Networking Port on the

Switch

The switch does not come with twisted pair cables.

3. Connect the other end of the cable to the Ethernet port on your computer.

4. Start the Telnet client on your computer and specify the switch’s IP address, 169.254.1.1.

5. When prompted for a user name, go to “Changing the Stack ID Number” on page 85.

Stack Installation Guide for 8100S Series Switches

Caution

awplus>

*** Warning Stack renumbering requires immediate reboot *** Stack will restart with new Device ID, all ports will have new numbering and any port configurations will probably be lost.

Renumber and reboot system ? (y/n):

Changing the

Stack ID Number

To set the stack ID number:

1. When prompted, enter a user name and password to log on the switch. If this is the initial management session of the switch, enter “manager” as the user name “friend” as the password. The user name and password are case sensitive.

The local management session has started when the AlliedWare Plus™ command line prompt, shown in Figure 32 is displayed.

Figure 32. AlliedWare Plus Command Line Prompt

2. Enter the ENABLE and CONFIGURE TERMINAL commands to move to the Global Configuration mode.

awplus> enable awplus# configure terminal awplus(config)#

3. To set the switch’s ID number, use the STACK command, in this format:

stack

old_id

renumber

new_id

The OLD_ID parameter is the switch’s current ID number, displayed on the stack ID LED. The NEW_ID parameter will be the switch’s new ID number, found on the label that you added to the switch in “Labeling the Switches” on page 77. In this example of the command, the switch’s current ID number is 0 and its new number is 1:

awplus(config)# stack 0 renumber 1

This confirmation prompt is displayed.

Figure 33. STACK Command Confirmation Prompt

The STACK command resets the switch. Some network traffic may be lost if the switch is already connected to a live network.

Chapter 5: Assigning the Stack ID Numbers and Cabling the Stacking Ports

4. Type Y to change the switch’s ID number and reset the unit, or N to cancel the procedure.

5. Wait for the switch to initialize its management software and afterwards examine the Stack ID LED again to confirm that it’s displaying the correct stack ID number for the switch. For example, if in step 3 you assigned the switch the ID number 2, then the stack ID LED should be displaying the number 2.

6. Disconnect the AC power cord from the switch and the power source.

7. Return to “Powering on a Switch” on page 80 to verify and set the stack ID number of the next switch in the stack. If there are no further switches, go to “Cabling the Stacking Ports” on page 87.

Cabling the Stacking Ports

Note

Caution

Now that you’ve assigned and verified the stack ID numbers of the switches, you may connect the stacking cables to the S1 and S2 stacking ports on the front panels of the units. A stacking cable must crossover to different stacking ports on two switches, such that it connects the S1 port on one switch to the S2 port one another switch.

All the switches should be powered off.

1. Starting with the top switch, connect one end of a stacking cable to either the S1 or S2 port.

2. Connect the other end of the same cable to one of the stacking ports on the second switch, being sure that the cable crosses over to a different port. In the example shown in Figure 34, port S1 on the first switch is connected to port S2 on the second switch.

Stack Installation Guide for 8100S Series Switches

Do not connect two S1 or S2 ports together.

Figure 34. Connecting the Stacking Cable

3. If the stack has more than two switches, repeat this with the remaining devices, being sure that the two connectors on a stacking cable connect to different stacking ports.

Chapter 5: Assigning the Stack ID Numbers and Cabling the Stacking Ports

An example of a stack of four switches is shown in this figure.

Figure 35. Example Stack of Four Switches

Stack Installation Guide for 8100S Series Switches

4. To add a redundant path to the stack, connect a stacking cable to the empty stacking ports on the top and bottom switches.

An example of a stack with a redundant path is shown in Figure 36.

Figure 36. Example Stack of Four Switches with a Redundant Path

5. Go to Chapter 6, “Powering On and Verifying the Stack” on page 91.

Chapter 5: Assigning the Stack ID Numbers and Cabling the Stacking Ports

Chapter 6 Powering On and Verifying the Stack

The procedures in this chapter are listed here:

 “Powering on AC Switches” on page 92

 “Powering On DC Switches” on page 97

 “Verifying the Installation” on page 101

Chapter 6: Powering On and Verifying the Stack

Powering on AC Switches

To power on the stack for the first time, connect the power cords to the connectors on the back panels and to the appropriate power sources. All of the models have two power supplies with separate connectors. The only exception is the AT-8100S/24C Switch, which has only one power supply.

Figure 37. Plugging in the AC Power Cords

Consider the following items as you power on the stack:

 You should power on the member switches first, wait a few

seconds, and then power on the master switch. The master switch is the unit with the lowest stack ID number.

 You can protect a switch from a power circuit failure by connecting

its two power cords to power sources that are on different circuits.

 The AT-8100S/24POE Switch supports 370 watts of PoE only

when both internal power supplies are connected to power sources. The switch haS a PoE budget of 185 watts if only one power supply is functional. For background information, refer to “Power Supplies” on page 48.

 For the power specifications, refer to “Power Specifications” on

page 132.

Stack Installation Guide for 8100S Series Switches

Warning

Note

Power cord is used as a disconnection device. To de-energize equipment, disconnect the power cord.  E3

Pluggable Equipment. The socket outlet shall be installed near the equipment and shall be easily accessible.  E5

Monitoring the

Initialization

Processes

LEDs

Base port LEDs On On Off Off Off

10/100/1000Base-T port and SFP slot LEDs

It takes a minimum of three minutes for the switches of the stack to initialize their management software programs and features, perform the discovery process, and load the configuration file. You may monitor the processes by watching the LEDs on the front panel. Table 16 provides the various phases of the entire initialization process and the approximate time intervals the phases require. The time length of phase 5, loading the configuration file, varies from a few seconds to four minutes, depending on the number and complexity of the commands in the file. The Stack ID LED acts differently depending on whether the unit is powered on or reset with the RELOAD or RESET command.

Table 16. LEDs and Management Software Initialization

Initialize Management

Software

Phase 1:

15 seconds

On Off Off Off Off

Phase 2:

15 seconds

Initialize

Features

Phase 3:

10 seconds

DIscovery

Process

Phase 4:

80 seconds

Configura-

Load

tion File

Phase 5:

varies

Stack ID LED

Power cycle Off Off Flashing On On

RELOAD or RESET command

On On Flashing On On

The base port LEDs are on in phases 1 and 2 if they are connected to live network devices. Otherwise, they are off. The 10/100/1000Base-T port and SFP LEDs are on in phase 1 regardless of whether they are connected to live network devices.

Chapter 6: Powering On and Verifying the Stack

Initializing Arena. Initializing Devices. Board : BCM956218K48 CPU type 0x2901A: 266MHz Total memory: 0x8000000 bytes (128MB) Total memory used by CFE: 0x87EBB000 - 0x87FFF6C0 (1328832) Initialized Data: 0x87EFA224 - 0x87EFC4F0 (8908) BSS Area: 0x87EFC4F0 - 0x87EFD6C0 (4560) Local Heap: 0x87EFD6C0 - 0x87FFD6C0 (1048576) Stack Area: 0x87FFD6C0 - 0x87FFF6C0 (8192) Text (code) segment: 0x87EBB000 - 0x87EF9AE3 (256739) Boot area (physical): 0x07E7A000 - 0x07EBA000 Relocation Factor: I:E82BB000 - D:E82BB000 Loader:elf Filesys:raw Dev:flash0.os-Linux File:ATI Options:(null) Loading: 0x80001000/2341892 0x8023e000/12135086 0x80dd0aae/185714 Entry at 0x8026c000 Starting program at 0x8026c000

/usr/bin:/bin:/usr/sbin:/sbin Starting SNMP... Starting MainTask...

Initializing System ................................. done!

Initializing Board .................................. done!

Initializing Serial Interface ....................... done!

Initializing Timer Library .......................... done!

Initializing IPC .................................... done!

Initializing Event Log .............................. done!

Initializing Switch Models .......................... done!

Initializing File System ............................ done!

Initializing Database ............................... done!

Initializing Configuration .......................... done!

Initializing AW+ CLI ................................ done!

Initializing Drivers ................................ done!

Initializing Port ................................... done!

Initializing Trunk .................................. done!

Initializing Port Security .......................... done!

Initializing LACP ................................... done!

Initializing PORT VLAN .............................. done!

Initializing Port Mirroring ......................... done!

You may also monitor the processes by connecting a terminal or computer with has a terminal emulator program to the Console port on the master switch. The messages in Figure 38 here, Figure 39 on page 95, and Figure 40 on page 96 are displayed during the initialization process.

Figure 38. Switch Initialization Messages

Initializing Port Statistics ........................ done!

Initializing Snmp Service ........................... done!

Initializing Web Service ............................ done!

Initializing Monitor ................................ done!

Initializing STP .................................... done!

Initializing SPANNING TREE .......................... done!

Initializing L2_MGMT ................................ done!

Initializing LLDP_RX ................................ done!

Initializing LLDP_TX ................................ done!

Initializing GARP ................................... done!

Initializing GARP Post Init Task .................... done!

Initializing IGMPSnoop .............................. done!

Initializing SYS_MGMT ............................... done!

Initializing SWITCH_MGMT ............................ done!

Initializing L2APP_MGMT ............................. done!

Initializing SNMP_MGMT .............................. done!

Initializing Authentication ......................... done!

Initializing TCPIP .................................. done!

Initializing Default VLAN .......................... done!

Initializing ENCO ................................... done!

Initializing PKI .................................... done!

Initializing PortAccess ............................. done!

Initializing PAAcctRcv .............................. done!

Initializing SSH .................................... done!

Initializing IFM .................................... done!

Initializing IFMV6 .................................. done!

Initializing RTM .................................... done!

Initializing FTAB ................................... done!

Initializing FTABV6 ................................. done!

Initializing ACM .................................... done!

Initializing Filter ................................. done!

Initializing L3_MGMT ................................ done!

Initializing L3APP_MGMT ............................. done!

Initializing SFLOW .................................. done!

Initializing NTP .................................... done!

Initializing CPU_HIST ............................... done!

Initializing EStacking .............................. done!

Initializing MGMT_MGMT .............................. done!

Initializing PSTACK ................................. done!

Please wait while Stack is being detected ........... done!

Stack is Active, beginning initialization ... Please Wait ... Starting Master election, please wait...

Master election is done! Switch 1 (00:00:54:55:56:01) is the master.

Figure 39. Switch Initialization Messages (Continued)

Stack Installation Guide for 8100S Series Switches

Chapter 6: Powering On and Verifying the Stack

Note

Stack topology discovery is in process... Please Wait

Loading configuration file “boot.cfg” .... done!

Sending Configuration file to all slaves. Please wait... 00000001 Sending configuration file done!

Press <ENTER> key to connect... New Switch 2 (00:15:77:99:99:91) is added into stack

At this point, the stack is operational and ready to forward network traffic. Before connecting the network cables, go to “Verifying the Installation” on page 101.

Figure 40. Switch Initialization Messages (Continued)

After the stack becomes operational, the stack ID LEDs on the master and member switches flash the ID numbers and code letter “H” every few seconds. This is normal for the LEDs when the switches are operating in a stack configuration.

Powering On DC Switches

Warning

Note

Perform this procedure to power on a stack of DC 8100S Series switches:

As a safety precaution, install a circuit breaker with a minimum value of 15 Amps between the equipment and the DC power source.

Always connect the wires to the LAN equipment first before you connect the wires to the circuit breaker. Do not work with HOT feeds to avoid the danger of physical injury from electrical shock. Always be sure that the circuit breaker is in the OFF position before connecting the wires to the breaker. E9

For centralized DC power connection, install only in a restricted access area.  E23

Stack Installation Guide for 8100S Series Switches

A tray cable is required to connect the power source if the unit is powered by centralized DC power. The tray cable must be a UL listed Type TC tray cable and rated at 600 V and 90 degrees C, with three conductors, minimum 14 AWG.  E24

The AT-8100S/24 Switch is currently the only model with a DC power supply option. For details on the availability of other DC models, contact your Allied Telesis representative.

1. Power off the DC circuit to which the switch will be connected.

2. Use the legend below the terminal block to identify the terminals. The terminals are positive, power supply ground, and negative, from left to right, as shown in Figure 41 on page 98.

Chapter 6: Powering On and Verifying the Stack

Warning

Positive Ground Negative

TerminalTerminalTerminal

Figure 41. DC Terminal Block

3. With a 14-gauge wire-stripping tool, strip the three wires in the tray cable coming from the DC input power source to 8mm  1mm (0.31 in.,  0.039 in.), as shown in Figure 42 on page 98.

Do not strip more than the recommended amount of wire. Stripping more than the recommended amount can create a safety hazard by leaving exposed wire on the terminal block after installation.  E10

Figure 42. Stripped Wire

4. Insert the power supply ground wire into the middle connector of the DC terminal and tighten the connection with a flathead screwdriver, as shown in Figure 43 on page 99.

When installing this equipment, always ensure that the power supply ground connection is installed first and disconnected last.  E11

Stack Installation Guide for 8100S Series Switches

Warning

Note

Figure 43. Inserting Wires into the DC Terminal Block

5. Connect the positive feed wire to the terminal block marked + (plus).

6. Connect the negative feed wire to the terminal block marked - (minus).

Check to see if there are any exposed copper strands coming from the installed wires. When this installation is done correctly there should be no exposed copper wire strands extending from the terminal block. Any exposed wiring can conduct harmful levels of electricity to persons touching the wires.  E12

7. Secure the tray cable near the rack framework using multiple cable ties to minimize the chance of the connections being disturbed by casual contact with the wiring. Use at least four cable ties, separated four inches apart. Locate the first one within six inches of the terminal block.

This system will work with a positive grounded or negative grounded DC system.  E13

8. Verify that the circuit breaker is in the OFF position.

9. Connect the supply-cable wires to the circuit breaker.

10. Energize the circuit breaker.

It takes the switches of a stack a minimum of two minutes to initialize their management software and activate the default settings. For instructions on how to monitor the processes, refer to “Monitoring the Initialization Processes” on page 93.

Chapter 6: Powering On and Verifying the Stack

Warning

11. Repeat this procedure to power on the second power supply.

12. Repeat this procedure to power on the other switches in the stack.

At this point, the stack is operational and ready to forward network traffic. Before connecting the network cables, go to the next procedure, “Verifying the Installation” on page 101.

This unit might have more than one power source. To reduce the risk of electric shock, disconnect all power cords before servicing the unit.  E30

100

Allied Telesis AT-8100S-16F8-SC, AT-8100S-24, AT-8100S-24F-LC, AT-8100S-24C, AT-8100S-16F8-LC User Manual

Specifications and Main Features

Frequently Asked Questions

User Manual

Contents

Figures

Tables

Preface

Document Conventions

Contacting Allied Telesis

Chapter 1

Overview

Features

8100S Models Here are the 8100S Series switches:

Fiber Optic Ports Here are the basic features of the fiber optic ports:

SFP Slots Here are the basic features of the SFP slots:

Stacking Ports Here are the basic features of the stacking ports on the 8100S Series

LEDs Here are the port LEDs:

Fanless Models Here are the 8100S Series switches that do not have fans:

8100S Twisted Pair Series Switches

Front Panels The front panels of the 8100S Series switches with twisted pair ports are

8100S Fiber Optic Series Switches

Front Panels The front panels of the fiber optic switches are shown in Figure 3 here and

Fiber Optic Ports Table 3 lists the general specifications of the fiber optic ports on the fiber

Back Panel Components

Management Panel

Model Naming Conventions

10/100Base-TX Twisted Pair Ports

Speed The ports can operate at either 10 or 100 Mbps. The speeds may be set

Duplex Mode The twisted pair ports can operate in either half- or full-duplex mode. The

Port Pinouts Refer to Table 25 on page 134 for the port pinouts of the 10/100Base-TX

10/100/1000Base-T Twisted Pair Ports

Speed The ports can operate at 10, 100, or 1000 Mbps. The speeds may be set

Duplex Mode The twisted pair ports can operate in either half- or full-duplex mode. The

Port Pinouts Refer to Table 25 on page 134 and Table 26 on page 135 for the port

SFP Slots

Power Over Ethernet

PoE Standards The AT-8100S/24POE Switch supports these PoE standards:

Power Budget The AT-8100S/24POE Switch has a power budget of 370 watts. This is

S1 and S2 Stacking Ports

eco-friendly Button

LEDs

SFP Slot LED Each SFP slot has one LED.

Stack ID LED The Stack ID LED displays the ID number of the switch. A stand-alone

Console Port

Power Supplies

Power Connectors

Chapter 2

Stacking Overview

Stacking Guidelines

Master Switch

Stacking Port Topologies

Active Boot Configuration File

Initialization Process

Chapter 3

Beginning the Installation

Installation Overview

Reviewing Safety Precautions

Planning the Installation

Choosing a Site The switches of a stack should be installed in a standard 19-inch

Unpacking the Switch

Chapter 4

Installing and Labeling the Switches in an Equipment Rack

Installing the Switches in an Equipment Rack

Labeling the Switches

Chapter 5

Assigning the Stack ID Numbers and Cabling the Stacking Ports

Powering on a Switch

Verifying and Setting the Stack ID Numbers

Cabling the Stacking Ports

Chapter 6

Powering On and Verifying the Stack

Powering on AC Switches

Powering On DC Switches