Table of Contents
- Electrical Safety and Emissions Standards
- Contents
- Figures
- Tables
- Preface
- Chapter 1
- Chapter 2
- Chapter 3
- Chapter 4
- Chapter 5
- Chapter 6
- Chapter 7
- Chapter 8
- Chapter 9
- Chapter 10
- Appendix A
Allied Telesis AT-x320-10GH-00 User Manual
Displayed below is the user manual for AT-x320-10GH-00 by Allied Telesis which is a product in the Network Switches category. This manual has pages.
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Copyright 2020 Allied Telesis, Inc.
All rights reserved. No part of this publication may be reproduced without prior written permission from Allied Telesis, Inc.
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.
3
Electrical Safety and Emissions Standards
This section contains the following:
“US Federal Communications Commission”
“Industry Canada”
“Regulatory Approvals” on page 4
“Translated Safety Statements” on page 5
US 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
Radiated Energy
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.
4
Regulatory Approvals
The regulatory approvals of the product are listed here:
Safety
UL/IEC/EN 62386-1
CAN/CSA-22.2: 62368-1
EMC
CE, FCC Part 15 Class A
EN55032 (CISPR32) Class A
EN61000-3-2
EN61000-3-3
EN55035
EN61000-4-2
EN61000-4-3
EN61000-4-4
EN61000-4-5
EN61000-4-6
EN61000-4-8
EN61000-4-11
2014/30/EU EMC Directive
2014/35/EU Low Voltage Directive
Allied Telesis approved SFP modules
EN60825-1
EN60825-2
UL/IEC/EN60950-1
FDA CDRH accession registration
Note
This product has an agency label on the bottom panel with the applicable international
Compliance Marks, product model name and serial number, power ratings, manufacture date,
country of origin, and name of importer. Refer there for all applicable international Compliance
Marks.
Warning: In a domestic environment this product may cause radio interference in
which case the user may be required to take adequate measures.
Laser Safety EN60825
5
Translated Safety Statements
Important: Safety statements that have the symbol are translated into multiple languages in the
Translated Safety Statements document, which is available at www.alliedtelesis.com/library.
Remarque: Les consignes de sécurité portant le symbole sont traduites dans plusieurs
langues dans le document Translated Safety Statements, disponible à l'adresse
www.alliedtelesis.com/library.
6
7
Preface ...............................................................................................................................................................................15
Safety Symbols Used in this Document .......................................................................................................................16
Contacting Allied Telesis ..............................................................................................................................................17
Chapter 1: Overview of the x320-10GH Switch ..............................................................................................................19
Front Panel...................................................................................................................................................................20
Features .......................................................................................................................................................................21
Ports 1 to 8............................................................................................................................................................21
PoE+ Budgets .......................................................................................................................................................21
Ports 9 and 10.......................................................................................................................................................21
Additional Features ...............................................................................................................................................21
Installation Options................................................................................................................................................22
Management Methods ..........................................................................................................................................22
USB Port ...............................................................................................................................................................22
Ports 1 to 8 ...................................................................................................................................................................23
Specifications ........................................................................................................................................................23
Powered Device Classes ......................................................................................................................................24
Ports 1 to 8 LEDs ..................................................................................................................................................24
Cable Requirements .............................................................................................................................................26
PWR300 Power Supply................................................................................................................................................27
Power Supply Unit LED.........................................................................................................................................27
PoE Port Priorities ........................................................................................................................................................28
SFP Transceiver Ports .................................................................................................................................................31
SFP Transceivers..................................................................................................................................................31
LEDs .....................................................................................................................................................................31
USB Port ......................................................................................................................................................................32
USB Port LED .......................................................................................................................................................32
Console Port.................................................................................................................................................................33
Fault and Power LEDs .................................................................................................................................................34
Switch LEDs..........................................................................................................................................................34
eco-friendly Command .................................................................................................................................................35
Planning the Installation ...............................................................................................................................................36
Chapter 2: Overview of the x320-11GPT Switch ............................................................................................................39
Front Panel...................................................................................................................................................................40
Features .......................................................................................................................................................................41
Ports 1 to 8............................................................................................................................................................41
Port 11...................................................................................................................................................................41
PoE+ Budgets .......................................................................................................................................................41
Ports 9 and 10.......................................................................................................................................................41
Additional Features ...............................................................................................................................................41
Installation Options................................................................................................................................................42
Management Methods ..........................................................................................................................................42
USB Port ...............................................................................................................................................................42
Ports 1 to 8 ...................................................................................................................................................................43
Specifications ........................................................................................................................................................43
Powered Device Classes ......................................................................................................................................44
Ports 1 to 8 LEDs ..................................................................................................................................................44
Cable Requirements .............................................................................................................................................46
Port 11 - PoE IN Pass-through.....................................................................................................................................47
Powered Device Classes ......................................................................................................................................47
PoE Budget ...........................................................................................................................................................47
Port 11 LEDs.........................................................................................................................................................48
Cable Requirements .............................................................................................................................................49
PWR90ADP AC/DC Power Adapter.............................................................................................................................50
Contents
Contents
8
PoE Port Priorities ....................................................................................................................................................... 51
SFP Transceiver Ports................................................................................................................................................. 52
SFP Transceivers................................................................................................................................................. 52
LEDs..................................................................................................................................................................... 52
USB Port...................................................................................................................................................................... 53
USB Port LED ...................................................................................................................................................... 53
Console Port................................................................................................................................................................ 54
Fault and Power LEDs................................................................................................................................................. 55
eco-friendly Command................................................................................................................................................. 56
Switch Markings .......................................................................................................................................................... 57
Planning the Installation .............................................................................................................................................. 58
Chapter 3: Beginning the Installation ............................................................................................................................ 61
Reviewing Safety Precautions..................................................................................................................................... 62
Choosing a Site for the Device .................................................................................................................................... 67
Unpacking the Equipment ........................................................................................................................................... 69
x320-10GH Switch ............................................................................................................................................... 69
x320-11GPT Switch ............................................................................................................................................. 70
PWR300 Power Supply........................................................................................................................................ 71
Accessory Kits ............................................................................................................................................................. 72
x320-10GH Switch Accessory Kit......................................................................................................................... 72
x320-11GPT Switch Accessory Kit....................................................................................................................... 73
19-Inch Rack Mount Kit ........................................................................................................................................ 74
PWR300 Power Supply Accessory Kit ................................................................................................................. 75
RKMT-J24 Wall Mount Kit .................................................................................................................................... 76
DRMT-J03 DIN Rail Mount Kit.............................................................................................................................. 77
RKMT-J15 Tray Bracket Mount Kit....................................................................................................................... 77
Chapter 4: Installing the Device on a Table or Desktop ............................................................................................... 79
Planning the Installation .............................................................................................................................................. 80
Installing the Switch on a Table or Desktop................................................................................................................. 81
Chapter 5: Installing the Device in an Equipment Rack ............................................................................................... 83
Overview of Installing the Device in an Equipment Rack ............................................................................................ 84
Installing the Device in an Equipment Rack with the Rack Mount Kit Brackets........................................................... 86
Required Items for the Rack Mount Kit Brackets.................................................................................................. 86
Device Orientations in the Equipment Rack......................................................................................................... 86
Installing the Device with the Brackets ................................................................................................................. 88
Installing the Device in an Equipment Rack with the RKMT-J15 Bracket.................................................................... 92
Required Items for the RKMT-J15 Bracket........................................................................................................... 92
Installing the Device with the RKMT-J15 Bracket................................................................................................. 92
Chapter 6: Installing the Device on the DRMT-J03 DIN Rail ........................................................................................ 97
Installing the Device on the DRMT-J03 DIN Chassis Bracket ..................................................................................... 98
Installing the Device on a DIN Rail ............................................................................................................................ 100
Chapter 7: Installing the Device on a Wall ................................................................................................................... 103
Device Orientations on a Wall ................................................................................................................................... 104
Installation Guidelines ............................................................................................................................................... 105
Tools and Material.............................................................................................................................................. 105
Plywood Base for a Wall with Wooden Studs............................................................................................................ 107
Installing a Plywood Base.......................................................................................................................................... 109
Installing the Device on a Plywood Base................................................................................................................... 110
Installing the Device on a Concrete Wall ................................................................................................................... 113
Chapter 8: Cabling the Networking Ports .................................................................................................................... 117
Cabling Twisted Pair Ports ........................................................................................................................................ 118
Guidelines to Handling SFP Transceivers ................................................................................................................. 119
Installing SFP Transceivers ....................................................................................................................................... 120
Chapter 9: Powering On the Switch ............................................................................................................................. 123
Powering on the x320-10GH Switch.......................................................................................................................... 124
Connecting the PWR300 Power Supply............................................................................................................. 124
x320/GS980EM Series Installation Guide
9
Powering on the PWR300 Power Supply............................................................................................................125
Powering on the x320-11GPT Switch.........................................................................................................................128
Connecting Port 11 to a PoE Power Source .......................................................................................................128
Connecting the PWR90ADP Power Adapter.......................................................................................................129
Powering on the PWR90ADP AC/DC Adapter....................................................................................................130
Monitoring the Initialization Processes .......................................................................................................................132
Starting a Local Management Session.......................................................................................................................133
Verifying the PoE Budget ...........................................................................................................................................135
x320-10GH..........................................................................................................................................................135
x320-11GPT........................................................................................................................................................135
Chapter 10: Troubleshooting .........................................................................................................................................137
x320-10GH Switch .....................................................................................................................................................138
PWR300 Power Supply.......................................................................................................................................138
PoE++ on Ports 1 to 8.........................................................................................................................................141
x320-11GPT Switch ...................................................................................................................................................142
Port 11 PoE-IN ....................................................................................................................................................142
PWR90ADP AC/DC Adapter...............................................................................................................................142
PoE+ on Ports 1 to 8...........................................................................................................................................143
Twisted Pair Ports 1 to 8 ............................................................................................................................................144
SFP Ports ...................................................................................................................................................................145
Appendix A: Technical Specifications ..........................................................................................................................147
Physical Specifications...............................................................................................................................................148
Environmental Specifications .....................................................................................................................................151
Power Specifications ..................................................................................................................................................153
Certifications...............................................................................................................................................................154
RJ-45 Twisted Pair Port Pinouts.................................................................................................................................155
RJ-45 Style Serial Console Port Pinouts....................................................................................................................157
Contents
10
11
Figure 1: Front Panel of the x320-10GH Switch...................................................................................................................20
Figure 2: LEDs for Ports 1 to 8 on the x320-10GH Switch. ..................................................................................................24
Figure 3: PWR300 Power Supply.........................................................................................................................................27
Figure 4: SFP Transceiver Ports LEDs.................................................................................................................................31
Figure 5: x320-10GH USB Port and LED .............................................................................................................................32
Figure 6: Fault and Power LEDs...........................................................................................................................................34
Figure 7: Front Panel of the x320-11GPT Switch.................................................................................................................40
Figure 8: LEDs for Ports 1 to 8 on the x320-11GPT Switch. ................................................................................................44
Figure 9: LEDs for Port 11 on the x320-11GPT Switch ........................................................................................................48
Figure 10: PWR90ADP AC/DC Power Adapter....................................................................................................................50
Figure 11: SFP Transceiver Ports LEDs...............................................................................................................................52
Figure 12: x320-11GPT USB Port and LED .........................................................................................................................53
Figure 13: Fault and Power LEDs.........................................................................................................................................55
Figure 14: x320-10GH or Shipping Box................................................................................................................................69
Figure 15: x320-11GPT Shipping Box..................................................................................................................................70
Figure 16: PWR300 Shipping Box........................................................................................................................................71
Figure 17: x320-10GH Switch Accessory Kit........................................................................................................................72
Figure 18: x320-11GPT Switch Accessory Kit......................................................................................................................73
Figure 19: Rack Mount Kit ....................................................................................................................................................74
Figure 20: PWR300 Power Supply Accessory Kit ................................................................................................................75
Figure 21: RKMT-J24 Wall Mount Kit ...................................................................................................................................76
Figure 22: DRMT-J03 DIN Rail Mount Kit.............................................................................................................................77
Figure 23: RKMT-J15 Tray Bracket Mount Kit......................................................................................................................77
Figure 24: Required Minimum Distances Between Devices for a Desk or Table Installation ...............................................80
Figure 25: Affixing the Adhesive Feet...................................................................................................................................81
Figure 26: Rack Mount Kit Brackets and Device ..................................................................................................................84
Figure 27: x320-10GH Switch and PWR300 Power Supplies in the RKMT-J15 Bracket .....................................................85
Figure 28: Bracket Holes ......................................................................................................................................................87
Figure 29: Device Orientation with the Front Panel Facing the Front of the Equipment Rack .............................................88
Figure 30: Attaching the Brackets to the Device...................................................................................................................89
Figure 31: Attaching the Bracket Extension to the Device....................................................................................................89
Figure 32: Installing the Device in an Equipment Rack ........................................................................................................90
Figure 33: Device Secured in an Equipment Rack ...............................................................................................................91
Figure 34: Installing the RKMT-J15 Bracket in the Equipment Rack....................................................................................93
Figure 35: Loosening the Two Thumbscrews on the Front of the RKMT-J15 Bracket.........................................................93
Figure 36: Sliding Out the Tray of the RKMT-J15.................................................................................................................94
Figure 37: Placing a Device in the RKMT-J15 Bracket.........................................................................................................94
Figure 38: Securing the Device to the RKMT-J15 Bracket...................................................................................................95
Figure 39: Sliding in the Bracket Tray...................................................................................................................................95
Figure 40: Tightening the Two Thumbscrews on the RKMT-J15 Bracket ............................................................................96
Figure 41: DRMT-J03 DIN Chassis Bracket.........................................................................................................................98
Figure 42: Placing the Device on the DRMT-J03 DIN Chassis Bracket ...............................................................................98
Figure 43: Screwing the Device to the DRMT-J03 DIN Chassis Bracket .............................................................................99
Figure 44: Orientation of the Device on a DIN Rail.............................................................................................................100
Figure 45: Pressing Down on the Spring-Loaded Lever.....................................................................................................100
Figure 46: Installing the Device on a DIN Rail ....................................................................................................................101
Figure 47: Verifying the DIN Rail Installation ......................................................................................................................102
Figure 48: Positioning the x320-10GH Switch or x320-11GPT Switch on the Wall............................................................104
Figure 49: Positioning the PWR300 Power Supply on the Wall .........................................................................................104
Figures
Figures
12
Figure 50: Device on the Wall with a Plywood Base...........................................................................................................107
Figure 51: Steps to Installing the Device with a Plywood Base ..........................................................................................108
Figure 52: Installing the Wall Brackets on a Switch............................................................................................................111
Figure 53: Installing the Wall Brackets on a Power Supply ................................................................................................111
Figure 54: Securing the Device to the Plywood Base.........................................................................................................112
Figure 55: Marking the Locations of the Bracket Holes on a Concrete Wall.......................................................................114
Figure 56: Installing the Device on a Concrete Wall...........................................................................................................115
Figure 57: SFP Ports 9 and 10 ...........................................................................................................................................120
Figure 58: Installing an SFP Transceiver............................................................................................................................121
Figure 59: SFP Transceiver Clicking into Place..................................................................................................................121
Figure 60: Positioning the SFP Handle in the Upright Position...........................................................................................122
Figure 61: Connecting a Fiber Optic Cable to an SFP Transceiver....................................................................................122
Figure 62: Connecting the External Harness to the x320-10GH Switch.............................................................................124
Figure 63: Connecting the PWR300 Power Supply to the x320-10GH Switch ...................................................................125
Figure 64: Installing the Power Cord Retaining Clip on the PWR300 Power Supply..........................................................126
Figure 65: Connecting the AC Power Cord.........................................................................................................................126
Figure 66: Lowering the Power Cord Retaining Clip...........................................................................................................127
Figure 67: Connecting the Power Cord to an AC Power Source........................................................................................127
Figure 68: Connecting the PWR90ADP Power Adapter to the x320-11GPT Switch ..........................................................129
Figure 69: Connecting the Power Cord to the Power Adapter............................................................................................129
Figure 70: Connecting the Power Cord to the Power Adapter............................................................................................131
Figure 71: Connecting the Power Cord to an AC Power Source........................................................................................131
Figure 72: PWR300 Dimensions.........................................................................................................................................148
Figure 73: x320-10GH Dimensions.....................................................................................................................................149
Figure 74: x320-11GPT Dimensions...................................................................................................................................149
Figure 75: RJ-45 Socket Pin Layout (Front View)...............................................................................................................155
13
Tables
Table 1: Maximum PoE Ports Supported on the x320-10GH Switch ..................................................................................21
Table 2: Specifications for Ports 1 to 8 on the x320-10GH Switch ......................................................................................23
Table 3: Supported Powered Device Classes on Ports 1 to 8 of the x320-10GH Switch ....................................................24
Table 4: LEDs for Ports 1 to 8 on the x320-10GH Switch ...................................................................................................25
Table 5: Fault and Power LEDS ..........................................................................................................................................27
Table 6: Denial of Ports by Priority ......................................................................................................................................29
Table 7: LEDS for the SFP Transceiver Ports .....................................................................................................................31
Table 8: USB LED ...............................................................................................................................................................32
Table 9: Fault and Power LEDS ..........................................................................................................................................34
Table 10: Port 1 to 8 Worksheet for the x320-10GH Switch ................................................................................................36
Table 11: Worksheet Column Descriptions .........................................................................................................................37
Table 12: Power Worksheet for the x320-10GH Switch ......................................................................................................38
Table 13: Specifications for Ports 1 to 8 on the x320-11GPT Switch ..................................................................................43
Table 14: Supported Powered Device Classes on Ports 1 to 8 of the x320-11GPT Switch ................................................44
Table 15: LEDs for Ports 1 to 8 on the x320-11GPT Switch ...............................................................................................45
Table 16: PoE Budget from Port 11 for Ports 1 to 8 on the x320-11GPT Switch ................................................................47
Table 17: LEDs for Port 11 on the x320-11GPT Switch ......................................................................................................48
Table 18: LEDS for the SFP Transceiver Ports ...................................................................................................................52
Table 19: USB LED .............................................................................................................................................................53
Table 20: Fault and Power LEDS ........................................................................................................................................55
Table 21: Port 1 to 8 Worksheet for the x320-11GPT Switch ..............................................................................................58
Table 22: Worksheet Column Descriptions .........................................................................................................................59
Table 23: Power Worksheet for the x320-11GPT Switch ....................................................................................................60
Table 24: Product Dimensions ...........................................................................................................................................148
Table 25: Product Weights ................................................................................................................................................150
Table 26: Ventilation Requirements ...................................................................................................................................150
Table 27: Environmental Specifications .............................................................................................................................151
Table 28: Operating Temperature Derating .......................................................................................................................151
Table 29: Maximum Power Consumptions ........................................................................................................................153
Table 30: Input Voltages ....................................................................................................................................................153
Table 31: Heat Dissipation ................................................................................................................................................153
Table 32: Product Certifications .........................................................................................................................................154
Table 33: Pin Signals for 10 and 100 Mbps .......................................................................................................................155
Table 34: Pin Signals for 1Gbps ........................................................................................................................................156
Table 35: RJ-45 Style Serial Console Port Pin Signals .....................................................................................................157
Table 36: x320-10GH DC-IN Pin Signals ..........................................................................................................................157
Tables
14
Preface
16
Safety Symbols Used in this Document
This document uses the following conventions.
Note
Notes provide additional information.
Caution
Cautions inform you that performing or omitting a specific action
may result in equipment damage or loss of data.
Warning
Warnings inform you that performing or omitting a specific action
may result in bodily injury.
Warning
Laser warnings inform you that an eye or skin hazard exists due to
the presence of a Class 1 laser device.
Warning
“CAUTION”, “HOT SURFACE” and “DO NOT TOUCH”
Warnings inform you of hot surfaces.
Warning
This equipment is not suitable for use in locations where children are
likely to be present. L126
x320 Series Installation Guide
17
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 Return
Merchandise Authorizations (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 RMA request via our
interactive support center.
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 contact information, select your region and country
and then go to www.alliedtelesis.com/contact.
Preface
18
19
Chapter 1
Overview of the x320-10GH Switch
This chapter describes the hardware features of the x320-10GH Switch.
The sections in the chapter are listed here:
“Front Panel” on page 20
“Features” on page 21
“Ports 1 to 8” on page 23
“PWR300 Power Supply” on page 27
“PoE Port Priorities” on page 28
“SFP Transceiver Ports” on page 31
“USB Port” on page 32
“Console Port” on page 33
“Fault and Power LEDs” on page 34
“eco-friendly Command” on page 35
“Planning the Installation” on page 36
Chapter 1: Overview of the x320-10GH Switch
20
Front Panel
The front panel of the x320-10GH Switch is shown in Figure 1.
Figure 1. Front Panel of the x320-10GH Switch
x320-10GH
8 10/100/1000Mbps
2 SFP 1000Mbps
Transceiver Ports Twisted Pair Ports PoE++
FAULT
PWR
USB
USB Port
3 PWR300 Connectors
Console
Port
w/LEDs
x320 Series Installation Guide
21
Features
Here are the basic hardware features of the x320-10GH Switch.
Ports 1 to 8 Basic features of ports 1 to 8 are listed here:
10/100/1000Mbps
PoE++
90W maximum per port
Powered device Classes 0 to 8
IEEE802.3bt-compliant (future support)
Half- and full-duplex mode
PSE Type 4
100 meters (328 feet) maximum distance
LEDs for link/activity and PoE+ status
PoE+ Budgets PoE+ budgets for ports 1 to 8 are listed here:
240W with one PWR300 Power Supply
480W with two PWR300 Power Supplies
720W with three PWR300 Power Supplies
Refer to Table 1 for maximum PoE ports supported.
Ports 9 and 10 Ports 9 and 10 support the following types of SFP transceivers:
1000Mbps multimode or single-mode fiber optic transceivers
Single-port, BiDi fiber optic transceivers
Additional
Features
Additional features are listed here:
Port and system LEDs
Connectors for three PWR300 power supplies
Table 1. Maximum PoE Ports Supported on the x320-10GH Switch
Available PoE Power 7W 15.4W 30W 60W 90W
240W 88842
480W 88885
720W 88888
Chapter 1: Overview of the x320-10GH Switch
22
Installation
Options
Installation options are listed here:
Table or desktop
Standard 19-inch equipment rack
Wall
DIN rail
Management
Methods
Here are the methods for managing the switch:
Local management through the Console Port
Remote Telnet or Secure Shell management
Remote HTTP or HTTPS web browser management
SNMPv1, v2c, and v3
USB Port You can use the USB port with a flash drive to perform the following
management functions:
Provide a centralized network backup location for Autonomous
Management Framework (AMF).
Store backup copies of configuration files.
Transfer configuration files between switches that are to have
similar configurations.
Store or transfer log files.
Store or transfer debug files (for example, the output of the SHOW
TECH-SUPPORT command).
Boot the AlliedWare Plus operating system and master
configuration file from flash drive.
Using a flash drive with the switch is optional.
x320 Series Installation Guide
23
Ports 1 to 8
The following sections describe twisted pair ports 1 to 8 on the x320-10GH
Switch.
Specifications The basic specifications are listed in Table 2.
Table 2. Specifications for Ports 1 to 8 on the x320-10GH Switch
Specification Description
Port Speed 10/100/1000Mbps
You can set port speed with Auto-
Negotiation or manually. The default port
setting is Auto-Negotiation.
Duplex Mode Half- or full-duplex
Maximum Distance 100 meters (328 feet)
Power over Ethernet PoE++ (IEEE 802.3bt) with 90 watts
maximum per port
Power Budgets Possible budgets are listed here:
- 240W with one PWR300 power supply
- 480W with two PWR300 power supplies
- 720W with three PWR300 power
supplies
PoE Wiring Mode Type 4
Connector 8-pin RJ-45
Chapter 1: Overview of the x320-10GH Switch
24
Powered Device
Classes
Ports 1 to 8 support the powered device classes listed in Table 3.
Ports 1 to 8 LEDs Ports 1 to 8 have two LEDs. Refer to Figure 2.
Figure 2. LEDs for Ports 1 to 8 on the x320-10GH Switch.
The LEDs are described in Table 4 on page 25.
Table 3. Supported Powered Device Classes on Ports 1 to 8 of the x320-
10GH Switch
Class Maximum Power at
Switch Port
Maximum Power at
Powered Device
0 15.4W 12.95W
1 4.0W 3.84W
2 7.0W 6.49W
3 15.4W 12.95W
4 30.0W 25.5W
5 45.0W 40.0W
6 60.0W 51.0W
7 75.0W 62.0W
8 90.0W 71.3W
Speed/Activity PD Status
Speed/Activity PD Status
x320 Series Installation Guide
25
Table 4. LEDs for Ports 1 to 8 on the x320-10GH Switch
LED State Description
Link/
Activity
LED
Solid Green A port has established a 1000Mbps link to a
network device.
Flashing
Green
A port is transmitting or receiving data at
1000Mbps.
Solid Amber A port has established a 10Mbps or
100Mbps link to a network device.
Flashing
Amber
A port is transmitting or receiving data at
10Mbps or 100Mbps.
Off A port has not established a link with
another network device or the LEDs are
turned off. To turn on the LEDs, use the
eco-friendly command in the management
software.
PoE
Green The switch is detecting a powered device
on the port and is delivering power to it.
Solid Amber The switch has shutdown PoE+ on the port
because of a fault condition.
Flashing
Amber
The switch is detecting a powered device
on the port, but is not delivering power to it
because it has reached its maximum power
budget.
Off This LED state can result from the following
conditions:
- The port is connected to a non-PoE
device.
- The port is connected to a PoE device
that is powered off.
- The port is disabled in the management
software.
- PoE is disabled on the port.
- The LEDs on the Ethernet line cards are
turned off. To turn on the LEDs, use the
eco-friendly command in the management
software.
Chapter 1: Overview of the x320-10GH Switch
26
Cable
Requirements
The minimum cable requirements for the ports 1 to 8 are listed here.
10Mbps or 100Mbps: Standard TIA/EIA 568-B-compliant Category
3 unshielded cabling.
1000Mbps: Standard TIA/EIA 568-A-compliant Category 5 or TIA/
EIA 568-B-compliant Enhanced Category 5 (Cat 5e) unshielded
cabling.
x320 Series Installation Guide
27
PWR300 Power Supply
The x320-10GH Switch is powered with the PWR300 power supply. Refer
to Figure 3. The power supply provides both system power for the switch
as well as PoE power on ports 1 to 8 for powered devices.
Figure 3. PWR300 Power Supply
The switch supports up to three power supplies. A single power supply can
provide full system power for the switch as well as 240W for powered
devices. Each additional power supply provides 240W more of power for
powered devices.
Use the SHOW SYSTEM ENVIRONMENT command to display the status
of each PWR300 power supply. For example, to determine if one isn’t
powered on.
Power Supply
Unit LED
The power supply has one LED, labeled DC OUT/FAULT. The states of
the power supply unit PWR300 LEDs are described in Table 5.
AC Power Supply
Switch DC
DC Out/
Power Supply
Fault LED
Table 5. Fault and Power LEDS
State Description
DC Out/Fault LEDs
Solid Green The power supply and switch are operating
normally.
Solid Red The power supply or switch is experiencing a
problem, such as overheating or low voltage. To
troubleshoot the problem, view the log messages
by displaying the system log file.
Off The switch is powered off or the input power is
outside the normal operating range.
Chapter 1: Overview of the x320-10GH Switch
28
PoE Port Priorities
If the switch determines that the power requirements of the powered
devices exceed its power budget, it will deny power to some ports based
on a system called port priorities. You can 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 port 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 assigned to the other priority levels receive power only if all the
Critical ports are receiving power. Ports that are connected to your most
critical powered devices should be assigned to this level. If there is not
enough power to support all the ports set to the Critical priority level,
power is provided to the ports 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.
The x320-10GH switch can be operated in two ways; with redundant
power or using all available power. The switch can have up to three
separate external power supplies.
x320 Series Installation Guide
29
The x320-10GH switch does not use Dynamic Power Management (DPM).
Therefore, the software cannot detect a failure of the PSU and decide
which ports to deny power to. As a result, more ports may be powered
than the unit can restart due to lack of power. In this case, the switch will
deny Low priority ports and to attempt to repower once the CPU has
determined the new power budget. The hardware is connected to provide
the signal based on the number of Power Good indications and
configuration for the software about how many PSUs are required.
The user must designate the ports that should not be reset on the PSUs
failure as High or Critical, because Low priority ports will be shutdown
(either immediately or as a result of rebudgeting). The default PoE priority
for the ports is Low. See “PoE Port Priorities” on page 28 for more
information.
The switch will deny Low priority ports when:
A PSU fails.
A PSU fails and the maximum power used for budgeting is equal to or
less than the new number of PSUs connected.
Both modes allow redundant operation. In both, the ports should be
configured to higher priorities to ensure they do not lose power on
subsequent PSU failures. The difference between the two is that in the
second mode the user is prevented from powering too many ports in the
first place by the Max Budget, which leaves a PSU as a spare.
The software will operate in a mode of operation where the denial of ports
depends upon how many PSUs are connected as shown in Table 6. The
user must configure ports to Critical and High priority and the total wattage
for either should be no more than 240W.
This behavior is not configurable beyond the user configuring Critical, High
and Low priorities. By configuring the port priorities or making full use of all
the available power, the user gets a constant mode of operation that
enables redundant configuration. The software changes the ports that shut
down at each stage of PSU failure.
Table 6. Denial of Ports by Priority
Original Number of
PSUs Powered
Changing from PSUs
Powered
Priority of Ports
Denied
3 3 > 2 Low
2 2 >1 High and Low
1 1 > 0 System will shut down
Chapter 1: Overview of the x320-10GH Switch
30
Example 1:
The x320-10GH switch has three PWR300 units. All ports are Low priority.
The total PD load is 600W. One PSU fails, leaving two PSUs. The
following steps occur:
1. The switch stops providing power to all ports because they are all Low
priority.
2. The software takes a few seconds to recalculate the new power
budget based on the two remaining PSUs.
3. After recalculating the new budget, the switch provides power again to
some of the ports, up to 480W.
Example 2:
The x320-10GH switch has three PWR300 units.
Critical priority PDs - 200W
High priority PDs - 200W
Low priority PDs - 200W
One PSU fails, leaving two PSUs:
1. The switch stops providing power to the Low priority PDs.
2. The software takes a few seconds to recalculate the new power
budget based on the two remaining PSUs.
3. After recalculating the new budget, the switch provides power again to
Low priority ports if the budget allows.
In this example, the new budget would be 480W (two remaining PSUs).
So there would be 80W available for Low priority PDs.
x320 Series Installation Guide
31
SFP Transceiver Ports
The x320-10GH switch has two SFP ports.
SFP Transceivers The transceiver ports support 1000Mbps optics on the front panel.
1000Mbps single-mode or multi-mode fiber optic transceivers
1000Mbps bi-directional (BiDi) fiber optic transceivers
SFP transceivers are purchased separately. For a list of supported
transceivers, refer to the product data sheet on the Allied Telesis web site.
LEDs Each transceiver port has one LED. Refer to Figure 4.
Figure 4. SFP Transceiver Ports LEDs
The LED states are described in Table 7 on page 31.
Table 7. LEDS for the SFP Transceiver Ports
LED State Status Description Quantity/
Placement
Solid green The port has established a
1000Mbps link to a network
device.
2 ports for
x320-10GH
Front (SFP)
Flashing
green
The port is transmitting or
receiving packets at 1000Mbps.
Off Possible causes of this state are
listed here:
- The SFP transceiver port is
empty.
- The SFP transceiver has not
established a link with another
network device.
LED for Right
SPF Port
LED for Left
SPF Port
Chapter 1: Overview of the x320-10GH Switch
32
USB Port
You can use the USB port on the management panel for the following
functions:
Store configuration files on flash drives.
Restore configuration files to switches whose settings have been
lost or corrupted.
Configure replacement units by downloading configuration files
from a flash drive.
Update the AlliedWare Plus management software.
USB Port LED The USB port has one LED, shown in Figure 5 on the x320-10GH switch.
Figure 5. x320-10GH USB Port and LED
The states of the LEDs are described in Table 8.
Table 8. USB LED
State Description
Off The USB slot is empty.
Solid green A USB drive is inserted in the slot.
Flashing green The switch is writing data to or reading
data from the USB drive.
USB Port LED USB Port
x320 Series Installation Guide
33
Console Port
The Console port is an RS232 serial management port. Use the port to
access the AlliedWare Plus management software on the switch to
configure the feature settings or monitor status or statistics. This type of
management uses the management cable included with the unit. It
requires that you be at the physical location of the switch. The switch does
not have to have an IP address for local management.
To establish a local management session with the switch, use the provided
management cable to connect a terminal or a personal computer with a
terminal emulation program to the Console port, which has an RJ-45 style
(8P8C) connector. The cable has RJ-45 style (8P8C) and DB-9 (D-sub 9-
pin) connectors.
The Console port has the following settings:
Default baud rate: 9600 bps (The baud rates of the port are 9600,
19200, 38400, 57600, and 115200 bps.)
Data bits: 8
Parity: None
Stop bits: 1
Flow control: None
Note
These settings are for a DEC VT100 or ANSI terminal, or an
equivalent terminal emulation program.
Chapter 1: Overview of the x320-10GH Switch
34
Fault and Power LEDs
Switch LEDs The Fault and Power LEDs are shown in Figure 6.
Figure 6. Fault and Power LEDs
Note
The USB LED is described in “USB Port” on page 32.
The states of the LEDs are described in Table 9.
Table 9. Fault and Power LEDS
State Description
Fault LED
Off The switch is operating normally or is not
powered on.
Flashing Red The power supply or switch is
experiencing a problem, such as
overheating. To troubleshoot the problem,
view the log messages by displaying the
system log file.
Power LED
Solid Green The power supply and switch are
operating normally.
Off The switch is powered off or the input
power is outside the normal operating
range.
Fault, Power and USB LEDs
x320 Series Installation Guide
35
eco-friendly Command
The eco-friendly command is used to toggle the port LEDs on or off. You
can turn off the LEDs to conserve electricity when you are not monitoring
the device. You can toggle the LEDs with the ECOFRIENDLY LED and
NO ECOFRIENDLY LED commands in the Global Configuration mode of
the command line interface of the AlliedWare Plus management software.
The switch is operating in a low power mode when the LEDs are turned
off. Operating the switch in the low power mode does not interfere with the
network operations of the device.
The management software on the switch has a command that blinks the
LEDs so that you can quickly and easily identify a specific unit among the
devices in an equipment rack. It is the FINDME command. The command
works on the switch even if you turned off the LEDs with the eco-friendly
button or NO ECOFRIENDLY LED command.
Note
Before checking or troubleshooting the network connections to the
ports on the switch, you must always check to be sure that the LEDs
are on by issuing the ECOFRIENDLY LED and NO ECOFRIENDLY
LED commands in the Global Configuration mode in the command
line interface.
Chapter 1: Overview of the x320-10GH Switch
36
Planning the Installation
Here are questions to consider before connecting devices to ports 1 to 8:
Which ports will be connected to PoE devices?
Which ports will be connected to non-PoE devices?
What are the PoE Classes of the powered devices?
What is the total power requirements (watts) of the powered
devices?
What will be the priority levels (Low, High, or Critical) of the ports?
Managing the switch will be easier if you take the time to fill-out the
worksheets in Table 10 and Table 12 on page 38.
Table 10. Port 1 to 8 Worksheet for the x320-10GH Switch
Port Device/Location PoE Device -
Yes/No
PoE Class
0 to 8
Maximum
Watts of PoE
Class
Priority
(Low, High,
or Critical)
1
2
3
4
5
6
7
x320 Series Installation Guide
37
The columns in the table are described in Table 11.
8
Total PoE
Watts
Table 10. Port 1 to 8 Worksheet for the x320-10GH Switch (Continued)
Port Device/Location PoE Device -
Yes/No
PoE Class
0 to 8
Maximum
Watts of PoE
Class
Priority
(Low, High,
or Critical)
Table 11. Worksheet Column Descriptions
Column Description
Port This is the physical ports on the
switch.
Device/Location Enter the product name of the
network device connected to the
port, and its physical location.
PoE Device - Yes/No Indicate whether the network
device is a powered device by
entering Yes or No.
PoE Class 0 to 8 For a powered device, enter its
PoE Class. This can be found in its
installation or user documentation.
Maximum Watts of PoE Class Enter the maximum power output
(watts) from a switch port for the
Class of the device. For example, if
a port is connected to a Class 2
powered device, you enter 7W in
this column. Refer to Table 3 on
page 24.
Priority (Low, High, or Critical) Enter the priority level to be
assigned the port. The default is
Low.
Chapter 1: Overview of the x320-10GH Switch
38
Table 12 can be used as a record of how the switch is powered.
Total PoE Watts Add up the numbers in the
Maximum Watts of PoE Class
column and enter it here. This
number must be equal to or less
than the PoE budget of the
PWR300 power supplies
connected to the switch. Refer to
Table 3 on page 24.
Table 12. Power Worksheet for the x320-10GH Switch
Number of
PWR300 Power
Supplies
Installed
(Yes/No)
PoE Budget for
Ports 1 to 8
1 240W
2 480W
3 720W
Table 11. Worksheet Column Descriptions (Continued)
Column Description
39
Chapter 2
Overview of the x320-11GPT Switch
This chapter describes the hardware features of the x320-11GPT Switch.
The sections in the chapter are listed here:
“Front Panel” on page 40
“Features” on page 41
“Ports 1 to 8” on page 43
“Port 11 - PoE IN Pass-through” on page 47
“PWR90ADP AC/DC Power Adapter” on page 50
“PoE Port Priorities” on page 51
“SFP Transceiver Ports” on page 52
“USB Port” on page 53
“Console Port” on page 54
“Fault and Power LEDs” on page 55
“eco-friendly Command” on page 56
“Switch Markings” on page 57
“Planning the Installation” on page 58
Chapter 2: Overview of the x320-11GPT Switch
40
Front Panel
The front panel of the x320-11GPT Switch is shown in Figure 7.
Figure 7. Front Panel of the x320-11GPT Switch
POE-OUT
L/A
L/A POE-OUT
USB
USB
L/A
L/A
POE-IN
POE-INL/A
4721
2 SFP 1000M
Transceiver Ports 8 10/100/1000Mbps
Twisted Pair Ports PoE+
USB Port
USB
PWR
FAULT
Port 11
10/100/1000Mbps
Console
x320-11GPT
Port
PWR90ADP
Power Adapter
Connector
w/LEDs
Frame
Ground
PoE Twisted Pair
Pass-through
x320 Series Installation Guide
41
Features
Here are the basic hardware features of the x320-11GPT Switch.
Ports 1 to 8 The basic features of ports 1 to 8 are listed here:
10/100/1000Mbps
PoE+
Support powered device Classes 0 to 4
IEEE802.3af and IEEE802.3at-compliant
Half- and full-duplex mode
PoE+ mode A wiring
100 meters (328 feet) maximum distance
LEDs for link/activity and PoE+ status
Port 11 The basic features of port 11 are listed here:
10/100/1000Mbps
PoE++ pass-through
Supports power source Classes 4, 6, and 8
IEEE802.3bt-compliant (future support)
Half- and full-duplex mode
100 meters (328 feet) maximum distance
LEDs for link/activity and PoE++ status
PoE+ Budgets PoE+ budgets for ports 1 to 8 are listed here:
62W with the PWR90ADP AC/DC adapter
21W or 46W with a Class 6 or Class 8 power source on port 11,
respectively
Ports 9 and 10 Ports 9 and 10 support the following types of SFP transceivers:
1000Mbps multimode or single-mode fiber optic transceivers
Single-port, BiDi fiber optic transceivers
Additional
Features
Additional features are listed here:
Port and system LEDs
PWR90ADP AC/DC adapter
Chapter 2: Overview of the x320-11GPT Switch
42
Installation
Options
Installation options are listed here:
Table or desktop
Standard 19-inch equipment rack
Wall
DIN rail
Management
Methods
Here are the methods for managing the switch:
Local management through the Console Port
Remote Telnet or Secure Shell management
Remote HTTP or HTTPS web browser management
SNMPv1, v2c, and v3
USB Port You can use the USB port with a flash drive to perform the following
management functions:
Provide a centralized network backup location for Autonomous
Management Framework (AMF).
Store backup copies of configuration files.
Transfer configuration files between switches that are to have
similar configurations.
Store or transfer log files.
Store or transfer debug files (for example, the output of the SHOW
TECH-SUPPORT command).
Boot the AlliedWare Plus operating system and master
configuration file from flash drive.
Using a flash drive with the switch is optional.
x320 Series Installation Guide
43
Ports 1 to 8
The following sections describe twisted pair ports 1 to 8 on the x320-
11GPT Switch.
Specifications The basic specifications are listed in Table 13.
Table 13. Specifications for Ports 1 to 8 on the x320-11GPT Switch
Specification Description
Port Speed 10/100/1000Mbps
You can set port speed with Auto-
Negotiation or manually. The default port
setting is Auto-Negotiation.
Duplex Mode Half- or full-duplex
Maximum Distance 100 meters (328 feet)
Power over Ethernet PoE (15.4 watts maximum) and PoE+
(30 watts maximum) per port
Power Budgets Possible budgets are listed here:
- 62W with the PWR90ADP AC/DC
adapter.
- 21W or 46W with a Class 6 or Class 8
power source on port 11.
Refer to x320-10GH and “Port 11 - PoE IN
Pass-through” on page 47.
PoE Wiring Mode Mode A
Connector 8-pin RJ-45
Chapter 2: Overview of the x320-11GPT Switch
44
Powered Device
Classes
Ports 1 to 8 support the powered device classes listed in Table 14.
Ports 1 to 8 LEDs Ports 1 to 8 have two LEDs. Refer to Figure 8.
Figure 8. LEDs for Ports 1 to 8 on the x320-11GPT Switch.
The LEDs are described in Table 15 on page 45.
Table 14. Supported Powered Device Classes on Ports 1 to 8 of the x320-
11GPT Switch
Class
Maximum Power
Output from a Switch
Port
PD Power Range
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
4720
Speed/Activity PD Status
Speed/Activity PD Status
x320 Series Installation Guide
45
Table 15. LEDs for Ports 1 to 8 on the x320-11GPT Switch
LED State Description
Link/
Activity
LED
Solid Green A port has established a 1000Mbps link to a
network device.
Flashing
Green
A port is transmitting or receiving data at
1000Mbps.
Solid Amber A port has established a 10Mbps or
100Mbps link to a network device.
Flashing
Amber
A port is transmitting or receiving data at
10Mbps or 100Mbps.
Off A port has not established a link with
another network device or the LEDs are
turned off. To turn on the LEDs, use the
eco-friendly command in the management
software.
PoE
Green The switch is detecting a powered device
on the port and is delivering power to it.
Solid Amber The switch has shutdown PoE+ on the port
because of a fault condition.
Flashing
Amber
The switch is detecting a powered device
on the port but is not delivering power to it
because it has reached its maximum power
budget.
Off This LED state can result from the following
conditions:
- The port is connected to a non-PoE
device.
- The port is connected to a PoE device
that is powered off.
- The port is disabled in the management
software.
- PoE is disabled on the port.
- The LEDs on the Ethernet line cards are
turned off. To turn on the LEDs, use the
eco-friendly command in the management
software.
Chapter 2: Overview of the x320-11GPT Switch
46
Cable
Requirements
The minimum cable requirements for the ports 1 to 8 are listed here.
10Mbps or 100Mbps: Standard TIA/EIA 568-B-compliant
Category 3 unshielded cabling.
1000Mbps: Standard TIA/EIA 568-A-compliant Category 5 or TIA/
EIA 568-B-compliant Enhanced Category 5 (Cat 5e) unshielded
cabling.
x320 Series Installation Guide
47
Port 11 - PoE IN Pass-through
Port 11 has two functions. First, it can function as a standard Ethernet port,
with all the same Ethernet features and functions as ports 1 to 8. Second,
when connected to a PoE power source, such as a PoE switch or router, it
can also function as a PoE pass-through port. The switch uses the power
from the PoE power source on the port to operate its own switching
functions, and passes remaining power to ports 1 to 8 for powered
devices.
Powered Device
Classes
To use port 11 as a pass-through port, the powered device connected to it
must be from one of the following IEEE 802.3 classes:
IEEE802.3af Class 4
IEEE803.3at Class 6
IEEE803.3bt Class 8
Note
Connecting port 11 to an unsupported class of powered device
might result in unpredictable switch behavior.
Port 11 cannot power the switch or function as a PoE pass-through port if
connected to a Class 3 or lower powered device.
PoE Budget When using port 11 as a pass-through port, the PoE budget of the switch
for ports 1 to 8 depends on the class of the power source connected to it.
The possible budgets are shown in Table 16. For instance, customers who
want the maximum possible PoE budget of 46W for ports 1 to 8 will
connect port 11 to a Class 8 power source.
When port 11 is connected to a Class 4 powered device, the device will
have enough power to function as a switch, but no power for powered
devices on ports 1 to 8.
Table 16. PoE Budget from Port 11 for Ports 1 to 8 on the x320-11GPT
Switch
Power Source Class on
Port 11 PoE Budget for Ports 1 to 8
IEEE802.3af Class 4 0W
IEEE803.3at Class 6 21W
IEEE803.3bt Class 8 46W
Chapter 2: Overview of the x320-11GPT Switch
48
The switch can also be powered with the PWR90ADP AC/DC adapter.
However, port 11 and the adapter are not load-sharing. If the switch is
connected to a PoE power source on port 11 and also to the AC/DC
adapter, the adapter automatically becomes the primary power source.
PoE on port 11 is placed in a backup state, but the Ethernet function of
port 11 continues to work. If the adapter loses power, the switch will reboot
and the PoE power on port 11 becomes the power source.
Port 11 LEDs The LEDs for port 11 are identified in Figure 9.
Figure 9. LEDs for Port 11 on the x320-11GPT Switch
The LEDs are defined in Table 17.
Table 17. LEDs for Port 11 on the x320-11GPT Switch
LED State Description
Link/
Activity
LED
Solid Green The port has established a 1000Mbps link
to a network device.
Flashing
Green
The port is transmitting or receiving data at
1000Mbps.
Solid Amber The port has established a 10Mbps or
100Mbps link to a network device.
Flashing
Amber
The port is transmitting or receiving data at
10Mbps or 100Mbps.
Off The port has not established a link with
another network device.
POE-OUT
L/A
L/A POE-OUT
USB
USB
L/A
L/A
POE-IN
POE-INL/A
Speed/Activity PoE PD
x320 Series Installation Guide
49
Cable
Requirements
The minimum cable requirements for the ports are listed here.
10Mbps or 100Mbps: Standard TIA/EIA 568-B-compliant Category
3 unshielded cabling.
1000Mbps: Standard TIA/EIA 568-A-compliant Category 5 or TIA/
EIA 568-B-compliant Enhanced Category 5 (Cat 5e) unshielded
cabling.
PoE
Powered
Device
Solid Green The port is receiving power from a
IEEE803.3bt Class 8 or 6 PoE++ power
source. The maximum power budget for
powered devices on ports 1 to 8 is 46W or
30W.
Solid Amber The port is receiving power from a
IEEE803.3at Class 6 to 4 PoE+ power
source.
Off Possible causes of this state are listed here:
- The port is not connected to a PoE power
source.
- The port is connected to an IEEE802.3af
Class 4 PoE power source. It has enough
power to function as a switch, but not
enough power for any PoE devices on
ports 1 to 8.
- The port is connected to a Class 3 or
lower PoE power source.
Table 17. LEDs for Port 11 on the x320-11GPT Switch (Continued)
LED State Description
Chapter 2: Overview of the x320-11GPT Switch
50
PWR90ADP AC/DC Power Adapter
The x320-11GPT Switch can be powered two ways. One way is by
connecting a Class 4, 6, or 8 PoE power source to port 11. This is
described in “Port 11 - PoE IN Pass-through” on page 47. The second way
is with the PWR90ADP AC/DC power adapter, shown in Figure 10.
Figure 10. PWR90ADP AC/DC Power Adapter
The PoE budget of the switch for powered devices on ports 1 to 8 differs
depending on how the unit is powered, as explained here:
The switch has a PoE budget of 21W or 46W when port 11 is
connected to a Class 6 or 8 power source device, respectively.
(The switch has no PoE budget when port 11 is connected to a
Class 4 power source.)
The switch has a PoE budget of 62W when powered by the
PWR90ADP AC/DC power adapter.
4784
x320 Series Installation Guide
51
PoE Port Priorities
If the switch determines that the power requirements of the powered
devices exceed its power budget, it will deny power to some ports based
on a system called port priorities. You can 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 port 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 assigned to the other priority levels receive power only if all the
Critical ports are receiving power. Ports that are connected to your most
critical powered devices should be assigned to this level. If there is not
enough power to support all the ports set to the Critical priority level, power
is provided to the ports 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 on the x320-11GPT switch is dynamic. The switch
automatically ceases power transmissions on ports if its power budget is at
maximum usage and new powered devices, connected to ports with
higher priorities, become active. Additionally, the switch ceases power
transmissions on lower priority ports if for any reason its PoE budget
decreases and the power requirements of the powered devices exceeds
the new, reduced budget.
Chapter 2: Overview of the x320-11GPT Switch
52
SFP Transceiver Ports
The x320-11GPT Switch has two SFP ports.
SFP Transceivers The transceiver ports support 1000Mbps optics on the front panel.
1000Mbps single-mode or multi-mode fiber optic transceivers
1000Mbps bi-directional (BiDi) fiber optic transceivers
SFP transceivers are purchased separately. For a list of supported
transceivers, refer to the product data sheet on the Allied Telesis web site.
LEDs Each transceiver port has one LED. Refer to Figure 11.
Figure 11. SFP Transceiver Ports LEDs
The LED states are described in Table 18 on page 52.
Table 18. LEDS for the SFP Transceiver Ports
LED State Status Description Quantity/
Placement
Solid green The port has established a
1000Mbps link to a network
device.
2 ports for
x320-10GH
2 ports for
x320-11GPT
Front (SFP)
Flashing
green
The port is transmitting or
receiving packets at 1000Mbps.
Off Possible causes of this state are
listed here:
- The SFP transceiver port is
empty.
- The SFP transceiver has not
established a link with another
network device.
L/A
LED for Right
SPF Port
LED for Left
SPF Port
x320 Series Installation Guide
53
USB Port
You can use the USB port on the management panel for the following
functions:
Store configuration files on flash drives.
Restore configuration files to switches whose settings have been
lost or corrupted.
Configure replacement units by downloading configuration files
from a flash drive.
Update the AlliedWare Plus management software.
USB Port LED The USB port has one LED, shown in Figure 12 on the x320-11GPT
switch.
Figure 12. x320-11GPT USB Port and LED
The states of the LEDs are described in Table 19.
Table 19. USB LED
State Description
Off The USB slot is empty.
Solid green A USB drive is inserted in the slot.
Flashing green The switch is writing data to or reading
data from the USB drive.
POE-OUT
L/A
L/A POE-OUT
USB
USB
L/A
L/A
POE-IN
POE-IN
L/A
USB Port LED USB Port
Chapter 2: Overview of the x320-11GPT Switch
54
Console Port
The Console port is an RS232 serial management port. Use the port to
access the AlliedWare Plus management software on the switch to
configure the feature settings or monitor status or statistics. This type of
management uses the management cable included with the unit. It
requires that you be at the physical location of the switch. The switch does
not have to have an IP address for local management.
To establish a local management session with the switch, use the
provided management cable to connect a terminal or a personal computer
with a terminal emulation program to the Console port, which has an
RJ-45 style (8P8C) connector. The cable has RJ-45 style (8P8C) and
DB-9 (D-sub 9-pin) connectors.
The Console port has the following settings:
Default baud rate: 9600 bps (The baud rates of the port are 9600,
19200, 38400, 57600, and 115200 bps.)
Data bits: 8
Parity: None
Stop bits: 1
Flow control: None
Note
These settings are for a DEC VT100 or ANSI terminal, or an
equivalent terminal emulation program.
x320 Series Installation Guide
55
Fault and Power LEDs
The Fault and Power LEDs are shown in Figure 13.
Figure 13. Fault and Power LEDs
Note
The USB LED is described in “USB Port” on page 53.
The states of the LEDs are described in Table 20.
Table 20. Fault and Power LEDS
State Description
Fault LED
Off The switch is operating normally or is not
powered on.
Flashing Red The power supply or switch is
experiencing a problem, such as
overheating. To troubleshoot the problem,
view the log messages by displaying the
system log file.
Power LED
Solid Green The power supply and switch are
operating normally.
Off The switch is powered off or the input
power is outside the normal operating
range.
L/A POE-OUT
P
L
USB
USB
Fault, Power and USB LEDs
Chapter 2: Overview of the x320-11GPT Switch
56
eco-friendly Command
The eco-friendly command is used to toggle the port LEDs on or off. You
can turn off the LEDs to conserve electricity when you are not monitoring
the device. You can toggle the LEDs with the ECOFRIENDLY LED and
NO ECOFRIENDLY LED commands in the Global Configuration mode of
the command line interface of the AlliedWare Plus management software.
The switch is operating in a low power mode when the LEDs are turned
off. Operating the switch in the low power mode does not interfere with the
network operations of the device.
The management software on the switch has a command that blinks the
LEDs so that you can quickly and easily identify a specific unit among the
devices in an equipment rack. It is the FINDME command. The command
works on the switch even if you turned off the LEDs with the eco-friendly
button or NO ECOFRIENDLY LED command.
Note
Before checking or troubleshooting the network connections to the
ports on the switch, you must always check to be sure that the LEDs
are on by issuing the ECOFRIENDLY LED and NO ECOFRIENDLY
LED commands in the Global Configuration mode in the command
line interface.
x320 Series Installation Guide
57
Switch Markings
There are various labels on the bottom of the switch. If applicable, these
may include:
Manufacture identification
Model identification
Equipment rating
Voltage supply
Warranty seal
Manufacture date
Importer’s name and address
Rating label
KC label
Chapter 2: Overview of the x320-11GPT Switch
58
Planning the Installation
Here are questions to consider before connecting devices to ports 1 to 8:
Which ports will be connected to PoE or PoE+ devices?
Which ports will be connected to non-PoE devices?
What are the PoE Classes of the powered devices?
What is the total power requirements (watts) of the powered
devices?
What will be the priority levels (Low, High, or Critical) of the ports?
Managing the switch will be easier if you take the time to fill-out the
worksheets in Table 21 and Table 23 on page 60.
Table 21. Port 1 to 8 Worksheet for the x320-11GPT Switch
Port Device/Location PoE Device -
Yes/No
PoE Class
0 to 4
Maximum
Watts of PoE
Class
Priority
(Low, High,
or Critical)
1
2
3
4
5
6
7
x320 Series Installation Guide
59
The columns in the table are described in Table 22.
8
Total PoE
Watts
Table 21. Port 1 to 8 Worksheet for the x320-11GPT Switch (Continued)
Port Device/Location PoE Device -
Yes/No
PoE Class
0 to 4
Maximum
Watts of PoE
Class
Priority
(Low, High,
or Critical)
Table 22. Worksheet Column Descriptions
Column Description
Port This is the physical ports on the
switch.
Device/Location Enter the product name of the
network device connected to the
port, and its physical location.
PoE Device - Yes/No Indicate whether the network
device is a powered device by
entering Yes or No.
PoE Class 0 to 8 For a powered device, enter its
PoE Class. This can be found in its
installation or user documentation.
Maximum Watts of PoE Class Enter the maximum power output
(watts) from a switch port for the
Class of the device. For example, if
a port is connected to a Class 2
powered device, you enter 7W in
this column. Refer to Table 14 on
page 44.
Priority (Low, High, or Critical) Enter the priority level to be
assigned the port. The default is
Low.
Chapter 2: Overview of the x320-11GPT Switch
60
Here are questions about powering the switch:
Will port 11 be connected to a PoE power source device?
If so, is the device a Class 4, 6, or 8?
Will the switch also be powered with the PWR90ADP AC/DC
adapter?
Table 23 can be used as a record of how the switch is powered.
Total PoE Watt Add up the numbers in the
Maximum Watts of PoE Class
column and enter it here. This
number must be equal to or less
than the PoE budget of the power
source for the switch. The possible
power budgets are listed here:
- Port 11 with Class 6 device: 21W
- Port 11 with Class 8 device: 46W
- PWR90ADP Adapter: 62W
Table 23. Power Worksheet for the x320-11GPT Switch
Power Source Installed
(Yes/No)
PoE Budget for
Ports 1 to 8
Port 11 - Class 4 0W
Port 11 - Class 6 21W
Port 11 - Class 8 46W
PWR90ADP
Adapter
62W
Table 22. Worksheet Column Descriptions (Continued)
Column Description
Chapter 3: Beginning the Installation
62
Reviewing Safety Precautions
Please review the following safety precautions before beginning the
installation procedure.
Important: Safety statements that have the symbol are translated into
multiple languages in the Translated Safety Statements document, which
is available at www.alliedtelesis.com/library.
Remarque: Les consignes de sécurité portant le symbole sont
traduites dans plusieurs langues dans le document Translated Safety
Statements, disponible à l'adresse www.alliedtelesis.com/library.
Warning
This equipment is not suitable for use in locations where children are
likely to be present. L126
Warning
Class 1 Laser product. L1
Warning
Laser Radiation.
Class 1M Laser product. L10
Warning
Do not stare into the laser beam. L2
Warning
Do not look directly at the fiber optic ends or inspect the cable ends
with an optical lens. L6
Warning
To prevent electric shock, do not remove the cover. No user-
serviceable 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
x320 Series Installation Guide
63
Warning
Do not work on equipment or cables during periods of lightning
activity. E2
Warning
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
Note
Pluggable Equipment. The socket outlet shall be installed near the
equipment and shall be easily accessible. E5
Caution
Air vents must not be blocked and must have free access to the
room ambient air for cooling. E6
Warning
Operating Temperatures. This product is designed for a maximum
ambient temperature of 55°C. E52
Note
All Countries: Install product in accordance with local and National
Electrical Codes. E8
Warning
Only trained and qualified personnel are allowed to install or replace
this equipment. E14
Caution
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
Chapter 3: Beginning the Installation
64
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
Warning
Mounting of the equipment in the rack should be such that a
hazardous condition is not created due to uneven mechanical
loading. E25
Note
Use dedicated power circuits or power conditioners to supply
reliable electrical power to the device. E27
Warning
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
Note
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
Caution
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
x320 Series Installation Guide
65
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
Warning
An operational unit can be hot. Exercise caution when handling with
unprotected hands. E125
Warning
To reduce the risk of electric shock, do not route network cables from
PoE ports outside the building that houses this device. E40
Caution
An Energy Hazard exists inside this equipment. Do not insert hands
or tools into open chassis slots or plugs. E44
Warning
This equipment shall be installed in a Restricted Access location.
E45
Caution
The unit does not contain serviceable components. Please return
damaged units for servicing. E42
Warning
The temperature of an operational SFP or SFP+ transceiver may
exceed 70° C (158° F). Exercise caution when removing or handling
a transceiver with unprotected hands. E43
Warning
Switches should not be stacked on a table or desktop. They could
present a physical safety hazard if you need to move or replace
switches. E91
Chapter 3: Beginning the Installation
66
Warning
Leaving the power supply powered on while connecting the harness
to the switch could cause an electrical short that can damage the
equipment. E127
x320 Series Installation Guide
67
Choosing a Site for the Device
Observe these requirements when planning the installation of the switch.
If you plan to install the switch in an equipment rack, check that the
rack is safely secured so that it will not tip over. Devices in a rack
should be installed starting at the bottom, with the heavier devices
near the bottom of the rack.
If you plan to install the switch on a table, check that the table is
level and stable.
The switch can be installed in a standard 19-inch equipment rack,
on a concrete or wooden wall, or on a 35x7mm DIN rail.
The power outlet should be located near the switch and be easily
accessible.
The site should allow for easy access to the ports on the front of
the switch, so that you can easily connect and disconnect cables,
and view the port LEDs.
The site should allow for adequate air flow around the unit and
through the cooling vents on the front and rear panels.
The site should not expose the switch to moisture or water.
The site should be a dust-free environment.
The site should include dedicated power circuits or power
conditioners to supply reliable electrical power to the network
devices.
If you are installing the device in a wiring or utility box, verify that
the enclosure has adequate airflow so that unit does not overheat.
Do not place objects on top of the switch.
The twisted pair cabling should not be exposed to sources of
electrical noise, such as radio transmitters, broadband amplifiers,
power lines, electric motors, and fluorescent lights.
When installing the switch in an indoor or outdoor metal enclosure,
be sure to review the manufacturer’s installation guide for rules and
restrictions on site requirements, and to follow all guidelines and
safety warnings.
When installing the switch in an indoor or outdoor metal enclosure,
be sure to properly ground the enclosure to a protective earth
ground following local electrical codes and the instructions in the
manufacturer’s installation guide.
Chapter 3: Beginning the Installation
68
Powered devices connected to the LAN ports on the switch should
be grounded to the same grounding conductor at the service
entrance as the switch.
LAN ports should have additional lightning protections as specified
in 803.3at Section 33.4.1.1.2, Environment B Requirements, when
connected to powered devices that are not grounded to the same
grounding conductor at the service entrance as the switch.
Warning
Switches should not be stacked on a table or desktop. They could
present a physical safety hazard if you need to move or replace
switches. E91
x320 Series Installation Guide
69
Unpacking the Equipment
x320-10GH
Switch
Figure 14 shows the shipping box for the switch.
Figure 14. x320-10GH or Shipping Box
The items in the box are listed here:
A - Protective bag
B - Device
C - Accessory kit
Note
You should retain the original packaging material in case you need
to return the unit to Allied Telesis.
See “x320-10GH Switch Accessory Kit” on page 72 for the contents of the
accessory kit.
CA
B
Chapter 3: Beginning the Installation
70
x320-11GPT
Switch
Figure 15 shows the shipping box for the switch.
Figure 15. x320-11GPT Shipping Box
The items in the box are listed here:
A - Protective bag
B - Device
C - Accessory kit
Note
You should retain the original packaging material in case you need
to return the unit to Allied Telesis.
See “x320-11GPT Switch Accessory Kit” on page 73 for the contents of
the accessory kit.
C
A
B
x320 Series Installation Guide
71
PWR300 Power
Supply
Figure 16 shows the shipping box for the power adapter.
Figure 16. PWR300 Shipping Box
The items in the box are listed here:
A - Protective bag
B - Device
C - Accessory kit
Note
You should retain the original packaging material in case you need
to return the unit to Allied Telesis.
See “PWR300 Power Supply Accessory Kit” on page 75 for the contents of
the accessory kit.
C
A
B
Chapter 3: Beginning the Installation
72
Accessory Kits
x320-10GH
Switch Accessory
Kit
Figure 17 lists the items in the accessory kit included with the x320-10GH
switch. Contact your Allied Telesis sales representative for assistance if
any item is missing or damaged.
Note
The x320-10GH switch is powered by up to three PWR300 power
supplies. The PWR300 power supplies must be purchased
separately. See “PWR300 Power Supply Accessory Kit” on page 75
for more information.
Figure 17. x320-10GH Switch Accessory Kit
Four rubber feet (adhesive type)
One 2m (6.6 ft) local management
cable with RJ-45 (8P8C) and DB-9
(D-sub 9-pin) connectors.
One rack mount kit
See “19-Inch Rack Mount Kit”
on page 74
x320 Series Installation Guide
73
x320-11GPT
Switch Accessory
Kit
Figure 18 list the items in the Accessory Kit included with the x320-11GPT
switch.
Figure 18. x320-11GPT Switch Accessory Kit
4784
One PWR90ADP power
adapter
One regional AC power cord
One 2m (6.6 ft) local management
cable with RJ-45 (8P8C) and DB-9
(D-sub 9-pin) connectors.
One rack mount kit
See “19-Inch Rack Mount Kit”
on page 74
Four rubber feet (adhesive type)
Chapter 3: Beginning the Installation
74
19-Inch Rack
Mount Kit
Figure 19 lists the items in the 19-inch rack mount kit that are included with
the x320-10GH and x320-11GPT switch and PWR300 power supply. The
holes specified in Figure 19 depend on the size of the device you are
installing.
Figure 19. Rack Mount Kit
Ten screws for attaching brackets
to the switch.
Length: 6.0mm (0.2 in.)
Diameter: 4.0mm (0.2 in.)
One long L-bracket
One straight bracket
One short L-bracket
Use these
holes for 10GH
and 11GPT
Use these
holes for
PWR300
x320 Series Installation Guide
75
PWR300 Power
Supply Accessory
Kit
Figure 20 lists the items in the Accessory Kit that are included with the
PWR300 power supply for the x320-10GH switch.
Note
The PWR300 power supply must be purchased separately.
Figure 20. PWR300 Power Supply Accessory Kit
Retaining clip for power cord
DC power cord (external
harness)
One regional AC power cord
One rack mount kit
See “19-Inch Rack Mount Kit” on
page 74
Four rubber feet (adhesive
type)
Chapter 3: Beginning the Installation
76
RKMT-J24 Wall
Mount Kit
Figure 21 lists the items in the optional wall mount kit.
Note
The Wall Mount Kit must be purchased separately.
Figure 21. RKMT-J24 Wall Mount Kit
Four anchors for concrete walls:
Length: 29.6mm (1.2 in.)
Diameter: 6.0mm (0.2 in.)
Four screws for wood or concrete
walls:
Length: 32mm (1.3 in.)
Diameter: 4mm (0.2 in.)
Four RKMT-J24 wall-mounting
brackets
16 screws for attaching brackets
to the switch.
Length: 6.0mm (0.2 in.)
Diameter: 4.0mm (0.2 in.)
x320 Series Installation Guide
77
DRMT-J03 DIN
Rail Mount Kit
Figure 22 lists the items in the optional DRMT-J03 DIN Rail Mount Kit.
Note
The DIN Rail Mount Kit must be purchased separately.
Figure 22. DRMT-J03 DIN Rail Mount Kit
RKMT-J15 Tray
Bracket Mount
Kit
Figure 23 lists the items in the optional RKMT-J15 Tray Bracket Mount Kit.
Figure 23. RKMT-J15 Tray Bracket Mount Kit
One bracket DRMT-J03
Four bracket screws (M4x6 mm)
(For assembling chassis and DIN rail
brackets.)
One equipment rack bracket
RKMT-J15
Four bracket screws (M4x6 mm)
(Two for attaching a switch to one
side of the bracket and two for
attaching a power supply to the
other side.)
Chapter 3: Beginning the Installation
78
x320 Series Installation Guide
81
Installing the Switch on a Table or Desktop
This section contains the procedure for installing the switch on a table.
Warning
Switches should not be stacked on a table or desktop. They could
present a physical safety hazard if you need to move or replace
switches. E91
To install the chassis on a table, perform the following procedure:
1. Review the procedure in Chapter 3, “Choosing a Site for the Device”
on page 67 to verify that the selected site is suitable for the unit.
2. Check to be sure that the table is strong enough to support the weight
of the switch.
3. Lift the device from the shipping box and place it upside down on the
table or desk.
4. Affix the four adhesive feet to the four corners of the bottom of the
switch, as shown in Figure 25.
Figure 25. Affixing the Adhesive Feet
Chapter 4: Installing the Device on a Table or Desktop
82
Note
The bumper feet are only to be used if you are installing the switch
on a table. Do not install the bumper feet if you are installing the
switch in an equipment rack or on a wall.
5. Turn the device over and place it on the table or desk. See “Required
Minimum Distances Between Devices for a Desk or Table Installation”
on page 80.
6. After placing the switch on the table or desktop, go to Chapter 8,
“Cabling the Networking Ports” on page 117.
83
Chapter 5
Installing the Device in an Equipment Rack
This chapter contains the instructions for installing the device in an
equipment rack. The procedures in this chapter are listed here:
“Overview of Installing the Device in an Equipment Rack” on page 84
“Installing the Device in an Equipment Rack with the Rack Mount Kit
Brackets” on page 86
“Installing the Device in an Equipment Rack with the RKMT-J15
Bracket” on page 92
Chapter 5: Installing the Device in an Equipment Rack
84
Overview of Installing the Device in an Equipment Rack
You can install the device in a 19-inch equipment rack two ways. One way
is with the Rack Mount Kit that comes standard with the device. It includes
three connecting brackets; straight bracket, short L bracket, and long L
bracket and 10 screws (M4x6mm) that come with the switch. See
Figure 26. Refer to “19-Inch Rack Mount Kit” on page 74 to for the correct
set of holes to use for the device you are mounting.
Figure 26. Rack Mount Kit Brackets and Device
For installation instructions, refer to “Installing the Device in an Equipment
Rack with the Rack Mount Kit Brackets” on page 86.
x320 Series Installation Guide
85
You can also install the device in an equipment rack with the optional
RKMT-J15 bracket. The bracket lets you install two devices side-by-side.
Refer to Figure 27 on page 85.
Note
When mounting using the RKMT-J15 Bracket, you must leave 1 rack
unit (1U) of space between brackets.
Figure 27. x320-10GH Switch and PWR300 Power Supplies in the RKMT-
J15 Bracket
Note
The RKMT-J15 Bracket is purchased separately.
For installation instructions refer to “Installing the Device in an Equipment
Rack with the RKMT-J15 Bracket” on page 92.
Chapter 5: Installing the Device in an Equipment Rack
86
Installing the Device in an Equipment Rack with the Rack Mount Kit
Brackets
This section contains the procedure for installing the device in a standard
19-inch equipment rack, with the Rack Mount Kit brackets that are
included with the device.
Required Items
for the Rack
Mount Kit
Brackets
The following items are required to install the device in an equipment rack.
One 19" rack mount kit (3 brackets, 10 screws)
(included with the device) (see Figure 19 on page 74)
Four standard equipment rack screws (not provided)
Cross-head screwdriver (not provided)
Device
Orientations in
the Equipment
Rack
The switches have two sets of four screw holes on the front left and right
sides, for attaching the Rack Mount Kit brackets. The PWR300 power
supply has four sets of four screw holes on the left and right sides, for
attaching the Rack Mount Kit brackets. Refer to Figure 28 on page 87.
x320 Series Installation Guide
87
Figure 28. Bracket Holes
The Rack Mount Kit brackets are shown in Figure 19 on page 74.
You can install the device in one orientation, with the front panel flush with
front of the equipment rack. The illustration in Figure 29 shows the device
orientation with the front panel facing the front of the equipment rack.
Refer to “19-Inch Rack Mount Kit” on page 74 to for the correct set of holes
to use for the device you are mounting.
Bracket Holes
4782
Enable
4571
L/A POE-OUT
POE-OUT
L/A
L/A
USB
USB
4785
POE-OUT
L/A
L/A POE-OUT
USB
USB
L/A
L/A
POE-IN
POE-IN
L/A
Bracket Holes
Bracket Holes
x320-10GH
x320-11GPT
PWR300
Chapter 5: Installing the Device in an Equipment Rack
88
Figure 29. Device Orientation with the Front Panel Facing the Front of the
Equipment Rack
Installing the
Device with the
Brackets
If you have not chosen an orientation for the device in the equipment rack,
review “Device Orientations in the Equipment Rack” on page 86.
Please review the installation guidelines in Chapter 3, “Choosing a Site for
the Device” on page 67 before installing the device in an equipment rack.
Caution
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
x320 Series Installation Guide
89
To install the device in a 19-inch equipment rack with the brackets,
perform the following procedure:
1. Place the device on a level, secure surface.
2. Attach the short L bracket to one side of the device and the long L
bracket on the other side of the device using the eight M4x6 mm
screws included with the unit. Refer to Figure 30
Figure 30. Attaching the Brackets to the Device
3. Attach the long L bracket to the straight bracket. The illustration in
Figure 31 shows the installation of the brackets such that the front
panel of the device is even with the front of the equipment rack. Refer
to “19-Inch Rack Mount Kit” on page 74 to for the correct set of holes to
use for the device you are mounting.
Figure 31. Attaching the Bracket Extension to the Device
Chapter 5: Installing the Device in an Equipment Rack
92
Installing the Device in an Equipment Rack with the RKMT-J15
Bracket
This section contains the procedure for installing the device in a standard
19-inch equipment rack, with the optional RKMT-J15 Bracket.
Required Items
for the RKMT-
J15 Bracket
The following items are required to install the device in an equipment rack
with the RKMT-J15 Bracket:
One RKMT-J15 equipment rack bracket (sold separately)
Four M4x6mm bracket screws (included with the RKMT-J15)
Cross-head screwdriver (not provided)
Four standard equipment rack screws (not provided)
Note
If the rubber feet have been attached to the device, remove them.
They are attached with double-sided tape.
Installing the
Device with the
RKMT-J15
Bracket
To install the device in a 19-inch equipment rack with the RKMT-J15
Bracket, perform the following procedure:
1. Have another person hold the RKMT-J15 Bracket at the desired
location in the equipment rack while you secure it using four standard
equipment rack screws (not provided). Refer to Figure 34 on page 93.
Chapter 5: Installing the Device in an Equipment Rack
94
3. Slide out the bracket tray. Refer to Figure 36.
Figure 36. Sliding Out the Tray of the RKMT-J15
4. Place the device in the left or right side of the bracket, with its front
panel facing the front of the bracket. If you are installing only one
device, you may install it on either the left or right side. Refer to
Figure 37.
Figure 37. Placing a Device in the RKMT-J15 Bracket
x320 Series Installation Guide
95
5. Install two M4x6mm screws included with the RKMT-J15 to secure the
device to the bracket. Refer to Figure 38.
Figure 38. Securing the Device to the RKMT-J15 Bracket
6. To install a second device in the bracket, repeat steps 4 to 5.
7. Slide in the bracket tray. Refer to Figure 39.
Figure 39. Sliding in the Bracket Tray
Chapter 6: Installing the Device on the DRMT-J03 DIN Rail
98
Installing the Device on the DRMT-J03 DIN Chassis Bracket
The DRMT-J03 DIN chassis bracket is shown in Figure 41. The bracket is
compatible with DIN 35x7.5mm rails.
Figure 41. DRMT-J03 DIN Chassis Bracket
To install the device on the bracket:
1. Place the device on its side with the front facing out into the DRMT-J03
DIN chassis bracket.
Figure 42. Placing the Device on the DRMT-J03 DIN Chassis Bracket
x320 Series Installation Guide
99
2. Screw the DRMT-J03 DIN chassis bracket to the device.
Figure 43. Screwing the Device to the DRMT-J03 DIN Chassis Bracket
Chapter 6: Installing the Device on the DRMT-J03 DIN Rail
100
Installing the Device on a DIN Rail
Figure 44 shows the proper orientation of the device on a DIN rail. Do not
install the device horizontally or upside-down.
Figure 44. Orientation of the Device on a DIN Rail
To install the device on a DIN rail, perform the following procedure:
1. Press down the spring-loaded lever. Refer to Figure 45.
Figure 45. Pressing Down on the Spring-Loaded Lever
x320 Series Installation Guide
101
2. With the spring-loaded lever in the down position, place the mounting
tabs on the DIN rail as shown in Figure 46.
Figure 46. Installing the Device on a DIN Rail
3. Release the spring-loaded lever.
4. Visually inspect the bracket to verify that the DIN rail is now fitted into
the top and bottom mounting tabs. Refer to Figure 47 on page 102.
Top edge of DIN rail
Spring-loaded lever
Mounting tabs
Chapter 6: Installing the Device on the DRMT-J03 DIN Rail
102
Figure 47. Verifying the DIN Rail Installation
Note
Allied Telesis recommends installing DIN rail end clamps to the
sides of the switch to prevent damage or network traffic loss from
vibration or shock. End clamps are not available from Allied Telesis.
5. Go to Chapter 8, “Cabling the Networking Ports” on page 117.
103
Chapter 7
Installing the Device on a Wall
The procedures in this chapter are listed here:
“Device Orientations on a Wall” on page 104
“Installation Guidelines” on page 105
“Plywood Base for a Wall with Wooden Studs” on page 107
“Installing a Plywood Base” on page 109
“Installing the Device on a Plywood Base” on page 110
“Installing the Device on a Concrete Wall” on page 113
Chapter 7: Installing the Device on a Wall
104
Device Orientations on a Wall
You can install the device on a wall with the front panel facing left, right, or
down as shown in Figure 48 and Figure 49. Do not install the device facing
up.
Figure 48. Positioning the x320-10GH Switch or x320-11GPT Switch on
the Wall
Figure 49. Positioning the PWR300 Power Supply on the Wall
x320 Series Installation Guide
105
Installation Guidelines
Here are the guidelines to installing the x320-10GH or x320-11GPT switch
and PWR300 power supply on a wall:
Wall installation requires the optional BRKT-J24 brackets.
Install the device on a wall that has wooden studs or on a concrete
wall.
If you are installing the device on a wall with wooden studs, use a
plywood base to support the device. For more information, refer to
“Plywood Base for a Wall with Wooden Studs” on page 107. A
plywood base is not required for a concrete wall.
Do not install the device on a wall that has metal studs. Metal studs
may not be strong enough to safely support the device.
Do not install the device on sheetrock or similar material.
Sheetrock is not strong enough to safely support the device.
Warning
The device should be installed on a wall by a qualified building
contractor. Serious injury to yourself or others or damage to the
equipment may result if it is not properly fastened to the wall.
E105
Tools and
Material
Here are the required tools and material for installing the x320-10GH or
x320-11GPT switch and PWR300 power supply on a wall:
x320-10GH and x320-11GPT switches:
– Two BRKT-J24 wall brackets and eight M4x6mm
screws (included with the RKMT-J24).
PWR300 power supply:
– Four BRKT-J24 wall brackets and sixteen M4x6mm
screws (included with the RKMT-J24).
Four wall anchors and four 4x32mm screws for attaching the
plywood base to the wall (included with the device).
Cross-head screwdriver (not provided).
Stud finder for a wooden wall, capable of identifying the middle of
wall studs and hot electrical wiring (not provided).
Drill and 1/4” carbide drill bit for a concrete wall (not provided).
Plywood base if you are installing the device on a wall with wooden
studs (not provided.) Refer to “Plywood Base for a Wall with
Wooden Studs” on page 107 for illustrations.
Chapter 7: Installing the Device on a Wall
106
Caution
The supplied screws and anchors might not be appropriate for all
walls. A qualified building contractor should determine the hardware
requirements for your wall prior to installing the switch. E88
x320 Series Installation Guide
107
Plywood Base for a Wall with Wooden Studs
If you are installing the device on a wall that has wooden studs, Allied
Telesis recommends using a plywood base for the device. (A plywood
base is not required for a concrete wall.) Refer to Figure 50.
Figure 50. Device on the Wall with a Plywood Base
The plywood base should be mounted to two studs in the wall. The
recommended minimum dimensions of the plywood base for the x320-
10GH or x320-11GPT switch and PWR300 power supply are listed here:
Width: 55.9 centimeters (22 inches)
Height: 35.6 centimeters (14 inches)
Thickness: 2.5 centimeters (1 inch)
The dimensions assume the wall studs are 41 centimeters (16 inches)
apart. You might need to adjust the width of the base if the distance
between the studs in your wall is different than the industry standard.
Install the plywood base on the wall and then install the device on the
base. Refer to Figure 51 on page 108.
Wall Studs
Wall
Plywood Base
Chapter 7: Installing the Device on a Wall
108
Figure 51. Steps to Installing the Device with a Plywood Base
Step 1: Install the
plywood base on
the wall.
Step 2: Install the
device on the
plywood base.
Wall
Plywood
Base
Wall Studs
x320 Series Installation Guide
109
Installing a Plywood Base
A plywood base is recommended when installing the device on a wall that
has wooden studs. Refer to “Plywood Base for a Wall with Wooden Studs”
on page 107. Consult a qualified building contractor for installation
instructions for the plywood base. The installation guidelines are listed
here:
Use a stud finder to identify the middle of studs and hot electrical
wiring in the wall.
Attach the base to two wall studs with a minimum of four screws.
The selected wall location for the base should provide sufficient
space from other devices or walls so that you can access the front
and back panels, and for adequate air flow for ventilation.
Chapter 7: Installing the Device on a Wall
110
Installing the Device on a Plywood Base
This procedure assumes that the plywood base for the device is already
installed on the wall. Please review “Reviewing Safety Precautions” on
page 62 and “Choosing a Site for the Device” on page 67 before
performing this procedure. Allied Telesis recommends a minimum of two
people for this procedure.
Warning
The device should be installed on the wall by a qualified building
contractor. Serious injury to yourself or others or damage to the
equipment may result if it is not properly fastened to the wall.
E105
Follow these guidelines as you position the device on the wall:
Position the device so that the front panel is facing left. right, or down.
Refer to Figure 54 on page 112. Do not install it with the front panel up
down.
Leave sufficient space from other devices or walls so that you can
access the front panel, and for adequate air ventilation. Refer to
“Planning the Installation” on page 80.
To install the device on the plywood base, perform the following
procedure:
1. Place the device on a table.
2. For the x320-10GH or x320-11GPT switch, install two BRKT-J24 wall
brackets, one on each side of the front panel of the unit, with the eight
M4x6mm screws included with the device. Refer to Figure 52 on page
111. For the PWR300 power supply, install four BRKT-J24 wall
brackets, two on each side of the of the unit, with the 16 M4x6mm
screws included with the device. Refer to Figure 53 on page 111.
x320 Series Installation Guide
111
Figure 52. Installing the Wall Brackets on a Switch
Figure 53. Installing the Wall Brackets on a Power Supply
Chapter 7: Installing the Device on a Wall
112
3. After attaching the brackets, have another person hold the device on
the plywood base on the wall while you secure it with the four
M4x32mm screws included with the device. Refer to Figure 54.
Figure 54. Securing the Device to the Plywood Base
4. Go to Chapter 8, “Cabling the Networking Ports” on page 117.
x320-10GH
PWR300
(or x320-11GPT)
x320 Series Installation Guide
113
Installing the Device on a Concrete Wall
This section contains the instructions for installing the device on a
concrete wall. Please review the information in the following sections
before performing the procedure:
“Device Orientations on a Wall” on page 104
“Installation Guidelines” on page 105
Warning
The device should be installed on the wall by a qualified building
contractor. Serious injury to yourself or others or damage to the
equipment may result if it is not properly fastened to the wall.
E105
To install the device on a concrete wall, perform the following procedure:
1. Place the device on a table.
2. For the x320-10GH or x320-11GPT switch, install two BRKT-J24 wall
brackets, one on each side of the front panel of the unit, with the eight
M4x6mm screws included with the device. Refer to Figure 52 on page
111. For the PWR300 device, install four BRKT-J24 wall brackets, two
on each side of the of the unit, with the 16 M4x6mm screws included
with the device. Refer to Figure 53 on page 111.
3. Have another person hold the device on the concrete wall at the
selected location for the device while you use a pencil or pen to mark
the wall with the locations of the screw holes in each bracket (one
screw per bracket). Refer to Figure 55 on page 114.
Chapter 7: Installing the Device on a Wall
114
Figure 55. Marking the Locations of the Bracket Holes on a Concrete Wall
4. Use a drill and a 1/4-inch carbide drill bit to pre-drill the holes you
marked in step 3. Please review the following guidelines:
Prior to drilling, set the drill to hammer and rotation mode. The
modes break up the concrete and clean out the hole.
Clean out the holes with a brush or compressed air.
5. Insert the anchors into the holes.
6. Have another person hold the device at the selected wall location
while you secure it to the wall with the M4x32mm screws provided.
Refer to Figure 56 on page 115.
Chapter 7: Installing the Device on a Wall
116
Chapter 8: Cabling the Networking Ports
118
Cabling Twisted Pair Ports
Here are the guidelines to cabling the twisted pair ports:
The cable specifications for the twisted pair ports are listed in
“Cable Requirements” on page 26.
PoE is enabled by default on the ports of the x320-10GH and
x320-11GPT switch.
The connectors on the cables should fit snugly into the ports, and
the tabs should lock the connectors into place.
The default speed setting for the ports is Auto-Negotiation. This
setting is appropriate for ports connected to network devices that
also support Auto-Negotiation.
The ports must be set to Auto-Negotiation, the default setting, to
operate at 1000Mbps.
The ports support half- and full-duplex at 10Mbps or 100Mbps.
The ports support only full-duplex at 1000Mbps.
Do not attach cables to ports of static or LACP trunks until you
have configured the trunks of the switch. Otherwise, the ports will
form network loops that can adversely affect network performance.
x320 Series Installation Guide
119
Guidelines to Handling SFP Transceivers
Please review the following guidelines before installing SFP transceivers
in the switches:
The transceivers are hot-swappable. You can install them while the
switch is powered on.
For a list of supported transceivers, refer to the product data sheet
on the Allied Telesis web site.
The operational specifications and fiber optic cable requirements of
the transceivers are provided in the documents included with the
devices.
You should install a transceiver before connecting its fiber optic
cable.
Unnecessary removal and insertion of a transceiver can lead to
premature failure.
Caution
Transceivers can be damaged by static electricity. Be sure to
observe all standard electrostatic discharge (ESD) precautions,
such as wearing an antistatic wrist strap, to avoid damaging the
devices. E92
Chapter 8: Cabling the Networking Ports
120
Installing SFP Transceivers
This section contains installation instructions for SFP transceivers. These
illustrations show SFP ports 9 and 10 on the x320-10GH switch, but the
x320-11GPT is similar and installs in the same manner.
The illustrations show a transceiver with a duplex LC connector. The
connectors on your transceivers may be different. Please review
“Guidelines to Handling SFP Transceivers” on page 119 before
performing this procedure.
To install transceivers, perform the following procedure:
1. Select a port for the transceiver.
Figure 57. SFP Ports 9 and 10
2. Remove the transceiver from its shipping container and store the
packaging material in a safe location.
3. To install the transceiver, position the transceiver with the Allied
Telesis label facing up. Refer to Figure 58 on page 121.
Chapter 8: Cabling the Networking Ports
122
5. Verify the position of the handle on the transceiver. the handle should
be in the upright position, as shown in Figure 60.
Figure 60. Positioning the SFP Handle in the Upright Position
6. Connect the fiber optic cable to the transceiver, as shown in Figure 61.
The connector on the cable should fit snugly into the port, and the tab
should lock the connector into place.
Figure 61. Connecting a Fiber Optic Cable to an SFP Transceiver
7. Repeat this procedure to install an additional transceiver.
SFP Handle
123
Chapter 9
Powering On the Switch
This chapter contains the following procedures:
“Powering on the x320-10GH Switch” on page 124
“Powering on the x320-11GPT Switch” on page 128
“Monitoring the Initialization Processes” on page 132
“Starting a Local Management Session” on page 133
“Verifying the PoE Budget” on page 135
Chapter 9: Powering On the Switch
124
Powering on the x320-10GH Switch
Connecting the
PWR300 Power
Supply
The x320-10GH switch requires an external harness to connect to the
external PWR300 power supply. The x320-10GH switch can support up to
three PWR300 power supplies. Each PWR300 power supply provides
240W PoE power.
To connect the PWR300 power supply to the x320-10GH switch:
1. Verify that the PWR300 power supply is powered off.
Warning
Leaving the power supply powered on while connecting the harness
to the switch could cause an electrical short that can damage the
equipment. E127
2. Connect one end of the external harness to the x320-10GH switch.
Refer to Figure 62.
Figure 62. Connecting the External Harness to the x320-10GH Switch
Caution
Do not install the connector at an angle, doing so can bend the
connector pins. E128
x320 Series Installation Guide
125
3. Connect the other end of the external harness to the PWR300 power
supply. Refer to Figure 63.
Figure 63. Connecting the PWR300 Power Supply to the x320-10GH
Switch
4. Repeat this procedure to connect the switch to additional PWR300
power supplies.
Powering on the
PWR300 Power
Supply
Before powering on the switch, review the information in “Power
Specifications” on page 153 for the power specifications of the switches.
Warning
Power cord is used as a disconnection device. To de-energize
equipment, disconnect the power cord. E3
Note
Pluggable Equipment. The socket outlet shall be installed near the
equipment and shall be easily accessible. E5
To power on the switch, perform the following procedure:
1. Install the power cord retaining clip on the AC power connector on the
front panel of the PWR300 power supply. Refer to Figure 64 on page
126.
Chapter 9: Powering On the Switch
126
Figure 64. Installing the Power Cord Retaining Clip on the PWR300 Power
Supply
2. Connect the AC power cord to the AC power connector on the front
panel of the PWR300 power supply. Refer to Figure 65.
Figure 65. Connecting the AC Power Cord
3. Lower the power cord retaining clip to secure the cord to the x320-
10GH switch. Refer to Figure 66 on page 127.
x320 Series Installation Guide
127
Figure 66. Lowering the Power Cord Retaining Clip
4. Connect the power cord to an appropriate AC power source. Refer to
Figure 67.
Figure 67. Connecting the Power Cord to an AC Power Source
Note
The illustration shows a North American power cord. Your power
cord may be different.
5. Repeat this procedure to power on additional power supplies.
6. To monitor the switch as it initializes the management software, go to
“Monitoring the Initialization Processes” on page 132. Otherwise, go to
“Starting a Local Management Session” on page 133.
Chapter 9: Powering On the Switch
128
Powering on the x320-11GPT Switch
Connecting
Port 11 to a PoE
Power Source
The x320-11GPT switch can get its power from a Class 4 (30W), Class 6
(60W), or Class 8 (90W) PoE power source on port 11. If the switch is
powered at class 4 (30W), switching is still possible and the unit will
operate normally, but without any budget for PoE. Refer to “Port 11 - PoE
IN Pass-through” on page 47 for more information regarding port 11.
To power the switch using port 11, perform the following procedure:
1. Connect a twisted pair cable to port 11. For guidelines, refer to
“Cabling Twisted Pair Ports” on page 118.
2. Connect the other end of the cable to a port on a Class 4, 6, or 8 PoE
power source.
If the power source is powered on, the x320-11GPT switch begins to
power on.
3. To monitor the switch as it initializes the management software, go to
“Monitoring the Initialization Processes” on page 132. Otherwise, go to
“Starting a Local Management Session” on page 133.
x320 Series Installation Guide
129
Connecting the
PWR90ADP
Power Adapter
The x320-11GPT switch can also get its power from a PWR90ADP AC
power adapter, which can supply 46W PoE power. Refer to “PWR90ADP
AC/DC Power Adapter” on page 50 for more information.
To connect the PWR90ADP power adapter to the x320-11GPT switch:
1. Connect the DC plug on the PWR90ADP power adapter into the DC-IN
power adapter on the front panel of the x320-11GPT switch. Refer to
Figure 68.
Figure 68. Connecting the PWR90ADP Power Adapter to the x320-11GPT
Switch
2. Connect the AC power cord to the PWR90ADP power adapter. Refer
to Figure 69
Figure 69. Connecting the Power Cord to the Power Adapter
Chapter 9: Powering On the Switch
130
On the x320-11GPT switch is a PoE pass-through device that can be
powered via PoE on the PD port. It is set to be class 8 by default. It is
compatible with older PSEs as long as the unit does not try to draw more
power than the PSE can provide. The current PoE budget is set
depending upon what class the PD is classified as.
To confirm the PoE budget, perform the following procedure:
1. Enter the ENABLE command at the User Exec mode to move to the
Privileged Exec mode, as shown here:
awplus> enable
awplus#
2. Enter the SHOW POWER-INLINE command at the Privileged Exec
mode prompt, as shown here:
awplus# show power-inline
The PD port status is not displayed in the environment monitoring and if
there is no power provided it does not display a fault status. There are no
SNMP trap or notifications sent if the PD port changes power provided
state.
Powering on
the PWR90ADP
AC/DC Adapter
Before powering on the switch, review the information in “Power
Specifications” on page 153 for the power specifications of the switches.
Warning
Power cord is used as a disconnection device. To de-energize
equipment, disconnect the power cord. E3
Note
Pluggable Equipment. The socket outlet shall be installed near the
equipment and shall be easily accessible. E5
x320 Series Installation Guide
131
To power on the switch, perform the following procedure:
1. Connect the power cord to the power adapter.
Figure 70. Connecting the Power Cord to the Power Adapter
2. Connect the power cord to an appropriate AC power source. Refer to
Figure 71 on page 131.
Figure 71. Connecting the Power Cord to an AC Power Source
Note
The illustration shows a North American power cord. Your power
cord may be different.
3. To monitor the switch as it initializes the management software, go to
“Monitoring the Initialization Processes” on page 132.
Chapter 9: Powering On the Switch
132
Monitoring the Initialization Processes
It takes about two minutes for the switch to initialize its management
software programs and features, and load the default configuration. You
can monitor the bootup sequence by connecting a terminal or computer
that has a terminal emulator program to the Console port on the switch.
After the switch has initialized its management software, go to “Starting a
Local Management Session” on page 133.
x320 Series Installation Guide
133
Starting a Local Management Session
This section contains the procedure for starting a local management
session on the switch. Please review the following information before
performing the procedure:
The initial management session with the switch must be a local
session.
Local management sessions are conducted through the Console
port on the front panel.
Local management sessions do not interfere with the network
operations of the switch.
The switch comes with one 2 m (6.6 ft) management cable, with
RJ-45 and DB-9 connectors, for local management sessions. Refer
to Figure 17 on page 72.
The switch does not need an IP address for local management
sessions.
You cannot initially manage the switch remotely with Telnet, SSH,
or web browser because the switch does not have a default IP
address and the DHCP client is disabled.
To start a local management session, perform the following procedure:
1. Connect the RJ-45 connector on your management cable to the
Console port on the switch.
2. Connect the other end of the cable to an RS-232 port on a terminal or
personal computer with a terminal emulation program.
3. Configure the VT-100 terminal or terminal emulation program as
follows:
Baud rate: 9600 bps (The baud rate of the Console port is
adjustable from 1200 to 115200 bps. The default is 9600 bps.)
Data bits: 8
Parity: None
Stop bits: 1
Flow controller: None
Note
The port settings are for a DEC VT100 or ANSI terminal, or an
equivalent terminal emulator program.
Chapter 9: Powering On the Switch
134
Note
The baud rate must be set to the default 9600 bps to configure the
boot loader.
4. Press Enter. You are prompted for the name and password of the
manager account.
5. Enter the user name and password. The default values are “manager”
and “friend” (without the quotes), respectively.
Note
User names and passwords are case sensitive.
The switch starts the local management session and displays the
following prompt:
awplus>
This prompt represents the User Exec mode in the command line
interface in the switch.
6. Go to “Verifying the PoE Budget” on page 135.
x320 Series Installation Guide
135
Verifying the PoE Budget
x320-10GH This procedure explains how to verify the PoE budget on the
x320-10GH switch. The budget is the maximum wattage the switch has
available for the powered devices on its twisted pair ports. The budget for
x320-10GH should be 240W for each power supply that meets the
specifications in “PWR300 Power Supply” on page 27.
The procedure assumes you have already started a local management
session on the device. For instructions, refer to “Starting a Local
Management Session” on page 133.
To confirm the PoE budget, perform the following procedure:
1. Enter the ENABLE command at the User Exec mode to move to the
Privileged Exec mode, as shown here:
awplus> enable
awplus#
2. Enter the SHOW POWER-INLINE command at the Privileged Exec
mode prompt, as shown here:
awplus# show power-inline
3. Examine the Nominal Power field in the command output.
It should be 240W, 480W, or 720W depending on the number of power
supplies that are connected. This is the maximum PoE budget for the
powered devices on the ports of the x320-10GHswitch.
To display the status of each PWR300 power supply, use the SHOW
SYSTEM ENVIRONMENT command.
x320-11GPT This procedure explains how to verify the PoE budget on the
x320-11GPT switch. The budget is the maximum wattage the switch has
available for the powered devices on its twisted pair ports. The budget for
x320-11GPT should be 62W for power supplies that meet the
specifications in “PWR90ADP AC/DC Power Adapter” on page 50.
The procedure assumes you have already started a local management
session on the device. For instructions, refer to “Starting a Local
Management Session” on page 133.
Chapter 9: Powering On the Switch
136
To confirm the PoE budget, perform the following procedure:
1. Enter the ENABLE command at the User Exec mode to move to the
Privileged Exec mode, as shown here:
awplus> enable
awplus#
2. Enter the SHOW POWER-INLINE command at the Privileged Exec
mode prompt, as shown here:
awplus# show power-inline
3. Examine the Nominal Power field in the command output.
If powered by the power adapter, it should be 62W. This is the
maximum PoE budget for the powered devices on the ports of the
x320-11GPT switch.
The PoE budget provided by port 11 for the switch will be 30W for a
Class 6 device or 46W for a Class 8 device.
137
Chapter 10
Troubleshooting
This chapter has the following sections:
“x320-10GH Switch” on page 138
“x320-11GPT Switch” on page 142
“Twisted Pair Ports 1 to 8” on page 144
“SFP Ports” on page 145
Note
For further assistance, please contact Allied Telesis Technical
Support at www.alliedtelesis.com/support.
Chapter 10: Troubleshooting
138
x320-10GH Switch
Here are the troubleshooting suggestions in this section:
“PWR300 Power Supply,” next
“PoE++ on Ports 1 to 8” on page 141
PWR300 Power
Supply
Problem 1: The switch is not forwarding network traffic and all the port
and system LEDs are off.
Solutions: The switch is not receiving power.
If the switch has only one PWR300 power supply, try the following:
Examine the DC OUT/FAULT LED on the front panel of the power
supply. If the LED is off, go to Problem 2.
If the DC OUT/FAULT LED on the power supply is amber, go to
Problem 3.
If the switch has only one PWR300 power supply and the DC OUT/FAULT
LED is green, try the following.
Verify that the DC wire harness is securely connected to the
connector on the switch and PWR300 power supply.
Verify that the AC power cable is securely connected to the
connector on the PWR300 power supply and the AC power
source.
Try connecting the PWR300 power supply to a different AC power
source.
Try connecting another device to the AC power source to verify
that it has power.
Try replacing the PWR300 power supply.
Try replacing the DC wire harness.
If the switch has two or three PWR300 power supplies and the DC OUT/
FAULT LEDs on all their front panels are off, they are not are receiving
power from the AC power sources: Try connecting the power supplies to
other AC power sources.
x320 Series Installation Guide
139
If the switch has two or three PWR300 power supplies and the DC OUT/
FAULT LEDs are all green, try the following:
Verify that the DC wire harnesses are securely connected to the
connectors on the switch and power supplies.
Verify that the AC power cables are securely connected to the
connectors on the PWR300 power supply and the AC power
source.
Try replacing the switch.
If all the port LEDs are off, the switch might be operating in the low power
mode. To toggle on the LEDs, use the ECOFRIENDLY LED and NO
ECOFRIENDLY LED commands in the command line interface.
Problem 2: The DC OUTPUT/FAULT LED on the PWR300 power supply
is off.
Solutions: The power supply is not receiving power or has failed. Try the
following:
Verify that the AC power cable is securely connected to the
connector on the PWR300 power supply and the AC power source.
Try connecting the PWR300 power supply to a different AC power
source.
Try connecting another device to the AC power source to verify
that it has power.
Try replacing the PWR300 power supply.
Problem 3: The DC OUTPUT/FAULT LED on the PWR300 power supply
is amber.
Solutions: The power supply has encountered a fault condition. It might
be overheating or failing, or the input AC voltage might be outside the
normal operating range. Try the following:
Verify that there is adequate airflow around the power supply.
Verify that there is adequate distance for ventilation between the
power supply and other network devices.
Try connecting the PWR300 power supply to a different AC power
source.
Try replacing the PWR300 power supply.
Chapter 10: Troubleshooting
140
Problem 4: The PoE budget displayed by the SHOW POWER-INLINE
command is 240W below the correct value for the number of PWR300
power supplies connected to the switch. For example, the command
displays a budget of only 480W, instead of 720W, for a switch with three
power supplies, or 240W, instead of 480W, for a switch with two power
supplies.
Solutions: One PWR300 power supply is not working.
Examine the DC OUT/FAULT LEDs on the front panels of the PWR300
power supplies. If an LED is off on a power supply, go to Problem 2. If an
LED is amber on a power supply, go to Problem 3.
If the LEDs are green on all the power supplies, try using the SHOW
SYSTEM ENVIRONMENT command to identify the power supply that is
not providing power to the switch. Then try the following on the identified
power supply:
Verify that the DC wire harness is securely connected to the
connector on the switch and power supply.
Verify that the AC power cable is securely connected to the
connector on the power supply and the AC power source.
Try replacing the DC wire harness.
Try replacing the power supply.
Problem 5: The PoE budget displayed by the SHOW POWER-INLINE
command is below the correct value for the number of PWR300 power
supplies connected to the switch. For example, the switch has three power
supplies, but the command displays a budget of only 680W, instead of
720W.
Solutions: The DC output from one or more of the PWR300 power
supplies is below operating norms.
This is usually caused by a failing or overheating power supply. (DC
outputs decrease as power supplies overheat.) Try the following:
Verify that there is adequate airflow around the power supplies.
Verify that there is adequate distance for ventilation between the
power supplies and between the power supplies and other network
devices.
Examine the DC OUT/FAULT LEDs on the front panels of the PWR300
power supplies. If the LED is amber on a power supply, signaling a fault
condition, replace that unit.
x320 Series Installation Guide
141
Problem 6: The switch stopped supplying power to one or more powered
devices on ports 1 to 8.
Solutions: The DC output from one or more of the PWR300 power
supplies has fallen below operating norms, causing the switch to deny
power to one or more devices, or a power supply has failed. Perform the
SHOW SYSTEM ENVIRONMENT command and refer to Problems 4
and 5.
PoE++ on
Ports 1 to 8
Problem 1: The x320-10GH switch is providing power to some but not all
powered device on ports 1 to 8.
Solutions: Try the following:
Examine the LINK/ACT LED on the port. If it is off, go to “Twisted
Pair Ports 1 to 8” on page 144.
Check the port PoE LEDs. If an LED is flashing amber, the switch
cannot support the device because doing so would exceed its PoE
budget. If this is the case, use the SHOW SYSTEM
ENVIRONMENT command to display the switch’s PoE budget and
compare that value with the total requirements of the PoE devices
in the worksheet in “Planning the Installation” on page 36.
If the powered device is Class 8, confirm that it uses Type 3 wiring
to receive power, by referring to its documentation.
Verify that you are using the appropriate category of twisted-pair
cable. Cable requirements for the switch are listed in “Cable
Requirements” on page 26.
Use the management software on the switch to determine whether
PoE is enabled on the port. The default setting for PoE is enabled.
Use the management software on the switch to determine whether
the PoE power setting for the port has been reduced to a value
below the power requirements of the device.
Try connecting the device to a different port on the switch.
Problem 2: The x320-10GH switch stopped providing PoE power to
devices on Low or High priority ports.
Solutions: One of the PWR300 power supplies might have lost power of
failed. Refer to Problems 2 and 3 in “PWR300 Power Supply” on
page 138:
Problem 3: A pre-802.3bt-compliant device is not working with the switch.
Solutions: Use the POWER-INLINE ALLOW-PRE-BT command in the
Global Configuration mode of the command line interface of the
AlliedWare Plus management software.
Chapter 10: Troubleshooting
142
x320-11GPT Switch
Here are the troubleshooting suggestions in this section:
“Port 11 PoE-IN,” next
“PWR90ADP AC/DC Adapter” on page 142
“PoE+ on Ports 1 to 8” on page 143
Port 11 PoE-IN Problem 1: Port 11 is connected to a Class 4, 6, or 8 power source and its
Link/Activity LED is on, but its PoE Powered Device LED is off.
Solutions: Port 11 has established a link to a network device, but is not
receiving any PoE power. Consequently, the switch is powered by the
PWR90ADP adapter. Try the following:
Verify that the PoE power source is Class 4, 6, or 8. This
information can be found in the device’s installation guide. Port 11
is not compatible as a PoE pass-through port with other PoE
classes.
Verify that the PoE power source is operating properly. Refer to its
user documentation.
Verify that PoE is enabled on the port on the power source. Refer
to the device’s user documentation.
Verify that the PoE power source has not exceeded its PoE power
budget. Refer to the device’s user documentation.
Try connecting port 11 to another PoE power source.
Try replacing the twisted pair cable.
PWR90ADP AC/
DC Adapter
Problem 1: The switch is not receiving power from the PWR90ADP
adapter.
Solutions: Try the following:
Verify that the AC power cord is securely connected to the AC
connector on the adapter and to the AC power source.
Verify that the DC cable from the adapter is securely connected to
the connector on the front panel of the switch.
Try connecting the PWR90ADP adapter to another AC power
source.
Try connecting another device to the AC power source to verify
that the source has power.
Try replacing the adapter.
x320 Series Installation Guide
143
PoE+ on Ports 1
to 8
Problem 1: The x320-11GPT switch is not providing power to any PoE+
devices on ports 1 to 8.
Solutions: Port 11 might be connected to a Class 4 power source. A
Class 4 power source can provide the switch with enough power to
operate as a switch, but not enough for a PoE budget. If you want to use
port 11 to power the switch and to support powered devices, you must
connect it to a Class 6 or 8 device.
Problem 2: The x320-11GPT switch is providing power to some but not all
PoE+ devices on ports 1 to 8.
Solutions: Try the following:
Examine the LINK/ACT LED on the port. If it is off, go to “Twisted
Pair Ports 1 to 8” on page 144.
Check the port’s PoE LED. If the LED is flashing amber, the switch
cannot support the device because doing so would exceed its PoE
budget. If this is the case, use the SHOW SYSTEM
ENVIRONMENT command to display the switch’s PoE budget and
compare that value with the total requirements of the PoE devices
in the worksheet in TBD.
Review the powered device’s documentation to confirm that the
device supports Mode A of the IEEE 802.3at standard and that it
uses pins 1, 2, 3, and 6 on the RJ-45 port to receive power. Refer
to “RJ-45 Twisted Pair Port Pinouts” on page 155.
Check that the device’s power requirements do not exceed 30W by
reviewing the device’s documentation or data sheet.
Verify that you are using the appropriate category of twisted-pair
cable. Cable requirements for the switch are listed in TBD.
Use the management software on the switch to determine whether
PoE is enabled on the port. The default setting for PoE is enabled.
Use the management software on the switch to determine whether
the PoE power setting for the port has been reduced to a value
below the power requirements of the device.
Try connecting the device to a different port on the switch.
Chapter 10: Troubleshooting
144
Twisted Pair Ports 1 to 8
Problem 1: The LINK/ACT LED for a twisted pair port connected to a
network device is off.
Solutions: The port cannot establish a link with a network device. Try the
following:
Verify that the network device connected to the twisted pair port is
powered on and is operating properly.
Try connecting another network device to the twisted pair port with
a different cable. If port is able to establish a link, then the problem
is with the cable or the other network device.
Verify that the twisted pair cable does not exceed 100 meters (328
feet).
Verify that you are using the appropriate category of twisted pair
cable. Refer to “Cable Requirements” on page 26.
Verify that the port is connected to the correct twisted pair cable.
If all the port LEDs are off, the switch might be operating in the low
power mode. To toggle on the LEDs, use the ECOFRIENDLY LED
and NO ECOFRIENDLY LED commands in the command line
interface.
Note
Twisted pair ports may require five to ten seconds to establish links.
x320 Series Installation Guide
145
SFP Ports
Problem: The LINK/ACT LED is off for an SFP port with a transceiver that
is connected to an active network device.
Solutions: The transceiver is unable to establish a link to a network
device. Try the following:
Verify that the remote network device is operating properly.
Verify that the fiber optic cable is securely connected to the port on
the transceiver and the remote network device.
Check that the transceiver is fully inserted in the port.
Verify that the operating specifications of the fiber optic ports on
the transceiver and remote network device are compatible.
Verify that the correct type of fiber optic cabling is being used.
Verify that the port is connected to the correct fiber optic cable.
Try connecting another network device to the fiber optic port using
a different cable. If the port is able to establish a link, then the
problem is with the cable or with the other network device.
Use the switch’s management software to verify that the port is
enabled.
If the remote network device is a managed device, use its
management firmware to determine whether its port is enabled.
If the problem is with two BiDi (bi-directional) transceivers, refer to
their data sheets to verify that their transmission and reception
frequencies are opposite each other. For instance, a BiDi
transceiver that transmits and receives at 1310nm and 1550nm,
respectively, has to be connected to a transceiver that transmits
and receives at 1550nm and 1310nm, respectively. Two BiDi
transceivers cannot establish a link if they transmit and receive at
the same frequencies.
Test the attenuation of both directions on the fiber optic cable with
a fiber optic tester to determine whether the optical signal is too
weak (sensitivity) or strong (maximum input power).
Chapter 10: Troubleshooting
146
147
Appendix A
Technical Specifications
This appendix contains the following sections:
“Physical Specifications” on page 148
“Environmental Specifications” on page 151
“Power Specifications” on page 153
“Certifications” on page 154
“RJ-45 Twisted Pair Port Pinouts” on page 155
“RJ-45 Style Serial Console Port Pinouts” on page 157
Appendix A: Technical Specifications
148
Physical Specifications
Dimensions (H x W x D)
Table 24 lists the dimensions of the switches and power supply. Figure 72
and Figure 73 on page 149 illustrate the dimensions.
Figure 72. PWR300 Dimensions
Table 24. Product Dimensions
PWR300 4.25 cm x 20.0 cm x 17.1 cm
(1.7 in. x 7.9 in. x 6.7 in.)
x320-10GH 4.25 cm x 21.0 cm x 18.0 cm
(1.7 in. x 8.3 in. x 7.1 in.)
x320-11GPT 4.25 cm x 21.0 cm x 18.0 cm
(1.7 in. x 8.3 in. x 7.1 in.)
x320 Series Installation Guide
149
Figure 73. x320-10GH Dimensions
Figure 74. x320-11GPT Dimensions
Appendix A: Technical Specifications
150
Weights
Table 25 lists the weights of the switches and power supplies.
Ventilation
Table 26 lists the ventilation requirements.
Table 25. Product Weights
PWR300 1.6 kg (3.53 lb)
x320-10GH 1.6 kg (3.53 lb)
x320-11GPT 1.6 kg (3.53 lb)
Table 26. Ventilation Requirements
Recommended Minimum
Ventilation on All Sides
>5 cm (>2 in)
x320 Series Installation Guide
151
Environmental Specifications
Table 27 lists the environmental specifications of the switches.
Warning
HOT SURFACE. Do not touch when operational temperature is 40°F
or more. E124
Figure 28 shows the temperature derating for the PoE budget.
Table 27. Environmental Specifications
Operating Temperature -10° C to +55° C (14° F to 131° F)
Storage Temperature -25° C to 70° C (-13° F to 158° F)
Operating Humidity 5% to 90% noncondensing
Storage Humidity 5% to 95% noncondensing
Maximum Operating Altitude 3,000 m (9,842 ft)
Maximum Nonoperating Altitude 4,000 m (13,100 ft)
Table 28. Operating Temperature Derating
Placement
PoE Budget Derating
Operating
Temperature PoE Budget
x320-10GH
Stand-alone
55° C 200W (/PWR300) x 3
50° C 210W (/PWR300) x 3
45° C 220W (/PWR300) x 3
40° C 240W (/PWR300) x 3
x320-11GPT
Stand-alone
55° C 25W
50° C 47W
40° C 62W
Rackmount in the
packing
Same as above.
RKMT-J15 Same as above.
Appendix A: Technical Specifications
152
BRKT-J24 55° C 200W (/PWR300) x 1
50° C 210W (/PWR300) x 1
45° C 220W (/PWR300) x 1
40° C 240W (/PWR300) x 1
AT-BRKT-DIN Same as above.
Table 28. Operating Temperature Derating (Continued)
Placement
PoE Budget Derating
Operating
Temperature PoE Budget
x320 Series Installation Guide
153
Power Specifications
This section contains the maximum power consumption values, input
voltages, and heat dissipation values.
Maximum Power Consumption
Table 29 lists the maximum power consumptions for the switches.
Input Voltages
Table 30 lists the input voltages for the switches.
Heat Dissipation
Maximum power consumption is used to calculate a BTU/h. For example,
[Max Power Consumption] x 0.86 x 3.968.
Table 31 lists the heat dissipation for the switches.
Table 29. Maximum Power Consumptions
x320-10GH 880 watts
x320-11GPT 98 watts
Table 30. Input Voltages
x320-10GH with PWR300 100-240 VAC~, 4.5A maximum,
50/60 Hz
x320-11GPT with PWR90ADP 100-240 VAC~, 3.0A maximum,
50/60 Hz
Table 31. Heat Dissipation
x320-10GH w/PoE:720W => 880W 3,000BTU/hr
x320-10GH w/PoE:480W => 600W 2000BTU/h
x320-10GH w/PoE:240W => 320W 1100BTU/h
x320-10GH wo/PoE => 21W 71BTU/h
x320-11GPT 340BTU/h
Appendix A: Technical Specifications
154
Certifications
Table 32 lists the product certificates.
Note
This product has an agency label on the bottom panel with the
applicable international Compliance Marks, product model name
and serial number, power ratings, manufacture date, country of
origin, and name of importer. Refer there for all applicable
international Compliance Marks.
Table 32. Product Certifications
EMI (Emissions) FCC Class A, EN55032 Class A,
EN61000-3-2, EN61000-3-3, VCCI
Class A, CISPR Class A, CE
EMC (Immunity) EN55035
Electrical and Laser Safety EN62368-3 (UL-EU), UL62368-3
(CULUS)
Compliance Marks CE, CULUS, UL-EU, C-Tick
x320 Series Installation Guide
155
RJ-45 Twisted Pair Port Pinouts
Figure 75 illustrates the pin layout of the RJ-45 connectors on the front
panel of the switch.
Figure 75. RJ-45 Socket Pin Layout (Front View)
Table 33 lists the pin signals for a port when it is operating at 10 or
100 Mbps.
Table 33. Pin Signals for 10 and 100 Mbps
Pin MDI Signal MDI-X Signal
1TX+ RX+
2TX- RX-
3RX+ TX+
4 Not used Not used
5 Not used Not used
6RX- TX-
7 Not used Not used
8 Not used Not used
x320 Series Installation Guide
157
RJ-45 Style Serial Console Port Pinouts
Table 35 lists the pin signals of the RJ-45 style serial Console port.
Table 36 lists the pin signals of the DC-IN x320-10GH switch.
Table 35. RJ-45 Style Serial Console Port Pin Signals
Pin Signal
1 Looped to pin 8
2 Looped to pin 7
3 Transmit Data
4 Ground
5 Ground
6 Receive Data
7 Looped to pin 2
8 Looped to pin 1
Table 36. x320-10GH DC-IN Pin Signals
Pin Name Function
1 +54V +54.5V
2 54V_return +54.5V return
3 SG_54V Signal GND of 54.5V
4 CurrentShare_54V Current share pin for 54.5V
5 PG_54V Power good pin for 54V
6 NC Required for isolation between FG and
others
7 FG Earth GND
Appendix A: Technical Specifications
158