H3C IE4300-12P-PWR Installation guide

Category
Network switches
Type
Installation guide

This manual is also suitable for

H3C IE4300-12P-AC & IE4300-12P-PWR
Industrial Switches
Installation Guide
New H3C Technologies Co., Ltd.
http://www.h3c.com
Document version: 5W100-20191025
Copyright © 2019, New H3C Technologies Co., Ltd. and its licensors
All rights reserved
No part of this manual may be reproduced or transmitted in any form or by any means without prior written
consent of New H3C Technologies Co., Ltd.
Trademarks
Except for the trademarks of New H3C Technologies Co., Ltd., any trademarks that may be mentioned in this
document are the property of their respective owners.
Notice
The information in this document is subject to change without notice. All contents in this document, including
statements, information, and recommendations, are believed to be accurate, but they are presented without
warranty of any kind, express or implied. H3C shall not be liable for technical or editorial errors or omissions
contained herein.
Environmental protection
This product has been designed to comply with the environmental protection requirements. The storage, use,
and disposal of this product must meet the applicable national laws and regulations.
Preface
H3C IE4300-12P-AC & IE4300-12P-PWR Industrial Switches Installation Guide describes the
appearance, installation, power-on, maintenance, and troubleshooting of the H3C IE4300-12P-AC &
IE4300-12P-PWR Industrial Switches .
This preface includes the following topics about the documentation:
Audience.
Conventions.
Documentation feedback.
Audience
This documentation is intended for:
Network planners.
Field technical support and servicing engineers.
Network administrators working with the IE4300-12P-AC & IE4300-12P-PWR Industrial
Switches.
Conventions
The following information describes the conventions used in the documentation.
Command conventions
Convention Description
Boldface Bold
text represents commands and keywords that you enter literally as shown.
Italic
Italic text represents arguments that you replace with actual values.
[ ] Square brackets enclose syntax choices (keywords or arguments) that are optional.
{ x | y | ... }
Braces enclose a set of required syntax choices separated by vertical bars, from which
you select one.
[ x | y | ... ]
Square brackets enclose a set of optional syntax choices separated by vertical bars,
from which you select one or none.
{ x | y | ... } *
Asterisk marked braces enclose a set of required syntax choices separated by vertical
bars, from which you select a minimum of one.
[ x | y | ... ] *
Asterisk marked square brackets enclose optional syntax choices separated by vertical
bars, from which you select one choice, multiple choices, or none.
&<1-n>
The argument or keyword and argument combination before the ampersand (&) sign
can be entered 1 to n times.
# A line that starts with a pound (#) sign is comments.
GUI conventions
Convention Description
Boldface
Window names, button names, field names, and menu items are in Boldface. For
example, the
New User
window opens; click
OK
.
Convention Description
>
Multi-level menus are separated by angle brackets. For example,
File
>
Create
>
Folder
.
Symbols
Convention Description
WARNING!
An alert that calls attention to important information that if not understood or followed
can result in personal injury.
CAUTION:
An alert that calls attention to important information that if not understood or followed
can result in data loss, data corruption, or damage to hardware or software.
IMPORTANT:
An alert that calls attention to essential information.
NOTE:
An alert that contains additional or supplementary information.
TIP:
An alert that provides helpful information.
Network topology icons
Convention Description
Represents a generic network device, such as a router, switch, or firewall.
Represents a routing-capable device, such as a router or Layer 3 switch.
Represents a generic switch, such as a Layer 2 or Layer 3 switch, or a router that
supports Layer 2 forwarding and other Layer 2 features.
Represents an access controller, a unified wired-WLAN module, or the access
controller engine on a unified wired-WLAN switch.
Represents an access point.
Represents a wireless terminator unit.
Represents a wireless terminator.
Represents a mesh access point.
Represents omnidirectional signals.
Represents directional signals.
Represents a security product, such as a firewall, UTM, multiservice security
gateway, or load balancing device.
Represents a security module, such as a firewall, load balancing, NetStream, SSL
VPN, IPS, or ACG module.
T
T
T
T
Examples provided in this document
Examples in this document might use devices that differ from your device in hardware model,
configuration, or software version. It is normal that the port numbers, sample output, screenshots,
and other information in the examples differ from what you have on your device.
Documentation feedback
You can e-mail your comments about product documentation to info@h3c.com.
We appreciate your comments.
i
Contents
1 Preparing for installation ······························································· 1-1
Safety recommendations ·········································································································· 1-1
Examining the installation site ···································································································· 1-1
Humidity ························································································································· 1-2
EMI ······························································································································· 1-2
Laser safety ···················································································································· 1-2
Installation tools ······················································································································ 1-2
2 Installing the switch ····································································· 2-1
Installation flowchart ················································································································ 2-1
Mounting the switch on a DIN rail ······························································································· 2-2
DIN rail mounting bracket ··································································································· 2-2
Installing the switch on a DIN rail ························································································· 2-2
Connecting the grounding cable ·························································································· 2-3
Wiring external alarms ······································································································· 2-3
Connecting power cords ··········································································································· 2-5
Connecting an AC power cord for an IE4300-12P-AC switch ····················································· 2-5
Connecting a DC power cord for an IE4300-12P-PWR switch ···················································· 2-6
Verifying the installation ············································································································ 2-7
3 Accessing the switch for the first time ·············································· 3-1
Connecting a terminal to the console port ····················································································· 3-1
Setting terminal parameters ······································································································ 3-2
Starting the switch ··················································································································· 3-2
Pre-startup checklist ········································································································· 3-2
Powering on the switch ······································································································ 3-3
4 Setting up an IRF fabric ······························································· 4-1
IRF fabric setup flowchart ········································································································· 4-1
Planning IRF fabric setup ·········································································································· 4-2
IRF fabric size ················································································································· 4-2
Installation scheme ··········································································································· 4-2
Master switch ·················································································································· 4-3
IRF member IDs ··············································································································· 4-3
IRF physical ports ············································································································· 4-3
Fabric topology ················································································································ 4-3
IRF connection scheme ····································································································· 4-4
Configuring basic IRF settings ··································································································· 4-5
Connecting the IRF physical ports ······························································································ 4-5
Accessing the IRF fabric ··········································································································· 4-5
Verifying the IRF fabric status ···································································································· 4-5
5 Maintenance and troubleshooting ··················································· 5-1
Power failure ·························································································································· 5-1
Abnormal or no AC power input ··························································································· 5-1
Configuration terminal display issues ·························································································· 5-2
No display on the configuration terminal ················································································ 5-2
Garbled display on the configuration terminal ········································································· 5-2
6 Appendix A Chassis views and technical specifications ······················· 6-1
Chassis views ························································································································ 6-1
IE4300-12P-AC ················································································································ 6-1
IE4300-12P-PWR ············································································································· 6-3
Technical specifications ············································································································ 6-5
7 Appendix B Ports and LEDs ·························································· 7-1
Ports ···································································································································· 7-1
ii
Console port ···················································································································· 7-1
10/100/1000BASE-T autosensing Ethernet port ······································································ 7-1
SFP port ························································································································· 7-2
LEDs ···································································································································· 7-3
Power status LED ············································································································· 7-3
Alarm LED ······················································································································ 7-4
Diag LED ························································································································ 7-4
SFP port LED ·················································································································· 7-4
10/100/1000BASE-T autosensing Ethernet port LED (IE4300-12P-AC) ········································ 7-4
10/100/1000BASE-T autosensing Ethernet port LED (IE4300-12P-PWR) ····································· 7-5
1-1
1 Preparing for installation
CAUTION:
If the switch is used in a manner not specified by the manufacturer, the protection provided by the
switch may be impaired.
Safety recommendations
WARNING!
When the ambient temperature exceeds 60°C (140°F), the outer surface temperature of the switch
might exceed 70°C (158°F). You must install the switch in a restricted access area. To avoid burns,
take protective measures when working with the switch.
To avoid bodily injury or damage to the switch, read the following safety recommendations carefully
before working with the switch. Note that the recommendations do not cover every possible
hazardous condition.
Before cleaning the switch, remove all power cords from the switch. Do not clean the switch
with wet cloth or liquid.
Do not place the switch near water or in a damp environment. Prevent water or moisture from
entering the switch chassis.
Do not place the switch on an unstable case or desk.
Ensure adequate ventilation for the switch and keep the protective vents of the switch
unblocked.
Make sure the power source voltage meets the requirements of the switch.
To avoid electrical shocks, do not open the chassis while the switch is operating. As a best
practice, do not open the chassis even if the switch is powered off.
When installing the switch, always wear an ESD wrist strap. Make sure the wrist strap makes
good skin contact and is reliably grounded.
NOTE:
The switch is a class A device and might cause radio interference in a residential area. Take
adequate measures as required.
Examining the installation site
The switch must be installed on a DIN rail. Make sure the DIN rail is strong enough to support the
switch and its accessories.
To ensure correct operation and prolong service life of your switch, make sure the installation site
has a good ventilation system and meets the following requirements.
1-2
Humidity
To ensure correct operation and long service life of your switch, maintain the ambient humidity at the
acceptable ranges. For the humidity requirements of the switch, see "Technical specifications."
Lastin
g high relative humidity can cause poor insulation, electricity leakage, mechanical
property change of materials, and metal corrosion.
Lasting low relative humidity can cause washer contraction and ESD and cause problems
including loose mounting screws and circuit failure.
EMI
All electromagnetic interference (EMI) sources, from outside or inside of the switch and application
system, adversely affect the switch in the following ways:
A conduction pattern of capacitance coupling.
Inductance coupling.
Electromagnetic wave radiation.
Common impedance (including the grounding system) coupling.
To prevent EMI, use the following guidelines:
If AC power is used, use a single-phase three-wire power receptacle with protection earth (PE)
to filter interference from the power grid.
Keep the switch far away from radio transmitting stations, radar stations, and high-frequency
devices.
Use electromagnetic shielding, for example, shielded interface cables, when necessary.
To prevent signal ports from getting damaged by overvoltage or overcurrent caused by lightning
strikes, route interface cables only indoors.
Laser safety
WARNING!
The switch is a Class 1 laser device. Disconnected optical fibers or transceiver modules might emit
invisible laser light. Do not stare into beams or view directly with optical instruments when the switch
is operating.
Installation tools
No installation tools are provided with the switch. Prepare the following tools yourself as required:
Flat-head screwdriver
Phillips screwdriver
ESD wrist strap
Needle-nose pliers
Diagonal pliers
Cable crimping tool
2-1
2 Installing the switch
CAUTION:
The switch can be used only indoors.
As a best practice, place the switch in an environment with the mechanical class not above 4M4.
Use a cabinet with the IP rating of IPX1 or higher for installing the switch.
Keep the tamper-proof seal on a mounting screw on the chassis cover intact, and if you want to
open the chassis, contact H3C for permission. Otherwise, H3C shall not be liable for any
consequence.
Installation flowchart
Figure2-1 Installation flowchart
Start
Mount the switch on a DIN
rail
Ground the switch
(Optional) Connect alarm
wires
Connect power cords
Verify the installation
Turn on the circuit breakers
Operating correctly?
Turn off the circuit
breakers
Troubleshoot the switch
Yes
No
End
Connect interface cables
2-2
Mounting the switch on a DIN rail
DIN rail mounting bracket
The switch comes with a DIN rail mounting bracket installed on it.
Figure2-2 DIN rail mounting bracket
(1) Metal spring (2) Screw hole
Installing the switch on a DIN rail
1. Wear an ESD wrist strap. Make sure the wrist strap makes good skin contact and is reliably
grounded.
2. As shown by callout 1 in Figure2-3, posit
ion the switch so that the spring of the DIN rail
mounting bracket compresses against the upper edge of the DIN rail.
3. Rotate the switch down toward the DIN rail until the DIN rail mounting bracket clicks.
Figure2-3 Installing the switch on a DIN rail
2-3
Connecting the grounding cable
WARNING!
Correctly connecting the grounding cable for the switch is crucial to lightning protection and EMI
protection.
The power input end of the switch has a noise filter, whose central ground is directly connected to the
chassis to form the chassis ground (commonly known as PGND). You must securely connect this
chassis ground to the earth so the faradism and leakage electricity can be safely released to the
earth to minimize EMI susceptibility of the switch.
To connect the grounding cable for the switch:
1. Remove the grounding screw from the switch.
2. Use the grounding screw to attach the ring terminal of the grounding cable to the grounding
screw hole. Fasten the screw.
3. Connect the other end of the grounding cable to the grounding system.
Figure2-4 Connecting the grounding cable for the switch
(1) Grounding screw hole (2) Ring terminal of the grounding cable
(3) Grounding screw (4) Grounding cable
(5) Grounding sign
Wiring external alarms
CAUTION:
To avoid connection mistakes, identify the positive (+) and negative (-) marks above the alarm
connector.
Before wiring external alarms, make sure the switch is reliably grounded and is powered off.
The switch comes with an alarm connector installed on it. The alarm connector is used for
connecting alarm signals to the switch. Before connecting wires to the alarm connector, remove the
alarm connector.
2-4
No alarm input and alarm output wires are provided with the switch. Prepare compatible copper
wires yourself as required. As a best practice, use AWG23 to AWG12 wires and AWG23 to AWG16
wires for the IE4300-12P-AC and IE4300-12P-PWR switches, respectively.
The alarm output connection (DO) outputs alarms by closing or opening the relay contact. It has a
current carrying capacity of 1 A/24 VDC and does not support power supply to the connected device.
Wiring external alarms for an IE4300-12P-AC switch
1. Remove the alarm connector.
2. Position the alarm connector upside up. Then insert the alarm input and output wires into the
alarm connector as shown by callout 1 in Figure2-5.
If you orient the alarm co
nnector upside down, you cannot install it on the switch.
3. Use a flat-head screwdriver to fasten the screws at the top of the alarm connector to secure the
wires to the connector, as shown by callout 2 in Figure2-5.
The re
commended torque is 6 lb.in (0.68 Nm).
4. Attach the alarm connector to the switch, as shown by callout 3 in Figure2-5.
5. Con
nect the other ends of the input and output wires to an external device.
Figure2-5 Wiring external alarms for an IE4300-12P-AC switch
NOTE:
The wire colors in the preceding figure are for illustration only.
Wiring external alarms for an IE4300-12P-PWR switch
1. Use a flat-head screwdriver to loosen the screws on the alarm connector and then remove the
alarm connector.
2. Position the alarm connector upside up. Then insert the alarm input and output wires into the
alarm connector as shown by callout 1 in Figure2-6.
If you orient the alarm co
nnector upside down, you cannot install it on the switch.
3. Use a flat-head screwdriver to fasten the screws at the bottom of alarm connector to secure the
wires to the connector, as shown by callout 2 in Figure2-6.
The re
commended torque is 1.7 lb.in (0.19 Nm).
4. Attach the alarm connector to the switch. Then use a flat-head screwdriver to fasten the screws
on the alarm connector to secure the connector to the switch.
5. Connect the other ends of the input and output wires to an external device.
2-5
Figure2-6 Wiring external alarms for an IE4300-12P-PWR switch
NOTE:
The wire colors in the preceding figure are for illustration only.
Connecting power cords
WARNING!
Make sure each power cord has a separate circuit breaker.
Before connecting a power cord, make sure the circuit breaker for the power cord is turned off.
An IE4300-12P-AC switch supports AC power input. An IE4300-12P-PWR switch supports DC
power input. They use a terminal block to connect a power cord.
The switch is shipped with a terminal block connected to each power receptacle.
No power cord is provided with the switch. Prepare compatible copper power wires yourself as
required. As a best practice, use AWG26 to AWG12 power wires and AWG18 to AWG16 power wires
for the IE4300-12P-AC and IE4300-12P-PWR switches, respectively.
Connecting an AC power cord for an IE4300-12P-AC switch
WARNING!
Before connecting or removing the AC power cord from the AC power receptacle, turn off the circuit
breaker for the power cord.
To connect an AC power cord for an IE4300-12P-AC switch:
1. Remove the terminal block from the power receptacle.
2. Verify that the switch is disconnected from the power source.
3. Orient the terminal block with upside up and identify the "L", "N", and "PE" connections on the
terminal block.
If you orient the terminal block upside down, you cannot insert it into the power receptacle.
4. As shown by callout 1 in Figure2-7
, insert the AC wires into the terminal block, with the live wire,
natural wire, and the PE wire inserted into the "L", "N", and "PE" connections, respectively.
5. As shown by callout 2 in Figure2-7
, use a flat-head screwdriver to fasten the screws of the
terminal block to secure the wires to the terminal block.
The recommended torque is 6 lb.in (0.68 Nm).
6. As shown by callout 3 in Figure2-7
, connect the terminal block to the AC power receptacle.
2-6
7. Turn on the circuit breaker and observe the power status LED on the front panel. If the LED is
on, power is being supplied to the switch correctly.
Figure2-7 Connecting an AC power cord for an IE4300-12P-AC switch
NOTE:
The wire colors in the preceding figure are for illustration only.
Connecting a DC power cord for an IE4300-12P-PWR switch
CAUTION:
As a best practice, use an H3C DG-240-55 industrial power supply for an IE4300-12P-PWR
switch.
To avoid connection mistakes, identify the positive (+) and negative (-) marks above the DC
power receptacle for the terminal block connection.
To connect a DC power cord for an IE4300-12P-PWR switch:
1. Using a flat-head screwdriver, loosen the screws on the terminal block connected to the power
receptacle. Then remove the terminal block.
2. Verify that the switch is disconnected from the power source.
3. Orient the terminal block with upside up and identify the positive (+) and negative (-)
connections on the terminal block.
If you orient the terminal block upside down, you cannot insert it into the power receptacle.
4. As shown by callout 1 in Figure2-8
, insert the wires into the terminal block, with the positive wire
to the positive connection and negative wire to the negative connection.
5. As shown by callout 2 in Figure2-8
, use a flat-head screwdriver to fasten the screws of the
terminal block to secure the wires to the terminal block.
The recommended torque is 1.7 lb.in (0.19 Nm).
6. As shown by callout 3 in Figure2-8
, connect the terminal block to the DC power receptacle.
Then use a flat-head screwdriver to fasten the screws on the block to secure the block to the
power receptacle.
2-7
7. Connect the other ends of the wires to an H3C DG-240-55 industrial power supply. Then
observe the power status LED on the front panel. If the LED is on, power is being supplied to the
switch correctly.
For information about the H3C DG-240-55 industrial power supply, see H3C DG-240-55
Industrial Power Supply Installation Quick Start.
Figure2-8 Connecting a DC power cord for an IE4300-12P-PWR switch
NOTE:
The wire colors in the preceding figure are for illustration only.
The IE4300-12P-PWR switch supports dual DC power feeds. You can use two H3C DG-240-55
industrial power supplies connected in parallel for the switch to achieve 1+1 redundancy.
Verifying the installation
After you complete the installation, verify the following information:
There is enough space around the switch for heat dissipation.
The DIN rail is securely installed.
The grounding cable is connected correctly.
The power source is as required by the switch.
The power cords are correctly connected.
If an interface cable for a port is routed outdoors, verify that a network port lightning protector is
used for the port.
If a power line is routed from outdoors, verify that a surge protected power strip is used for the
switch.
3-1
3 Accessing the switch for the first time
To access the switch for the first time, use a console cable to connect a configuration terminal (a PC
for example) to the console port on the switch.
Connecting a terminal to the console port
CAUTION:
Identify the marks for the ports and make sure you are connecting the designated ports.
The serial ports on PCs do not support hot swapping. To connect a PC to an operating switch,
first connect the PC end. To disconnect a PC from an operating switch, first disconnect the switch
end.
A serial console cable is a shielded cable, with an M12 connector at one end for connecting to the
console port on the switch, and a DB-9 female connector at the other end for connecting to the 9-pin
serial port on the configuration terminal.
Figure3-1 Serial console cable
Table3-1 Serial console cable pinouts
RJ-45 Signal DB-9 Signal
1 RTS 8 CTS
2 DTR 6 DSR
3 TXD 2 RXD
4 SG 5 SG
5 SG 5 SG
6 RXD 3 TXD
7 DSR 4 DTR
8 CTS 7 RTS
To connect a terminal (a PC for example) to the serial console port on the switch:
1. Connect the DB-9 female connector of the serial console cable to the serial port on the PC.
2. Connect the RJ-45 connector to the serial console port on the switch.
3-2
Figure3-2 Connecting the console port on the switch to a PC
Setting terminal parameters
To configure and manage the switch through the console port, you must run a terminal emulator
program, TeraTermPro or PuTTY, on your PC. For more information about the terminal emulator
programs, see the user guides for these programs.
Run the terminal emulator program on our PC and set the terminal parameters as follows:
Bits per second—9,600.
Data bits—8.
Parity—None.
Stop bits—1.
Flow control—None.
Starting the switch
Pre-startup checklist
Before powering on the switch, verify that the following conditions are met:
The power cord is correctly connected.
The power source voltage is as required by the switch.
The console cable is correctly connected.
The configuration terminal (a PC, for example) has started, and the terminal parameters have
been set correctly.
3-3
Powering on the switch
To power on the switch, connect the power cord to a power source and then turn on the circuit
breaker.
During the startup process, you can access Boot ROM menus to perform tasks such as software
upgrade and file management. The Boot ROM interface and menu options vary by software version.
For more information about Boot ROM menu options, see the software-matching release notes for
the device.
After the startup completes, you can access the CLI to configure the switch. For more information
about the configuration commands and CLI, see the configuration guides and command references
for the switch series.
4-1
4 Setting up an IRF fabric
The IE4300-12P-AC and IE4300-12P-PWR switches support the H3C Intelligent Resilient
Framework (IRF) technology. IRF technology can virtualize multiple physical devices at the same
layer into one virtual fabric called an "IRF fabric" to provide flattened network topology, and high
availability, scalability, and manageability.
The IE4300-12P-AC and IE4300-12P-PWR switches can form an IRF fabric only with switches of the
same model.
IRF fabric setup flowchart
Figure4-1 IRF fabric setup flowchart
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H3C IE4300-12P-PWR Installation guide

Category
Network switches
Type
Installation guide
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