HPE FlexNetwork 5130 HI Switch Series
Installation Guide
P
Document version: 6W104-20201020
art number: 5998-8420h
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Contents
Preparing for installation ················································································ 1
Safety recommendations ··································································································································· 1
Examining the installation site ···························································································································· 2
Temperature/humidity ································································································································ 2
Cleanliness ················································································································································· 2
EMI ····························································································································································· 3
Laser safety ················································································································································ 3
Installation tools ················································································································································· 3
Installation accessories ······································································································································ 4
Installing th e switch ························································································ 6
Installing the switch in a 19-inch rack················································································································· 7
Installation methods ··································································································································· 7
Mounting bracket kits ································································································································· 8
Rack-mounting by using front mounting brackets ······················································································ 8
Rack-mounting by using front and rear mounting brackets (HPE 5130 24G PoE+ 4SFP+ 1-slot HI and HPE
5130 48G PoE+ 4SFP+ 1-slot HI) ············································································································ 12
Mounting the switch on a workbench ··············································································································· 15
Grounding the switch ······································································································································· 15
Grounding the switch with a grounding strip ···························································································· 15
Grounding the switch with a grounding conductor buried in the earth ground ········································· 17
Installing/removing a power supply ·················································································································· 18
Installing a PSR150(JD362A, JD362B, JD366A, or JD366B) power supply············································ 18
Removing a PSR150(JD362A, JD362B, JD366A, or JD366B) power supply·········································· 20
Installing a PSR720-56A/PSR1110-56A (JG544A/JG545A) power supply ············································· 20
Removing a PSR720-56A/PSR1110-56A (JG544A/JG545A) power supply ··········································· 21
Connecting the power cord ······························································································································ 22
Connecting a PSR150-D/PSR150-D1 (JD366A/JD366B) power supply ················································· 23
Connecting a PSR720-56A (JG544A)/PSR1110-56A (JG545A)/PSR150-A (JD362A)/PSR150-A1
(JD362B) power supply ···························································································································· 23
Installing/removing an interface card ··············································································································· 24
Installing an interface card ······················································································································· 24
Removing an interface card ····················································································································· 26
Verifying the installation ··································································································································· 26
Accessing t h e switch for the first time ·························································· 28
Setting up the configuration environment ········································································································ 28
Connecting the console cable ·························································································································· 28
Connecting the Mini USB console cable ·········································································································· 29
Setting terminal parameters ····························································································································· 31
Powering on the switch ···································································································································· 31
Setting up an IRF fabric ··············································································· 33
IRF fabric setup flowchart ································································································································ 33
Planning IRF fabric setup ································································································································· 34
Planning IRF fabric size and the installation site ······················································································ 34
Identifying the master switch and planning IRF member IDs ··································································· 34
Planning IRF topology and connections··································································································· 34
Identifying physical IRF ports on the member switches ··········································································· 35
Planning the cabling scheme ··················································································································· 36
Configuring basic IRF settings ························································································································· 38
Connecting the physical IRF ports ··················································································································· 38
Verifying the IRF fabric setup ··························································································································· 39
Maintenance and troubleshooting ································································ 40
Power supply failure ········································································································································· 40
Symptom ·················································································································································· 40
i
Solution ···················································································································································· 40
Fan tray failure ················································································································································· 40
Removing a fan tray ································································································································· 41
Installing a fan tray ··································································································································· 41
Configuration terminal display problems ·········································································································· 42
No display ················································································································································ 42
Garbled display ········································································································································ 42
Appendix A Chassis views and technical specifications ······························· 44
Chassis views ·················································································································································· 44
HPE 5130 24G 4SFP+ 1-slot HI ·············································································································· 44
HPE 5130 24G PoE+ 4SFP+ 1-slot HI····································································································· 45
HPE 5130 48G 4SFP+ 1-slot HI ·············································································································· 46
HPE 5130 48G PoE+ 4SFP+ 1-slot HI····································································································· 47
Technical specifications ··································································································································· 48
Appendix B FRUs and compatibility matrixes ·············································· 51
FRUs and compatibility matrixes······················································································································ 51
Hot swappable power supplies ························································································································ 51
Hot swappable interface cards ························································································································· 52
Appendix C Ports and LEDs ········································································ 54
Ports ································································································································································· 54
Console port ············································································································································· 54
Management Ethernet port ······················································································································ 54
USB port ··················································································································································· 54
10/100/1000Base-T autosensing Ethernet port ······················································································· 55
SFP+ port ················································································································································· 55
LEDs ································································································································································ 58
System status LED ··································································································································· 58
Power supply status LED ························································································································· 58
LED for the port LED mode (MODE) ········································································································ 59
10/100/1000Base-T autosensing Ethernet port LED ··············································································· 59
SFP+ port LED ········································································································································· 60
Management Ethernet port LEDs············································································································· 60
Interface card status LED ························································································································· 61
Fan tray status LED on the fan tray ········································································································· 61
Port status LED on the interface card ······································································································ 61
Input status LED and output status LED on the power supply ································································· 61
Appendix D Cooling system ········································································· 62
Document conventions and icons ································································ 63
Conventions ····················································································································································· 63
Network topology icons ···································································································································· 64
Support and other resources ······································································· 65
Accessing Hewlett Packard Enterprise Support······························································································· 65
Accessing updates ··········································································································································· 65
Websites ·················································································································································· 66
Customer self repair ································································································································· 66
Remote support ········································································································································ 66
Documentation feedback ························································································································· 67
Index ············································································································ 68
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Preparing for installation
Table 1 HPE 5130 HI switches, power supplies, and interface cards
Product
code
HPE description Alias
HPE 5130 HI switches
JH323A HPE 5130 24G 4SFP+ 1-slot HI Switch HPE 5130 24G 4SFP+ 1-slot HI
JH324A
JH325A
JH326A
HPE 5130 48G 4SFP+ 1-slot HI Switch
HPE 5130 24G PoE+ 4SFP+ 1-slot HI Switch HPE 5130 24G PoE+ 4SFP+ 1-slot HI
HPE 5130 48G PoE+ 4SFP+ 1-slot HI Switch HPE 5130 48G PoE+ 4SFP+ 1-slot HI
HPE 5130 48G 4SFP+ 1-slot HI
Power supplies
JD362A HPE A5800/A5500 150W AC Power Supply PSR150-A
JD362B HPE X361 150W AC Power Supply PSR150-A1
JD366A HPE A5800/A5500 150W DC Power Supply PSR150-D
JD366B HPE X361 150W DC Power Supply PSR150-D1
JG544A HPE X362 720W AC PoE Power Supply PSR720-56A
JG545A HPE X362 1110W AC PoE Power Supply PSR1110-56A
Interface cards
JH156A HPE 5130/5510 10GBASE-T 2-port Module LSWM2XGT2PM
JH157A HPE 5130/5510 10GbE SFP+ 2-port Module LSWM2SP2PM
For regulatory identif ication purposes, the HPE 5130 HI switches are assi gned regulatory model
numbers (RMNs), which ar e listed in the f ollowing tabl e. These regulator y numbers should not be
confused with the marketing name HPE 5130 HI, or the product codes.
Product code RMN HPE description
JH323A BJNGA-AD0054 HPE 5130 24G 4SFP+ 1-slot HI Switch
JH324A BJNGA-AD0055 HPE 5130 48G 4SFP+ 1-slot HI Switch
JH325A BJNGA-AD0056 HPE 5130 24G PoE+ 4SFP+ 1-slot HI Switch
JH326A BJNGA-AD0057 HPE 5130 48G PoE+ 4SFP+ 1-slot HI Switch
Safety recommendations
To avoid any equipment dam age or bodily injury cause d by im proper use, read the f ollowin g saf ety
recommendations bef ore installation. N ote that the recomm endations do not cover ever y possible
hazardous condition.
Before cleaning the switch, remove all power cords from the switch. Do not clean the switch
with a 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.
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Do not place the switch on an unstable case or desk. The switch might be severely damaged in
case of a fall.
Ensure good ventilation of the equipment room and keep the air inlet and outlet vents of the
switch free of obstruction.
Connect the yellow-green protection grounding cable before power-on.
Make sure the operating voltag e is in the required range.
To avoid electrical shocks, do not open the chassis while the switch is operating or when the
switch is just powered off.
When replacing field replacable units (FRUs), including interface cards and power supplies,
wear an ESD wrist strap t o avo id damaging the units.
Examining the installation site
The switch must be used indoors. Y ou can mount your switch in a rack or on a workbench, but make
sure:
Adequate clearance is reserved at the air inlet and outlet vents for ventilation.
The rack or workbench has a good ventilation system.
Identify the hot aisle and cold aisle at the installation site, and make sure ambient air flows into
the switch from the cold aisle and exhausts to the hot aisle.
Identify the airflow designs of neighboring devices, and prevent hot air flowing out of the
neighboring device from entering the device.
The rack is sturdy enough to support the switch and its accessories.
The rack or workbench is reliably grounde d.
T o ensure correct operation and long service life of your switch, install it in an environment that meets
the requirements described in the following subsections.
Temperature/humidity
Maintain temperature and hum idity in the equipment room as described in "App endix A Chassis
views and technical specifications."
Lasting 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.
High temperature can accelerate the aging of insulation materials and significantly lower the
reliability and lifespan of the switch.
For the temperature and humidity requirements of different switch models, see "Technical
specifications."
Cleanliness
Dust buildup on the c hassis might res ult in electrostat ic adsorption, which causes poor contac t of
metal components and co ntact points, es pecially whe n indoor relative hum idity is lo w. In the worst
case, electrostatic adsorption can cause communication failure.
2
•
•
•
•
•
•
•
•
WARNING
The switch i
laser light emitted from the optical fiber might hurt your eyes.
•
•
Table 2 Dust concentration limit in the equipment room
3
Substance Concentration limit (particles/m
)
EMI
Dust
NOTE:
Dust diameter ≥ 5 μm
≤ 3 x 104 (no visible dust on the tabletop over three days)
The equipment room must also meet limits on salts, acids, and sulf ides to elim inate corrosio n and
premature aging of components, as shown in Table 3.
Table 3 Harmful gas limits in the equipment room
3
Gas Maximum concentration (mg/m
SO
2
H2S 0.006
NH3 0.05
Cl2 0.01
0.2
)
All electromagnetic interf erenc e (EMI) sources , fr om outside or insid e of th e s witch an d app lication
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.
T o prevent signal ports from getting damaged by overvoltage or overcurrent caused by lightning
strikes, route interface cables only indoors.
Laser safety
!
s class 1 laser device. Do not stare into any fiber port when the switch has power. The
Installation tools
Flat-blade screwdriver
Phillips screwdriver
3
•
ESD wrist strap
All these installation tools are user supplied.
Installation accessories
All the installation accessories except M6 screws and floating nuts, PSR150-A/PSR150-A1
(JD362A/JD362B), and the PSR150-D/PSR150-D1 (JD366A/JD366B) DC power supplies are
provided with the switch.
Table 4 Installation accessories
Product
code
5066-0850
5190-0297
N/A
5185-9292
Description Quantity Applicable models
1 U four-hole mounting bracket
kit (including one pair of
mounting brackets and eight
M4 countersunk screws)
Rear mounting bracket kit
(including one pair of mounting
brackets and two load-bearing
screws)
M6 screw and floating nut (user
supplied)
Grounding cable (tin-plated at
one end and with a ring
terminal at the other end)
1 kit All HPE 5130 HI switches
1 kit
As required All HPE 5130 HI switches
1
• HPE 5130 24G PoE+ 4SFP+ 1-slot HI
• HPE 5130 48G PoE+ 4SFP+ 1-slot HI
• HPE 5130 24G 4SFP+ 1-slot HI
• HPE 5130 48G 4SFP+ 1-slot HI
Grounding cable (with ring
terminals at both ends)
5185-9408
Power supply filler panel
5185-8503
1
1
4
• HPE 5130 24G PoE+ 4SFP+ 1-slot HI
• HPE 5130 48G PoE+ 4SFP+ 1-slot HI
• HPE 5130 24G 4SFP+ 1-slot HI
• HPE 5130 48G 4SFP+ 1-slot HI
Product
code
5190-1774
5190-0296
5060-0174
Description Quantity Applicable models
Power supply filler panel
1
Interface card filler panel
1 All HPE 5130 HI switches
HPE X722 port to power fan
tray (already installed on the
switch)
2 All HPE 5130 HI switches
DC power cord (supplied with
the PSR150-D/PSR150-D1
(JD366A/JD366B)DC power
supply)
• HPE 5130 24G PoE+ 4SFP+ 1-slot HI
• HPE 5130 48G PoE+ 4SFP+ 1-slot HI
5185-9443
5080-0120
5184-7298
The power cord color code
scheme i s for illustration only.
The cable delivered for your
country or region might use a
different color scheme.
Rubber feet
1
4 All HPE 5130 HI switches
PSR150-D/PSR150-D1PSR150-D/PSR150
-D1(JD366A/JD366B) DC power supply
5
CAUTION:
Keep the tamper-proof seal on a mounting screw on the chassis cover intact, and if you want to open
the chassis, contact HPE for permission. Otherwise, HPE shall not be liable for any consequence.
Ground the switch
Install the switch
Start
Connect power cords
Verify the installation
Turn on the circuit breaker
Select and install power
supplies
Hot-swap power
supplies
?
Yes
No
Operating correctly?
Turn off the circuit
breaker
Troubleshoot the switch
No
Yes
Hot-swap cards?
Install interface cards
Yes
Troubleshoot the switch
Yes
No
End
No
Operating correctly?
Install transceiver modules
and cables
Installing the switch
Figure 1 Hardware installation flow
6
NOTE:
If a rack shelf is available, you can put the switch on the rack shelf, slide the switch to an appropriate
location, and attach the switch to the rack by using the mounting brackets.
Attach
the front
mounting brackets to the
two sides of the switch
Identify the mounting position (
port
side, power side
, or middle
position
) for the mounting brackets
Mount the switch in the rack
Attach the front
mounting
brackets to the
two sides of the
switch
Attach the load
bearing screws to
the switch
Attach the
rear
mounting
brackets to
rack posts
Identify the mounting
position (port side or
power side) for the
mounting brackets
Mount the switch in
the rack
Installing the switch in a 19-inch rack
Installation methods
Table 5 Installation methods for the HPE 5130 HI switches
Chassis
• HPE 5130 24G
4SFP+ 1-slot HI
• HPE 5130 48G
4SFP+ 1-slot HI
Installation
methods
Using front
mounting
brackets
Using front
mounting
brackets
Installation requirements
The mounting bracket kit can be
installed on the port side, pow er supply
side, or the mid-mounting position.
The front mounting bracket k it must be
installed on the mid-mounting position.
Installation
procedure
See "Rack-mounting by
using front mounting
brackets."
See "Rack-mounting by
using front mounting
brackets."
• The mounting bracket kit can be
installed on the port side or power
supply side.
• Install the rear mounting brackets
• HPE 5130 24G
PoE+ 4SFP+
1-slot HI
• HPE 5130 48G
PoE+ 4SFP+
1-slot HI
Using front and
rear mounting
brackets
according to the rack depth.
If the rac k depth is in the
range of 429 to 595 mm
(16.89 to 23.43 in), orient the
bracket with the wide flange
inside the rack.
If the rack depth is in the
range of 274 to 440 mm
(10.79 to 17.32 in) and the
See "Rack-mounting by
using front and rear
mounting brackets
(HPE 5130 24G PoE+
4SFP+ 1-slot HI and
HPE 5130 48G PoE+
4SFP+ 1-slot HI)."
distance from the rear rack
posts to the inner surface of
the cabinet door is longer th an
153 mm (6.02 in), orient the
bracket with the wide flange
outside the rack.
Figure 2 Rack-mounting procedure by using the front mounting brackets
Figure 3 Rack-mounting procedure by using the front and rear mounting brackets
7
(1) Hole for attaching the bracket to the switch chassis
(2) Hole for attaching the bracket to a rack
(1) Hole for attaching the bracket to a rack
(2) Load-bearing screw
1
2
1
2
Mounting bracket kits
Table 6 Mounting bracket kits for the HPE 5130 HI switches
Mounting bracket
kits
Front mounting
bracket kit
Rear mounting
bracket kit
Grounding cable Provided Provided
HPE 5130 24G 4SFP+ 1-slot HI
HPE 5130 48G 4SFP+ 1-slot HI
Provided Provided
Not required Provided
HPE 5130 24G PoE+ 4SFP+ 1-slot HI
HPE 5130 48G PoE+ 4SFP+ 1-slot HI
Figure 4 Front mounting bracket kit
Figure 5 Rear mounting bracket kit
Rack-mounting by using front mounting brack ets
This task requires two people.
To install the switch in a 19-inch rack by using the front mounting brackets:
1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded.
2. Determine the mounting position on the switch for the front mounting brackets.
8
You can install the front mounting brackets at one of the following positions:
HPE 5130 24G 4SFP+ 1-slot HI and HPE 5130 48G 4SFP+ 1-slot HI switches—Port side,
power supply side, or mid-mounting position.
HPE 5130 24G PoE+ 4SFP+ 1-slot HI and HP E 513 0 48G PoE+ 4SF P+ 1-slot HI
switches—Mid-mounting pos ition.
3. Attach the front mounting brackets to the chassis: a. Unpack the front mounting brackets and the M4 screws (supplied with the switch) for
attaching the brackets to the switch chassis.
b. Align the round holes in the wide flange of one front mounting bracket with the screw holes
in the chassis.
c. Use M4 screws to attach the mounting bracket to the chassis.
d. Repeat the proceeding two steps to attach the other mounting bracket to the chassis.
Figure 6 Attaching the front mounting bracket to the port side
Figure 7 Attaching the front mounting bracket to the power supply side
9
Figure 8 Attaching the front mounting bracket to the mid-mounting position
4. Mount the chassis in the rack: a. One person supports the chassis bottom with one hand, holds the front part of the chassis
with the other hand, and pushes the chassis into the rack gently
b. The other person uses M6 screws and cage nuts (user supplied) to attach the switch to the
rack.
Figure 9 Mounting the switch in the rack (front mounting brackets at the port side)
10
Figure 10 Mounting the switch in the rack (front mounting brackets at the power supply
side)
Figure 11 Mounting the switch in the rack (front mounting brackets at the mid-mounting
position)
11
Rack-mounting by using front and rear mounting brackets (HPE 5130 24G PoE+ 4S FP+ 1-slot HI and HPE 5130 48G PoE+ 4SFP+ 1-slot HI)
This mounting method is applicable only to the HPE 5130 24G PoE+ 4SFP+ 1-slot HI and HPE 5130
48G PoE+ 4SFP+ 1-s lot HI switches. You can install the front m ounting brac kets at the port-side or
power-side mounting pos ition as needed. T he following takes port-side mountin g as an example.
The power-side mounting is similar.
This task requires two people.
To install the switch in a 19-inch rack by using the front and rear mounting brackets:
1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliabl y ground ed.
2. Attach the front mounting brackets and load-bearing screws to the chassis: a. Unpack the front mounting brackets and the M4 screws for attaching the brackets to the
switch chassis.
b. Align the round holes in the wide flange of one front mounting bracket with the screw holes
in the port-side mounting position on one side of the chassis (see Figure 12).
c. Use M4 screws (supplied with the switch) to attach the mounting bracket to the chassis.
d. Repeat the proceeding two steps to attach the other mounting bracket to the chassis.
e. Unpack the load-bearing screws.
f. Install the load-bearing screws in one of the load-bearing screw mounting positions on both
sides of the chassis (see Figure 12).
Figure 12 Attaching the front mounting brack ets and load-bearing screws to the chassis
3. Attach the rear mounting brackets to the rack: a. Unpack the rear mounting brackets. b. Install cage nuts (user-supplied) in the mounting holes in the rear rack posts. c. Attach the rear mounting brackets to the rear posts with M6 screws (user supplied), as
shown in Figure 13 and Figure 14.
Do not fully tighten the M6 screws before mounting the switch in the rack.
12
Figure 13 Attaching the rear mounting bra ckets to the rack with the wide flange inside
the rack
Figure 14 Attaching the rear mounting brackets to the rack with the wide flange outside
the rack
4. Mount the switch chassis in the rack: a. One person supports the chassis bottom with one hand, holds the front part of the chassis
with the other hand, and pushes the chassis into the rack gently.
Make sure the load-bearing screws closely contact with the upper edges of the rear
mounting brackets, as shown in Figure 15 and Figure 16.
13
b. The other person aligns the oval holes in the front brackets with the mounting holes in the
front rack posts, and attaches the front mounting brackets with M6 screws (user supplied) to
the front rack posts.
Tighten the screws and make sure the front and rear mounting brackets have securely
attached the switch to the rack.
Figure 15 Mounting the switch in the rack (with the wide flange of the mo unting brackets
inside the rack)
Figure 16 Mounting the switch in the rack (with the wide flange of the mounting brackets
outside the rack)
14
IMPORTANT:
•
• Avoid placing heavy objects on the switch.
WARNING
Correctly connecting the switch grounding cable is crucial to lightning protection and EMI protection.
•
•
NOTE:
•
•
switch to connect to the grounding strip in the equipment room.
WARNING
Connect the grounding cable to the grounding system in the equipment room. Do not connect it to a
fire main or lightning rod.
Mounting the switch on a workbench
Ensure good ventilation and 10 cm (3.9 in) of clearance around the chassis for heat dissipation.
To mount the switch on a workbench:
1. Verify that the workbench is sturdy and reliably grounded.
2. Place the switch with bottom up, and clean the round holes in the chassis bottom with dry cloth.
3. Attach the rubber feet to the four round holes in the chassis bottom.
4. Place the switch with upside up on the workbench.
Grounding the switch
The power input end of the switch has a noise filter, whose central ground is directly connected to the
chassis to form the chass is ground (commonly known as PGND). You must securely connect th is
chassis ground to th e earth so the far adism and leakage elec tricity can be safely re leased to the
earth to minimize EMI susceptibility of the switch.
You can ground t he switch in one of the follow ing ways, depending on the groundi ng conditions
available at the installation site:
Grounding the switch with a grounding strip
Grounding the switch with a grounding conductor buried in the earth ground
!
The power and grounding terminals in this section are for illustration only.
As a best practice to guarantee the grounding effect , use the grounding cable provided with the
Grounding the s witch with a grounding st rip
If a grounding strip is available at the installation site, connect the grounding cable from the chassis
to the grounding strip.
Connecting the grounding cable to the chassis
1. Remove the grounding screw from the rear panel of the switch chassis.
2. Use the grounding screw to attach the ring terminal of the grounding cable to the grounding
3. Verify that the grounding cable has been securely connected to the rear grounding point.
!
screw hole.
15
(1) Grounding screw
(2) Ring terminal
(3) Grounding sign
(4) Grounding hole
(5) Grounding cable
5
1 2 3
4
Figure 17 Connecting the grounding cable to the chassis
Connecting the grounding cable to a grounding strip (for the HPE 5130 24G PoE+ 4SFP+ 1-slot HI and HPE 5130 48G PoE+ 4SFP+ 1-slot HI switches)
1. Remove the hex nut of a grounding post on the grounding strip.
2. Cut the grounding cable to a length required for connecting to the grounding strip.
3. Attach a ring terminal to the grounding cable: a. Use a wire stripper to strip 5 mm (0.20 in) of insulation off the end of the grounding cable. b. Slide the heat-shrink tubing onto the cable and insert the bare metal part into the end of the
ring terminal.
c. Use a crimper to secure the metal part of the cable to the ring terminal.
d. Slide the heat-shrink tubing down the cable until the tube covers the joint.
e. Use a heat gun to shrink the tubing around the cable.
Figure 18 Attaching a ring terminal to the groun d ing cable
4. Connect the ring terminal to the grounding post of the grounding strip, and fasten it with the
removed hex nut.
16
(1) Grounding post
(2) Grounding strip
(3) Grounding cable
(4) Hex nut
(1) Grounding post
(2) Grounding strip
(3) Grounding cable
(4) Hex nut
1
4
3
2
1
2
3
4
Figure 19 Connecting the grounding cable to a grounding strip
Connecting the grounding cable to a grounding strip (for the HPE 5130 24G 4SFP+ 1-slot HI and HPE 5130 48G 4SFP+ 1-slot HI switches)
1. Remove the hex nut of a grounding post on the grounding strip.
2. Cut the grounding cable to a length required for connecting to the grounding strip.
3. Use a wire stripper to peel 20 mm (0.79 in) of insulation sheath off the grounding cable end.
4. Use the needle-nose plier s t o bend the bare wir e.
5. Hook the grounding cable to the post on the grounding strip, and use the hex nut to secure the
cable to the post.
Figure 20 Connecting the grounding cable to a grounding strip
Grounding the s witch with a grounding conductor buried i n the earth ground
If the installation site has no grounding strips, but earth ground is available, hammer a 0.5 m (1.64 ft)
or longer angle iron or steel tube into the earth ground to serve as a grounding conductor.
The dimensions of the angle iron must be a minimum o f 50 × 50 × 5 mm (1.97 × 1.97 × 0.20 in). The
steel tube must be zinc-coated and its wall thickness must be a minimum of 3.5 mm (0.14 in).
Weld the yellow-green grounding cable to the angel iron or steel tube and treat the joint for corrosion
protection.
17
(1) Grounding screw
(2) Chassis rear panel
(3) Grounding cable
(4) Earth
(5) Joint
(6) Grounding conductor
WARNING
In
you
must strictly follow the installation
to avoid any
bodily injury or damage to the switch.
CAUTION:
Provide a circuit breaker for each power supply.
CAUTION:
To prevent damage to the
gently. If you encounter a hard resistance wh
and insert it again.
6
5
1
2
3
4
Install the power
supply
Connect the power
cord
Turn on the circuit
breaker
Turn off the circuit
breaker
Disconnect the power
cord
Remove the power
supply
Figure 21 Grounding the switch by burying th e grounding conductor into the earth ground
Installing/removing a power supply
power redundancy mode, you can replace a power supply without powering off the switch but
Figure 22 Installation procedure
Figure 23 Removal procedure
Installing a PSR150(JD362A, JD362B, JD366A, or JD366B)
!
and removal procedures in Figure 22 and Figure 23
power supply
power supply or the connectors on the backplane, insert the power supply
en inserting the power supply, pull out the power supply
18
2
1
1
1
2
2
For the PSR150-A/PSR150-A1 (JD362A/JD362B) and PSR150-D/PSR150-D1 (JD366A/JD366B)
power supplies, the installation and removal procedures are the same. The following takes the
PSR150-A1 (JD362B) power supply as an example.
To install a power supply:
1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliabl y ground ed.
2. Remove the filler panel from the target power supply slot as follows: a. Remove the screws on the filler panel. b. Use a flathead screwdriver to remove the filler panel.
Figure 24 Removing the filler panel
3. Unpack the power supply and verify that the power supply model is correct.
4. Correctly orient the power supply with the power supply slot (use the letters on the power supply
faceplate for orientation), grasp the handle of the power supply with one hand and support its
bottom with the other, and slide the power supply slowly along the guide rails into the slot (see
callout 1 in Figure 25).
5. Fasten the captive screws on the power supply with a Phillips screwdriver to secure the power supply in the chassis (see callout 2 in Figure 25). If the captive screw cannot be tightly fastened, verify the install ati on of the power supply.
6. Install the filler panel over the empty power supply slot to prevent dust and ensure good ventilation if you install only one power supply.
Figure 25 Installing a PSR150-A1 (JD362B) power supply
19
CAUTION:
To prevent damage to the
gently. If you encounter a hard resistance wh
and insert it again.
Removing a PSR150(JD362A, JD362B, JD366A, or JD366B) power supply
1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliabl y ground ed.
2. Disconnect the power cord.
3. Loosen the captive screws of the power supply with a Phillips screwdriver unt il they are
completely disengaged.
4. Grasp the handle of the power supply with one hand and pull it out a little, support the bottom with the other hand, and pull the power supply slowly along the guide rails out of the slot.
Put away the removed power supply in an antistatic ba g or the power supply package bag for
future use.
5. Install the filler panel to prevent dust and ensure good ventilation if no power supply is installed in the slot.
Installing a PSR720-56A/PSR1110-56A (JG544A/JG545A) power supply
For the PSR720-56A (JG544A) and PSR1110-56A (JG545A) power supp lies, the installation and
removal procedures are the same. The following takes the PSR720-56A (JG544A) power supply as
an example.
To install a power supply:
1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliabl y ground ed.
2. Remove the filler panel from the target power supply slot, as shown in Figure 26.
power supply or the connectors on the backplane, insert the power supply
en inserting the power supply, pull out the power supply
Figure 26 Removing the filler panel
3. Unpack the power supply and verify that the power supply model is correct.
Put away the packaging box and packaging bag of the power supply for future use.
20
4. Correctly orient the power supply with the power supply slot (use the letters on the power supply
faceplate for orientation), grasp the handle of the power supply with one hand and support its
bottom with the other, and slide the power supply slowly along the guide rails into the slot until
you hear that the latch of the power supply clicks into the slot.
When you insert the power supply into the slot, you can do that through slight inertia so that the
terminals of the power supply can have good contact with the backplane.
The PSR1110-56A (JG544A) power supply adds 64 mm (2.52 in) to the depth of the switch, as
shown in Figure 27.
5. Install the filler panel over the empty power supply slot to prevent dust and ensure good ventilation if you install only one power supply.
Figure 27 PSR1110-56A (JG545A) in the chassis
Removing a PSR720-56A/PSR1110-56A (JG544A/JG545A) power supply
1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliabl y ground ed.
2. Disconnect the power cord.
3. Press the latch towards the handle, and pull the power supply along the guide rails until it is
part-way out.
4. Grasp the handle of the power supply with one hand, support the bottom with the other hand, and pull the power supply slowly along the guide rails out of the slot.
Put away the removed power supply in an antistatic ba g or the power supply package bag for
future use.
5. Install the filler panel to prevent dust and ensure good ventilation if no power supply is installed in the slot.
21
CAUTION:
•
•
installation.
2
1
Figure 28 Removing the power supply
Connecting the power cord
The PSR150-A/PSR150-A1 (JD362A/JD362B) power supplies are provided with an AC power
cord that uses a C13 connector. The PSR720-56A/PSR1110-56A (JG544A/JG545A) power
supplies are provided with an AC power cord that uses a high-temperature C15 connector. Do
not confuse the power cords.
Provide a circuit breaker for each power supply and make sure the circuit breaker is off before
Table 7 Power cord connection procedures at a glance
Power supply Connection procedure reference
• PSR150-D(JD366A)
• PSR150-D1(JD366B)
(External RPS power supply:
RPS800-A or RPS1600-A)
• PSR720-56A (JG544A)
• PSR1110-56A (JG545A)
• PSR150-A (JD362A)
• PSR150-A1 (JD362B)
Connecting a PSR150-D/PSR150-D1 (JD366A/JD366B) power supply
Connecting a PSR720-56A (JG544A)/PSR1110-56A
(JG545A)/PSR150-A (JD362A)/PSR150-A1 (JD362B) power supply
22
WARNING
•
•
always identify the polarity symbol on its wires.
1
2
Connecting a PSR150-D/PSR150-D1 (JD366A/JD366B) power supply
HPE DC power cords are required if the –48 VDC power source is used. RPS power cords are
required if the RPS power source is used.
The power cord color code scheme in Figure 29 is for illustration only. The cable delivered for
your country or region might use a different color scheme. When you connect a power cord,
To connect a PSR150-D/PSR150-D1 (JD366A/JD366B) power supply:
1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliabl y ground ed.
2. Insert the DC connector into the DC power receptacle (see callout 1 in Figure 29).
3. Use a flat-blade screwdriver to fasten the two screws on the DC plug to secure the plug to the
4. Connect the other ends of the wires to the –48 VDC power source wiring terminals, with the
Figure 29 Connecting a PSR150-D1 (JD366B) power supply
!
The connector of the DC power cord and the DC power receptacle are foolproof. Make sure the
connector is correctly oriented.
DC receptacle (see callout 2 in Figure 29).
negative wire (– or L–) to the negative terminal (–) and the positive wire (+ or M/N) to the
positive terminal (+).
Connecting a PSR720-56A (JG544A)/PSR1110-56A (JG545A)/PSR150-A (JD362A)/PSR150-A1 (JD362B) power supply
The procedure is similar for connecting a PSR720-56A (JG544A), PSR1110-56A (JG545A), or
PSR150-A/PSR150-A1 (JD362A/JD362B) power supply. The following uses the PSR720-56A
(JG544A) power supply as an example.
To connect a PSR720-56A (JG544A) power supply:
1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliabl y ground ed.
2. Plug the female connector end of the AC power cord into the AC input socket of the power
supply (see callout 1 in Figure 30).
23
CAUTION:
•
•
• Install a filler panel over an empty interface card slot.
1
2
3
3. Use a cable tie to secure the power cord to the handle of the power supply (see callout 2 and
callout 3 in Figure 30).
4. Connect the other end of the AC power cord to an AC power outlet.
Figure 30 Connecting a PSR720-56A (JG544A) power supply
Installing/removing an interface card
Do not touch the surface-mounted components on an interface card directly with your hands.
Do not use excessive force during the installation or removal procedure.
The switch has an interface card slot and supports hot swapping of an interface card. For the
interface cards available for the switches, see "Appendix B FRUs and compatibility matrixes."
This section uses the LSWM2SP2PM interface car d as an exam ple to des cribe t he proce dures for
installing and removing an interface card.
Installing an interface card
1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliabl y ground ed.
2. Remove the filler panel from the target interface card slot as follows: a. Remove the screw on the filler panel. b. Use a flathead screwdriver to remove the filler panel.
Keep the removed filler panel for future use.
24
2
1
Figure 31 Removing the filler panel over an interface card slot
3. Unpack the interface card.
4. Perform the following steps to install the interface card: a. Rotate rightward the ejector lever on the interface card. b. Gently push the interface card into the slot along the guide rails until the interface card has
good contact with the chassis.
c. Rotate leftward the ejector lever.
d. Use a Phillips screwdriver to tighten the captive screw on the front panel to secure the
interface card in the slot.
25
•
•
•
•
1
2
2
1
Figure 32 Installing an interface card
Removing an interface card
1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliabl y ground ed.
2. Use a Phillips screwdriver to completely loosen the captive screw on the interface card.
3. Rotate rightward the ejector lever on the interface card.
4. Pull the interface card out of the chassis gently along the guide rails.
Verifying the installation
After you complete the installation, verify that:
There is enough space for heat dissipation around the switch, and the rack or workbench is
stable.
The grounding cable is securely connected.
The correct power source is used.
The power cords are correctly connected.
26
•
All the interface cables are cabled indoors. If any cable is routed outdoors, verify that the socket
strip with lightning protection and lightning arresters for network ports have been correctly
connected.
27
Accessing the switch for the first tim e
Setting up the configuration environment
Y ou can access the switch through the serial console port or the mini USB console port. The switch is
not provided with a serial console cable or Mini USB console cable. Prepare these cables yourself or
purchase them from Hewlett Packard Enterprise.
Only the mini USB console port takes effect if you connect both the serial console port and mini USB
console port.
Figure 33 Connecting the console port to a PC
Connecting the console cable
A console cable is an 8-core shielded cable, with a crimped RJ-45 connector at one end for
connecting to the cons ole port of the switch, and a DB-9 female connector at the other end for
connecting to the serial port on the console terminal.
Figure 34 Console cable
Table 8 Console port signaling and pinout
RJ-45 Signal DB-9 Signal
1 RTS 8 CTS
2 DTR 6 DSR
28
NOTE:
•
•
first disconnect the switch
end.
RJ-45 Signal DB-9 Signal
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 configuration terminal (for example, a PC) to the switch:
1. Plug the DB-9 female connector of the console cable to the serial port of the PC.
2. Connect the RJ-45 connector to the console port of the switch.
Identify the mark on the console port and make sure you are connecting to the correct port.
The serial ports on PCs do not support hot swapping. To connect a PC to an operating switch,
first connect the PC end. T o disconnect a PC from an operating switch,
Connecting the Mini USB console cable
A Mini USB console cable has a USB mini-Type B connector at one end to connect to the Mini USB
console port of the switch, and a standard USB Type A connector at the other end to connect to the
USB port on the PC.
To connect to the PC through the Mini USB console cable:
1. Connect the standard USB Type A connector to the USB port of the PC.
2. Connect the Mini USB Type B connector to the Mini USB console port of the switch.
3. Click the following link, or copy it to the address bar on the browser to log in to download page
of the USB console driver, and download the driver.
http://www.exar.com/connectivity/uart-and-bridging-solutions/usb-uarts/xr21v1410
4. Select a driver program according to the operating system you use:
XR21V1410_XR21B1411_Windows_Ver1840_x86_Installer.EXE—32-bit operating
system.
XR21V1410_XR21B1411_Windows_Ver1840_x64_Installer.EXE—64-bit operating
system.
5. Click Next on the installation wizard.
29
Figure 35 Device Driver Installation Wizard
6. Click Continue Anyway if the following dialog box appears. Figure 36 Software Installation
7. Click Finish.
30
•
•
•
•
•
•
•
•
•
Figure 37 Completing the device driver ins tallation wizard
Setting terminal parameters
To configure and manage the switch thro ugh the console port, you must run a term inal emulator
program, TeraTermPro or PuTTY, on your PC. You can use the emulator program to connect a
network device, a Telnet site, or an SSH site. For more inf ormation about the terminal emulator
programs, see the user guides for these programs.
The following are the required terminal settings:
Bits per second—9,600.
Data bits—8.
Parity—None.
Stop bits—1.
Flow control—None.
Powering on the switch
Before powering on the switch, verify that the following conditions are met:
The power cord is correctly connected.
The input power voltage meets the requirement of the switch.
The console cable is correctly connected.
The PC has started, and its serial port settings are consistent with the console port settings on
the switch.
31
Power on the switch. During the startup process, you can access Boot ROM menus to perform tasks
such as soft ware upgrade and file managem ent. The Boot ROM inter face and m enu options differ
with software versions. 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 inform ation about the conf igurat ion comm ands and CLI , see HPE 5130 H I Switch Series
Configuration Guides and HPE 5130 HI Switch Series Command References.
32
Start
Plan IRF fabric setup
Install IRF member switches
Connect the grounding cable
and power cords
Power on the switches
Configure basic IRF settings
Connect the physical IRF ports
Standby s
witches reboot and
the IRF fabric is automatically
established
End
Setting up an IRF fabric
You can use HPE IRF technology to connect and virtualize HPE 5130 HI switches into a large virtual
switch called an "IRF fabric" for flattened network topology, and high availability, scalability, and
manageability.
IRF fabric setup flowchart
Figure 38 IRF fabric setup flowchart
To set up an IRF fabric:
Step Description
Plan the installation site and IRF fabric setup parameters:
• Planning IRF fabric size and the installation site
1. Plan IRF fabric setup
2. Install IRF member
switches
• Identifying the master switch and planning IRF member IDs
• Planning IRF topology and connections
• Identifying physical IRF ports on the member switches
• Planning the cabling scheme
See "Installing the switch in a 19-inch rack" or "Mounting the switch on a
workbench."
33
•
•
NOTE:
For the
notes.
Step Description
3. Connect ground wires
and power cords
4. Power on the switches
5. Configure basic IRF
settings
6. Connect the physical
IRF ports
See "Grounding the switch" and "Connecting the power cord."
N/A
See HPE 5130 HI Switch Series IRF Configuration Guide.
Use SFP+ transceiver modules and fibers to connect SFP+ ports over a long
distance. Use SFP+ cables to connect SFP+ ports over a short distance.
All switches except the m aster sw itch automa tically r eboot, and the IRF fabri c
is established.
Planning IRF fabric setup
This section describes issues that an IRF fabric setup plan must cover.
Planning IRF fabr ic size and the installation site
Choose switch models and identify the number of required IRF member switches, depending on the
user density and upstr e am bandwidth requirements . T he sw itch ing c ap ac ity of an IRF fabric equals
the total switching capacities of all member switches.
Plan the installation site depending on your network solution, as follows:
Place all IRF member switches in one rack for centralized high-density access.
Distribute the IRF member switches in different racks to implement the ToR access solution for
a data center.
maximum number of IRF member devices in an HPE 5130 HI IRF fabric, see the release
Identifying the master switch and planning IRF m ember IDs
Determine which switch you want to use as the master for managing all member switches in the IRF
fabric.
An IRF fabric has only one master switch. Y ou configure and manage all member switches in the IRF
fabric at the CLI of the master switch. IRF member switches automatically elect a master.
You can affect the election result by assigning a high member priority to the intended master switch.
For more information about master election, see HPE 5130 HI Switch Series IRF Configuration
Guide.
Prepare an IRF member ID assignment scheme. An IRF fabric uses member IDs to uniquely identify
and manage its members, and you must assign each IRF member switch a unique member ID.
Planning IRF topology and connections
You can create an IRF fabric in daisy chain topology or more reliable ring topology. In ring topology,
the failure of one IRF link does not cause the IRF f abric to split as in dais y chai n topo log y. Instead,
the IRF fabric changes to a daisy chain topology without interrupting network services.
34
IRF-port
1
IRF-
port
2
IRF-port
1
IRF-port
2
1
2
3
1
2 3
IRF-port1
IRF-port2
IRF-port1
IRF-port
1
IRF-port
2
IRF-port2
1
2
3
2 3
You connect the IRF mem ber switches t hrough IRF port s, the logical interfaces for the connections
between IRF member switches. Each IRF member switch has two IRF ports: IRF-port 1 and IRF-port
2. To use an IRF port, you must bind a minimum of one physical port to it.
When connecting two neig hboring IRF member switches, you m ust connect the physical ports of
IRF-port 1 on one switch to the physical ports of IRF-port 2 on the other switch.
As a best practice to avoid loop topology, first complete IRF configuration and then connect the IRF
member switches.
The H PE 5130 HI switches can provide 10-GE IRF co nnections t hrough SFP+ p orts, and you ca n
bind several SFP+ ports to an IRF port for increased bandwidth and availability.
Figure 39 and Figure 40 show the t opologies of an IRF fabr ic made up of three H PE 5130 24G
4SFP+ 1-slot HI switches. The IRF port connections in the two figur es are for ill ustration only, and
more connection methods are available.
Figure 39 IRF fabric in daisy chain topology
Figure 40 IRF fabric in ring topology
Identifying physical IRF ports on the member switches
Identify the physical IRF p orts on the m ember switches according to your topol ogy and co nnection
scheme.
Table 9 shows the physical ports that can be used for IRF connection and the port use restrictions.
35
IMPORTANT:
In these schemes, all physical IRF ports are located on the same side. If physical IRF ports are on
different sides, you must measure the distance between them to select an appropriate cable.
Table 9 Physical IRF port requirements
Candidate physical IRF ports Requirements
• Four fixed SFP+ ports on the front panel
• Ports on the interface card on the rear panel
Planning the cabling scheme
Use SFP+ c able s or SFP+ transceiver modules and f ibers to c onnect t he IRF m em ber switches. If
the IRF member switches are far away from one another, choose the SFP+ transceiver modules with
optical fibers. If the IR F member switches are all in one equipm ent room, choose SFP+ c ables. For
more information about SF P+ cables and SFP+ transceiv er modules, see "Appendix C Ports an d
LEDs."
The following s ubsections describe several HPE recommended IRF connection schem es, and all
these schemes use a ring topology.
Connecting the IRF member switches in one rack
Use SFP+ c ables to connect the IRF m ember switches (9 switches in this example) in a rack as
shown in Fi gure 41. The switc hes in the ring topolog y (see Figure 42) are in the same order as
connected in the rack.
All physical ports to be bound t o an IRF port must
have the same data rate.
36
1
2
3
4
5
6
7
8
9
1
2
3
4
5
6
7
8
9
Figure 41 Connecting the switches in one rack
37
•
•
•
1 2
3
4
5
6
78
9
1
2 3
4 5
6 7
8
9
Figure 42 IRF fabric topology
Connecting the IRF member switches in a ToR solution
You can install IRF m ember switches in different racks side by side to deplo y a top of rack (ToR)
solution.
Figure 43 sh ows an example for connecting 9 top of rac k IRF member switches by using SFP +
transceiver modules and optical fibers. The topology is the same as Figure 42.
Figure 43 ToR cabling
Configuring basic IRF settings
After you install the IRF m ember s witches, power on the switches, and log in to eac h IRF mem ber
switch (see HPE 5130 HI Switch Series Fundamentals Configuration Guide) to configure their
member IDs, member priorities, and IRF port bindings.
Follow these guidelines when you configure IRF settings on the switches:
Assign the master switch higher member priority than any other switch.
Bind physical ports to IRF port 1 on one switch and to IRF port 2 on the other switch. You can
perform IRF port binding before or after connecting IRF physical ports, depending on the
software version.
To bind a port on an interface card to an IRF port, you must install the interface card first. For
the interface card installation procedure, see "Installing/removing an interface card."
Execute the display irf configuration command to verify the basic IRF settings.
For more inform ation about configuring basic IRF settings, see HPE 5130 HI Switch Series IRF
Configuration Guide.
Connecting the physical IRF ports
As a best practice to avoid loop topology, first complete IRF configuration and then connect the IRF
member switches.
Use SFP+ c ab les or SFP+ transceiver modules and f ibers to c onnect the IRF member switches as
planned.
Wear an ESD wrist stra p when you connect SF P+ ca bles or SF P+ transceiver m odules an d fibers .
For how to connect them, see HPE Transceiver Modules and Network Cables Installation Guide.
38
display irf
display irf topology
NOTE:
To avoid IP address collision and
detectio
collisions.
Configuration Guide.
Verifying the IRF fabric setup
To verify the basic functionalit y of the IRF fabric after you finish configur ing basic IRF s ettings and
connecting IRF ports:
1. Log in to the IRF fabric through the console port of any member switch.
2. Create a Layer 3 interface, assign it an IP address, and make sure the IRF fabric and the
remote network management station can reach each other.
3. Use Telnet, web, or SNMP to access the IRF fabric from the network management station. (See HPE 5130 HI Switch Series Fundamentals Configuration Guide.)
4. Verify that you can manage all member switches as if they were one node.
5. Display the running status of the IRF fabric by using the commands in Table 10.
Table 10 Displaying and maintaining IRF configuration and running status
Task Command
Display information about the IRF fabric.
Display all members’ IRF configurations that
take effect at a reboot.
Display IRF fabric topology information.
network problems, configure a minimum of one multi-active
n (MAD) mechanism to detect the presence of multiple identical IRF fabrics and handle
For more information about MAD detection, see HPE 5130 HI Switch Series IRF
display irf configuration
39
•
•
CAUTION:
•
•
•
Maintenance and troubleshooting
Power supply failure
Symptom
The power supply status LEDs are not steady green.
For the HPE 5130 24G 4SFP+ 1-slot HI and HPE 5130 48G 4SFP+ 1-slot HI switches, examine the
PWR1 or PWR2 LED of the switch to identify power supply failure.
For the HPE 5130 24G PoE+ 4SFP+ 1 -s lo t HI and HPE 5130 48G PoE+ 4SFP+ 1-slot HI switches,
examine the PWR1 or PWR2 LED of the switch and the LEDs on the power supply to identify power
supply failure.
For more information about the PWR1 and PWR2 LEDs on the front panel of the switch, see
Table 21.
For more information about the LEDs on a power supply, see HPE PSR720-56A Power Supply
User Guide and HPE PSR1110-56A Power Supply User Guide.
Solution
To resolve the problem:
1. Verify that the switch power cord is correctly connected.
2. Verify that the power source meets the requirement.
3. Verify that the operating temperature of the switch is in an acceptable range and the power
supply has good ventilation.
4. If the problem persists, contact HPE Support.
5. To replace a hot swappable power supply, see "Installing/removing a power supply."
Fan tray failure
Do not power on the switch when the sw itch does not hav e a fan tray or has only one fan tray
installed.
If both fan trays fail, replace them within 2 minutes.
If one fan tray fails, perform either of the following tasks:
The switch supports hot swapping of fan trays. When a fan tray fails, see "Removing a fan tray" and
"Installing a fan tray" to replace the fan tray. If the problem persists, contact HPE Support.
If the ambient temperature is not higher than 27°C (80.6°F), replace the fan tray within 24 hours and
make sure the failed fan tray remains in position before the replacement.
If the ambient temperature is higher than 27°C (80.6°F), replace the fan tray immediately.
40
WARNING
•
•
•
mponents of a fan tray
•
pletely stop rotating. Do not touch the fans even if the fans
stop rotating to avoid affecting fan balance, which might cause loud fan operating noise.
CAUTION:
•
To prevent damage to the fan tray or the connectors on the backplane, insert the fan tray gently.
•
• Make sure all slots have modules or filler panels installed when the switch is operating.
1
2
1
Removing a fan tray
!
Do not touch any bare conductors or terminals on the fan tray.
Do not place the fan tray in a moist place. Prevent liquid from entering the fan tray.
Do not disassemble faulty fan trays yourself. When the internal wiring or co
are faulty, ask maintenance engineers for maintenance.
T ake out the fan tray after the fans com
To remove a fan tray:
1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded.
2. Grasp the two handles of the fan tray, as shown by callout 1 in Figure 44, and pull out the fan
tray slowly along the guide rails.
3. Put the removed fan tray in an antistatic bag. Figure 44 Removing a fan tray
Installing a fan tray
If you encounter a hard resistance when inserting the fan tray, pull out the fan tray and insert it
again.
Install two fan trays of the same model on the switch.
To install a fan tray:
1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded.
2. Unpack the fan tray and verify that the fan tray model is correct.
41
3. Grasp the two handles of the fan tray with the side marked TOP facing up, and slide the fan tray along the guide rails into the slot until the fan tray seats in the slot and has a firm contact with the backplane.
Figure 45 Installing a fan tray
Configuration terminal display problems
If the configuration environment setup is correct, the configuration terminal displays booting
information when the switch is powered on. If the setup is incorrect, the configuration terminal
displays nothing or garbled text.
No display
Symptom
The PC displays nothing when the switch is powered on.
Solution
To resolve the problem:
1. Verify that the power supply is supplying power to the switch.
2. Verify that the console cable is correctly connected.
3. Verify that the console cable does not ha ve an y problems and the PC settings are correct.
4. If the problem persists, contact HPE Support.
Garbled display
Symptom
Solution
The display on the PC is garbled.
To resolve the problem:
1. Verify that the following settings are configured for the terminal:
Baud rate—9,600.
42
Data bits—8.
Parity—None.
Stop bits—1.
Flow control—None.
2. If the problem persists, contact HPE Support.
43
(1) 10/100/1000Base-T autosensing Ethernet port
(2) 10/100/1000Base-T autose nsing Ether net port LED
(3) Management Ethernet port
(4) Console port (CONSOLE)
(5) Mini USB console port
(6) Port LED mode switching button
(7) USB port
(8) System status LED (SYS)
(9) SFP+ port
(10) LED for the port LED mode (MODE)
(11) Interface card status LED (SLOT )
(12) Power supply 2 status LED (PWR2)
(13) Power supply 1 status LED (PWR1)
(14) SFP+ port LED
(15) Management Ethernet port LED
(1) Grounding screw
(2) Interface card (optional)
(3) Fan tray 1
(4) Fan tray 2
(5) Power supply 1
(6) Power supply 2 (optional)
1 2 3 4 5 6
7
8
9
10
11
12
13
14
15
1 2 3 4 5 6
Appendix A Chassis views and technical specifications
Chassis views
HPE 5130 24G 4SFP+ 1-slot HI
Figure 46 HPE 5130 24G 4SFP+ 1-slot HI front panel
Figure 47 HPE 5130 24G 4SFP+ 1-slot HI rear panel
The HPE 5130 24G 4SFP+ 1-slot HI switch comes with power supply slot 1 empty and power supply
slot 2 installed with a filler panel. Y ou can install one or two power supplies for the switch as required.
In this figure, two PSR150-A1 (JD362B) AC power su pplies are installed i n the power supply slots.
For more information about installing and removing a power supply, see "Installing/removing a pow er
supply."
44
LED
(3) Management Ethernet port
(4) Console port (CONSOLE)
(5) Mini USB console port
(6) Port LED mode switching button
(7) USB port
(8) System status LED (SYS)
(9) SFP+ port
(10) LED for the port LED mode (MODE)
(11) Interface card status LED (SLOT )
(12) Power supply 2 status LED (PWR2)
(13) Power supply 1 status LED (PWR1)
(14) SFP+ port LED
(15) Management Ethernet port LED
(1) Grounding screw
(2) Interface card (optional)
(3) Fan tray 1
(4) Fan tray 2
(5) Power supply 1
(6) Power supply 2 (optional)
1 2 3 4 5
6
7
8
9
10
11
12
13
14
15
1
2 3
4 5
6
The HPE 5130 24G 4SFP+ 1-slot HI switch comes with a filler pa nel in the i nterface c ard slot. You
can select an interf ace card for the switc h as required. In th is figure, an LSWM2SP2PM interface
card is installed in the interface card slot. For more information abo ut installing and rem oving an
interface card, see "Installing/removing an interface card."
HPE 5130 24G PoE+ 4S FP+ 1-slot HI
Figure 48 HPE 5130 24G PoE+ 4SFP+ 1-slot HI front panel
(1) 10/100/1000Base-T autosensing Ethernet port
(2) 10/100/1000Base-T autosensing Ethernet port
Figure 49 HPE 5130 24G PoE+ 4SFP+ 1-slot HI rear panel
The HPE 5130 24G PoE+ 4SFP+ 1-slot HI switch comes with power supply slot 1 empty and power
supply slot 2 insta lle d with a f iller pan el. You can install one or two po wer supplies for the switc h as
required. In this fig ure, two PSR720-56A (JG544A) AC power supplies are installed in the power
supply slots. For more information about installing and removing a power supply, see
"Installing/removing a power supply."
The HPE 5130 24G PoE+ 4SFP+ 1-slot HI switch comes with a filler panel in the interface card slot.
You can select an interface card for the switch as required. In this figure, an LSWM2SP2PM interface
card is insta lled in the interface c ard slot. For more inform ation about installing and removing an
interface card, see "Installing/removing an interface card."
45
LED
(3) Management Ethernet port
(4) Console port (CONSOLE)
(5) Mini USB console port
(6) Port LED mode switching button
(7) USB port
(8) System status LED (SYS)
(9) SFP+ port
(10) LED for the port LED mode (MODE)
(11) Interface card status LED (SLOT )
(12) Power supply 2 status LED (PWR2)
(13) Power supply 1 status LED (PWR1)
(14) SFP+ port LED
(15) Management Ethernet port LED
(1) Grounding screw
(2) Interface card (optional)
(3) Fan tray 1
(4) Fan tray 2
(5) Power supply 1
(6) Power supply 2 (optional)
1
2
3
4
5 6
7
8
9
10
11
12
13
14
15
1
2 3 4
5 6
HPE 5130 48G 4SFP+ 1-slot HI
Figure 50 HPE 5130 48G 4SFP+ 1-slot HI front panel
(1) 10/100/1000Base-T autosensing Ethernet port
(2) 10/100/1000Base-T autosensing Ethernet port
Figure 51 HPE 5130 48G 4SFP+ 1-slot HI rear panel
The HPE 5130 48G 4SFP+ 1-slot HI switch comes with power supply slot 1 empty and power supply
slot 2 installed with a filler panel. Y ou can install one or two power supplies for the switch as required.
In this figure, two PSR150-A1 (JD362B) AC power su pplies are installed i n the p ower sup pl y slots.
For more information about installing and removing a power supply , see "Installing/removing a pow er
supply."
The HPE 5130 48G 4SFP+ 1-slot HI switch comes with a filler panel in the inter face car d slot. You
can select an interface card for the switch as required. In th is figure, an LSWM2SP2PM interface
card is installed in the interf ace card slot. For more inf ormation about installing and removing an
interface card, see "Installing/removing an interface card."
46
LED
(3) Management Ethernet port
(4) Console port (CONSOLE)
(5) Mini USB console port
(6) Port LED mode switching button
(7) USB port
(8) System status LED (SYS)
(9) SFP+ port
(10) LED for the port LED mode (MODE)
(11) Interface card status LED (SLOT )
(12) Power supply 2 status LED (PWR2)
(13) Power supply 1 status LED (PWR1)
(14) SFP+ port LED
(15) Management Ethernet port LED
(1) Grounding screw
(2) Interface card (optional)
(3) Fan tray 1
(4) Fan tray 2
(5) Power supply 1
(6) Power supply 2 (optional)
1 2
3 4 5 6
7
8
9
10
11
12
13
14
15
1
2
3
4 5
6
HPE 5130 48G PoE+ 4S FP+ 1-slot HI
Figure 52 HPE 5130 48G PoE+ 4SFP+ 1-slot HI front panel
(1) 10/100/1000Base-T au tos e nsin g Ether net port
(2) 10/100/1000Base-T autosensing Ethernet port
Figure 53 HPE 5130 48G PoE+ 4SFP+ 1-slot HI rear panel
The HPE 5130 48G PoE+ 4SFP+ 1-slot HI switch comes with power supply slot 1 empty and power
supply slot 2 insta lle d with a f iller pan el. You can install one or two po wer supplies for the switc h as
required. In this fig ure, two PSR720-56A (JG544A) AC power supplies are installe d in the power
supply slots. For more information about installing and removing a power supply, see
"Installing/removing a power supply."
The HPE 5130 48G PoE+ 4SFP+ 1-slot HI switch comes with a filler panel in the interface card slot.
You can select an interface card for the switch as required. In this figure, an LSWM2SP2PM interface
card is insta lled in the interface c ard slot. For more inform ation about installing and r emoving an
interface card, see "Installing/removing an interface card."
47
Technical specifications
Table 11 Technical specifications for non-PoE switch models
Item HPE 5130 24G 4SFP+ 1-slot HI HPE 5130 48G 4SFP+ 1-slot HI
Dimensions (H × W ×
D)
43.6 × 440 × 360 mm
(1.72 × 17.32 × 14.17 in)
43.6 × 440 × 360 mm
(1.72 × 17.32 × 14.17 in)
Weight ≤ 7.5 kg (16.53 lb) ≤ 7.5 kg (16.53 lb)
• 1 × Mini USB console port
Console ports
• 1 × serial console port
Only the Mini USB console port takes effect when you connect both ports.
USB ports 1 1
Management
Ethernet ports
1 1
SFP+ ports 4 4
10/100/1000Base-T
autosensing Ethernet
24 48
ports
Expansion interface
card slots
1, on the rear panel 1, on the rear panel
Power supply slots 2, on the rear panel 2, on the rear panel
Fan tray 2, on the rear panel 2, on the rear panel
• AC-input
Rated voltage range: 100 VAC to 240 VAC @ 50 Hz or 60 Hz
Max voltage range: 90 VAC to 264 VAC @ 47 Hz to 63 Hz
• DC-input
Input voltage
Rated voltage range: –48 VDC to –60 VDC
Max voltage range: –36 VDC to –72 VDC
NOTE:
You can use the site –48 VDC power source or an RPS800-A or RPS1600-A RPS
as the DC power source.
Minimum power
consumption
Maximum power
consumption
• Single AC input: 37 W
• Dual AC inputs: 42 W
• Single DC input: 43 W
• Dual DC inputs: 49 W
• Single AC input: 72 W
• Dual AC inputs: 75 W
• Single DC input: 77 W
• Dual DC inputs: 80 W
• Single AC input: 45 W
• Dual AC inputs: 48 W
• Single DC input: 50 W
• Dual DC inputs: 54 W
• Single AC input: 83 W
• Dual AC inputs: 84 W
• Single DC input: 88 W
• Dual DC inputs: 93 W
Chassis leakage
current compliance
Melting current of
power supply fuse
Operating
temperature
UL60950-1, EN60950-1, IEC60950-1, GB4943
• AC-input: 6.3 A, 250V
• DC-input: 8 A, 250V
0°C to 45°C (32°F to 113°F)
Relative humidity 5% to 95%, noncondensing
48
• AC-input: 6.3 A, 250V
• DC-input: 8 A, 250V
Item HPE 5130 24G 4SFP+ 1-slot HI HPE 5130 48G 4SFP+ 1-slot HI
Fire resistance
compliance
UL60950-1, EN60950-1, IEC60950-1, GB4943
Table 12 Technical specifications for PoE switch models
Item
Dimensions (H × W ×
D)
Weight ≤ 10 kg (22.05 lb) ≤ 10 kg (22.05 lb)
Console ports
USB ports 1 1
Management
Ethernet ports
SFP+ ports 4 4
10/100/1000Base-T
autosensing Ethernet
ports
Expansion interface
card slots
HPE 5130 24G PoE+ 4SFP+
1-slot HI
43.6 × 440 × 460 mm
(1.72 × 17.32 × 18.11 in)
HPE 5130 48G PoE+ 4SFP+ 1-slot HI
43.6 × 440 × 460 mm
(1.72 × 17.32 × 18.11 in)
• 1 × Mini USB console port
• 1 × serial console port
Only the Mini USB console port is available when you connect both ports.
1 1
24 48
1, on the rear panel 1, on the rear panel
Power supply slots 2, on the rear panel 2, on the rear panel
Fan tray 2, on the rear panel 2, on the rear panel
• PSR720-56A (JG544A) AC-input
Rated voltage range: 100 VAC to 240 VAC @ 50 Hz or 60 Hz
Input voltage
PoE power capacity
Minimum power
consumption
Max voltage range: 90 VAC to 264 VAC @ 47 Hz to 63 Hz
• PSR1110-56A AC-input
Rated voltage range: 115 VAC to 240 VAC @ 50 Hz or 60 Hz
Max voltage range: 102.5 VAC to 264 VAC @ 47 Hz to 63 Hz
Depends on the power supply configurations. For more infor mati on, see the
following table.
44 W 67 W
Maximum power
consumption
(including PoE power
991 W 1950 W
consumption)
Chassis leakage
current compliance
Melting current of
power supply fuse
UL60950-1, EN60950-1, IEC60950-1, GB4943
15 A, 250V
Operating
temperature
0°C to 45°C (32°F to 113°F)
Relative humidity 5% to 95%, noncondensing
49
Item
Fire resistance
compliance
HPE 5130 24G PoE+ 4SFP+
1-slot HI
UL60950-1, EN60950-1, IEC60950-1, GB4943
HPE 5130 48G PoE+ 4SFP+ 1-slot HI
The following table describes PoE power capacity for the HPE 5130 24G PoE+ 4SFP+ 1-slot HI and
HPE 5130 48G PoE+ 4SFP+ 1-slot HI switches:
HPE 5130 24G PoE+ 4SFP+
1-slot HI
HPE 5130 48G PoE+ 4SFP+ 1-slot HI
Power supply
configuration
Two
PSR1110-56As
(JG545A)
One PSR1110-56A
(JG545A) and one
PSR720-56A
(JG544A)
Two PSR720-56As
(JG544A)
Total PoE
power
capacity
810 W 30 W 1680 W 30 W
810 W 30 W 1560 W 30 W
810 W 30 W 1200 W 30 W
Max PoE
power capacity
per port
Total PoE
power capacity
Max PoE power
capacity per port
One PSR1110-56A
(JG545A)
One PSR720-56A
(JG544A)
810 W 30 W 810 W 30 W
450 W 30 W 450 W 30 W
50
Appendix B FRUs and compatibilit y matrixes
FRUs and compatibility matrixes
FRUs
Hot swappable power supplies
PSR150-A/PSR150A1 (JD362A/JD362B)
PSR150-D/PSR150D1(JD366A/JD366B)
PSR720-56A
(JG544A)
PSR1110-56A
(JG545A)
Interface cards
LSWM2SP2PM Supported Supported
LSWM2XGT2PM Supported Supported
The PSR720-56A (JG544A), PSR1110-56A (JG545A), PSR150-A/PSR150-A1 (JD362A/JD362B),
and PSR150-D/PSR150-D1 (JD366A/JD366B) power supplies support asset management. You can
use the display device manuinfo command to view the name, sequence number, and vendor of the
power supplies you have installed on the device.
You can install one power supply, or two power supplies f or redundancy on the HPE 5130 24G
4SFP+ 1-slot HI and HPE 5130 48G 4SFP+ 1-slot HI switches. These switches support mix of an AC
power supply and a DC power supply.
HPE 5130 24G 4SFP+ 1-slot HI
HPE 5130 48G 4SFP+ 1-slot HI
Supported N/A
Supported N/A
N/A Supported
N/A Supported
HPE 5130 24G PoE+ 4SFP+ 1-slot HI
HPE 5130 48G PoE+ 4SFP+ 1-slot HI
Y ou can install one power supply, or two power supp lies for redundancy on the HPE 5130 24G PoE+
4SFP+ 1-slot HI and HPE 5130 48G PoE+ 4SFP+ 1-slot HI switches. The PoE capabilities of these
switches vary by power supply configuration. For more information, see Table 12.
Hot swappable power supplies
The switch supports hot swapping of power supp lies. T he f ollowing ta ble desc ribes power sup plies
available for the switch.
Power supply Specifications Reference
• Rated input voltage range: 100 VAC
PSR150-A/PSR150-A1
(JD362A/JD362B)
to 240 VAC @ 50 Hz or 60 Hz
• Max input voltage range: 90 VAC to
264 VAC @ 47 Hz to 63 Hz
• Max output power: 150 W
51
HPE PSR150-A & PSR150-D
Power Supplies User Guide
NOTE:
The
including the depth of the power supply handle.
IMPORTANT:
•
•
command to
shut down the IRF physical interfaces before removing the cables.
•
•
•
Power supply Specifications Reference
• Rated input voltage range: –48 VDC
PSR150-D/PSR150-D1
(JD366A/JD366B)
PSR720-56A (JG544A)
PSR1110-56A (JG545A)
to –60 VDC
• Max input voltage range: –36 VDC to
–72 VDC
• Max output power: 150 W
• Rated input voltage range: 100 VAC
to 240 VAC @ 50 Hz or 60 Hz
• Max input voltage range: 90 VAC to
264 VAC @ 47 Hz to 63 Hz
• Max output power: 720 W
• Rated input voltage range: 115 VAC
to 240 VAC @ 50 Hz or 60 Hz
• Max input voltage range: 102.5 VAC
to 264 VAC @ 47 Hz to 63 Hz
• Max output power: 1110 W
HPE PSR150-A & PSR150-D
Power Supplies User Guide
HPE PSR720-56A Power Supply
User Guide
HPE PSR1110-56A Pow er Supply
User Guide
PSR1110-56A (JG545A) power supply adds 64 mm (2.52 in) to the depth of the switch,
Hot swappable interface cards
The switch provides an interface card s lot at the rear. The following table describes the interface
cards available for the switch.
Card model Port type and quantity Available transceiver modules and cables
LSWM2SP2PM 2 × 1/10 Gbps SFP+ fiber ports See Table 16, Table 17, and Table 18.
LSWM2XGT2PM 2 × 1/10GBase-T Ethernet ports N/A
The ports on the LSWM2SP2PM and LSWM2XGT2PM interface cards installed on the switch
can operate only at 10 Gbps.
T o remove an interface card that has IRF physical interfaces, first remove the cables from the IRF
physical interfaces on the card. You can choose to or not to execute the shutdown
For more information about these interface cards, see user manuals for the interface cards.
The LSWM2XGT2PM interface card provides copper ports. To connect cables to the copper ports on
the LSWM2XGT2PM interface card, follow these guidelines:
Use Category-6A or above cables and connectors. The max transmission distance varies by
cable type:
Category-6 UTP—55 m (180.45 ft).
Category-6 STP—100 m (328.084 ft), no interference.
Category-6 SFTP—100 m (328.084 ft).
Category-6A and above twisted pair—100 m (328.084 ft).
Do not bundle cables in their first 20 m (65.62 ft).
Separate power cords and twisted pair cables at and around the distribution frame.
52
•
•
For ports adjacent to one another on the device, the peer ports on the distribution frame is
preferably not adjacent, for example:
If the device connects to one distribution frame, connect port 1 on the device to port 1 on the
distribution frame and port 2 on the device to port 3 on the distribution frame.
If the device connects to two distribution frames, connect port 1 on the device to port 1 on
distribution frame 1 and port 2 on the device to port 1 on distribution frame 2.
Keep the device and twisted pair cables away from the interference source, such as a two-way
radio and a high-power variable-frequency drive.
53
NOTE:
USB devices from different vendor
does not guarantee the
correct operation of USB devices from all vendors on the switch. If a USB device fails to operate on
the switch, replace it with one from another vendor.
Appendix C Ports and LEDs
Ports
Console port
The switch has two console ports: a serial console port and a Mini USB console port.
Table 13 Console port specifications
Item Console port Mini USB Console port
Connector type RJ-45 USB mini-Type B
Compliant standard EIA/TIA-232 USB 2.0
Transmission baud rate 9600 bps (default) to 115200 bps
• Provides connection to an ASCII
terminal.
Services
• Provides connection t o the ser ial por t
of a local PC running terminal
emulation program.
Provides connection to the USB port
of a local PC running terminal
emulation program.
Management Ethernet port
The switch provides a management Ether net port on the front panel. You can connect this port to a
PC or management station for loading and debugging software or remote management.
Table 14 Management Ethernet port specifications
Item Specification
Connector type RJ-45
Connector quantity 1
Port transmission rate 10/100/1000 Mbps, half/full duplex
Transmission medium and max
transmission distance
Functions and services Switch software and Boot ROM upgrade, network management
100 m (328.08 ft) over category-5 twisted pair cable
USB port
The switch has one OHCI-compliant USB2.0 port that can upload and download data at a rate up to
480 Mbps. You can use this USB port to access the file system on the flash of the switch, for example,
to upload or download application and configuration files.
s vary in compatibilities and drivers. HPE
54
10/100/1000Base-T autosensing Ethernet port
Table 15 10/100/1000Base-T autosensing Ethernet port specifications
Item Specification
Connector type RJ-45
• 10 Mbps, half/full duplex
Interface attributes
• 100 Mbps, half/full duplex
• 1000 Mbps, full duplex
• MDI/MDI-X, auto-sensing
Max transmission
distance
Transmission medium Category-5 (or above) twisted pair cable
Standards IEEE 802.3i, 802.3u, 802.3ab
SFP+ port
The switch provides f our fixed SFP+ p orts on the front pane l. To connect SFP+ port s over a long
distance, use SFP/SFP+ transceiver modules and fibers. To connect SFP+ ports over a short
distance, use SFP/SFP+ cables. Y ou can install the 1000 Mbps SFP transceiver module in T able 16,
1000 Mbps SFP cables in Table 17,10 Gbps SFP+ transceiver modules in Table 17, and 10 Gbps
SFP+ cables in Table 18 in the SFP+ ports.
Table 16 1000 Mbps SFP transceiver modules available for the SFP+ ports
Product
code
JD118B
HPE
description
HPE X120
1G SFP LC
SX
Transceiver
100 m (328.08 ft)
Central
wavelength
(nm)
850 LC
Conn
ector
Cable/fiber
diameter
(µm)
Multi-mode,
50/125
Multi-mode,
62.5/125
Modal
bandwidth
(MHz × km)
500 550 m (1804.46 ft)
400 500 m (1640.42 ft)
200 275 m (902.23 ft)
160 220 m (721.78 ft)
Max
transmission
distance
JD119B
JD061A
JD062A
HPE X120
1G SFP LC
LX
Transceiver
HPE X125
1G SFP LC
LH40
1310nm
Transceiver
HPE X120
1G SFP LC
LH40
1550nm
Transceiver
1310 LC
1310 LC
1550 LC
55
Single-mode,
9/125
Multi-mode,
50/125
Multi-mode,
62.5/125
Single-mode,
9/125
Single-mode,
9/125
N/A 10 km (6.21 miles)
500 or 400 550 m (1804.46 ft)
500 550 m (1804.46 ft)
N/A
N/A
40 km (24.86
miles)
40 km (24.86
miles)
Product
code
JD063B
JD103A
JD098B
JD099B
JD089B
Note: JD098B and JD099B must be used in pairs.
HPE
description
HPE X125
1G SFP LC
LH70
Transceiver
HPE X120
1G SFP LC
LH100
Transceiver
HPE X120
1G SFP LC
BX 10-U
Transceiver
HPE X120
1G SFP LC
BX 10-D
Transceiver
HPE X120
1G SFP
RJ45 T
Transceiver
Central
wavelength
(nm)
1550 LC
1550 LC
TX: 1310
RX: 1490
TX: 1490
RX: 1310
N/A RJ-45
Conn
ector
LC
Cable/fiber
diameter
(µm)
Single-mode,
9/125
Single-mode,
9/125
Single-mode,
9/125
Category-5
twisted pair
Modal
bandwidth
(MHz × km)
N/A
N/A
N/A 10 km (6.21 miles)
N/A 100 m (328.08 ft)
Table 17 10 Gbps SFP+ transceiver modules available for the SFP+ ports
Max
transmission
distance
70 km (43.50
miles)
100 km (62.14
miles)
Product
code
JD092B
JD093B
JD094B
JG915A
HPE
description
HPE X130
10G SFP+
LC SR
Transceiver
HPE X130
10G SFP+
LC LRM
Transceiver
HPE X130
10G SFP+
LC LR
Transceiver
HPE X130
10G SFP+
LC LH 80km
Transceiver
Central
wavelength
(nm)
850 LC
1310 LC
1310 LC
1550 LC
Conn
ector
Fiber
diameter
(µm)
Multi-mode,
50/125
Multi-mode,
62.5/125
Multi-mode,
50/125
Multi-mode,
62.5/125
Single-mode,
9/125
Single-mode,
9/125
Modal
bandwidth
(MHz × km)
2000 300 m (984.25 ft)
500 82 m (269.03 ft)
400 66 m (216.54 ft)
200 33 m (108.27 ft)
160 26 m (85.30 ft)
1500
500
400 100 m (328.08 ft)
200
160
N/A 10 km (6.21 miles)
N/A
Max
transmission
distance
220 m (721.78 ft)
220 m (721.78 ft)
80 km (49.71
miles)
56
(1) Connector
(2) Pull latch
1
1
2
Product
code
JG234A
HPE
description
HPE X130
10G SFP+
LC ER 40km
Transceiver
Central
wavelength
(nm)
1550 LC
Conn
ector
Fiber
diameter
(µm)
Single-mode,
9/125
Modal
bandwidth
(MHz × km)
N/A
Max
transmission
distance
40 km (24.86
miles)
Table 18 SFP+ DAC cables available for the SFP+ ports
Product code HPE description Max transmission distance
JD095B HPE X240 10G SFP+ SFP+ 0.65m DA Cable 0.65 m (2.13 ft)
JD096B HPE X240 10G SFP+ SFP+ 1.2m DA Cable 1.2 m (3.94 ft)
JD097B HPE X240 10G SFP+ SFP+ 3m DA Cable 3 m (9.84 ft)
JG081C HPE X240 10G SFP+ SFP+ 5m DA Cable 5 m (16.40 ft)
Table 19 SFP+ active optical cables available for the SFP+ ports
Product code HPE description Max transmission distance
JL290A
HPE X2A0 10G SFP+ to SFP+ 7m Active
Optical Cable
7 m (22.97 ft)
JL291A
JL292A
HPE X2A0 10G SFP+ to SFP+ 10m Active
Optical Cable
HPE X2A0 10G SFP+ to SFP+ 20m Active
Optical Cable
10 m (32.81 ft)
20 m (65.62 ft)
Figure 54 SFP+ DAC cable
57
NOTE:
•
•
SFP/SFP+ transceiver modules
•
•
Comware-Based Devices Transceiver Modules User Guide.
Figure 55 SFP+ active optical cable
The fixed SFP+ ports on the switch do not support the HPE X130 10G SFP+ LC LRM
Transceiver, HPE X130 10G SFP+ LC LH 80km Transceiver, and HPE X130 10G SFP+ LC ER
40km Transceiver.
To guarantee the functionality of the SFP+ ports, use only HPE
and SFP+ cables.
The SFP/SFP+ transceiver modules and SFP+ cables available for the switch are subject to
change over time. For the most up-to-date list of SFP/SFP+ transceiver modules and SFP+
cables, consult your HPE sales representative or technical support engineer.
For the specifications for the HPE SFP/SFP+ transceiver modules and SFP+ cables, see HPE
LEDs
System status LED
The system status LED shows the operating state of the switch.
Table 20 System status LED description
LED mark Status Description
Steady green The switch is operating correctly.
Flashing green (1 Hz) The switch is performing power-on self test (POST).
SYS
Power supply status LED
Steady red The switch has failed th e POST or is f aulty.
Flashing yellow (1 Hz) Some ports have failed to pass POST or are faulty.
Off The switch is powered off.
The switch provides two power suppl y s lots at the rear. For each power sup ply, these switches
provide a power supply status LED on the front panel.
58
Table 21 Power supply status LED description
LED mark Status Description
A power supply is installed in power supply slot 1, and the power
supply is outputting power correctly.
A power supply is installed in pow er supply slot 1, but the power
supply has failed or no power is input to the power supply.
A power supply is installed in power supply slot 2, and the power
supply is outputting power correctly.
A power supply is installed in pow er supply slot 2, but the power
supply has failed or no power is input to the power supply.
PWR1
PWR2
Steady green
Steady yellow
Off No power supply is installed in power supply slot 1.
Steady green
Steady yellow
Off No power supply is installed in power supply slot 2.
LED for the port LED mode (MODE)
T o show more information about the switch through the port LEDs, the switch provides a MODE LED
to indicate the type of information that the port LEDs are showing.
You can use the LED mode switching button to change the indication of the MODE LED.
Table 22 Description for the MODE LED
LED mark Status Description
Steady green The port status LEDs are showing port rates.
Flashing green (1 Hz) (available only
MODE
for HPE 5130 24G PoE+ 4SFP+
1-slot HI and HPE 5130 48G PoE+
4SFP+ 1-slot HI switches)
Flashing yellow
The port status LEDs are showing the status of
PoE power supply on the ports.
The port status LEDs indicate s the IRF member
ID of the switch. For example, if the por t s 1 to 5
are steady green, the IRF member ID of the
switch is 5.
10/100/1000Base-T autosensing Et hernet port LED
The switch provides a status LED for each 10/100/1000Base-T autosensing Ethernet port. The port
status LED and the MODE LED indicate the operating state of the 10/100/1000Base-T autosensing
Ethernet port in conjunction.
Table 23 10/100/1000Base-T autosensing Ethernet port LED description
Port mode LED (Mode) status Port LED status Description
The port is operating at 1000 Mbps. The
Steady green
Steady green (rate mode)
Steady yellow
port LED fast flashes when the port is
sending or receiving data.
The port is operating at 10/100 Mbps. The
port LED fast flashes when the port is
sending or receiving data.
Flashing yellow (3 Hz) POST has failed on the port.
59
Port mode LED (Mode) status Port LED status Description
Flashing green (1 Hz) (PoE mode,
available only for HPE 5130 24G
PoE+ 4SFP+ 1-slot HI and HPE
5130 48G PoE+ 4SFP+ 1-slot HI
switches)
Flashing yellow (IRF mode) Steady green
SFP+ port LED
Table 24 SFP+ port LED description
Off No link is present on the port.
Steady green PoE power supply is normal.
The device attached to the port requires
Flashing green (3 Hz)
Steady yellow The port is experiencing a PoE failure.
Flashing yellow (3 Hz) POST has failed on the port.
Off The port is not supplying PoE power.
power higher than the maximum or
currently available PoE output power on
the port.
The port status LED indicates the IRF
member ID of the switch. For example, if
the ports 1 to 5 are steady green, the IRF
member ID of the switch is 5.
SFP+ port LED status Description
Steady green
Steady yellow
Flashing yellow (3 Hz) POST has failed on the port.
Off
The port is operating at 10 Gbps. The port LED fast flashes when the port is
sending or receiving data.
The port is operating at 1 Gbps. The port LED fast flashes when the port is
sending or receiving data.
• No link is present on the port.
• The MODE LED operates in IRF mode.
• The MODE LED operates in PoE mode (for PoE switches only.)
Management Ethernet port LEDs
The switch provides an ACT/LINK L ED t o ind ic at e th e oper at in g state of the management Ether net
port.
Table 25 Management Ethernet port LED description
Management Ethernet port LED (ACT/LINK) status Description
Green The port is up.
Yellow The port is sending or receiving data.
Flashing yellow (3 Hz) The port has failed POST.
Off No link is present on the port.
60
Interface card status LED
The switch prov ides an interfac e card slot at the rear. The interfac e card status LED on th e front
panel indicates the operating state of the interface card.
Table 26 Interface card status LED description
LED mark Status Description
Steady green The interface card is in position and is operating c orr ec tly .
SLOT
Flashing yellow
Off The interface card slot is empty.
The switch does not support the card model, or the card
has failed.
Fan tray status LE D on the fan tray
Each fan tray has a fan tray status LED to indicate its operating status.
Table 27 Fan tray status LED description
Status Description
Steady yellow The fan tray is operating correctly.
Flashing (1 Hz) A problem has occurred on the fan tray.
Off The fan tray is not securely installed or does not have power input.
Port status LED on the interface card
The interface cards pr ovide a port s tatus LED for eac h port. For m ore inform ation about the L EDs,
see the manuals for the interface cards.
Input status LED and output status LED on the po wer supply
The PSR720-56A (JG544A) and PSR11 10-56A (JG545A) power supplies each have an input status
LED and an output status LED. For more information about the LEDs, see the manuals for the power
supplies.
61
IMPORTANT:
The chassis and the power supplies use separate air aisles. Make sure both aisles are not blocked.
Appendix D Cooling system
The cooling system of the switch includes th e a ir vents in the chassis, f an tr a ys, a nd b ui lt-in f ans of
hot swappable po wer supp lies . For correct operation o f this cooling s ystem , you m ust consider the
site ventilation design when you plan the insta ll ati on sit e for the switch .
When the fan trays are operating, ambient air flows in through the air vents in the port-side panel and
in the switch sides, circulates through the chassis and the power supplies, and exhausts through the
air vents in the fan tray and power supply panels, as shown in Figure 56.
Figure 56 Airflow through the HPE 5130 48G 4SFP+ 1-slot HI switch
62
Braces enclose a set of required syntax choi ce s separ at ed b y v ertical b ar s, from which
Asterisk marked square brac kets enclo se optional synt ax choice s separated by v ertical
New User
An alert that calls attention to important information that if not understood or followed
An alert that calls attention to important information that if not understood or followed
Document conventions and icons
Conventions
This section describes the conventions used in the documentation.
Port numbering in examples
The port numbers in this document are for illustration only and might be unavailable on your device.
Command conventions
Convention Description
Boldface Bold
Italic Italic text represents arguments that you replace with actual values.
[ ] Square brackets enclose syntax choices (keywords or arguments) that are optional.
{ x | y | ... }
[ x | y | ... ]
{ x | y | ... } *
[ x | y | ... ] *
&<1-n>
# A line that starts with a pound (#) sign is comments.
GUI conventions
Convention Description
Boldface
text represents commands and keywords that you enter literally as shown.
you select one.
Square brackets enclose a set of optional syntax choices separated by vertical bars,
from which you select one or none.
Asterisk marked braces enclose a set of required syntax choices separated by vertical
bars, from which you select at least one.
bars, from which you select one choice, multiple choices, or none.
The argument or keyword and argument combination before the ampersand (&) sign
can be entered 1 to n times.
Window names, button names, field names, and menu items are in Boldface. For
example, the
window appears; click OK.
>
Multi-level menus are separated by angle brackets. For example,
Folder
.
Symbols
Convention Description
WARNING!
CAUTION:
IMPORTANT:
NOTE:
can result in personal injury.
can result in data loss, data corruption, or damage to hardware or software.
An alert that calls attention to essential information.
An alert that contains additional or supplementary information.
63
File
>
Create
>
T
T
T
T
Convention Description
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 wir ed-WLAN switch.
Represents an access point.
Represents a wireless terminator unit.
Represents a wireless terminator.
Represents a mesh access point.
Represents omnidirectio nal si gnal s.
Represents directional signals.
Represents a security product, such as a firewall, UTM, multiservice security
gateway, or load balancing device.
Represents a security card , such a s a firewall, load balancing, NetStream, SSL VPN,
IPS, or ACG card.
64
•
•
•
•
•
•
•
•
•
•
•
•
•
IMPORTANT:
Access to some updates might require product entitlement when accessed through the Hewlett
Packard
entitlements.
Support and other resources
Accessing Hewlett Packard Enterprise Support
For live assistance, go to the Contact Hewlett Packard Enterprise Worldwide website:
www.hpe.com/assistance
To access documentation and support services, go to the Hewlett Packard Enterprise Support
Center website:
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65
Websites
Website Link
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66
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67
Index
Numerics
10/100/1000 Base-T autosensing Ethernet
port, 55
port LED, 59
19-inch rack
mounting bracket kit, 8
switch installation, 7
A
access
first time switch access, 28
accessories needed for installation, 4
Appendix
A, chassis views and technical specifications,
44, 48
B, FRUs and compatibility matrixes, 51, 51
B
bits per second (parameter), 31
C
cable
connecting console, 28
connecting USB mini console, 29
fiber cable laser safety recommendations, 3
grounding the switch with a grounding
conductor buried in the earth ground, 17
grounding the switch with grounding strip, 15
planning IRF cabling scheme, 36
chassis
views, 44
cleanliness
installation site, 2
compatibility matrixes, 51, 51
configuring
IRF basic settings, 38
switch, 28
troubleshooting configuration terminal
problems, 42
verify the IRF fabric setup, 39, 40
connecting
console cable, 28
first time switch access, 28
IRF member switches in a ToR solution, 38
IRF member switches in one rack, 36
IRF physical ports, 38
planning IRF connections, 34
power cord, 22
PSR150-D1, 23
PSR720-56A/PSR1110-56A/PSR150-A1, 23
USB mini console cable, 29
console
connecting cable, 28
connecting USB mini cable, 29
port technical specifications, 54
D
data bits (parameter), 31
device
troubleshooting fan failure, 40
troubleshooting power supply module, 40
displaying
troubleshooting garbled display, 42
troubleshooting no display, 42
dust
installation site, 2
E
electrical
connecting console cable, 28
connecting power cord, 22
connecting PSR150-D1, 23
connecting
PSR720-56A/PSR1110-56A/PSR150-A1, 23
connecting USB mini console cable, 29
EMI prevention, 3
grounding switch with a grounding conductor
buried in the earth ground, 17
grounding switch with grounding strip, 15
grounding the switch, 15
power supply, 18
power supply removal, 18
powering on switch, 31
PSR150 power supply installation, 18
PSR150 power supply removal, 20
PSR720-56A/PSR1110-56A power supply
installation, 20
PSR720-56A/PSR1110-56A power supply
removal, 21
troubleshooting power supply failure, 40
electromagnetic interference. See EMI prevent io n
EMI prevention, 3
emulation (parameter), 31
environment
examining installation site, 2
site cleanliness, 2
68
site dust concentration, 2
site gas saturation, 2
site humidity, 2
site temperature, 2
examining installation site, 2
F
fan
failure (troubleshooting), 40
fan tray
installation, 41
status LED, 61
fiber
laser safety recommendations, 3
field replacement unit. See FRU
flow control (parameter), 31
flowchart of IRF fabric setup, 33
FRU
compatibility matrixes, 51, 51
G
garbled display (troubleshooting), 42
gas (installation site), 2
grounding
EMI prevention, 3
grounding conductor buried in the earth
ground, 17
grounding strip, 15
switch, 15
switch with a grounding conductor buried in
the earth ground, 17
switch with grounding strip, 15
H
hardware
10/100/1000 Base-T autosensing Ethernet
port LED, 59
10/100/1000 Base-T autosensing Ethernet
port technical specifications, 55
connecting PSR150-D1, 23
connecting
PSR720-56A/PSR1110-56A/PSR150-A1, 23
console port technical specifications, 54
fan tray status LED, 61
grounding switch, 15
grounding switch with a grounding conductor
buried in the earth ground, 17
grounding switch with grounding strip, 15
interface card installation, 24, 24
interface card port status LED, 61
interface card removal, 26
interface card status LED, 61
management Ethernet port LED, 60
management Ethernet port technical
specifications, 54
mounting bracket kit, 8
port mode LED, 59
port technical specifications, 54
power supply, 18
power supply input status, 61
power supply output status, 61
power supply removal, 18
power supply status LED, 58
PSR150 power supply installation, 18
PSR150 power supply removal, 20
PSR720-56A/PSR1110-56A power supply
installation, 20
PSR720-56A/PSR1110-56A power supply
removal, 21
SFP+ port LED, 60
SFP+ port technical specifications, 55
switch installation, 1, 6
switch installation in 19-inch rack, 7
system status LED, 58
USB port technical specifications, 54
verifying switch installation, 26
workbench switch mounting, 15
humidity (installation site), 2
I
ID (IRF member), 34
identifying
IRF master switch, 34
IRF member switch physical ports, 35
installing
accessories, 4
EMI prevention, 3
examining installation site, 2
fan tray, 41
front and rear mounting bracket kit, 12
front mounting bracket kit, 8
interface card, 24, 24
IRF fabric installation site planning, 34
power supply, 18
PSR150 power supply, 18
PSR720-56A/PSR1110-56A power supply, 20
site cleanliness, 2
site humidity, 2
site temperature, 2
switch, 1, 6
switch in 19-inch rack, 7
tools, 3
interface card
69
installation, 24
removal, 26
Interface card
status LED, 61
interface card
installation, 24
port status LED, 61
technical specifications, 52
interface card status LED, 61
IRF fabric
configuring basic settings, 38
connecting member switches in a ToR solution,
38
connecting member switches in one rack, 36
connecting physical ports, 38
identifying master switch, 34
identifying member switch physical ports, 35
planning, 34
planning cabling scheme, 36, 36
planning connections, 34
planning installation site, 34
planning member IDs, 34
planning size, 34
planning topology, 34
setting up, 33
setup flowchart, 33
verify the IRF fabric setup, 39, 40
L
LED
10/100/1000 Base-T autosensing Ethernet
port, 59
fan tray status LED, 61
interface card port status, 61
interface card status, 61
management Ethernet port, 60
port mode, 59
power supply input status, 61
power supply output status, 61
power supply status, 58
SFP+ port, 60
system status, 58
technical specifications, 58
M
management Ethernet
port, 54
port LED, 60
master switch
configuring IRF basic settings, 38
IRF fabric, 34
member
configuring IRF member switch basic settings, 38
connecting IRF physical ports, 38
identifying IRF member switch physical ports, 35
IRF member ID, 34
mounting
workbench mounting switch, 15
N
network management
setting up IRF fabric, 33
troubleshooting configuration terminal problems,
42
networking
planning IRF cabling scheme, 36
no display (troubleshooting), 42
P
parity (parameter), 31
PC
troubleshooting garbled terminal display, 42
troubleshooting no display, 42
physical port
connecting, 38
identifying IRF member switch physical ports, 35
planning
IRF cabling scheme, 36, 36
IRF connections, 34
IRF member IDs, 34
IRF topology, 34
port
connecting IRF physical ports, 38
identifying IRF member switch physical ports, 35
LED (SFP+), 60
setting up IRF fabric, 33
SFP+, 55
technical specifications, 54
power supply
cable, 22
connecting PSR150-D1, 23
connecting
PSR720-56A/PSR1110-56A/PSR150-A1, 23
failure (troubleshooting), 40
input status LED, 61
installation, 18
output status LED, 61
removal, 18
technical specifications, 51
power supply status LED, 58
powering on switch, 31
preparing for installation, 1
70
preventing
EMI prevention, 3
procedure
configuring IRF basic settings, 38
connecting grounding cable to chassis, 15
connecting grounding cable to grounding strip,
16, 17
connecting IRF physical ports, 38
connecting power cord, 22
connecting PSR150-D1, 23
connecting
PSR720-56A/PSR1110-56A/PSR150-A1, 23
grounding switch with a grounding conductor
buried in the earth ground, 17
grounding switch with grounding strip, 15
grounding the switch, 15
identifying IRF master switch, 34
identifying IRF member switch physical ports,
35
installing PSR150 power supply, 18
installing PSR720-56A/PSR1110-56A power
supply, 20
installing switch, 1, 6
installing s witc h in 19-inch rack, 7
mounting switch on workbench, 15
planning IRF connections, 34
planning IRF fabric installation site, 34
planning IRF member IDs, 34
planning IRF topology, 34
rack-mounting by using front and rear
mounting brackets on 19-inch rack, 12
rack-mounting by using front mounting
brackets on 19-inch rack, 8
removing PSR150 power suppl y, 20
removing PSR720-56A/PSR1110-56A power
supply, 21
setting up IRF fabric, 33
troubleshooting fan failure, 40
troubleshooting garbled display, 42
troubleshooting no display, 42
troubleshooting power supply failure, 40
PSR150 power supply
installation, 18
removal, 20
PSR150-D1
connecting, 23
PSR720-56A/PSR1110-56A power supply
installation, 20
removal, 21
PSR720-56A/PSR1110-56A/PSR150-A1
connecting, 23
R
rack
mounting switch to workbench, 15
switch installation in 19-inch rack, 7
switch installation methods, 7
verifying switch installation, 26
removing
interface card, 26
power supply, 18
PSR150 power supply, 20
PSR720-56A/PSR1110-56A power supply, 21
RPS status LED, 59
S
safety
EMI prevention, 3
grounding the switch, 15
grounding the switch with a grounding conductor
buried in the earth ground, 17
grounding the switch with grounding strip, 15
installation site cleanliness, 2
installation site dust concentration, 2
installation site gas saturation, 2
installation site humidity, 2
installation site temperature, 2
laser safety recommendations, 3
setting
IRF fabric, 33
switch configuration environment, 28
terminal parameters, 31
SFP+
port, 55
port LED, 60
site
cleanliness, 2
dust concentration, 2
examining installation site, 2
gas saturation, 2
humidity, 2
IRF fabric installation site planning, 34
temperature, 2
stop bits (parameter), 31
switch
chassis views, 44
connecting console cable, 28
connecting IRF physical ports, 38
connecting USB mini console cable, 29
cooling system, 62
first time access, 28
grounding, 15
71
grounding with a grounding conductor bur i ed
in the earth ground, 17
grounding with grounding strip, 15
identifying IRF master switch, 34
identifying IRF member switch physical ports,
35
installation, 1, 6
LEDs, 54
planning IRF cabling scheme, 36, 36
planning IRF member IDs, 34
ports, 54
powering on, 31
setting configuration environment, 28
setting terminal parameters, 31
setting up IRF fabric, 33
technical specifications, 44
verifying installation, 26
workbench mounting switch, 15
system administration
troubleshooting configuration terminal
problems, 42
troubleshooting fan failure, 40
troubleshooting power supply failure, 40
system status LED, 58
T
tools needed for installation, 3
topology
planning IRF cabling scheme, 36, 36
topology (IRF fabric), 34
troubleshooting
configuration terminal problems, 42
fan failure, 40
garbled display, 42
no display, 42
power supply failure, 40
U
USB
port, 54
V
verify the IRF fabric setup, 39, 40
verifying
IRF fabric setup, 39, 40
switch installation, 26
VT100, 31
W
workbench
mounting switch, 15
technical specifications, 48
10/100/1000 Base-T autosensing Ethernet
port, 55
10/100/1000 Base-T autosensing Ethernet
port LED, 59
console port, 54
fan tray status LED, 61
interface card, 52
interface card port status LED, 61
interface card status LED, 61
LED, 58
management Ethernet port, 54
management Ethernet port LED, 60
port, 54
port mode LED, 59
power supply, 51
power supply input status, 61
power supply output status, 61
power supply status LED, 58
SFP+ port, 55
SFP+ port LED, 60
system status LED, 58
USB port, 54
temperature
installation site requirements, 2
72
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