HEWLETT PACKARD ENTERPRISE HP 513048GPP4SPE Instructions

HPE FlexNetwork 5130 EI Switch Series

Installation Guide

Part number: 5998-5492u
Document version: 6W106-20180720

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Contents

Preparing for installation ···································································· 1

Safety recommendations ············································································································· 2
Examining the installation site ······································································································· 2

Temperature/humidity ·········································································································· 3
Cleanliness ························································································································ 3
EMI ·································································································································· 3

Laser safety ······················································································································· 4
Installation tools ························································································································· 4
Installation accessories ··············································································································· 4

Installing the switch ·········································································· 6

Installing the switch in a 19-inch rack ····························································································· 6

Mounting brackets ··············································································································· 6

Attaching the mounting brackets to the switch ··········································································· 8

Rack-mounting the switch ····································································································· 9
Mounting the switch on a workbench ···························································································· 10
Grounding the switch ················································································································ 11

Grounding the switch with a grounding strip ············································································ 11

Grounding the switch with a grounding conductor buried in the earth ground ·································· 12
Installing and removing a power supply (HPE 5130 24G SFP 4SFP+ EI switch) ···································· 13

Installing a power supply ····································································································· 14

Removing a power supply ··································································································· 14
Connecting the power cord ········································································································ 15

Connecting the switch to an AC power source ········································································· 16

Connecting the switch to a –48 VDC power source ··································································· 17

Connecting the switch to an RPS ·························································································· 18
Verifying the installation ············································································································· 19

Accessing the switch for the first time ················································· 20

Setting up the configuration environment ······················································································ 20
Connecting the console cable ····································································································· 20
Setting terminal parameters ······································································································· 21
Powering on the switch ············································································································· 21

Setting up an IRF fabric ··································································· 23

IRF fabric setup flowchart ·········································································································· 23
Planning IRF fabric setup ··········································································································· 24

Planning IRF fabric size and the installation site ······································································· 24

Identifying the master switch and planning IRF member IDs ······················································· 24

Planning IRF topology and connections·················································································· 24

Identifying physical IRF ports on the member switches ······························································ 25

Planning the cabling scheme ······························································································· 26
Configuring basic IRF settings ···································································································· 28
Connecting the physical IRF ports ······························································································· 28
Verifying the IRF fabric setup ······································································································ 28

Maintenance and troubleshooting ······················································ 29

Fixed power supply failure ········································································································· 29

AC input failure ················································································································· 29

RPS DC input failure ·········································································································· 29

Concurrent RPS and AC input failure ····················································································· 30
Hot-swappable power supply failure ····························································································· 31

Symptom ························································································································· 31

Solution ··························································································································· 31
Configuration terminal problems ·································································································· 31

No display on the configuration terminal ················································································· 31

Garbled display on the configuration terminal ·········································································· 31

i

Appendix A Chassis views and technical specifications ·························· 33

Chassis views ························································································································· 33

HPE 5130 24G 4SFP+ EI/HPE 5130 24G 4SFP+ EI BR ···························································· 33

HPE 5130 24G PoE+ 4SFP+ (370W) EI/HPE 5130 24G PoE+ 4SFP+ (370W) EI BR ······················ 34

HPE 5130 24G 2SFP+ 2XGT EI ··························································································· 34

HPE 5130 24G PoE+ 2SFP+ 2XGT (370W) EI ········································································ 35

HPE 5130 48G 4SFP+ EI/HPE 5130 48G 4SFP+ EI BR ···························································· 36

HPE 5130 48G PoE+ 4SFP+ (370W) EI/HPE 5130 48G PoE+ 4SFP+ (370W) EI BR ······················ 36

HPE 5130 48G 2SFP+ 2XGT EI ··························································································· 37

HPE 5130 48G PoE+ 2SFP+ 2XGT (370W) EI ········································································ 38

HPE 5130 24G SFP 4SFP+ EI ····························································································· 39
Technical specifications ············································································································· 39

Appendix B FRUs ··········································································· 43

Appendix C Ports and LEDs ····························································· 44

Ports ····································································································································· 44

Console port ····················································································································· 44

10/100/1000Base-T autosensing Ethernet port ········································································ 44

1/10GBase-T autosensing Ethernet port ················································································· 44

100/1000Base-X SFP port ··································································································· 45

SFP+ port ························································································································ 46

Combo interface ················································································································ 48
LEDs ····································································································································· 48

System status LED ············································································································ 48

Power supply status LED ···································································································· 49

RPS status LED ················································································································ 49

Port mode LED ················································································································· 49

10/100/1000Base-T autosensing Ethernet port LED ·································································· 50

1/10GBase-T autosensing Ethernet port LEDs ········································································· 52

100/1000Base-X SFP port LED ···························································································· 53

SFP+ port LED ················································································································· 53

Appendix D Cooling system ······························································ 55

Document conventions and icons ······················································ 56

Conventions ··························································································································· 56
Network topology icons ············································································································· 57

Support and other resources ···························································· 58

Accessing Hewlett Packard Enterprise Support ·············································································· 58
Accessing updates ··················································································································· 58

Websites ························································································································· 59

Customer self repair ··········································································································· 59

Remote support ················································································································ 59

Documentation feedback ···································································································· 60

Index ··························································································· 61

ii

Preparing for installation

Product
code

HPE description Alias

HPE FlexNetwork 5130 EI switches

JG932A HPE FlexNetwork 5130 24G 4SFP+ EI Switch HPE 5130 24G 4SFP+ EI

JG933A

JG934A

JG936A

JG937A

JG938A HPE FlexNetwork 5130 24G 2SFP+ 2XGT EI Switch HPE 5130 24G 2SFP+ 2XGT EI

JG939A HPE FlexNetwork 5130 48G 2SFP+ 2XGT EI Switch HPE 5130 48G 2SFP+ 2XGT EI

JG940A

JG941A

JG975A HPE FlexNetwork 5130 24G 4SFP+ EI Brazil Switch HPE 5130 24G 4SFP+ EI BR

JG976A HPE FlexNetwork 5130 48G 4SFP+ EI Brazil Switch HPE 5130 48G 4SFP+ EI BR

HPE FlexNetwork 5130 24G SFP 4SFP+ EI Switch HPE 5130 24G SFP 4SFP+ EI

HPE FlexNetwork 5130 48G 4SFP+ EI Switch

HPE FlexNetwork 5130 24G PoE+ 4SFP+ (370W)
EI Switch

HPE FlexNetwork 5130 48G PoE+ 4SFP+ (370W)
EI Switch

HPE FlexNetwork 5130 24G PoE+ 2SFP+ 2XGT
(370W) EI Switch

HPE FlexNetwork 5130 48G PoE+ 2SFP+ 2XGT
(370W) EI Switch

HPE 5130 48G 4SFP+ EI

HPE 5130 24G PoE+ 4SFP+
(370W) EI

HPE 5130 48G PoE+ 4SFP+
(370W) EI

HPE 5130 24G PoE+ 2SFP+ 2XGT
(370W) EI

HPE 5130 48G PoE+ 2SFP+ 2XGT
(370W) EI

JG977A

JG978A

HPE FlexNetwork 5130 24G PoE+ 4SFP+ (370W)
EI Brazil Switch

HPE FlexNetwork 5130 48G PoE+ 4SFP+ (370W)
EI Brazil Switch

HPE 5130 24G PoE+ 4SFP+
(370W) EI BR

HPE 5130 48G PoE+ 4SFP+
(370W) EI BR

Power supplies (applies only to the JG933A switch):

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

For regulatory identification purposes, the HPE 5130 24G 4SFP+ EI, HPE 5130 24G SFP 4SFP+ EI,
HPE 5130 48G 4SFP+ EI, HPE 5130 24G PoE+ 4SFP+ (370W) EI, HPE 5130 48G PoE+ 4SFP+
(370W) EI, HPE 5130 24G 2SFP+ 2XGT EI, HPE 5130 48G 2SFP+ 2XGT EI, HPE 5130 24G PoE+
2SFP+ 2XGT (370W) EI, and HPE 5130 48G PoE+ 2SFP+ 2XGT (370W) EI switches are assigned
Regulatory Model Numbers (RMNs). The RMNs for these switches are listed below. These RMNs
should not be confused with the marketing name HPE FlexNetwork 5130 EI, or product codes
JG932A, JG933A, JG934A, JG936A, JG937A, JG938A, JG939A, JG940A, and JG941A.

Product
code

JG932A BJNGA-AD0027 HPE FlexNetwork 5130 24G 4SFP+ EI Switch

RMN HPE description

JG933A BJNGA-AD0028 HPE FlexNetwork 5130 24G SFP 4SFP+ EI Switch

1

Product
code

JG934A BJNGA-AD0029 HPE FlexNetwork 5130 48G 4SFP+ EI Switch

JG936A BJNGA-AD0031 HPE FlexNetwork 5130 24G PoE+ 4SFP+ (370W) EI Switch

JG937A BJNGA-AD0032 HPE FlexNetwork 5130 48G PoE+ 4SFP+ (370W) EI Switch

JG938A BJNGA-AD0033 HPE FlexNetwork 5130 24G 2SFP+ 2XGT EI Switch

JG939A BJNGA-AD0034 HPE FlexNetwork 5130 48G 2SFP+ 2XGT EI Switch

JG940A BJNGA-AD0035 HPE FlexNetwork 5130 24G PoE+ 2SFP+ 2XGT (370W) EI Switch

JG941A BJNGA-AD0036 HPE FlexNetwork 5130 48G PoE+ 2SFP+ 2XGT (370W) EI Switch

JG975A BJNGA-AD0027 HPE FlexNetwork 5130 24G 4SFP+ EI Brazil Switch

JG976A BJNGA-AD0029 HPE FlexNetwork 5130 48G 4SFP+ EI Brazil Switch

JG977A BJNGA-AD0031 HPE FlexNetwork 5130 24G PoE+ 4SFP+ (370W) EI Brazil Switch

JG978A BJNGA-AD0032 HPE FlexNetwork 5130 48G PoE+ 4SFP+ (370W) EI Brazil Switch

RMN HPE description

Safety recommendations

To avoid equipment damage or bodily injury, read the following safety recommendations before
installation. Note that the recommendations do not cover every possible hazardous condition.

• Before cleaning the switch, remove all power cords from the switch. Do not clean the switch

with wet cloth or liquid.

• Do not place the switch near water or in a damp environment. Prevent water or moisture from

entering the switch chassis.

• Do not place the switch on an unstable case or desk.

• Ensure good ventilation at the installation site 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 power source voltage is as required.

• To avoid electrical shocks, do not open the chassis while the switch is operating or when the

switch is just powered off.

• To avoid ESD damage, wear an ESD wrist strap to hot-swap a power supply.

Examining the installation site

The HPE FlexNetwork 5130 EI switches must be used indoors. You can mount your switch in a rack
or on a workbench, but make sure:

• Adequate clearance is reserved at the air inlet and exhaust vents for ventilation.

• The rack or workbench has a good ventilation system.

• The rack is sturdy enough to support the switch and its accessories.

• The rack or workbench is reliably grounded.

To ensure correct operation and long service life of your switch, install it in an environment that meets
the requirements described in the following subsections.

2

Temperature/humidity

Maintain temperature and humidity in the equipment room as described in "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 "Appendix A Chassis

views a

nd technical specifications."

Cleanliness

Dust buildup on the chassis might result in electrostatic adsorption, which causes poor contact of
metal components and contact points, especially when indoor relative humidity is low. In the worst
case, electrostatic adsorption can cause communication failure.

Table 1 Dust concentration limit in the equipment room

EMI

Substance Concentration limit (particles/m

Dust

NOTE:

Dust diameter ≥ 5 μm

≤ 3 x 104 (no visible dust on the tabletop over three days)

3

)

The equipment room must also meet limits on salts, acids, and sulfides to eliminate corrosion and
premature aging of components, as shown in Table 2.

Table 2

Harmful gas limits in the equipment room

Gas Maximum concentration (mg/m

SO

2

H2S 0.006

NH3 0.05

Cl2 0.01

0.2

3

)

All electromagnetic interference (EMI) sources, from outside or inside of the switch and application
system, adversely affect the switch in the following ways:

• A conduction pattern of capacitance coupling.

• Inductance coupling.

• Electromagnetic wave radiation.

• Common impedance (including the grounding system) coupling.

To prevent EMI, use the following guidelines:

• If AC power is used, use a single-phase three-wire power receptacle with protective earth (PE)

to filter interference from the power grid.

3

• Keep the switch far away from radio transmitting stations, radar stations, and high-frequency

devices to make sure the EMI levels do not exceed the compliant range.

• Use electromagnetic shielding when necessary. For example, use shielded interface cables.

• To prevent signal ports from getting damaged by over-voltage or over-current caused by

lightning strikes, only route interface cables indoors.

Laser safety

WARNING!

Do not stare into any fiber port when the switch has power. The laser light emitted from the optical
fiber might hurt your eyes.

The HPE FlexNetwork 5130 EI switches are Class 1 laser devices.

Installation tools

• Flat-blade screwdriver

• Phillips screwdriver

• ESD wrist strap

All these installation tools are user supplied.

Installation accessories

Table 3 Installation accessories

Product
code

5066-0850

5184-6978

Description Quantity Applicable models

1 U four-hole mounting
bracket kit (including one
pair of mounting brackets
and eight M4 countersunk
screws)

1 U two-hole mounting
bracket kit (including one
pair of mounting brackets
and four M4 countersunk
screws)

1 kit

1 kit

• HPE 5130 24G PoE+ 4SFP+ (370W) EI

• HPE 5130 48G 4SFP+ EI

• HPE 5130 48G PoE+ 4SFP+ (370W) EI

• HPE 5130 24G SFP 4SFP+ EI

• HPE 5130 48G 2SFP+ 2XGT EI

• HPE 5130 24G PoE+ 2SFP+ 2XGT (370W)

EI

• HPE 5130 48G PoE+ 2SFP+ 2XGT (370W)
EI

• HPE 5130 48G 4SFP+ EI BR

• HPE 5130 24G PoE+ 4SFP+ (370W) EI BR

• HPE 5130 48G PoE+ 4SFP+ (370W) EI BR

• HPE 5130 24G 4SFP+ EI

• HPE 5130 24G 2SFP+ 2XGT EI

• HPE 5130 24G 4SFP+ EI BR

4

Product
code

N/A

5185-9292

5184-6729

Description Quantity Applicable models

M6 screw and floating nut

Grounding cable

Grounding cable

DC power cord (supplied
with the
PSR150-D/PSR150-D1
(JD366A/JD366B)DC
power supply)

User
supplied

1

1

All HPE 5130 EI switches

• HPE 5130 24G 4SFP+ EI

• HPE 5130 24G SFP 4SFP+ EI

• HPE 5130 48G 4SFP+ EI

• HPE 5130 24G 2SFP+ 2XGT EI

• HPE 5130 48G 2SFP+ 2XGT EI

• HPE 5130 24G 4SFP+ EI BR

• HPE 5130 48G 4SFP+ EI BR

• HPE 5130 24G PoE+ 4SFP+ (370W) EI

• HPE 5130 48G PoE+ 4SFP+ (370W) EI

• HPE 5130 24G PoE+ 2SFP+ 2XGT (370W)

EI

• HPE 5130 48G PoE+ 2SFP+ 2XGT (370W)
EI

• HPE 5130 24G PoE+ 4SFP+ (370W) EI BR

• HPE 5130 48G PoE+ 4SFP+ (370W) EI BR

5185-9443
5080-0120

5184-7298

The power cord color code
scheme is for illustration
only. The cable delivered
for your country or region
might use a different color
scheme.

Rubber feet

1

4 All HPE 5130 EI switches

PSR150-D/PSR150-D1(JD366A/JD366B) DC
power supply

5

Installing the switch

CAUTION:

Keep the tamper-proof seal on a mounting screw on the chassis cover intact, and if you want to open
the chassis, contact Hewlett Packard Enterprise for permission. Otherwise, Hewlett Packard
Enterprise shall not be liable for any consequence.

Figure 1 Hardware installation flow

Installing the switch in a 19-inch rack

Mounting brackets

Table 4 describes the mounting brackets provided with the switch.

6

Table 4 Mounting brackets provided with the switch

Switch model Mounting brackets Views

• HPE 5130 24G 4SFP+ EI

• HPE 5130 24G 2SFP+ 2XGT EI

• HPE 5130 24G 4SFP+ EI BR

• HPE 5130 24G PoE+ 4SFP+ (370W) EI

• HPE 5130 24G PoE+ 2SFP+ 2XGT (370W) EI

• HPE 5130 48G 4SFP+ EI

• HPE 5130 48G PoE+ 4SFP+ (370W) EI

• HPE 5130 24G SFP 4SFP+ EI

• HPE 5130 48G 4SFP+ EI BR

• HPE 5130 48G 2SFP+ 2XGT EI

• HPE 5130 48G PoE+ 2SFP+ 2XGT (370W) EI

• HPE 5130 24G PoE+ 4SFP+ (370W) EI BR

• HPE 5130 48G PoE+ 4SFP+ (370W) EI BR

Figure 2 1U two-hole mounting bracket

One pair of 1U two-hole mounting
brackets

One pair of 1U four-hole mounting
brackets

See Figure 2.

See Figure 3.

(1) Screw hole for attaching the bracket to the switch

(2 ) Screw hole for attaching the bracket to the rack post

Figure 3 1U four-hole mounting bracket

(1) Screw hole for attaching the bracket to the switch

(2 ) Screw hole for attaching the bracket to the rack post

7

Attaching the mounting brackets to the switch

The HPE 5130 24G 4SFP+ EI, HPE 5130 24G 4SFP+ EI BR, HPE 5130 48G 4SFP+ EI BR, HPE
5130 24G PoE+ 4SFP+ (370W) EI BR, HPE 5130 24G PoE+ 4SFP+ (370W) EI, HPE 5130 24G
2SFP+ 2XGT EI, HPE 5130 48G 2SFP+ 2XGT EI, and HPE 5130 48G 4SFP+ EI switches provide
two mounting positions: one front mounting position (near the network ports) and one rear mounting
position (near the power supplies).

The HPE 5130 48G PoE+ 4SFP+ (370W) EI, HPE 5130 48G PoE+ 4SFP+ (370W) EI BR, HPE 5130
24G PoE+ 2SFP+ 2XGT (370W) EI, HPE 5130 48G PoE+ 2SFP+ 2XGT (370W) EI, and HPE 5130
24G SFP 4SFP+ EI switches provide three mounting positions: one front mounting position (near the
network ports), one mid-mounting position, and one rear mounting position (near the power
supplies).

To attach the mounting brackets to the switch:

1. Determine the mounting position.

2. Align one mounting bracket with the screw holes at the mounting position. Use M4 screws

provided with the switch to attach the mounting bracket to the chassis.

3. Repeat step 2 to attach the other mo
Figure 4 Attaching a two-hole mounting bracket to the front mounting position on an HPE

5130 24G 4SFP+ EI switch

unting bracket to the chassis.

Figure 5 Attaching a two-hole mounting bracket to the rear mounting position on an HPE
5130 24G 4SFP+ EI switch

Figure 6 Attaching a four-hole mounting bracket to the front mounting position on an HPE
5130 24G SFP 4SFP+ EI switch

8

Figure 7 Attaching a four-hole mounting bracket to the rear mounting position on an HPE
5130 24G SFP 4SFP+ EI switch

Figure 8 Attaching a four-hole mounting bracket to the mid-mounting position on an HPE
5130 24G SFP 4SFP+ EI switch

Rack-mounting the switch

This task requires two people. To mount the switch in the rack:

1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded.

2. Verify that the mounting brackets have been securely attached to the switch chassis.

3. Install cage nuts in the mounting holes in the rack posts.

4. One person holds the switch chassis and aligns the mounting brackets with the mounting holes

in the rack posts, and the other person attaches the mounting brackets with screws
(user-supplied) to the rack.

5. Verify that the switch chassis is horizontal and secure.
Figure 9 Mounting an HPE 5130 24G SFP 4SFP+ EI switch by the front mounting position

9

Figure 10 Mounting an HPE 5130 24G SFP 4SFP+ EI switch by the rear mounting position

Figure 11 Mounting an HPE 5130 24G SFP 4SFP+ EI switch by the mid-mounting position

Mounting the switch on a workbench

IMPORTANT:

• Ensure 10 cm (3.9 in) of clearance around the chassis for heat dissipation.

• Do not place heavy objects on the switch.

If a standard 19-inch rack is not available, you can place you switch on a workbench.

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.
Figure 12 Mounting the switch on a workbench

10

Grounding the switch

WARNING!

Correctly connecting the switch grounding cable is crucial to lightning protection and EMI protection.

The power input end of the switch has a noise filter, whose central ground is directly connected to the
chassis to form the chassis ground (commonly known as PGND). You must securely connect this
chassis ground to the earth to minimize the potential for system damage, maximize the safety at the
site, and minimize EMI susceptibility of the system.

You can ground the switch in one of the following ways, depending on the grounding 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

NOTE:

• The power and grounding terminals in this section are for illustration only.

• To guarantee the grounding effect, use the grounding cable provided with the switch to connect

to the grounding strip in the equipment room as long as possible.

Grounding the switch with a grounding strip

WARNING!

Connect the grounding cable to the grounding system in the equipment room. Do not connect it to a
fire main or lightning rod.

If a grounding strip is available at the installation site, use the grounding strip to ground the switch.

To ground the switch by using a grounding strip:

1. Connect one end of the grounding cable to the grounding screw on the switch.
a. Remove the grounding screw from the rear panel of the switch chassis.
b. Attach the grounding screw to the ring terminal of the grounding cable.
c. Use a screwdriver to fasten the grounding screw into the grounding screw hole.

11

Figure 13 Connecting the grounding cable to the grounding hole of the switch

(1) Chassis rear panel (2) Grounding sign

(3) Grounding hole (4) Ring terminal

(5) Grounding cable (6) Grounding screw

2. Connect the other end of the grounding cable to the grounding strip.
a. Cut the grounding cable to a length according to the distance between the switch and the

grounding strip.

b. Peel 20 mm (0.79 in) of insulation sheath by using a wire stripper.
c. Use the needle-nose pliers to bend the bare wire.
d. Hook the grounding cable to the post on the grounding strip, and use the hex nut to secure

the cable to the post.

Figure 14 Connecting the grounding cable to a grounding strip

(1) Grounding post (2) Grounding strip

(3) Grounding cable (4) Hex nut

Grounding the switch with a grounding conductor buried in 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.

12

The dimensions of the angle iron must be at least 50 × 50 × 5 mm (1.97 × 1.97 × 0.20 in). The steel
tube must be zinc-coated and its wall thickness must be at least 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.

Figure 15 Grounding the switch by burying the grounding conductor into the earth ground

(1) Grounding screw (2) Grounding cable (3) Earth

(4) Joint (5) Grounding conductor (6) Chassis rear panel

Installing and removing a power supply (HPE 5130 24G SFP 4SFP+ EI switch)

CAUTION:

Provide a circuit breaker for each power supply and make sure the circuit breaker is off before
installation.

The HPE 5130 24G SFP 4SFP+ EI switch provides two power supply slots and comes with power
supply slot 1 empty and a filler panel in power supply slot 2. You can install one power supply, or two
power supplies for redundancy. For information about power supplies available for the HPE 5130
24G SFP 4SFP+ EI switch, see "Appendix B FRUs."

When two power supplies are installed, you can hot-swap a power supply. To avoid device damage
and bodily injury, follow the procedures in Figure 16 and Figure 17 to install
supply.

Figure 16 Installation procedure

Figure 17 Removal procedure

and replace a power

The installation and removal procedures are the same for the
PSR150-A/PSR150-A1(JD362A/JD362B) and PSR150-D/PSR150-D1(JD366A/JD366B) power
supplies. This guide uses the PSR150-A1 (JD362B) power supply as an example.

13

Installing a power supply

1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded.

2. Unpack the power supply and verify that the power supply model is as required.

3. Remove the filler panel (if any) from the target slot.

If you require only one power supply, install it in power supply slot 1 and make sure a filler panel
is installed in power supply slot 2.

4. Orient the power supply with the upside up. 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 18.

To preve
power supply gently. If you encounter a hard resistance or the power supply tilts while inserting
the power supply, pull out the power supply, realign it with the slot, and then insert it again.

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 18.

If the captive scre

Figure 18 Installing a PSR150-A1 (JD362B) power supply

nt damage to the power supply and the connector on the switch backplane, insert the

w cannot be tightly fastened, examine the installation of the power supply.

2

Removing a power supply

1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded.

2. Power off the power supply and remove the power cord.

3. Loosen the captive screws on the power supply with a Phillips screwdriver until they are

completely disengaged from the chassis.

4. Grasp the handle of the power supply with one hand and pull the module part way out. Support

the module bottom with the other hand, and pull the power supply slowly along the guide rails
out of the slot.

5. Place the removed power supply in an antistatic bag.

2

1

14

Figure 19 Removing a PSR150-A1 (JD362B) power supply

Connecting the power cord

CAUTION:

• Provide a circuit breaker for each power cord.

• Before connecting the power cord, make sure the circuit breaker on the power cord is turned off.

Table 5 Power cord connection procedures at a glance

Switch model

• HPE 5130 24G 4SFP+ EI

• HPE 5130 24G 2SFP+ 2XGT EI

• HPE 5130 24G 4SFP+ EI BR

• HPE 5130 48G 4SFP+ EI

• HPE 5130 24G SFP 4SFP+ EI

• HPE 5130 48G 2SFP+ 2XGT EI

• HPE 5130 48G 4SFP+ EI BR

• HPE 5130 24G PoE+ 4SFP+ (370W) EI

• HPE 5130 48G PoE+ 4SFP+ (370W) EI

• HPE 5130 24G PoE+ 2SFP+ 2XGT (370W) EI

• HPE 5130 48G PoE+ 2SFP+ 2XGT (370W) EI

• HPE 5130 24G PoE+ 4SFP+ (370W) EI BR

• HPE 5130 48G PoE+ 4SFP+ (370W) EI BR

Available power
source

AC power source

AC power source

–48 V DC power source
in the equipment room

RPS Recommended
HPE RPS models:
A-RPS800 (JD183A )
and A-RPS1600
(JG136A)

AC power source

HPE A-RPS1600

Connection
procedure reference

Connecting the switch to
an AC power source

Connecting the switch to
an AC power source

Connecting the switch to
a –48 VDC power source

Connecting the sw
an RPS

Connecting the sw
an AC power source

Connecting the sw
an RPS

itch to

itch to

itch to

The HPE 5130 24G SFP 4SFP+ EI switch provides two power supply slots. The
PSR150-A/PSR150-A1 (JD362A/JD362B) and PSR150-D/PSR150-D1 (JD366A/JD366B) power
supplies are available for the HPE 5130 24G SFP 4SFP+ EI switch. The PSR150-A/PSR150-A1
(JD362A/JD362B)power supply supports AC power input. The PSR150-D/PSR150-D1
(JD366A/JD366B) power supply supports –48 V DC power input and RPS power input.

15

Connecting the switch to an AC power source

Securing the AC power cord for a hot-swappable AC power supply

1. Insert the cable tie through the hole in the power supply handle.

2. Use the cable tie to secure the AC power cord to the power supply handle.

Figure 20 Securing the AC power cord for a hot-swappable AC power supply

Securing the AC power cord for a fixed power supply

1. Insert the cable tie through the cable bridge.

2. Use the cable tie to secure the AC power cord to the cable bridge.

Figure 21 Inserting the cable tie through the cable bridge

16

Figure 22 Using the cable tie to secure the AC power cord

Connecting the switch to a –48 VDC power source

CAUTION:

• You can only use an HPE DC power cord to connect the switch to a –48 VDC power source.

• The power cord color code scheme in Figure 23 is for

your country or region might use a different color scheme. When you connect a power cord,
always identify the polarity symbol on its wires.

To connect the switch to a –48 VDC power source:

1. Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded.

2. Insert the DC connector into the DC power receptacle. See callout 1 in Figure 23.

The conne

ctor of the DC power cord and the DC power receptacle are foolproof. Make sure the

connector is correctly oriented.

3. Use a flat-blade screwdriver to fasten the two screws on the DC plug to secure the plug to the

DC receptacle. See callout 2 in Figure 23.

4. Con

nect the other ends of the wires to the –48 VDC power source wiring terminals, with the

negative wire (– or L–) to the negative terminal (–) and the positive wire (+ or M/N) to the
positive terminal (+).

illustration only. The cable delivered for

17

Figure 23 Connecting the DC power cord to an HPE 5130 24G SFP 4SFP+ EI switch

1

Connecting the switch to an RPS

2

CAUTION:

To connect the switch to an HPE RPS, you can only use the power cord that is provided with the
RPS.

To connect the switch to an RPS:

1. Correctly orient the plug with the power receptacle on the power supply, and insert the plug into

the receptacle (See callout 1 in Figure 23).

If you cannot insert the plug into the receptacle, re-orient the plug rather than use excessive
force to push it in.

2. Tighten the screws on the plug with a flat-blade screwdriver to secure the plug in the RPS

receptacle. See callout 2 in Figure 23.

3. Con

nect the other end of the power cord to the RPS.

Figure 24 Connecting an RPS cord to an HPE 5130 48G 4SFP+ EI switch

18

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.

• 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.

19

Accessing the switch for the first time

Setting up the configuration environment

The first time you access the switch you must use a console cable to connect a configuration
terminal, for example, a PC, to the console port on the switch, as shown in Figure 25.

The switch is not provide
Packard Enterprise.

Figure 25 Connecting the console port to a terminal

d with a serial console cable.Prepare yourself or purchase it from Hewlett

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 console port of the switch, and a DB-9 female connector at the other end for
connecting to the serial port on the configuration terminal.

Figure 26 Console cable

A side

Pin 9

A

Pin 1

Table 6 Console cable pinouts

RJ-45 Signal DB-9 Signal

1 RTS 8 CTS

2 DTR 6 DSR

3 TXD 2 RXD

Main label

20

8

1

B side

B

RJ-45 Signal DB-9 Signal

4 SG 5 SG

5 SG 5 SG

6 RXD 3 TXD

7 DSR 4 DTR

8 CTS 7 RTS

To connect a 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.

NOTE:

• 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. To disconnect a PC from an operating switch, first disconnect the switch
end.

Setting terminal parameters

To configure and manage the switch through the console port, you must run a terminal emulator
program, HyperTerminal or PuTTY, on your configuration terminal. For more information 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.

• Stop bits—1.

• Parity—None.

• 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 configuration terminal (a PC, for example) has started, and its serial port settings are

consistent with the console port settings on the switch.

Power on the switch. During the startup process, you can access Boot ROM menus to perform tasks
such as software upgrade and file management. The Boot ROM interface and menu options 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.

21

For more information about the configuration commands and CLI, see HPE FlexNetwork 5130 EI

Switch Series Configuration Guides and HPE FlexNetwork 5130 EI Switch Series Command
References.

22

Setting up an IRF fabric

You can use HPE IRF technology to connect and virtualize HPE FlexNetwork 5130 EI 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 27 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.

• Identifying the master switch and p

• Planning IRF topology and connections

• Identifying physical IRF ports on the member switches

• Planning the cabling scheme

23

lanning IRF member IDs

Step Description

2. Install IRF member

switches.

3. Connect grounding

cables and power
cords.

4. Power on the

switches.

5. Configure basic IRF

settings.

6. Connect the physical

IRF ports.

See "Installing the switch in a 19-inch rack" o

workbench."

See "Grounding the switch" a

N/A

See HPE FlexNetwork 5130 EI Switch Series IRF Configuration Guide.

Connect physical IRF ports on switches. Use SFP+ transceiver modules and
fibers for connections over a long distance, or use SFP+ cables or twisted pair
cables for connections over a short distance.

All switches except the master switch automatically reboot, and the IRF fabric
is established.

nd "Connecting the power cord."

r "Mounting the switch on a

Planning IRF fabric setup

This section describes issues that an IRF fabric setup plan must cover.

Planning IRF fabric size and the installation site

Choose switch models and identify the number of required IRF member switches, depending on the
user density and upstream bandwidth requirements. The switching capacity of an IRF fabric equals
the total switching capacities of all member switches.

An HPE FlexNetwork 5130 IRF fabric can have a maximum of 9 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.

Identifying the master switch and planning IRF member 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. You 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 FlexNetwork 5130 EI 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 fabric to split as in daisy chain topology. Instead,
the IRF fabric changes to a daisy chain topology without interrupting network services.

24

You connect the IRF member switches through IRF ports, 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 at least one physical port to it.

When connecting two neighboring IRF member switches, you must connect the physical ports of
IRF-port 1 on one switch to the physical ports of IRF-port 2 on the other switch.

The HPE FlexNetwork 5130 EI switches can provide 10-GE IRF connections through 1/10 GE
Ethernet ports or SFP+ ports, and you can bind several 1/10 GE Ethernet ports or SFP+ ports to an
IRF port for increased bandwidth and availability.

Figure 28 and

Figure 29 show the topologies of an IRF fabric containing three HPE 5130 24G 4SFP+
EI switches. The IRF port connections in the two figures are for illustration only, and more connection
methods are available.

Figure 28 IRF fabric in daisy chain topology

Figure 29 IRF fabric in ring topology

Identifying physical IRF ports on the member switches

Identify the physical IRF ports on the member switches according to your topology and connection
scheme.

25

Planning the cabling scheme

Use twisted pair cables, SFP+ cables, or SFP+ transceiver modules and fibers to connect the IRF
member switches. If the IRF member switches are far away from one another, choose the SFP+
transceiver modules with optical fibers. If the IRF member switches are all in one equipment room,
choose twisted pair cables or SFP+ cables.

As a best practice, use ring topology to connect the switches. The following describes cabling
schemes in ring topology.

Connecting the IRF member switches in one rack

Use SFP+ cables to connect the IRF member switches (9 switches in this example) in a rack as
shown in Figure 30. Th
connected in the rack.

Figure 30 Connecting the switches in one rack

1

2

3

e switches in the ring topology (see Figure 31) are in the same order as

4

5

6

7

8

9

26

1

2

3

4

5

6

7

8

9

Figure 31 IRF fabric topology

Connecting the IRF member switches in a ToR solution

You can install IRF member switches in different racks side by side to deploy a top of rack (ToR)
solution.

Figure 32 sh

transceiver modules and optical fibers. The topology is the same as Figure 31.

Figure 32

ows an example for connecting 9 top of rack IRF member switches by using SFP+

ToR cabling

27

r

Configuring basic IRF settings

After you install the IRF member switches, power on the switches, and log in to each IRF member

switch (see HPE FlexNetwork 5130 EI Switch Series Fundamentals Configuration Guide) to

configure their member IDs, member priorities, and IRF port bindings.

Follow these guidelines when you configure 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

perform IRF port binding before or after connecting IRF physical ports depending on the
software release.

• Execute the display irf configuration command to verify the basic IRF settings.
For more information about configuring basic IRF settings, see HPE FlexNetwork 5130 EI Switch

Series IRF Configuration Guide.

Connecting the physical IRF ports

Use twisted pair cables, SFP+ cables, or SFP+ transceiver modules and fibers to connect the IRF
member switches as planned.

Wear an ESD wrist strap when you connect twisted pair cables, SFP+ cables, or SFP+ transceiver

modules and fibers. For how to connect them, see HPE Transceiver Modules and Network Cables
Installation Guide.

Verifying the IRF fabric setup

To verify the basic functionality of the IRF fabric after you finish configuring basic IRF settings 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 or SNMP to access the IRF fabric from the network management station. (See HPE

FlexNetwork 5130 EI 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 7.
Table 7

NOTE:

To avoid IP address collision and network problems, configure at least one multi-active detection
(MAD) mechanism to detect the presence of multiple identical IRF fabrics and handle collisions. Fo

more information about MAD detection, see HPE FlexNetwork 5130 EI Switch Series IRF
Configuration Guide.

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.

display irf

display irf configuration

display irf topology

28

Maintenance and troubleshooting

Fixed power supply failure

The HPE 5130 24G 4SFP+ EI, HPE 5130 24G 2SFP+ 2XGT EI, and HPE 5130 24G 4SFP+ EI BR
switches use fixed power supplies and support only AC power input.

The HPE 5130 24G PoE+ 4SFP+ (370W) EI, HPE 5130 48G 4SFP+ EI, HPE 5130 24G PoE+
4SFP+ (370W) EI BR, HPE 5130 48G PoE+ 4SFP+ (370W) EI BR, HPE 5130 48G 2SFP+ 2XGT EI,
HPE 5130 24G PoE+ 2SFP+ 2XGT (370W) EI, HPE 5130 48G PoE+ 2SFP+ 2XGT (370W) EI, and
HPE 5130 48G PoE+ 4SFP+ (370W) EI switches use fixed power supplies and support AC power
input, RPS power input, and concurrent AC and RPS DC inputs. For these switch models, the
"Power x failed" message is displayed as long as only one power supply is operating because the
switch cannot identify whether the other power supply is not connected or has failed. In this case,
see this section to determine the power supply state.

To identify a fixed power supply failure, examine the system status LED and the RPS status LED of
the switch.

Table 8 Fixed power supply LED description

LED Mark Status Description

System status LED SYS Off The switch is powered off.

RPS status LED RPS

AC input failure

Symptom

The system status LED is off.

Solution

To resolve the problem:

1. Verify that the AC power cord is securely connected to the switch, and the AC-input power

receptacle on the switch and the connected AC power outlet are in good condition.

2. Verify that the AC power source is operating correctly.

3. Verify that the operating temperature of the switch is in the acceptable range, and the power

supply has good ventilation. Over-temperature can cause the power supply to stop working and
enter the protection state.

4. If the problem persists, contact Hewlett Packard Enterprise Support.

Steady green

Steady yellow

Off No RPS is connected.

The AC input is normal, and the RPS is in position or
working normally.

RPS power input is normal, but AC input has failed or
AC input is not connected.

RPS DC input failure

Symptom

The system status LED or RPS status LED is off.

29

Solution

To resolve the problem:

1. Verify that the switch is securely connected to the RPS.

2. Verify that the RPS is operating correctly.

3. Verify that the operating temperature of the switch is in the acceptable range, and the power

supply has good ventilation. Over-temperature can cause the power supply to stop working and
enter the protection state.

4. If the problem persists, contact Hewlett Packard Enterprise Support.

Concurrent RPS and AC input failure

Symptom

• The system status LED is off.

It indicates that both the AC input and RPS input have failed. To resolve the problem, see
"Solution 1."

• The sy

It indicates that the AC input has failed. To resolve the problem, see "Solution 2."

• The sy

It indicates that the RPS input has failed. To resolve the problem, see "Solution 3."

stem status LED is on but the RPS status LED is steady yellow.

stem status LED is on but the RPS status LED is off.

Solution 1

To resolve the problem:

1. Verify that the AC power cord is securely connected to the switch, and the AC-input power

2. Verify that the AC power source is operating correctly.

3. Verify that the switch is securely connected to the RPS.

4. Verify that the RPS is operating correctly.

5. Verify that the operating temperature of the switch is in the acceptable range, and the power

6. If the problem persists, contact Hewlett Packard Enterprise Support.

Solution 2

To resolve the problem:

1. Verify that the AC power cord is securely connected to the switch, and the AC-input power

2. Verify that the AC power source is operating correctly.

3. If the problem persists, contact Hewlett Packard Enterprise Support.

Solution 3

To resolve the problem:

1. Verify that the switch is securely connected to the RPS.

2. Verify that the RPS is operating correctly.

3. If the problem persists, contact Hewlett Packard Enterprise Support.

receptacle on the switch and the connected AC power outlet are in good condition.

supply has good ventilation. Over-temperature can cause the power supply to stop working and
enter the protection state.

receptacle on the switch and the connected AC power outlet are in good condition.

30

Hot-swappable power supply failure

The HPE 5130 24G SFP 4SFP+ EI switch uses hot-swappable power supplies. You can determine
the power supply operating status by examining the power supply LEDs PWR1 and PWR2 on the
switch front panel. For descriptions about the PWR1 and PWR2 LEDs, see "Appendix C Ports and

LEDs."

Symptom

The LED indicates that a power supply failure has occurred.

Solution

To resolve the problem:

1. Verify that the power supply model is as required.

2. Verify that the power supply is installed correctly in the switch.

3. Verify that the switch is operating in the acceptable temperature range.

4. If the problem persists, contact Hewlett Packard Enterprise Support.

Configuration terminal problems

No display on the configuration terminal

Symptom

The configuration terminal does not display any information when the switch is powered on.

Solution

To resolve the problem:

1. Verify that the power system is operating correctly.

2. Verify that the switch is operating correctly.

3. Verify that the console cable has been connected correctly.

4. Verify that the following settings are configured for the terminal:

{ Baud rate—9600.
{ Data bits—8.
{ Parity—None.
{ Stop bits—1.
{ Flow control—None.

5. Verify that the console cable is not faulty.

6. If the problem persists, contact Hewlett Packard Enterprise Support.

Garbled display on the configuration terminal

Symptom

The configuration terminal displays garbled text.

31

Solution

To resolve the problem:

1. Verify that the following settings are configured for the terminal:

{ Baud rate—9600.
{ Data bits—8.
{ Parity—None.
{ Stop bits—1.
{ Flow control—None.

2. If the problem persists, contact Hewlett Packard Enterprise Support.

32

Appendix A Chassis views and technical specifications

Chassis views

HPE 5130 24G 4SFP+ EI/HPE 5130 24G 4SFP+ EI BR

Figure 33 Front panel

(1) 10/100/1000Base-T autosensing Ethernet port (2) SFP+ port

(3) Console port

(5) SFP+ port LED (6) System status LED (SYS)

Figure 34 Rear panel

(4) 10/100/1000Base-T autosensing Ethernet port
LED

(1) AC-input power receptacle (2) Grounding screw

33

HPE 5130 24G PoE+ 4SFP+ (370W) EI/HPE 5130 24G PoE+ 4SFP+ (370W) EI BR

Figure 35 Front panel

(1) 10/100/1000Base-T autosensing Ethernet
port

(3) Console port (4) Port LED mode switching button

(5) Port mode LED (6) 10/100/1000Base-T autosensing Ethernet port LED

(7) SFP+ port LED (8) System status LED (SYS)

(9) RPS status LED (RPS)

Figure 36 Rear panel

(1) AC-input power receptacle (2) RPS receptacle

(3) Grounding screw

HPE 5130 24G 2SFP+ 2XGT EI

Figure 37 Front panel

(2) SFP+ port

(1) 10/100/1000Base-T autosensing Ethernet port (2) SFP+ port

(3) 1/10GBase-T autosensing Ethernet port (4) Console port

(5) 10/100/1000Base-T autosensing Ethernet port LED (6) SFP+ port LED

(7) System status LED (SYS) (8) 1/10GBase-T autosensing Ethernet port LED

34

Figure 38 Rear panel

(1) AC-input power receptacle (2) Grounding screw

HPE 5130 24G PoE+ 2SFP+ 2XGT (370W) EI

Figure 39 Front panel

(1) 10/100/1000Base-T autosensing Ethernet port (2) SFP+ port

(3) 1/10GBase-T autosensing Ethernet port (4) Console port

(5) Port LED mode switching button

(7) SFP+ port LED (8) System status LED (SYS)

(9) RPS status LED (RPS) (10) 1/10GBase-T autosensing Ethernet port LED

(11) Port mode LED

(6) 10/100/1000Base-T autosensing Ethernet port
LED

Figure 40 Rear panel

(1) AC-input power receptacle (2) RPS receptacle

(3) Grounding screw

35

HPE 5130 48G 4SFP+ EI/HPE 5130 48G 4SFP+ EI BR

Figure 41 Front panel

(1) 10/100/1000Base-T autosensing Ethernet port

(3) Console port (4) SFP+ port LED

(5) SFP+ port (6) System status LED (SYS)

(7) RPS status LED (RPS)

(2) 10/100/1000Base-T autosensing Ethernet port
LED

Figure 42 Rear panel

(1) AC-input power receptacle (2) RPS receptacle

(3) Grounding screw

HPE 5130 48G PoE+ 4SFP+ (370W) EI/HPE 5130 48G PoE+ 4SFP+ (370W) EI BR

Figure 43 Front panel

(1) 10/100/1000Base-T autosensing Ethernet port

(3) Console port (4) SFP+ port

(5) Port LED mode switching button (6) Port mode LED

(7) System status LED (SYS) (8) RPS status LED (RPS)

(9) SFP+ port LED

36

(2) 10/100/1000Base-T autosensing Ethernet port
LED

1 2 3 4 5 6

9

7
8

Figure 44 Rear panel

(1) Grounding screw (2) AC-input power receptacle

(3) RPS receptacle

HPE 5130 48G 2SFP+ 2XGT EI

Figure 45 Front panel

(1) 10/100/1000Base-T autosensing Ethernet port

(3) SFP+ port (4) Console port

(5) 1/10GBase-T autosensing Ethernet port (6) System status LED (SYS)

(7) RPS status LED (RPS) (8) 1/10GBase-T autosensing Ethernet port LED

(9) SFP+ port LED

(2) 10/100/1000Base-T autosensing Ethernet port
LED

Figure 46 Rear panel

(1) AC-input power receptacle (2) RPS receptacle

(3) Grounding screw

37

HPE 5130 48G PoE+ 2SFP+ 2XGT (370W) EI

Figure 47 Front panel

(1) 10/100/1000Base-T autosensing Ethernet port

(3) SFP+ port (4) Console port

(5) Port LED mode switching button (6) Port mode LED

(7) System status LED (SYS) (8) RPS status LED (RPS)

(9) 1/10GBase-T autosensing Ethernet port (10) 1/10GBase-T autosensing Ethernet port LED

(11) SFP+ port LED

(2) 10/100/1000Base-T autosensing Ethernet port
LED

Figure 48 Rear panel

(1) AC-input power receptacle (2) RPS receptacle

(3) Grounding screw

38

HPE 5130 24G SFP 4SFP+ EI

Figure 49 Front panel

(1) 100/1000Base-X SFP port (2) 100/1000Base-X SFP port LED

(3) 10/100/1000Base-T autosensing Ethernet port

(5) SFP+ port (6) SFP+ port LED

(7) Console port (8) System status LED (SYS)

(9) Power supply 1 status LED (PWR1) (10) Power supply 2 status LED (PWR2)

Figure 50 Rear panel

(4) 10/100/1000Base-T autosensing Ethernet port
LED

1 2 3

(1) Grounding screw (2) Power supply slot 1

(3) Power supply slot 2

The HPE 5130 24G SFP 4SFP+ EI switch comes with no power supply or filler panel in power supply
slot 1 and a filler panel in power supply slot 2. You can install one or two power supplies for the switch
as needed. In Figure 50,

two PSR150-A1 (JD362B) AC power supplies are installed. For more

information about installing and removing a power supply, see "Installing and removing a power

ply (HPE 5130 24G SFP 4SFP+ EI switch)."

sup

Technical specifications

Table 9 Technical specifications for non-PoE switch models

HPE 5130 24G
4SFP+ EI

Item

HPE 5130 24G
4SFP+ EI BR

HPE 5130
24G 2SFP+
2XGT EI

HPE 5130 48G
4SFP+ EI

HPE 5130 48G
4SFP+ EI BR

HPE 5130
24G SFP
4SFP+ EI

HPE 5130
48G 2SFP+
2XGT EI

Dimensions (H
× W × D)

43.6 × 440 × 160
mm (1.72 ×

17.32 × 6.30 in)

43.6 × 440 ×
160 mm
(1.72 × 17.32
× 6.30 in)

39

43.6 × 440 × 260
mm (1.72 ×

17.32 × 10.24 in)

43.6 × 440 ×
360 mm (1.72 ×

17.32 × 14.17
in)

43.6 × 440 ×
270 mm (1.72 ×

17.32 × 10.63
in)

HPE 5130 24G
4SFP+ EI

Item

HPE 5130 24G
4SFP+ EI BR

Weight ≤ 5 kg (11.02 lb)

Console ports 1 1 1 1 1

10/100/1000B
ase-T
autosensing
Ethernet ports

1/10GBase-T
autosensing
Ethernet ports

100/1000Base

-X SFP ports

24 24 48

N/A 2 N/A N/A 2

N/A N/A N/A

HPE 5130
24G 2SFP+
2XGT EI

≤ 3 kg (6.61
lb)

HPE 5130 48G
4SFP+ EI

HPE 5130 48G
4SFP+ EI BR

≤ 5 kg (11.02 lb) ≤ 8 kg (17.64 lb) ≤ 5 kg (11.02 lb)

HPE 5130
24G SFP
4SFP+ EI

8 (Each and its
corresponding
SFP port form a
combo
interface.)

24 (The
rightmost eight
SFP ports and
their
corresponding
10/100/1000Ba
se-T
autosensing
Ethernet ports
form combo
interfaces.)

HPE 5130
48G 2SFP+
2XGT EI

48

N/A

SFP+ ports 4 2 4 4 2

Power supply
slots

Input voltage

Minimum
power
consumption

Maximum
power
consumption

Chassis
leakage
current
compliance

N/A N/A N/A

• AC power source

{ Rated voltage: 100 VAC to 240 VAC @ 50 or

60 Hz

• Rated voltage: 100 VAC to
240 VAC @ 50 or 60 Hz

• Max voltage: 90 VAC to 264
VAC @ 47 to 63 Hz

19 W 20 W

26 W 34 W

• UL60950-1

• EN60950-1

• IEC60950-1

• GB4943.1

{ Max voltage: 90 VAC to 264 VAC @ 47 to 63

Hz

• DC power source: –48 V DC power source in the
equipment room or RPS (recommended HPE
RPS models: A-RPS800 or A-RPS1600)

{ Rated voltage: –48 VDC to –60 VDC

• Max voltage: –36 VDC to –72 VDC

• AC: 38 W

• DC: 38 W

• AC: 45 W

• DC: 50 W

2, on the rear
panel

• AC: 30 W

• DC: 38 W

• AC: 60 W

• DC: 68 W

N/A

• AC: 36 W

• DC: 36 W

• AC: 54 W

• DC: 54 W

40

Item

Melting
current of
power supply
fuse

Operating
temperature

Operating
humidity

Fire
resistance
compliance

HPE 5130 24G
4SFP+ EI

HPE 5130 24G
4SFP+ EI BR

AC-input: 2
A/250 V

0°C to 45°C (32°F to 113°F)

5% to 95%, noncondensing

• UL60950-1

• EN60950-1

• IEC60950-1

• GB4943.1

HPE 5130
24G 2SFP+
2XGT EI

2 A/250 V

HPE 5130 48G
4SFP+ EI

HPE 5130 48G
4SFP+ EI BR

• AC-input:
10 A/250 V

• DC-input: 5
A/250 V

Table 10 Technical specifications for PoE switch models

Item

HPE 5130 24G
PoE+ 2SFP+
2XGT (370W) EI

HPE 5130 24G
PoE+ 4SFP+
(370W) EI

HPE 5130 24G
PoE+ 4SFP+
(370W) EI BR

HPE 5130 48G
PoE+ 4SFP+
(370W) EI

HPE 5130 48G
PoE+ 4SFP+
(370W) EI BR

HPE 5130
24G SFP
4SFP+ EI

• AC-input:

6.3 A/250
V

• DC-input:
8 A/250 V

HPE 5130 48G
PoE+ 2SFP+
2XGT (370W) EI

HPE 5130
48G 2SFP+
2XGT EI

• AC-input:
10 A/250 V

• DC-input:
5 A/250 V

Dimensions
(H × W × D)

Weight ≤ 6 kg (13.23 lb) ≤ 8 kg (17.64 lb) ≤ 8 kg (17.64 lb) ≤ 7 kg (15.43 lb)

Console ports 1 1 1 1

10/100/1000
Base-T
autosensing
Ethernet
ports

1/10GBase-T
autosensing
Ethernet
ports

SFP+ ports 2 4 4 2

Input voltage

43.6 × 440 × 360
mm (1.72 × 17.32 ×

14.17 in)

24 24 48 48

2 N/A N/A 2

• Rated
voltage: 100
VAC to 240
VAC @ 50 or
60 Hz

• Max voltage:
90 VAC to 264
VAC @ 47 to
63 Hz

43.6 × 440 × 300 mm
(1.72 × 17.32 × 11.81
in)

• AC power source

{ Rated voltage: 100 VAC to 240 VAC @ 50 or 60 Hz
{ Max voltage: 90 VAC to 264 VAC @ 47 to 63 Hz

• DC power source: HPE A-RPS1600

{ Rated voltage: –54 VDC to –57 VDC

• Max voltage: –44 VDC to –60 VDC for single DC input and –54
VDC to –57 VDC for AC+DC dual inputs

43.6 × 440 × 360 mm
(1.72 × 17.32 × 14.17
in)

43.6 × 440 × 420
mm (1.72 × 17.32
× 16.54 in)

Maximum

30 W 30 W 30 W 30 W

41

Item

PoE per port

Total PoE

Minimum
power
consumption

Maximum
power
consumption
(including
PoE
consumption)

Chassis
leakage
current
compliance

Melting
current of
power supply
fuse

HPE 5130 24G
PoE+ 2SFP+
2XGT (370W) EI

• AC: 370 W

• DC: 800 W

• AC: 31 W

• DC: 20 W

• AC: 425 W

(including 370
W PoE
consumption)

• DC: 830 W
(including 800
W PoE
consumption)

• UL60950-1

• EN60950-1

• IEC60950-1

• GB4943.1

• AC-input: 10

A/250 V

• DC-input: 25
A/250 V

HPE 5130 24G
PoE+ 4SFP+
(370W) EI

HPE 5130 24G
PoE+ 4SFP+
(370W) EI BR

• AC: 370 W

• DC: 800 W

• AC: 30 W

• DC: 25 W

• AC: 460 W

(including 370 W
PoE
consumption)

• DC: 850 W
(including 800 W
PoE
consumption)

• AC-input: 10
A/250 V

• DC-input: 25
A/250 V

HPE 5130 48G
PoE+ 4SFP+
(370W) EI

HPE 5130 48G
PoE+ 4SFP+
(370W) EI BR

• AC: 370 W

• DC: 800 W

• AC: 47 W

• DC: 43 W

• AC: 490 W

(including 370 W
PoE
consumption)

• DC: 890 W
(including 800 W
PoE
consumption)

• AC-input: 10
A/250 V

• DC-input: 25
A/250 V

HPE 5130 48G
PoE+ 2SFP+
2XGT (370W) EI

• AC: 370 W

• DC: 800 W

• AC: 43 W

• DC: 30 W

• AC: 470 W

(including
370 W PoE
consumption)

• DC: 910 W
(including
800 W PoE
consumption)

• AC-input: 10
A/250 V

• DC-input: 25
A/250 V

Operating
temperature

Operating
humidity

Fire
resistance
compliance

0°C to 45°C (32°F to 113°F)

5% to 95%, noncondensing

• UL60950-1

• EN60950-1

• IEC60950-1

• GB4943.1

42

Appendix B FRUs

The HPE 5130 24G SFP 4SFP+ EI switch provides two power supply slots. One power supply can
meet the power requirement of the switch. You can install two power supplies on the switch for
redundancy. Table 11
switch.

Table 11 Power supplies available for the HPE 5130 24G SFP 4SFP+ EI switch

Power supply model Item Specification Remarks

describes the power supplies available for the HPE 5130 24G SFP 4SFP+ EI

100 VAC to 240 VAC @
50 Hz or 60 Hz

90 VAC to 264 VAC @ 47
Hz to 63 Hz

For more information
about the power

supplies, see HPE

PSR150-A & PSR150-D
Power Supplies User
Guide.

PSR150-A(JD362A)

PSR150-A1(JD362B)

PSR150-D(JD366A)

PSR150-D1(JD366B)

Rated input voltage

Max input voltage

Max output power 150 W

Rated input voltage –48 VDC to –60 VDC

Max input voltage –36 VDC to –72 VDC

Max output power 150 W

When two power supplies are installed, you can hot-swap a power supply. To avoid device damage
and bodily injury, follow the procedures in Figure 16 and Figure 17 to install an

d remove the power

supply.

43

Appendix C Ports and LEDs

Ports

Console port

The switch provides a console port.

Table 12 Console port specifications

Item Specification

Connector type RJ-45

Compliant standard EIA/TIA-232

Transmission baud rate 9600 bps (default) to 115200 bps

• Provides connection to an ASCII terminal.

Services

• Provides connection to the serial port of a local PC running terminal
emulation program.

10/100/1000Base-T autosensing Ethernet port

The switch provides 10/100/1000Base-T autosensing Ethernet ports.

Table 13 10/100/1000Base-T autosensing Ethernet port specifications

Item Specification

Connector type RJ-45

Interface attributes 10/100/1000 Mbps, half/full duplex, MDI/MDI-X autosensing

Max transmission
distance

Transmission medium Category-5 (or above) twisted pair cable

Compatible standards

100 m (328.08 ft)

• IEEE 802.3i

• 802.3u

• 802.3ab

1/10GBase-T autosensing Ethernet port

The HPE 5130 24G 2SFP+ 2XGT EI, HPE 5130 48G 2SFP+ 2XGT EI, HPE 5130 24G PoE+ 2SFP+
2XGT (370W) EI and HPE 5130 48G PoE+ 2SFP+ 2XGT (370W) EI switches provide 1/10GBase-T
autosensing Ethernet ports.

Table 14 1/10GBase-T autosensing Ethernet port specifications

Item Specification

Connector type RJ-45

Interface attributes 1/10 Gbps, full duplex, MDI/MDI-X autosensing

44

Item Specification

Transmission medium and max
transmission distance

Compatible standards

• 55 m (180.45 ft) over category-6 unshielded twisted pair cable

• 100 m (328.08 ft) over category-6 shielded twisted pair cable

• 100 m (328.08 ft) over category-6A or above twisted pair cable

• IEEE 802.3ab

• IEEE 802.3an

To avoid packet loss caused by interferences, layer cables as follows:

• Use category-6A or above cables and connectors.

• 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.

• 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.

100/1000Base-X SFP port

The HPE 5130 24G SFP 4SFP+ EI switch provides 24 100/1000Base-X SFP ports, and you can
install the 100 Mbps SFP transceiver modules in Table 15 and 1000
in Table 16 in

the SFP ports as needed.

Mbps SFP transceiver modules

Table 15 100 Mbps SFP transceiver modules available for the SFP ports

Product
code

JD102B

JD120B

JD090A

JD091A

JD100A

JD101A

HPE
description

HPE X115 100M
SFP LC FX
Transceiver

HPE X110 100M
SFP LC LX
Transceiver

HPE X110 100M
SFP LC LH40
Transceiver

HPE X110 100M
SFP LC LH80
Transceiver

HPE X110 100M
SFP LC BX 10-U
Transceiver

HPE X110 100M
SFP LC BX 10-D
Transceiver

Central
wavelength

Connector

(nm)

1310 LC

1310 LC Single-mode, 9/125

1310 LC Single-mode, 9/125

1550 LC Single-mode, 9/125

TX: 1310

RX: 1550

LC Single-mode, 9/125

TX: 1550nm

RX: 1310 nm

Fiber diameter
(µm)

Multi-mode, 50/125

Multi-mode, 62.5/125

Max
transmission
distance

2 km (1.24
miles)

15 km (9.32
miles)

40 km (24.86
miles)

80 km (49.71
miles)

15 km (9.32
miles)

Note: JD100A and JD101A must be used in pairs.

45

Table 16 1000 Mbps SFP transceiver modules

Product
code

JD118B

JD119B

JD061A

JD062A

HPE
description

HPE X120 1G
SFP LC SX
Transceiver

HPE X120 1G
SFP LC LX
Transceiver

HPE X125 1G
SFP LC LH40
1310nm
Transceiver

HPE X120 1G
SFP LC LH40
1550nm
Transceiver

Central
wavelength
(nm)

850 LC

1310 LC

1310 LC

1550 LC

Conn
ector

Cable/fiber
diameter
(µm)

Multi-mode,
50/125

Multi-mode,

62.5/125

Single-mode,
9/125

Multi-mode,
50/125

Multi-mode,

62.5/125

Single-mode,
9/125

Single-mode,
9/125

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)

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

Max
transmission
distance

40 km (24.86
miles)

40 km (24.86
miles)

JD063B

JD103A

JD098B

JD099B

JD089B

Note: JD098B and JD099B must be used in pairs.

SFP+ port

The switch provides SFP+ ports. You can install the 1000 Mbps SFP transceiver modules in Table 16,
the SFP+ transceiver modules in Table 17, and the SFP+ cabl
needed.

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

1550 LC

1550 LC

TX: 1310

RX: 1490

LC

TX: 1490

RX: 1310

N/A RJ-45

Single-mode,
9/125

Single-mode,
9/125

Single-mode,
9/125

Category-5
twisted pair

N/A

N/A

N/A 10 km (6.21 miles)

N/A 100 m (328.08 ft)

70 km (43.50
miles)

100 km (62.14
miles)

es in Table 18 in the SFP+ ports as

46

r

Table 17 SFP+ transceiver modules available for the SFP+ ports

Product
Code

JD092B

JD094B

HPE
description

HPE X130
10G SFP+
LC SR
Transceiver

HPE X130
10G SFP+
LC LR
Transceiver

Central
wavelength
(nm)

850 LC

1310 LC

Conn
ector

Fiber
diameter
(µm)

Multi-mode,
50/125

Multi-mode,

62.5/125

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)

N/A 10 km (6.21 miles)

Max
transmission
distance

Table 18 SFP+ DAC cables available for the SFP+ ports

Product code HPE description Max transmission distance

JD095C HPE X240 10G SFP+ SFP+ 0.65m DA Cable 0.65 m (2.13 ft)

JD096C HPE X240 10G SFP+ SFP+ 1.2m DA Cable 1.2 m (3.94 ft)

JD097C 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

HPE X2A0 10G SFP+ to SFP+ 7m Active
Optical Cable

HPE X2A0 10G SFP+ to SFP+ 10m Active
Optical Cable

HPE X2A0 10G SFP+ to SFP+ 20m Active
Optical Cable

7 m (22.97 ft)

10 m (32.81 ft)

20 m (65.62 ft)

JL290A

JL291A

JL292A

NOTE:

As a best practice, use HPE 1000 Mbps SFP transceiver modules, SFP+ transceiver modules, or
SFP+ cables for the SFP+ ports on the switch. The HPE 1000 Mbps SFP and SFP+ transceiver
modules are subject to change over time. For the most up-to-date list of SFP and SFP+ transceive

modules, contact your Hewlett Packard Enterprise sales representative or technical support

engineer.

For more information about the 1000 Mbps SFP transceiver modules, SFP+ transceiver modules,

and SFP+ cables, see HPE Comware-Based Devices Transceiver Modules User Guide.

47

Figure 51 SFP+ DAC cable

2

1
1

(1) Connector (2) Pull latch

Figure 52 SFP+ active optical cable

Combo interface

The HPE 5130 24G SFP 4SFP+ EI switch provides eight combo interfaces. A combo interface
includes an SFP port and a 10/100/1000Base-T autosensing Ethernet port. Only one of these two
ports can operate at a time.

LEDs

System status LED

The system status LED shows the operating status of the switch.

Table 20 System status LED description

LED mark Status Description

Steady green The switch is operating correctly.

SYS

Flashing green The switch is performing power-on self test (POST).

48

LED mark Status Description

Steady red The switch has failed POST.

Flashing yellow Some ports have failed POST.

Off The switch is powered off.

Power supply status LED

The HPE 5130 24G SFP 4SFP+ EI switch provides the PWR1 and PWR2 LEDs on the front panel to
indicate the operating status of the power supplies.

Table 21 Power supply status LED description

LED mark Status Description

Steady green

PWR1/PWR2

Steady yellow

Steady red

Off No power supply is installed in the power supply slot.

RPS status LED

The HPE 5130 48G 2SFP+ 2XGT EI, HPE 5130 24G PoE+ 2SFP+ 2XGT (370W) EI, HPE 5130 48G
PoE+ 2SFP+ 2XGT (370W) EI, HPE 5130 24G PoE+ 4SFP+ (370W) EI, HPE 5130 24G PoE+
4SFP+ (370W) EI BR, HPE 5130 48G 4SFP+ EI, HPE 5130 48G 4SFP+ EI BR, HPE 5130 48G
PoE+ 4SFP+ (370W) EI BR, and HPE 5130 48G PoE+ 4SFP+ (370W) EI switches support RPS
input and provide an RPS status LED on the front panel to indicate the RPS operating status.

Table 22 RPS status LED description

LED mark Status Description

Steady green Both the RPS DC input and the AC input are normal.

RPS

Steady yellow

A power supply is installed in the power supply slot, and the
power supply is outputting power correctly.

A power supply is installed in the power supply slot, but the
power supply is faulty or not powered on.

A power supply is installed in the power supply slot, but the
power supply is faulty.

The RPS DC input is normal, but the AC input is disconnected or
has failed.

Port mode LED

The HPE 5130 24G PoE+ 2SFP+ 2XGT (370W) EI, HPE 5130 48G PoE+ 2SFP+ 2XGT (370W) EI,
HPE 5130 24G PoE+ 4SFP+ (370W) EI, HPE 5130 24G PoE+ 4SFP+ (370W) EI BR, HPE 5130 48G
PoE+ 4SFP+ (370W) EI BR, and HPE 5130 48G PoE+ 4SFP+ (370W) EI switches provide a port
mode LED. The port mode LED indicates the type of information that the network port LEDs are
showing. You can use the port LED mode switching button to change the type of displayed port
information.

Off The RPS DC input has failed, or no RPS is connected.

49

Table 23 Port mode LED description

LED mark Status Description

Steady green The network port LEDs are showing port rates.

Mode

Flashing green

The network port LEDs are showing the PoE status of the
ports.

10/100/1000Base-T autosensing Ethernet port LED

• The HPE 5130 48G 2SFP+ 2XGT EI, HPE 5130 48G PoE+ 2SFP+ 2XGT (370W) EI, HPE 5130

24G SFP 4SFP+ EI, HPE 5130 48G 4SFP+ EI, HPE 5130 48G 4SFP+ EI BR, HPE 5130 48G
PoE+ 4SFP+ (370W) EI, and HPE 5130 48G PoE+ 4SFP+ (370W) EI BR switches provide a
double-color (green and yellow) LED for each 10/100/1000Base-T autosensing Ethernet port to
indicate its operating status.

Table 24 10/100/1000Base-T autosensing Ethernet port double-color LED description

Switch model

• HPE 5130 48G
4SFP+ EI

• HPE 5130 48G
4SFP+ EI BR

• HPE 5130 24G
SFP 4SFP+ EI

• HPE 5130 48G
2SFP+ 2XGT
EI

• HPE 5130 48G
PoE+ 4SFP+
(370W) EI

• HPE 5130 48G
PoE+ 4SFP+
(370W) EI BR

• HPE 5130 48G
PoE+ 2SFP+
2XGT (370W)
EI

Port mode LED
(Mode) status

N/A

Steady green
(rate mode)

Double-color (green
and yellow) LED

Description

status

The port is operating at 1000

Steady green

Flashing green

Steady yellow

Flashing yellow (not 3
Hz)

Flashing yellow (3 Hz) The port has failed POST.

Off No link is present on the port.

Steady green

Flashing green

Steady yellow

Flashing yellow (not 3
Hz)

Flashing yellow (3 Hz) The port has failed POST.

Off No link is present on the port.

Mbps, and a link is present on
the port.

The port is sending or
receiving data at 1000 Mbps.

The port is operating at 10/100
Mbps, and a link is present on
the port.

The port is sending or
receiving data at 10/100
Mbps.

The port is operating at 1000
Mbps, and a link is present on
the port.

The port is sending or
receiving data at 1000 Mbps.

The port is operating at 10/100
Mbps, and a link is present on
the port.

The port is sending or
receiving data at 10/100
Mbps.

Flashing green
(PoE mode)

Steady green

Flashing green (3 Hz)

50

The port is supplying PoE
correctly.

• The PD power
requirement exceeds the

Double-color (green
and yellow) LED

Description

status

port PoE capacity.

• The port fails to meet the
power requirement of the
PD because of power
insufficiency of the
switch.

A non-PD device is attached

Steady yellow

Flashing yellow (3 Hz) The port has failed POST.

Off The port is not supplying PoE.

to the port, or the port is
experiencing a PoE failure.

Switch model

Port mode LED
(Mode) status

• The HPE 5130 24G 2SFP+ 2XGT EI, HPE 5130 24G PoE+ 2SFP+ 2XGT (370W) EI, HPE 5130

24G 4SFP+ EI, HPE 5130 24G 4SFP+ EI BR, HPE 5130 24G PoE+ 4SFP+ (370W) EI, and
HPE 5130 24G PoE+ 4SFP+ (370W) EI BR switches provide two single-color LEDs for each
10/100/1000Base-T autosensing Ethernet port to indicate its operating status.

Table 25 Description for the two single-color LEDs for the 10/100/1000Base-T
autosensing Ethernet port

Switch model

Port mode LED
(Mode) status

LED Status Description

• HPE 5130
24G
4SFP+ EI

• HPE 5130
24G
4SFP+ EI
BR

• HPE 5130
24G
2SFP+
2XGT EI

• HPE 5130
24G PoE+
4SFP+
(370W) EI

• HPE 5130
24G PoE+
4SFP+
(370W) EI
BR

• HPE 5130
24G PoE+
2SFP+

N/A

Steady green
(rate mode)

Green
LED

Yellow
LED

Green
LED

Yellow
LED

Steady on

Flashing

Off

Steady on

Flashing (not
3 Hz)

Flashing
yellow (3 Hz)

Off

Steady on

Flashing

Off

Steady on

Flashing (not The port is sending or receiving data

The port is operating at 1000 Mbps,
and a link is present on the port.

The port is sending or receiving data
at 1000 Mbps.

No link is present on the port, or the
port is not operating at 1000 Mbps.

The port is operating at 10/100
Mbps, and a link is present on the
port.

The port is sending or receiving data
at 10/100 Mbps.

The port has failed POST.

No link is present on the port, or the
port is not operating at 10/100
Mbps.

The port is operating at 1000 Mbps,
and a link is present on the port.

The port is sending or receiving data
at 1000 Mbps.

No link is present on the port, or the
port is not operating at 1000 Mbps.

The port is operating at 10/100
Mbps, and a link is present on the
port.

51

Switch model

2XGT
(370W) EI

Port mode LED
(Mode) status

Flashing green
(PoE mode)

LED Status Description

3 Hz) at 10/100 Mbps.

Green
LED

Yellow
LED

Flashing
yellow (3 Hz)

Off

Steady on The port is supplying PoE correctly.

Flashing (3
Hz)

Off

Steady on

Flashing (3
Hz)

The port has failed POST.

No link is present on the port, or the
port is not operating at 10/100
Mbps.

• The PD power requirement
exceeds the port PoE capacity.

• The port fails to meet the
power requirement of the PD
because of power insufficiency
of the switch.

The port is not supplying PoE
power.

A non-PD device is attached to the
port, or the port is experiencing a
PoE failure.

The port has failed POST.

Off

The port is not supplying PoE
power.

1/10GBase-T autosensing Ethernet port LEDs

• The HPE 5130 48G 2SFP+ 2XGT EI and HPE 5130 48G PoE+ 2SFP+ 2XGT (370W) EI

switches provide a double-color (green and yellow) LED for each 1/10GBase-T autosensing
Ethernet port to indicate its operating status.

Table 26 1/10GBase-T autosensing Ethernet port double-color LED description

Status Description

Steady green The port is operating at 10 Gbps and a link is present on the port.

Flashing green The port is sending or receiving data at 10 Gbps.

Steady yellow The port is operating at 1 Gbps and a link is present on the port.

Flashing yellow (not 3
Hz)

Flashing yellow (3 Hz) The port has failed POST.

Off

• The HPE 5130 24G 2SFP+ 2XGT EI and HPE 5130 24G PoE+ 2SFP+ 2XGT (370W) EI

switches provide two single-color LEDs for each 1/10GBase-T autosensing Ethernet port to
indicate its operating status.

The port is sending or receiving data at 1 Gbps.

• No link is present on the port.

• The port mode LED is operating in PoE mode (applicable to the PoE

switch models.)

52

Table 27 Description for the two single-color LEDs for the 1/10GBase-T autosensin g
Ethernet port

LED Status Description

The port is operating at 10 Gbps and a link is present on the
port.

• No 10 Gbps link is present on the port.

• The port mode LED is operating in PoE mode

The port is operating at 1 Gbps and a link is present on the
port.

• No 1 Gbps link is present on the port.

• The port mode LED is operating in PoE mode

Green LED

Yellow LED

Steady on

Flashing The port is sending or receiving data at 10 Gbps.

Off

Steady on

Flashing (not 3 Hz) The port is sending or receiving data at 1 Gbps.

Flashing (3 Hz) The port has failed POST.

Off

100/1000Base-X SFP port LED

The HPE 5130 24G SFP 4SFP+ EI switch provides a double-color (green and yellow) LED for each
100/1000Base-X SFP port to show its operating status.

Table 28 100/1000Base-X SFP port LED description

(applicable to the PoE switch models.)

(applicable to the PoE switch models.)

Status Description

Steady green

Flashing green The port is sending or receiving data at 1 Gbps.

Steady yellow

Flashing yellow The port is sending or receiving data at 100 Mbps.

Flashing yellow (3 Hz) The port has failed POST.

Off No transceiver module is installed in the port, or no link is present on the port.

SFP+ port LED

• The HPE 5130 48G 2SFP+ 2XGT EI, HPE 5130 48G PoE+ 2SFP+ 2XGT (370W) EI, HPE 5130

24G SFP 4SFP+ EI, HPE 5130 48G 4SFP+ EI, HPE 5130 48G 4SFP+ EI BR, HPE 5130 48G
PoE+ 4SFP+ (370W) EI, and HPE 5130 48G PoE+ 4SFP+ (370W) EI BR switches provide a
double-color (green and yellow) LED for each SFP+ port to indicate its operating status.

Table 29 SFP+ port double-color LED description

Status Description

A transceiver module is installed in the port. The port is operating at 1 Gbps, and
a link is present on the port.

A transceiver module is installed in the port. The port is operating at 100 Mbps,
and a link is present on the port.

Steady green

Flashing green The port is sending or receiving data at 10 Gbps.

A transceiver module is installed in the port. The port is operating at 10
Gbps and a link is present on the port.

53

Status Description

Steady yellow

Flashing yellow (not 3
Hz)

Flashing yellow (3 Hz) The port has failed POST.

Off

A transceiver module is installed in the port. The port is operating at 1 Gbps
and a link is present on the port.

The port is sending or receiving data at 1 Gbps.

• No transceiver module is installed in the port, or no link is present on
the port.

• The port mode LED is operating in PoE mode (applicable to the PoE
switch models.)

• The HPE 5130 24G 2SFP+ 2XGT EI, HPE FlexNetwork 5130 24G PoE+ 2SFP+ 2XGT (370W)

EI, HPE 5130 24G 4SFP+ EI, HPE 5130 24G 4SFP+ EI BR, HPE 5130 24G PoE+ 4SFP+
(370W) EI, and HPE 5130 24G PoE+ 4SFP+ (370W) EI BR switches provide two single-color
LEDs for each SFP+ port to indicate its operating status.

Table 30 Description for the two single-color LEDs for the SFP+ port

LED Status Description

Steady on

Flashing The port is sending or receiving data at 10 Gbps.

Green LED

Off

A transceiver module is installed in the port. The port is
operating at 10 Gbps, and a link is present on the port.

• No transceiver module is installed in the port, or no 10
Gbps link is present on the port.

• The port mode LED is operating in PoE mode
(applicable to the PoE switch models.)

Yellow LED

Steady on

Flashing (not 3 Hz) The port is sending or receiving data at 1 Gbps.

Flashing (3 Hz) The port has failed POST.

Off

A transceiver module is installed in the port. The port is
operating at 1 Gbps, and a link is present on the port.

• No transceiver module is installed in the port, or no 1
Gbps link is present on the port.

• The port mode LED is operating in PoE mode
(applicable to the PoE switch models.)

54

Appendix D Cooling system

The cooling system of the switch includes the air vents in the chassis and fixed fans. To maintain
good ventilation for the switch, consider the ventilation design at the installation site when you plan
the installation position for the switch.

Figure 53 Airflow through the chassis

55

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

[ ] 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.

Italic text represents arguments that you replace with actual values.

Braces enclose a set of required syntax choices separated by vertical bars, from which
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.

Asterisk marked square brackets enclose optional syntax choices separated by vertical
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

New User

window appears; click OK.

Symbols

>

Multi-level menus are separated by angle brackets. For example,

Folder

.

Convention Description

WARNING!

CAUTION:

IMPORTANT:

NOTE:

An alert that calls attention to important information that if not understood or followed
can result in personal injury.

An alert that calls attention to important information that if not understood or followed
can result in data loss, data corruption, or damage to hardware or software.

An alert that calls attention to essential information.

An alert that contains additional or supplementary information.

56

File

>

Create

>

Convention Description

TIP:

An alert that provides helpful information.

Network topology icons

Convention Description

T

T

Represents a generic network device, such as a router, switch, or firewall.

Represents a routing-capable device, such as a router or Layer 3 switch.

Represents a generic switch, such as a Layer 2 or Layer 3 switch, or a router that
supports Layer 2 forwarding and other Layer 2 features.

Represents an access controller, a unified wired-WLAN module, or the access
controller engine on a unified wired-WLAN switch.

Represents an access point.

Represents a wireless terminator unit.

T

T









Represents a wireless terminator.

Represents a mesh access point.

Represents omnidirectional signals.

Represents directional signals.

Represents a security product, such as a firewall, UTM, multiservice security
gateway, or load balancing device.

Represents a security card, such as a firewall, load balancing, NetStream, SSL VPN,
IPS, or ACG card.

57

A

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:

www.hpe.com/support/hpesc

Information to collect

• Technical support registration number (if applicable)

• Product name, model or version, and serial number

• Operating system name and version

• Firmware version

• Error messages

• Product-specific reports and logs

• Add-on products or components

• Third-party products or components

Accessing updates

• Some software products provide a mechanism for accessing software updates through the

product interface. Review your product documentation to identify the recommended software
update method.

• To download product updates, go to either of the following:

{ Hewlett Packard Enterprise Support Center Get connected with updates page:

www.hpe.com/support/e-updates

{ Software Depot website:

www.hpe.com/support/softwaredepot

• To view and update your entitlements, and to link your contracts, Care Packs, and warranties
with your profile, go to the Hewlett Packard Enterprise Support Center More Information on
Access to Support Materials page:

www.hpe.com/support/AccessToSupportMaterials

IMPORTANT:

ccess to some updates might require product entitlement when accessed through the Hewlett
Packard Enterprise Support Center. You must have an HP Passport set up with relevant
entitlements.

58