HPE X362 56VDC User Manual

HP 5500 HI Switch Series

Installation Guide

Part number: 5998-2373c
Document version: 6W104-20160927

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Contents

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

Safety recommendations ·················································································································································· 1
Examining the installation site ········································································································································· 1

Temperature/humidity ············································································································································· 1
Cleanness ·································································································································································· 2
EMI ············································································································································································· 2
Laser safety ································································································································································ 3

Installing the switch ······················································································································································ 4

Installing the switch in a 19-inch rack ····························································································································· 5

Rack-mounting restrictions and guidelines ············································································································· 5
Mounting accessory kit ············································································································································ 5
Rack-mounting by using front mounting brackets ·································································································· 7

Rack-mounting by using front and rear mounting brackets ·················································································· 8
Mounting the switch on a workbench ·························································································································· 10
Grounding the switch ···················································································································································· 10

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

Grounding the switch with a grounding conductor buried in the earth ground ············································· 12

Grounding the switch by using the AC power cord ·························································································· 13
Installing/removing a power supply ···························································································································· 14

Installing a PSR150 series power supply (JD362A/JD362B or JD366A/JD366B) ······································· 14

Removing a PSR150 series power supply (JD362A/JD362B or JD366A/JD366B) ····································· 15

Installing a PSR720-56A/PSR1110-56A (JG544A/JG545A) power supply ················································ 16

Removing a PSR720-56A/PSR1110-56A (JG544A/JG545A) power supply ··············································· 17
Connecting the power cord ·········································································································································· 19

Connecting the PSR150-A/PSR150-A1 (JD362A/JD362B) ············································································· 20

Connecting the PSR150-D/PSR150-D1 (JD366A/JD366B) ············································································· 20

Connecting the PSR720-56A/PSR1110-56A (JG544A/JG545A) ································································· 21
Installing/removing an interface card ························································································································· 22

Installing an interface card ··································································································································· 22

Removing an interface card ································································································································· 24

Installing/removing a CX4/SFP+ cable ·············································································································· 24
Verifying the installation ················································································································································ 25

Accessing the switch for the first time ······················································································································· 26

Setting up the configuration environment ···················································································································· 26
Connecting the console cable ······································································································································ 26

Console cable ························································································································································ 26

Connection procedure ·········································································································································· 26
Setting terminal parameters ·········································································································································· 27
Powering on the switch·················································································································································· 30

Setting up an IRF fabric ············································································································································· 31

IRF fabric setup flowchart ·············································································································································· 31
Planning IRF fabric setup ··············································································································································· 32

Planning IRF fabric size and the installation site ································································································ 32

Identifying the master switch and planning IRF member IDs ············································································ 32

Planning IRF topology and connections ·············································································································· 33

Identifying physical IRF ports on the member switches ····················································································· 34

Planning the cabling scheme ······························································································································· 34

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Configuring basic IRF settings ······································································································································· 37
Connecting the physical IRF ports ································································································································ 37
Accessing the IRF fabric to verify the configuration ··································································································· 37

Maintenance and troubleshooting ···························································································································· 39

Power supply failure ······················································································································································ 39
Fan failure ······································································································································································· 39
Configuration terminal problems ·································································································································· 39

Appendix A Chassis views and technical specifications ························································································ 41

Chassis views ································································································································································· 42

5500-24G-4SFP HI (2 slots) panel views ··········································································································· 42

5500-48G-4SFP HI (2 slots) panel views ··········································································································· 43

5500-24G-SFP HI (2 slots)/5500-24G-SFP HI TAA (2 slots) panel views ······················································ 44

5500-24G-PoE+-4SFP HI (2 slots)/5500-24G-PoE+-4SFP HI TAA (2 slots) panel views ······························ 45

5500-48G-PoE+-4SFP HI (2 slots)/5500-48G-PoE+-4SFP HI TAA (2 slots) panel views ······························ 46
Technical specifications ················································································································································· 47
Cooling system ······························································································································································· 49

Appendix B FRUs and compatibility matrixes ·········································································································· 50

FRUs and compatibility matrixes ·································································································································· 50
Hot swappable power supplies ···································································································································· 51
Interface cards ································································································································································ 51
SFP/SFP+/XFP transceiver modules and SFP+/CX4 cables ····················································································· 52

100 Mbps SFP transceiver modules ···················································································································· 52

1000 Mbps SFP transceiver modules ················································································································· 53

10 Gbps SFP+ transceiver modules/SFP+ cables ····························································································· 54

10 Gbps XFP transceiver modules ······················································································································· 55

CX4 cables ····························································································································································· 55

Appendix C Ports and LEDs ······································································································································ 57

Fixed ports ······································································································································································ 57

Console port ·························································································································································· 57

Management Ethernet port ··································································································································· 57

10/100/1000Base-T Ethernet port ···················································································································· 57

100/1000Base-X SFP port ··································································································································· 58

SFP+ port ································································································································································ 58
LEDs ················································································································································································· 58

System status LED··················································································································································· 58

Power supply status LED ······································································································································· 58

Port mode LED ························································································································································ 59

Seven-segment LED ················································································································································ 59

Management Ethernet port LED ··························································································································· 60

10/100/1000Base-T Ethernet port LED ············································································································· 61

100/1000Base-X SFP port LED ··························································································································· 62

SFP+ port LED ························································································································································ 62

Interface card status LED ······································································································································· 62

Port LED on the interface card ······························································································································ 63

I/O status LED on the power supply ··················································································································· 63

Support and other resources ····································································································································· 64

Contacting HP ································································································································································ 64

Subscription service ·············································································································································· 64
Related information ························································································································································ 64

Documents ······························································································································································ 64

Websites ································································································································································· 64
Conventions ···································································································································································· 65

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Index ··········································································································································································· 67

iii

Preparing for installation

Safety recommendations

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

• Before cleaning the switch, unplug 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. The switch might be severely damaged in case

of a fall.

• Ensure proper 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 that the operating voltage 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 FRUs, including interface cards and power supplies, wear an ESD-preventive wrist

strap to avoid damaging the units.

Examining the installation site

The 550 0 HI 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.

• Identify the hot aisle and cold aisle at the installation site, and make sure that 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 bottom

device from entering the top device.

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

• The rack or workbench is well earthed.

To ensure normal 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 appropriate temperature and humidity in the equipment room.

• Lasting high relative humidity can cause poor insulation, electricity creepage, mechanical property

change of materials, and metal corrosion.

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• Lasting low relative humidity can cause washer contraction and ESD and bring problems including

loose captive 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, see "Appendix A Chassis views and technical

spec

ications."

if

Cleanness

Dust buildup on the chassis may 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 (

Dust

NOTE:

Dust diameter ≥ 5 μm

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

articles/m³)

The equipment room must also meet strict 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 eq

Gas Maximum concentration (m

SO

2

H2S 0.006

NH3 0.05

0.01

Cl

2

uipment room

/m3)

0.2

All electromagnetic interference (EMI) sources, from outside or inside of the switch and application
system, adversely affect the switch in a conduction pattern of capacitance coupling, inductance coupling,
electromagnetic wave radiation, or common impedance (including the grounding system) coupling. To
prevent EMI, take the following actions:

• 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.

• Route interface cables only indoors to prevent signal ports from getting damaged by overvoltage or

overcurrent caused by lightning strikes.

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Laser safety

The 5500 HI switches are Class 1 laser devices.

ARNING!

Do not stare into any fiber port when the switch has power. The laser li
may hurt your eyes.

ht emitted from the optical fiber

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Installing the switch

CAUTION:

Keep the tamper-proof seal on a mountin
chassis, contact HP for permission. Otherwise, HP shall not be liable for any consequence.

Figure 1 Hardware installation flow

Start

Mount the

switch

screw on the chassis cover intact, and if you want to open the

No

Connect the grounding

Install an interface card?

Install the interface card

cable

Install power supplies

Connect power cords

Verify the installation

Power on the switch

Operating properly? Power off the switch

Yes

Yes

Operating properly?

Yes

Install pluggable

modules or cables

No

No

Troubleshoot

Troubleshoot

End

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Installing the switch in a 19-inch rack

You can install a 5500 HI switch in a 19-inch rack by using one of the following methods:

• Use the front mounting brackets. Figure 2 shows the mounting procedure diagram.

se the front and rear mounting brackets. Figure 3 shows the mounting procedure diagram.

• U

NOTE:

If a rack shelf is available, you can put the switch on the rack shelf, slide the switch to an appropriate
position, and attach the switch to the rack with mounting brackets.

Figure 2 Rack-mounting procedure (1)

Figure 3 Rack-mounting procedure (2)

Rack-mounting restrictions and guidelines

Follow the rack-mounting restrictions and guidelines in Table 3, depending on the mounting accessories
that you use.

Table 3 Rack-mounting restrictions and guidelines

Mountin

Rack-mounting by using front
mounting brackets

Rack-mounting by using front
and rear mounting brackets

method

Restrictions and guidelines

• Only applicable to the 5500-24G-4SFP HI (2 slots), 5500-48G-4SFP HI

(2 slots), 5500-24G-SFP HI (2 slots), and 5500-24G-SFP HI TAA (2 slots)
switches.

• Install the front mounting brackets at the port-side or power-side mounting

position as needed.

• For the 5500-48G-4SFP HI (2 slots), if you are installing an LSP5GP8P0

(JG314A) interface card, make sure the rack depth is 800 mm (31.50 in)
or 1000 mm (39.37 in).

•

Only applicable to the 5500-24G-PoE+-4SFP HI (2 slots),
5500-24G-PoE+-4SFP HI TAA (2 slots), 5500-48G-PoE+-4SFP HI (2
slots), and 5500-48G-PoE+-4SFP HI TAA (2 slots) switches.

• Install the front mounting brackets at the port-side or power-side mounting

position as needed.

• Make sure the rack depth is 800 mm (31.50 in) or 1000 mm (39.37 in).

Mounting accessory kit

5

Accessories

One pair of 1U front mounting
brackets (See Figure 4)

One pair of 1U rear mounting
brackets, two load bearing screws
(See Figure 5.)

Figure 4 Front mounting bracket

5500-24G-4SFP HI (2 slots)
5500-48G-4SFP HI (2 slots)
5500-24G-SFP HI (2 slots)
5500-24G-SFP HI TAA (2

slots)

Supplied with the switch Supplied with the switch

Not supported

5500-24G-PoE+-4SFP HI (2 slots)
5500-24G-PoE+-4SFP HI TAA (2

slots)
5500-48G-PoE+-4SFP HI (2 slots)
5500-48G-PoE+-4SFP HI TAA (2

slots)

Supplied with the switch

(1) Hole for attaching to a rack
(2) Hole for attaching to the switch chassis

Figure 5 Rear mounting bracket and load bearing screw

(1) Hole for attaching to a rack (2) Load bearing screw

6

Rack-mounting by using front mounting brackets

This mou ntin g method is a ppli cabl e to only the 5500 -24G- 4SFP HI (2 slot s) , 5500 -48 G- 4SF P HI (2 sl ots ),
5500-24G-SFP HI (2 slots), and 5500-24G-SFP HI TAA (2 slots) switches.

This task requires two people.

To install the switch in a 19-inch rack by using the front mounting brackets:

1. Identify the mounting positions.

2. Wear an ESD-preventive wrist strap and make sure it makes good skin contact and is properly

grounded.

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 port-side mounting position (see Figure 6) or power-side moun

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

ting position (see Figure 7).

Figure 7 Attaching the front mounting bracket to the power side

4. Mount the chassis to 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

7

b. The other person us es M6 screws and cage nuts (user supplie d) to attach the swi tch to the rack.

Figure 8 Mounting the switch to the rack (front mounting brackets at the port side)

Figure 9 Mounting the switch to the rack (front mounting brackets at the power side)

Rack-mounting by using front and rear mounting brackets

This mounting method is applicable to only the 5500 -24G-PoE+-4SFP HI (2 slots), 5500-24G-PoE+- 4SFP
HI TAA (2 slots), 5500-48G-PoE+-4SFP HI (2 slots), and 5500-48G-PoE+-4SFP HI TAA (2 slots) switches.
You can install the front mounting brackets at the port-side or power-side mounting position as needed.
The following takes port-side mounting 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-preventive wrist strap and make sure it makes good skin contact and is properly

grounded.

2. Attach the front mounting brackets to the chassis:

8

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 10).

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.

3. Attach the load-bearing screws to the chassis and the rear mounting brackets to the rack:
a. Unpack the rear mounting brackets and the load-bearing screws.
b. Install the load-bearing screws in one of the load bearing screw mounting positions (see Figure

10) as needed.

Figure 10 Attaching the front mounting brackets and load bearing screws to the chassis

c. Install cage nuts (user-supplied) in the mounting holes in the rear rack posts.
d. Attach the rear mounting brackets to the rear posts with M6 screws (user supplied), as shown

in Figure 11.

Figure 11 Attaching the rear mounting brackets to a rack



4. Mount the switch chassis in the rack:

9

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 12.

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.

Make sure the front and rear mounting brackets have securely attached the switch to the rack.

Figure 12 Mounting the switch in the rack

Mounting the switch on a workbench

IMPORTANT:

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

• Avoid placing heavy objects on the switch.

To mount the switch on a workbench:

1. Check that the workbench is sturdy and well 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

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NOTE:

ARNING!

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 so the faradism and leakage electricity can be safely released to the earth to
minimize EMI susceptibility of the switch.

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

• Grounding the switch by using the AC power cord

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

Grounding the switch with a grounding strip

ARNING!

Connect the
main or lightning rod.

If a grounding strip is available at the installation site, connect the grounding cable to the grounding
strip.

To connect the rear grounding point to a grounding strip:

1. Remove the grounding screw from the rear panel of the switch chassis.

2. Attach the grounding screw to the ring terminal of the grounding cable.

3. Use a screwdriver to fasten the grounding screw into the grounding screw hole.

IMPORTANT:

Orient the grounding cable as shown in Figure 13 so you can easily install or remov

Figure 13 Connecting the grounding cable to the chassis

rounding cable to the grounding system in the equipment room. Do not connect it to a fire

2

e power supplies.

1

3

4

5

(1) Grounding cable (2) Grounding sign

11

(3) Grounding hole

(4) Ring terminal

(5) Grounding screw

4. Check that the grounding cable has been securely connected to the rear grounding point.

5. Remove the hex nut of a grounding post on the grounding strip.

6. Cut the grounding cable as appropriate for connecting to the grounding strip.

7. Peel 5 mm (0.20 in) of insulation sheath by using a wire stripper, and insert the bare metal part

through the black insulation covering into the end of the ring terminal supplied with the switch.

8. Secure the metal part of the cable to the ring terminal with a crimper, cover the joint with the

insulation covering, and heat the insulation covering with a blow dryer to completely cover the
metal part.

9. Connect the ring terminal to the grounding post of the grounding strip, and fasten it with the

removed hex nut.

Figure 14 Attaching a ring terminal to the grounding cable

Figure 15 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.

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.

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Figure 16 Grounding the switch by burying the grounding conductor into the earth ground

(1) Grounding screw (2) Chassis rear panel
(4) Earth (5) Joint

(3) Grounding cable
(6) Grounding conductor

Grounding the switch by using the AC power cord

If the installation site has no grounding strips or earth ground, you ground an AC-powered switch through
the PE wire of the power cord. Make sure that:

• The power cord has a PE terminal.

• The ground contact in the power outlet is securely connected to the ground in the power distribution

room or on the AC transformer side.

• The power cord is securely connected to the power outlet.

NOTE:

round contact in the power outlet is not connected to the ground, report the problem and reconstruc

If the
the grounding system.

Figure 17 Grounding through the PE wire of the AC power cord

2

1

(1) Chassis rear panel (2) Three-wire AC power cord

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NOTE:

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.

Installing/removing a power supply

ARNING!

In power redundancy mode, you can replace a power supply without powering off the switch but must
strictly follow the installation and procedures in Figure 18 and Figure 19 to avoid an
damage to the switch.

Figure 18 Installation procedure

Figure 19 Removal procedure

y bodily injury or

Installing a PSR150 series power supply (JD362A/JD362B or JD366A/JD366B)

CAUTION:

To prevent damage to the power supply or the connectors on the backplane, insert the power supply

ently. If you encounter a hard resistance while inserting the power supply, pull out the power supply and

insert it again.

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-A
(JD362A) power supply as an example.

To install a power supply:

1. Wear an ESD-preventive wrist strap and make sure it makes good skin contact and is well

grounded.

2. Unpack the power supply and check that the power supply model is correct.

3. 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 20).

4. 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 20). If the captive screw cannot be tightly fastened,
check th

e installation of the power supply.

14

NOTE:

5. Install the filler panel over the empty power supply slot to prevent dust and ensure proper

ventilation if you install only one power supply.

Figure 20 Installing a PSR150-A (JD362A) power supply

If the power supply slot where you want to install a power supply is covered by a filler panel, remove the
filler panel first. To do so, use a Philips screwdriver to loosen the screws, as shown in Figure 21.

Figure 21 Removing the filler panel

Removing a PSR150 series power supply (JD362A/JD362B or JD366A/JD366B)

To remove a power supply:

1. Wear an ESD-preventive wrist strap and make sure it makes good skin contact and is well

grounded.

2. Disconnect the power cord.

3. Loosen the captive screws of the power supply with a Phillips screwdriver until 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.

15

Put away the removed power supply in an antistatic bag or the power supply package bag for
future use.

5. Install the filler panel to prevent dust and ensure proper ventilation if no power supply is installed

in the slot.

Installing a PSR720-56A/PSR1110-56A (JG544A/JG545A) power supply

CAUTION:

To prevent damage to the power supply or the connectors on the backplane, insert the power supply
gently. If you encounter a hard resistance while inserting the power supply, pull out the power supply and
insert it again.

For the PSR720-56A (JG544A) and PSR1110-56A (JG545A) power supplies, 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-preventive wrist strap and make sure it makes good skin contact and is well

grounded.

2. Unpack the power supply and check that the power supply model is correct.

Put away the packaging box and packaging bag of the power supply for future use.

3. 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 a good touch with the backplane.

The PSR1110-56A (JG545A) power supply adds 64 mm (2.52 in) to the depth of the switch, as
shown in Figure 23.

4. Install the filler module over the empty power supply slot to prevent dust and ensure proper

ventilation if you install only one power supply.

Figure 22 Installing a PSR720-56A (JG544A) power supply

16

Figure 23 PSR1110-56A (JG545A) in the chassis

Removing a PSR720-56A/PSR1110-56A (JG544A/JG545A) power supply

To remove a power supply:

1. Wear an ESD-preventive wrist strap and make sure it makes good skin contact and is well

grounded.

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 bag or the power supply package bag for
future use.

5. Install the filler module to prevent dust and ensure proper ventilation if no power supply is installed

in the slot.

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Figure 24 Removing the power supply

1

2

The switch provides one filler module for the power supply slot. To prevent dust and ensure good
ventilation, promptly install a filler module for an empty power supply slot. To do so, slide the filler
module slowly along the guide rails into the slot until you hear that the latch of the filler module clicks into
the slot, as shown in Figure 25.

IMPORTANT:

hen you install a filler module, make sure the blade of the flathead screwdriver sign on the filler module

points upwards.

18

pply

p

Figure 25 Installing a filler module

If the power supply slot where you want to install a power supply is covered by a filler module, remove
the filler module first. To do so, insert a flathead screwdriver through the handle and pull the filler module
outward along the guide rails, as shown in Figure 26. P

Figure 26 Removing a filler module

Connecting the power cord

t away the removed filler module for future use.

u

Table 4 Power cord connection procedures at a glance

Power su

PSR150-A/PSR150-A1
(JD362A/JD362B)

PSR150-D/PSR150-D1
(JD366A/JD366B)

Connection

Connecting the PSR150-A/PSR150-A1 (JD362A/JD362B)

Connecting the PSR150-D/PSR150-D1 (JD366A/JD366B)

rocedure reference

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Power supply Connection

PSR720-56A (JG544A)

PSR1110-56A (JG545A)

CAUTION:

Connecting the PSR720-56A/PSR1110-56A (JG544A/JG545A)

rocedure reference

The AC power cord for the PSR150-A/PSR150-A1 (JD362A/JD362B) uses C13 connector, while the AC
power cord for the PSR720-56A/PSR1110-56A (JG544A/JG545A) uses high-temperature C15
connector. Do not mix them.

Connecting the PSR150-A/PSR150-A1 (JD362A/JD362B)

For the PSR150-A/PSR150-A1 (JD362A/JD362B) power supplies, the connection procedure are the
same. The following takes the PSR150-A (JD362A) as an example.

To connect the PSR150-A (JD362A):

1. Wear an ESD-preventive wrist strap and make sure it makes good skin contact and is well

grounded.

2. Connect one end of the AC power cord supplied with the power supply to the power receptacle on

the power supply (see Figure 27).

3. Connect the other end of the AC power cord to an AC power outlet.

Figure 27 Connecting the PSR150-A (JD362A) power supply

Connecting the PSR150-D/PSR150-D1 (JD366A/JD366B)

ARNING!

Identify the positive (+) and negative (-) marks on the two wires to avoid connection mistakes.

For the PSR150-D/PSR150-D1(JD366A/JD366B) power supplies, the connection procedure are the
same. The following takes the PSR150-D (JD366A) as an example.

To connect the PSR150-D (JD366A):

1. Wear an ESD-preventive wrist strap and make sure it makes good skin contact and is well

grounded.

2. Unpack the DC power cord, correctly orient the plug at one end of the cable with the power

receptacle on the power supply, and insert the plug into the power receptacle (see callout 1
in Figure 28).

20

A

NOTE:

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

3. Tighten the screws on the plug with a flat-blade screwdriver to secure the plug in the power

receptacle (see callout 2 in Figure 28).

4. Connect the two wires at the other end of the power cord to a –48 VDC power source.

You can also connect the PSR150-D/PSR150-D1 (JD366A/JD366B) to an HP A-RPS800 (JD183A) or

-RPS1600 (JG136A) RPS, but you must purchase the power cord separately.

Figure 28 Connecting the PSR150-D (JD366A) power supply

Connecting the PSR720-56A/PSR1110-56A (JG544A/JG545A)

The following takes the PSR720-56A (JG544A) as an example. The connection procedure for the
PSR1110-56A (JG545A) is similar.

To connect the PSR720-56A (JG544A):

1. Wear an ESD-preventive wrist strap and make sure it makes good skin contact and is well

grounded.

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 29).

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 29).

4. Connect the other end of the AC power cord to an AC power outlet.

21

Figure 29 Connecting the PSR720-56A (JG544A) power supply

Installing/removing an interface card

This section uses the LSPM2SP2P (JD368B) interface card as an example to describe the procedures of
installing and removing an interface card.

For the interface cards available for the switch series, see "Interface cards."

Installing an interface card

IMPORTANT:

On the 5500-24G-4SFP HI (2 slots), 5500-24G-SFP HI (2 slots), 5500-24G-SFP HI TAA (2 slots),
5500-24G-PoE+-4SFP HI (2 slots), and 5500-24G-PoE+-4SFP HI TAA (2 slots) switches, you can install
the LSP5GP8P0 (JG314A) and LSP5GT8P (JG313A) cards only in SLOT1.

To install an interface card:

1. Wear an ESD-preventive wrist strap and make sure it makes good skin contact and is well

grounded.

2. Loosen the mounting screws on the filler panel over the interface card slot with a Phillips

screwdriver and remove the filler panel.

Put away the removed filler panel for future use.

22

Figure 30 Removing the filler panel over an interface card slot

3. Hold the captive screws on the front panel of the interface card, and gently push the interface card

in along the slot guide rails until the interface card is in close contact with the switch chassis (see
callout 1 in Figure 31.)

4. Tighten the captive screws with a Phillips screwdriver to secure the interface card in the slot (see

callout 2 in Figure 31).

Figure 31 Installing an i

nterface card

Figure 32 LSP5GT8P in the chassis

23

g

NOTE:

NOTE:

The LSP5GT8P (JG313A) interface card adds 34.75 mm (1.37 in) to the depth of the 5500 HI switch.

Figure 33 LSP5GP8P0 in the chassis

The LSP5GP8P0 (JG314A) interface card adds 69.75 mm (2.75 in) to the depth of the 5500 HI switch.

Removing an interface card

CAUTION:

• Do not touch the surface-mounted components directly with your hands.

• If no new card is to be installed, install the filler panel to prevent dust and ensure

switch.

To remove an interface card:

1. Wear an ESD-preventive wrist strap and make sure it makes good skin contact and is well

grounded.

2. Use a Phillips screwdriver to completely loosen the captive screws at both sides of the interface

card.

3. Gently pull the interface card along the guide rails until it completely comes out of the switch

chassis.

Installing/removing a CX4/SFP+ cable

This section assumes that you have installed a CX4/SFP+ interface card.

The installation and removal procedures for the CX4 cable and the SFP+ cable are the same. This section
uses the SFP+ cable as an example.

ood ventilation in the

The CX4 and SFP+ cables for this switch series are hot swappable.

Installing a CX4/SFP+ cable

CAUTION:

The bend radius for a cable must be at least eight times the cable diameter.

To connect a CX4 or SFP+ cable to a port on a CX4/SFP+ interface card:

24

1. Wear an ESD-preventive wrist strap and make sure it makes good skin contact and is well

grounded. Then unpack the dedicated SFP+ cable.

2. Hold the connector at one end of the cable, with the pull latch on top.

3. Orient the connector with the port and insert it into the port.

Removing a CX4/SFP+ cable

To remove a CX4 or SFP+ cable from a port on a CX4/SFP+ interface card:

1. Wear an ESD-preventive wrist strap and make sure it makes good skin contact and is well

grounded.

2. Hold the cable connector and pull the pull latch of the connector to remove the cable from the

switch.

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 properly connected.

• All the interface cables are cabled indoors. If any cable is routed outdoors, verify that the socket

strip with lightning protection has been properly connected.

25

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 console terminal, for
example, a PC, to the console port on the switch.

Figure 34 Connecting the console port to a terminal

Connecting the console cable

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 console terminal.

Figure 35 Console cable

A side

Pos.9

A

Pos.1

Main label

8

1

B side

B

Connection procedure

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.

26

2. Connect the RJ-45 connector to the console port of the switch.

NOTE:

• Identify the mark on the console port and make sure that you are connecting to the correct port.

• The serial ports on PCs do not support hot swapping. If the switch has been powered on, connect the

console cable to the PC before connecting to the switch, and when you disconnect the cable, first
disconnect from the switch.

Setting terminal parameters

To configure and manage the switch, you must run a terminal emulator program on the console terminal.

The following are the required terminal settings:

• Bits per second—9,600

• Data bits—8

• Parity—None

• Stop bits—1

• Flow control—None

• Emulation—VT100

To set terminal parameters, for example, on a Windows XP HyperTerminal:

1. Select Start > All Programs > Accessories > Communications > HyperTerminal.

The Connection Description dialog box appears.

2. Enter the name of the new connection in the Name field and click OK.

Figure 36 Connection description

3. Select the serial port to be used from the Connect using list, and click OK.

27

Figure 37 Setting the serial port used by the HyperTerminal connection

4. Set Bits per second to 9600, Data bits to 8, Parity to None, Stop bits to 1, and Flow control to None,

and click OK.

Figure 38 Setting the serial port parameters

5. Select File > Properties in the HyperTerminal window.

28

Figure 39 HyperTerminal window

6. On the Settings tab, set the emulation to VT100 and click OK.

Figure 40 Setting terminal emulation in Switch Properties dialog box

29

Powering on the switch

Before powering on the switch, verify that:

• The power cord is properly connected.

• The input power voltage meets the requirement of the switch.

• The console cable is properly connected, the terminal or PC used for configuration has started, and

the configuration parameters have been set.

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.

NOTE:

For more information about the configuration commands and CLI, see

Configuration Guides

and

HP 5500 HI Switch Series Command References

HP 5500 HI Switch Series

.

30

Setting up an IRF fabric

You can use HP Intelligent Resilient Framework (IRF) technology to connect and virtualize HP 5500 HI
switches into a virtual switch called an "IRF fabric" or "IRF virtual device" for flattened network topology,
and high availability, scalability, and manageability.

IMPORTANT:

To set up IRF connection between 5500 HI switches, you must use 10-Gigabit ports.

IRF fabric setup flowchart

Figure 41 IRF fabric setup flowchart

To set up an IRF fabric:

31

A

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 planning IRF member IDs

• Planning IRF topology and connections

• Identifying physical IRF ports on the member switches

• Planning the cabling scheme

2. Install IRF member switches

See "Installing the switch in a 19-inch rack" or "Mounting the switch

on a workbench."

3. Install the grounding cable, power

supplies, and power cords

4. Power on the switches

5. (Optional) Install an expansion

interface card

nfigure basic IRF settings

6. Co

7. Connect the physical IRF ports

See "Grounding the switch," "Installing/removing a power supply,"
and "Connecting the power cord."

N/A

See "Installing/removing an interface card."

See HP 5500 HI Switch Series IRF Configuration Guide.

Use proper cables to connect the IRF member switches as planned.

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

Planning IRF fabric setup

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

Planning IRF fabric size and the installation site

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.

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 for dispersed access.

NOTE:

5500 HI IRF fabric can have up to nine switches. As your business grows, you can plug a 5500 HI switch

into an IRF fabric to increase the switching capacity without any topology change or replacement.

Identifying the master switch and planning IRF member IDs

Determine wh ich switch you want to use as the master for managing all member swi tch es 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 command line interface of the master switch.

32

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g

NOTE:

IRF member switches will 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

5500 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 reliably, ring topology. In ring topology,
the failure of one IRF link does not cause the IRF fabric to split as in daisy chain topology. Rather, the IRF
fabric changes to a daisy chain topology without interrupting network services.

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 5500 HI switches can provide 10-GE IRF connections through the SFP+ ports on the front panel and
the 10G interface card at the rear of the chassis, and you can bind several 10G ports to an IRF port for
increased bandwidth and availability.

H

NOTE:

• Figure 42 and Fi

gure 43 show the topologies for an IRF fabric made up of three 5500-24G-4SFP HI

(2 slots) switches that have two 2-port 10 GE SFP+ interface cards for IRF connections.

• The IRF port connections in the two fi

ures are for illustration only, and more connection methods are

available.

• For information about the physical ports available for IRF connections on different 5500 HI switches,

see Table 5.

Figure 42 IRF fabric in daisy chain topology

33

q

Figure 43 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.

To set up IRF connection, you must use 10-Gigabit ports, including the two SFP+ ports on the front panel
and the 10-Gigabit ports on the expansion interface card. For the available interface cards, see
"Appendix B FRUs and compatibility matrixes."

F

o

llow the binding restrictions and guidelines described in Table 5 when you identify the physical IRF

por

ts on the member switches.

Table 5 Binding matrix for IRF ports

Switch model Re

5500-24G-4SFP HI (2 slots)

5500-24G-SFP HI (2 slots)

5500-24G-SFP HI TAA (2 slots)

5500-24G-PoE+-4SFP HI (2 slots)

5500-24G-PoE+-4SFP HI TAA (2 slots)

uirements

The two SFP+ ports on the front panel and 10-Gigabit ports on the
expansion interface card can be bound to any IRF port.

• Physical ports on the same interface card can only be bound to the

5500-48G-4SFP HI (2 slots)

5500-48G-PoE+-4SFP HI (2 slots)

5500-48G-PoE+-4SFP HI TAA (2 slots)

same IRF port.

• SFP+ port numbered 53 on the front panel can only be bound to

the same IRF port as physical ports on the interface card in slot 2.

• SFP+ port numbered 54 on the front panel can only be bound to

the same IRF port as physical ports on the interface card in slot 1.

Planning the cabling scheme

Select appropriate cables to connect physical IRF ports:

• Use XFP transceiver modules and fibers to connect XFP ports.

• Use SFP+ transceiver modules and fibers to connect SFP+ ports over a long distance, and use SFP+

cables over a short distance.

34

t

• Use CX4 cables to connect CX4 ports.

• Use category 6 or above twisted pair cables to connect 1/10GBase-T Ethernet ports.

If the IRF member switches are far away from one another, choose the SFP+/XFP transceiver modules
with optical fibers. If the IRF member switches are all in one equipment room, choose CX4/SFP+ cables
or twisted pair cables.

For the transceiver modules and cables available for IRF connections, see "10 Gbps SFP+ transceiver

modu

les/SFP+ c

T

he following subsections describe several HP recommended IRF connection schemes, and all these

schemes use a ring topology.

IMPORTANT:

ables," "10 Gbps XFP transceiver modules," and "CX4 cables".

In these schemes, all physical IRF ports are located on the same side. If physical IRF ports are on differen
sides, you must measure the distance between them to select an appropriate cable.

Connecting the IRF member switches in one rack

Use CX4/SFP+ cables or twisted pair cables to connect the IRF member switches (nine switches in this
example) in a rack as shown in Figure 44. Th
same order as connected in the rack.

e switches in the ring topology (see Figure 45) are in the

35

Figure 44 Connecting the switches in the same rack

Figure 45 IRF fabric topology

36

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e

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 46 show
transceiver modules and optical fibers. The topology is the same as Figure 45.

Figure 46 Connecting top of rack switches

s an example for connecting nine top of ra ck IR F me mber swi tches by us ing SFP+

Configuring basic IRF settings

After you install the IRF member switches, power on the switches, and log in to each IRF member switch
(see HP 5500 HI 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.

• To bind the ports on an interface card to an IRF port, you must install the interface card first. For how

to install an interface card, see "Installing/removing an interf

• Execute the display irf configuration command to verify the basic IRF settings.

For more information about configuring basic IRF settings, see HP 5500 HI Switch Series IRF
Configuration Guide.

ace card."

Connecting the physical IRF ports

Use proper cables to connect the IRF member switches as planned.

NOTE:

ear an ESD-preventive wrist strap when you connect CX4/SFP+ cables or SFP+/XFP transceiver
modules and fibers. For how to connect them, see
and "Installing/removing a CX4/SFP+ cable."

SFP/SFP+/XFP Transceiver Modules Installation Guid

Accessing the IRF fabric to verify the configuration

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 that the IRF fabric and the

remote network management station can reach each other.

37

3. Use Telnet, web, or SNMP to access the IRF fabric from the network management station. (See HP

5500 HI Switch Series Fundamentals Configuration Guide.)

4. Check 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 6.

Table 6 Displaying and maintaining IRF configuration and running status

To do… Use the command…

Display information about the IRF fabric display irf

Display all members’ configurations that take effect after
switch reboots

Display topology information about the IRF fabric display irf topology

display irf configuration

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. For more
information about MAD detection, see

HP 5500 HI Switch Series IRF Configuration Guide

.

38

k

Maintenance and troubleshooting

Power supply failure

Look at the PWR1 or PWR2 LED of the switch to identify a power supply failure. For more information
about the PWR1 and PWR2 LEDs on the front panel of the switch, see Table 15.

If the pow
behave in any other way, verify the following items:

• The switch power cord is properly connected.

• The power source meets the requirement.

• The operating temperature of the switch is in the normal range and the power supply has good

NOTE:

If the problem persists, contact HP for help.

To replace a hot swappable power supply, see "Installing/removing a power supply."

er supply system is correctly working, the power supply status LEDs are steady green. If the LEDs

ventilation.

Fan failure

Look at the system status LED and the seven-segment LED of a 5500 HI switch to identify a fan failure. If
both LEDs are behaving as described in Table 7, a fan failure occurs.

Table 7 LED behaviors

LED Mar

System status LED SYS Steady red

that identify a fan failure

State

The LED displays a flashing F character.

Seven-segment LED Unit

The 5500 HI Switch Series uses fixed fans. If a fan failure occurs, promptly contact HP for help and do
not attempt to fix the problem yourself or continue to run the switch.

Configuration terminal 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 terminal display

If the configuration terminal displays nothing when the switch is powered on, verify the following items:

• The power supply is supplying power to the switch.

39

• The console cable is properly connected.

• The console cable has no problem and the terminal settings are correct.

Garbled terminal display

If terminal display is garbled, verify that the following settings are configured for the terminal, for
example, HyperTerminal:

• Baud rate—9,600

• Data bits—8

• Parity—none

• Stop bits—1

• Flow control—none

• Emulation—VT100

40

g

t

Appendix A Chassis views and technical specifications

The HP 5500 HI Switch Series includes the models in Table 8.

Table 8 HP 5500 HI Switch Series models

Product number HP description RMN Alias

JG311A

JG312A

JG541A

JG679A

JG542A

JG680A

JG543A

JG681A

IMPORTANT:

HP 5500-24G-4SFP HI Switch with 2
interface Slots

HP 5500-48G-4SFP HI Switch with 2
interface Slots

HP 5500-24G-PoE+-4SFP HI Switch
with 2 Interface Slots

HP 5500-24G-PoE+-4SFP HI
TAA-compliant Switch with 2 Interface
Slots

HP 5500-48G-PoE+-4SFP HI Switch
with 2 Interface Slots

HP 5500-48G-PoE+-4SFP HI
TAA-compliant Switch with 2 Interface
Slots

HP 5500-24G-SFP HI Switch
with 2 Interface Slots

HP 5500-24G-SFP HI TAA-compliant
Switch with 2 Interface Slots

BJNGA-AD0004

BJNGA-AD0005

BJNGA-AD0019

BJNGA-AD0019

BJNGA-AD0020

BJNGA-AD0020

BJNGA-AD0021

BJNGA-AD0021

5500-24G-4SFP HI (2
slots)

5500-48G-4SFP HI (2
slots)

5500-24G-PoE+-4SFP
HI (2 slots)

5500-24G-PoE+-4SFP
HI TAA (2 slots)

5500-48G-PoE+-4SFP
HI (2 slots)

5500-48G-PoE+-4SFP
HI TAA (2 slots)

5500-24G-SFP HI (2
slots)

5500-24G-SFP HI TAA
(2 slots)

For regulatory identification purposes, the HP 5500 HI switches are assigned regulatory model numbers
(RMN). These re

ulatory numbers should not be confused with the marketing names HP 5500, or produc

numbers.

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Chassis views

5500-24G-4SFP HI (2 slots) panel views

Figure 47 5500-24G-4SFP HI (2 slots) front panel

1 2

3

4

7

6

5

13

8
9

10
11

12

17

(1) 10/100/1000 Base-T auto-sensing Ethernet port (2) 10/100/1000 Base-T Ethernet port LED
(3) SFP port LED (4) SFP+ port LED
(5) Management Ethernet port LED (ACT/LINK) (6) Seven-segment LED (Unit)
(7) Port mode LED (Mode) (8) System status LED (SYS)
(9) Power supply 1 status LED (PWR1)
(11) Interface card 1 status LED (SLOT1) (12) Interface card 2 status LED (SLOT2)
(13) Port LED mode switchin
(15) Management Ethernet port (Management)
(17) 100/1000Base-X SFP port

button

(10) Power supply 2 status LED (PWR2)

(14) Console port
(16) SFP+ port

16

15

14

Figure 48 5500-24G-4SFP HI (2 slots) rear panel

(1) Grounding screw (2) Power supply slot 1 (PWR1)
(3) Power supply slot 2 (PWR2) (4) Interface card slot 1 (SLOT1)
(5) Interface card slot 2 (SLOT2)

NOTE:

• The 5500-24G-4SFP HI (2 slots) switch comes with two expansion interface card slots covered by filler

panels.

• The 5500-24G-4SFP HI (2 slots) switch comes with power supply slot 1 covered by a filler panel and

power supply slot 2 empty. In this figure, a PSR150-A (JD362A) power supply is installed in power
supply slot 2.

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g

5500-48G-4SFP HI (2 slots) panel views

Figure 49 5500-48G-4SFP HI (2 slots) front panel

(1) 10/100/1000 Base-T auto-sensing Ethernet port (2) 10/100/1000 Base-T Ethernet port LED
(3) SFP port LED (4) 100/1000Base-X SFP port
(5) Mana
(7) Seven-segment LED (Unit) (8) Port LED mode switching button
(9) Port mode LED (Mode) (10) Power supply 1 status LED (PWR1)
(11) Power supply 2 status LED (PWR2)
(13) Interface card 2 status LED (SLOT2) (14) Interface card 1 status LED (SLOT1)
(15) Mana
(17) SFP+ port LED

ement Ethernet port (Management)

ement Ethernet port LED (ACT/LINK)

(6) Console port

(12) System status LED (SYS)

(16) SFP+ port

Figure 50 5500-48G-4SFP HI (2 slots) rear panel

(1) Grounding screw (2) Power supply slot 1 (PWR1)
(3) Power supply slot 2 (PWR2) (4) Interface card slot 1 (SLOT1)
(5) Interface card slot 2 (SLOT2)

NOTE:

• The 5500-48G-4SFP HI (2 slots) switch comes with two expansion interface card slots covered by filler

panels.

• The 5500-48G-4SFP HI (2 slots) switch comes with power supply slot 1 covered by a filler panel and

power supply slot 2 empty. In this figure, a PSR150-A (JD362A) power supply is installed in power
supply slot 2.

43

g

5500-24G-SFP HI (2 slots)/5500-24G-SFP HI TAA (2 slots) panel views

Figure 51 5500-24G-SFP HI (2 slots)/5500-24G-SFP HI TAA (2 slots) front panel

(1) 100/1000 Base-X SFP port (2) SFP port LED
(3) 10/100/1000 Base-T Ethernet port LED
(5) Management Ethernet port LED (ACT/LINK) (6) Seven-segment LED (Unit)
(7) Port mode LED (Mode) (8) System status LED (SYS)
(9) Power supply 1 status LED (PWR1)
(11) Interface card 1 status LED (SLOT1) (12) Interface card 2 status LED (SLOT2)
(13) Port LED mode switchin
(15) Management Ethernet port (Management)
(17) 10/100/1000 Base-T auto-sensing Ethernet port

button

(4) SFP+ port LED

(10) Power supply 2 status LED (PWR2)

(14) Console port
(16) SFP+ port

Figure 52 5500-24G-SFP HI (2 slots)/5500-24G-SFP HI TAA (2 slots) rear panel

(1) Grounding screw (2) Power supply slot 1 (PWR1)
(3) Power supply slot 2 (PWR2) (4) Interface card slot 1 (SLOT1)
(5) Interface card slot 2 (SLOT2)

NOTE:

• The 5500-24G-SFP HI (2 slots) switch and 5500-24G-SFP HI TAA (2 slots) switch come with two

expansion interface card slots covered by filler panels.

• The 5500-24G-SFP HI (2 slots) switch and 5500-24G-SFP HI TAA (2 slots) switch come with power

supply slot 1 covered by a filler panel and power supply slot 2 empty. In this figure, a PSR150-A
(JD362A) power supply is installed in power supply slot 2.

44

g

5500-24G-PoE+-4SFP HI (2 slots)/5500-24G-PoE+-4SFP HI TAA (2 slots) panel views

Figure 53 5500-24G-PoE+-4SFP HI (2 slots)/5500-24G-PoE+-4SFP HI TAA (2 slots) front panel

7

6

5

1 2

3

4

13

8
9

10
11

12

17

(1) 10/100/1000 Base-T auto-sensing Ethernet port (2) 10/100/1000 Base-T Ethernet port LED
(3) SFP port LED (4) SFP+ port LED
(5) Management Ethernet port LED (ACT/LINK) (6) Seven-segment LED (Unit)
(7) Port mode LED (Mode) (8) System status LED (SYS)
(9) Power supply 1 status LED (PWR1)
(11) Interface card 1 status LED (SLOT1) (12) Interface card 2 status LED (SLOT2)
(13) Port LED mode switchin
(15) Management Ethernet port (Management)
(17) 100/1000 Base-X SFP port

button

(10) Power supply 2 status LED (PWR2)

(14) Console port
(16) SFP+ port

16

15

14

Figure 54 5500-24G-PoE+-4SFP HI (2 slots)/5500-24G-PoE+-4SFP HI TAA (2 slots) rear panel

(1) Grounding screw (2) Interface card slot 1 (SLOT1)
(3) Interface card slot 2 (SLOT2) (4) Power supply slot 1 (PWR1)
(5) Power supply slot 2 (PWR2)

NOTE:

• The 5500-24G-PoE+-4SFP HI (2 slots) switch and 5500-24G-PoE+-4SFP HI TAA (2 slots) switch come

with two expansion interface card slots covered by filler panels.

• The 5500-24G-PoE+-4SFP HI (2 slots) switch and 5500-24G-PoE+-4SFP HI TAA (2 slots) switch come

with power supply slots empty.

45

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g

5500-48G-PoE+-4SFP HI (2 slots)/5500-48G-PoE+-4SFP HI TAA (2 slots) panel views

Figure 55 5500-48G-PoE+-4SFP HI (2 slots)/5500-48G-PoE+-4SFP HI TAA (2 slots) front panel

(1) 10/100/1000 Base-T auto-sensing Ethernet port
(3) SFP port LED (4) 100/1000 Base-X SFP port
(5) Management Ethernet port (Management) (6) Console port
(7) Seven-se
(9) Port mode LED (Mode) (10) Power supply 1 status LED (PWR1)
(11) Power supply 2 status LED (PWR2) (12) System status LED (SYS)
(13) Interface card 2 status LED (SLOT2)
(15) Mana
(17) SFP+ port LED

ment LED (Unit) (8) Port LED mode switching button

ement Ethernet port LED (ACT/LINK)

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

(14) Interface card 1 status LED (SLOT1)
(16) SFP+ port

Figure 56 5500-48G-PoE+-4SFP HI (2 slots)/5500-48G-PoE+-4SFP HI TAA (2 slots) rear panel

(1) Grounding screw (2) Interface card slot 1 (SLOT1)
(3) Interface card slot 2 (SLOT2) (4) Power supply slot 1 (PWR1)
(5) Power supply slot 2 (PWR2)

NOTE:

• The 5500-48G-PoE+-4SFP HI (2 slots) switch and 5500-48G-PoE+-4SFP HI TAA (2 slots) switch come

with two expansion interface card slots covered by filler panels.

• The 5500-48G-PoE+-4SFP HI (2 slots) switch and 5500-48G-PoE+-4SFP HI TAA (2 slots) switch come

with power supply slots empty.

46

Technical specifications

Table 9 describes the technical specifications for the 5500 HI switches.

Table 9 HP 5500 HI switches technical specifications (1)

Item

Dimensions (H × W × D)

Weight < 7.5 kg (16.53 lb) < 8.5 kg (18.74 lb) < 7.5 kg (16.53 lb)

Management ports 1 console port, 1 management Ethernet port, both on the front panel

5500-24G-4SFP HI (2
slots)

43.6 × 440 × 360 mm

(1.72 × 17.32 × 14.17
in)

• 24 ×

10/100/1000Base­T auto-sensing

Fixed network ports (on
the front panel)

Ethernet ports

• 4 ×

100/1000Base-X
SFP ports

• 2 × 1/10 Gbps

SFP+ ports

Expansion interface
card slots

Power supply slots 2, on the rear panel 2, on the rear panel 2, on the rear panel

2 (SLOT1 and SLOT2),
on the rear panel

5500-48G-4SFP HI (2
slots)

43.6 × 440 × 420 mm

(1.72 × 17.32 × 16.54
in)

• 48

×10/100/1000Base­T auto-sensing
Ethernet ports

• 4 × 100/1000Base-X

SFP ports

• 2 x 1/10 Gbps SFP+

ports

2 (SLOT1 and SLOT2), on
the rear panel

5500-24G-SFP HI (2
slots)/5500-24G-SFP HI
TAA (2 slots)

43.6 × 440 × 360 mm

(1.72 × 17.32 × 14.17 in)

• 24 × 100/1000Base-X

SFP ports

• 4 ×

10/100/1000Base-T
auto-sensing Ethernet
ports

• 2 × 1/10 Gbps SFP+

ports

2 (SLOT1 and SLOT2), 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

Minimum power
consumption

{ 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 supply or an HP A-RPS800 (JD183A) or
A-RPS1600 (JG136A) RPS as the DC power source.

AC: 62 W

DC: 55.5 W

AC: 94 W

DC: 86.4 W

AC: 60 W

DC: 50 W

Maximum power
consumption

Chassis leakage current
compliance

Melting current of power
supply fuse

Operating temperature

Relative humidity 5% to 95%, noncondensing

AC: 141 W

DC: 115 W

UL60950-1, EN60950-1, IEC60950-1, GB4943

• AC-input: 3.15A/250V

• DC-input: 8A/250V

0°C to 50°C (32°F to 122°F) or 0°C to 45°C (32°F to 113°F) when the
XFP-LH40-SM1550-F1 or XFP-LH80-SM1550 is used

47

AC: 191 W

DC: 180 W

AC: 135 W

DC: 115 W

5500-24G-SFP HI (2
slots)/5500-24G-SFP HI
TAA (2 slots)

Item

Fire resistance
compliance

5500-24G-4SFP HI (2
slots)

UL60950-1, EN60950-1, IEC60950-1, GB4943

5500-48G-4SFP HI (2
slots)

Table 10 HP 5500 HI switches technical specifications (2)

5500-24G-PoE+-4SFP HI (2 slots)/

Item

5500-24G-PoE+-4SFP HI TAA (2
slots)

Dimensions (H × W × D)

Weight < 10 kg (22.05 lb) < 10.5 kg (23.15 lb)

Management ports 1 console port, 1 management Ethernet port, both on the front panel

43.6 × 440 × 460 mm

(1.72 × 17.32 × 18.11 in)

• 24 × 10/100/1000Base-T

Fixed network ports (on
the front panel)

auto-sensing Ethernet ports

• 4 × 100/1000Base-X SFP ports

• 2 × 1/10 Gbps SFP+ ports

Expansion interface
card slots

2 (SLOT1 and SLOT2), on the rear panel 2 (SLOT1 and SLOT2), on the rear panel

5500-48G-PoE+-4SFP HI (2 slots)/
5500-48G-PoE+-4SFP HI TAA (2
slots)

43.6 × 440 × 460 mm

(1.72 × 17.32 × 18.11 in)

• 48 ×10/100/1000Base-T

auto-sensing Ethernet ports

• 4 × 100/1000Base-X SFP ports

• 2 x 1/10 Gbps SFP+ ports

Power supply slots 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

Maximum PoE power
consumption on a single
port

Total PoE power
consumption

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

• PSR1110-56A (JG545A) 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

30 W 30 W

Depending on configured power

Depending on configured power
supplies:

• One PSR720-56A (JG544A): 450

W

• Two PSR720-56A (JG544A): 720 W

• One PSR1110-56A (JG545A): 720

W

• One PSR720-56A (JG544A) and

o n e P S R 1110 - 5 6 A ( J G 5 4 5 A ) : 7 2 0 W

• Two PSR1110-56A (JG545A): 720 W

supplies:

• One PSR720-56A(JG544A): 450

W

• Two PSR720-56A(JG544A): 1100

W

• One PSR1110-56A (JG545A): 800

W

• One PSR720-56A (JG544A)and

one PSR1110-56A (JG545A): 1440
W

• Two PSR1110-56A (JG545A): 1440

W

Minimum power
consumption

80 W 115 W

48

Item

Maximum power
consumption (including
PoE power consumption)

Chassis leakage current
compliance

Melting current of power
supply fuse

Operating temperature 0°C to 45°C (32°F to 113°F)

Relative humidity 5% to 95%, noncondensing

Fire resistance
compliance

Cooling system

The cooling system of the 5500 HI switch comprises the air vents in the chassis, fixed fans, and built-in
fans of power supplies. To guarantee the performance of this cooling system, you must consider the
ventilation design for the installation site when you plan the installation site for the 5500 HI switch.

5500-24G-PoE+-4SFP HI (2 slots)/
5500-24G-PoE+-4SFP HI TAA (2
slots)

950 W 1840 W

UL60950-1, EN60950-1, IEC60950-1, GB4943

15A/250V

UL60950-1, EN60950-1, IEC60950-1, GB4943

5500-48G-PoE+-4SFP HI (2 slots)/
5500-48G-PoE+-4SFP HI TAA (2
slots)

The 5500 HI switch uses fixed fans and left-right aisles for air ventilation. Ambient air flows in through the
air vents at the left side of chassis (the direction subject to the user facing the front panel of the chassis),
circulates through the chassis and the power supplies, and exhausts at the right side of the chassis and
the air outlet vents of the power supplies. The chassis and power supplies use independent aisles, which
must be kept clear when the switch is operating.

For different switch models, design the cooling system as follows:

Model Cooling system design

5500-24G-4SFP HI (2 slots)

5500-48G-4SFP HI (2 slots

Six fans at most, including three fans for the system, one fan
for each power supply, and one for interface card slot

5500-24G-SFP HI (2 slots)

SLOT1.

5500-24G-SFP HI TAA (2 slots)

5500-24G-PoE+-4SFP HI (2 slots)

5500-24G-PoE+-4SFP HI TAA (2 slots)

5500-48G-PoE+-4SFP HI (2 slots)

5500-48G-PoE+-4SFP HI TAA (2 slots)

Four fans at most, including two fans for the system and one
fan for each power supply.

Five fans at most, including three fans for the system and
one fan for each power supply.

49

Appendix B FRUs and compatibility matrixes

This appendix describes the field replaceable units (FRUs) available for the 5500 HI switches and their
compatibility.

All the FRUs in this appendix are hot swappable.

FRUs and compatibility matrixes

FRUs

5500-24G­4SFP HI (2
slots)

5500-48G

-4SFP HI (2
slots)

5500-24G-SF
P HI (2 slots)/
5500-24G-SF
P HI TAA (2
slots)

5500-24G-PoE
+-4SFP HI (2
slots)/
5500-24G-PoE
+-4SFP HI TAA
(2 slots)

5500-48G-P
oE+-4SFP HI
(2 slots)/
5500-48G-P
oE+-4SFP HI
TAA (2

slots)

Hot swappable power supplies

PSR150-A/PSR150-A
1 (JD362A/JD362B)

PSR150-D/PSR150-D
1 (JD366A/JD366B)

PSR720-56A
(JG544A)

PSR1110-56A
(JG545A)

Supported Supported Supported N/A N/A

Supported Supported Supported N/A N/A

N/A N/A N/A Supported Supported

N/A N/A N/A Supported Supported

Interface cards

LSPM1XP1P (JD361B) Supported Supported Supported Supported Supported

LSPM1XP2P (JD359B) Supported Supported Supported Supported Supported

LSPM1CX2P (JD360B) Supported Supported Supported Supported Supported

LSPM2SP2P (JD368B) Supported Supported Supported Supported Supported

LSPM2GP2P
(JD367A)

LSPM1XGT2P
(JG535A)

LSP5GP8P0 (JG314A)

LSP5GT8P (JG313A)

Supported Supported Supported Supported Supported

Supported Supported Supported Supported Supported

Only
supported
by SLOT1

Only
supported
by SLOT1

Supported

Supported

Only supported
by SLOT1

Only supported
by SLOT1

Only supported
by SLOT1

Only supported
by SLOT1

Supported

Supported

For the 5500-24G-4SFP HI (2 slots), 5500-48G-4SFP HI (2 slots), 5500-24G-SFP HI (2 slots), or
5500-24G-SFP HI TAA (2 slots) switch, one power supply can satisfy the normal operation of the switch,
and two power supplies can implement 1 + 1 redundant backup. You can install one AC power supply
and one DC power supply at the same time.

50

p

g

For the 5500-24G-PoE+-4SFP HI (2 slots), 5500-24G-PoE+-4SFP HI TAA (2 slots), 5500-48G-PoE+-4SFP
HI (2 slots), or 5500-48G-PoE+-4SFP HI TAA (2 slots) switch, you can install one power supply, or for
redundancy, two power supplies. Different power supply configurations have different PoE power. For
more information, see Table 10.

Hot swappable power supplies

Power supply S

ecifications

• Rated input voltage range:

100 VAC to 240 VAC @ 50 Hz or 60 Hz

PSR150-A (JD362A)

PSR150-A1 (JD362B)

• Max input voltage range:

90 VAC to 264 VAC @ 47 Hz to 63 Hz

• Max output power:

150 W

• Rated input voltage range:

–48 VDC to –60 VDC

PSR150-D (JD366A)

PSR150-D1 (JD366B)

• 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

PSR720-56A (JG544A)

• 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

PSR1110-56A (JG545A)

• Max input voltage range:

102.5 VAC to 264 VAC @ 47 Hz to 63 Hz

• Max output power:

111 0 W

Reference

HP PSR150-A & PSR150-D
Series Power Supplies User
Guide

HP PSR150-A & PSR150-D
Series Power Supplies User
Guide

HP PSR720-56A Power
Supply User Guide

HP PSR1110-56A Power
Supply User Guide

NOTE:

The PSR1110-56A (JG545A) power supply adds 64 mm (2.52 in) to the depth of the switch, includin

the

depth of the power supply handle.

Interface cards

Product
code

JD367A LSPM2GP2P 2 × 1 Gbps SFP fiber ports

JD368B LSPM2SP2P 2 × 1/10 Gbps SFP+ fiber ports

JD360B LSPM1CX2P 2 × 10 Gbps CX4 copper ports CX4 cables

Card model Port type and quantity Transceiver module options

1000 Mbps SFP transceiver modules

(except for SFP-GE-T)

• 1000 Mbps SFP transceiver modules

• 10 Gbps SFP+ transceiver

modules/SFP+ cables

51

μm)

Product
code

JD359B LSPM1XP2P 2 × 10 Gbps XFP fiber ports

JD361B LSPM1XP1P 1 × 10 Gbps XFP fiber port

JG535A LSPM1XGT2P 2 × 1/10GBase-T Ethernet ports N/A

JG314A LSP5GP8P0

JG313A LSP5GT8P

Card model Port type and quantity Transceiver module options

10 Gbps XFP transceiver modules

8 × 100/1000Base-X SFP fiber
ports

8 × 10/100/1000Base-T
Ethernet ports

• 1000 Mbps SFP transceiver modules

• 100 Mbps SFP transceiver modules

N/A

NOTE:

• The LSP5GT8P interface card adds 34.75 mm (1.37 in) to the depth of the switch.

• The LSP5GP8P0 interface card adds 69.75 mm (2.75 in) to the depth of the switch.

• For more information about the interface cards, see their user guides.

SFP/SFP+/XFP transceiver modules and SFP+/CX4 cables

This section describes the transceiver modules and transceiver module cables available for the HP 5500
HI Switch Series.

IMPORTANT:

The operating temperature is 0°C to 45°C (32°F to 113°F) for the JD121A and JD107A transceiver
modules, and 0°C to 50°C (32°F to 122°F) for all other transceiver modules.

NOTE:

• To guarantee the functionality of the transceiver module ports, use only HP transceiver modules.

• The transceiver modules available for this switch series are subject to change over time. For the most

up-to-date list of transceiver modules, consult your HP sales representative or technical support
engineer.

• For the transceiver module specifications, see

HP A-Series Switches Transceiver Modules User Guide

For information about installing or removing a transceiver module, see

Modules Installation Guide

.

100 Mbps SFP transceiver modules

Product code Module Description

Central wavelength
(nm)

SFP/SFP+/XFP Transceiver

Fiber
diameter
(

Maximum
transmission
distance

.

JD102B

HP X115 100M SFP LC FX
Transceiver

1310

52

50/125 2 km (1.24 miles)

62.5/125 2 km (1.24 miles)

μm)

Product code Module Description

JD120B

JD090A

JD091A

JD100A

JD101A

IMPORTANT:

HP X110 100M SFP LC LX
Transceiver

HP X110 100M SFP LC
LH40 Transceiver

HP X110 100M SFP LC
LH80 Transceiver

HP X110 100M SFP LC BX
10-U Transceiver

HP X110 100M SFP LC BX
10-D Transceiver

(nm)

1310 9/125

1310 9/125

1550 9/125

TX: 1310

RX: 1550

TX: 1550

RX: 1310

You must use the transceiver modules coded D100A and JD101A in pairs.

Central wavelength

1000 Mbps SFP transceiver modules

Fiber
diameter
(

9/125

9/125

Maximum
transmission
distance

15 km (9.32
miles)

40 km (24.86
miles)

80 km (49.71
miles)

15 km (9.32
miles)

15 km (9.32
miles)

Product
code

JD118B

JD119B

JD061A

Module description

HP X120 1G SFP LC SX
Transceiver

HP X120 1G SFP LC LX
Transceiver

HP X125 1G SFP LC LH40
1310nm Transceiver

Central
wavelength

(nm)

850

1310

1310 9/125 N/A

Cable/fiber
diameter
(μm)

50/125

62.5/125

9/125 N/A

50/125 500, 400

62.5/125 500

Multimode
fiber modal
bandwidth
(MHz × km)

500

400

200

160

Max
transmission
distance

550 m
(1804.46 ft)

500 m
(1640.42 ft)

275 m
(902.23 ft)

220 m
(721.78 ft)

10 km (6.21
miles)

550 m
(1804.46 ft)

550 m
(1804.46 ft)

40 km (24.86
miles)

JD062A

JD063B

JD103A

HP X120 1G SFP LC LH40
1550nm Transceiver

HP X125 1G SFP LC LH70
Transceiver

HP X120 1G SFP LC
LH100 Transceiver

1550 9/125 N/A

1550 9/125 N/A

1550 9/125 N/A

53

40 km (24.86
miles)

70 km (43.50
miles)

100 km (62.14
miles)

Multimode
fiber modal
bandwidth
(MHz × km)

N/A

Product
code

JD098B

JD099B

JD089B

IMPORTANT:

Module description

HP X120 1G SFP LC BX
10-U Transceiver

HP X120 1G SFP LC BX
10-D Transceiver

HP X120 1G SFP RJ45 T
Transceiver

Central
wavelength

(nm)

TX: 1310

RX: 1490

TX: 1490

RX: 1310

N/A

Cable/fiber
diameter
(μm)

9/125 N/A

9/125 N/A

Category-5
twisted pair

You must use the transceiver modules coded JD098B and JD099B in pairs.

10 Gbps SFP+ transceiver modules/SFP+ cables

Product
code

Module description

Central
wavelength

(nm)

Fiber
diameter
(μm)

Multimode fiber
modal bandwidth
(MHz × km)

Max
transmission
distance

10 km (6.21
miles)

10 km (6.21
miles)

100 m
(328.08 ft)

Max
transmission
distance

Transceiver modules

JD092B

JD093B

JD094B

JG234A

HP X130 10G SFP+
LC SR Transceiver

HP X130 10G SFP+
LC LRM Transceiver

HP X130 10G SFP+
LC LR Transceiver

HP X130 10G SFP+
LC ER 40km
Transceiver

SFP+ cables (short-haul)

HP X240 10G SFP+

JD095C

SFP+ 0.65m DA
Cable

2000

50/125

850

62.5/125

50/125

1310

62.5/125 200, 160

1310 9/125 N/A

1550 9/125 N/A

N/A SFP+ cable N/A 0.65 m (2.13 ft)

500 82 m (269.03 ft)

400 66 m (216.54 ft)

200 33 m (108.27 ft)

160 26 m (85.3 ft.)

1500, 500

400

300 m (984.25
ft)

220 m (721.78
ft)

100 m (328.08
ft)

220 m (721.78
ft)

10 km (6.21
miles)

40 km (24.86
miles)

JD096C

HP X240 10G SFP+
SFP+ 1.2m DA Cable

N/A SFP+ cable N/A 1.2 m (3.94 ft)

54

×

Product
code

JD097C

JG081C

JC784C

Module description

HP X240 10G SFP+
SFP+ 3m DA Cable

HP X240 10G SFP+
SFP+ 5m DA Cable

HP X240 10G SFP+
SFP+ 7m Direct
Attach Copper Cable

Figure 57 SFP+ cable

1

2

Central
wavelength

(nm)

N/A SFP+ cable N/A 3 m (9.84 ft)

N/A SFP+ cable N/A 5 m (16.40 ft)

N/A SFP+ cable N/A 7 m (22.97 ft)

Fiber
diameter
(μm)

Multimode fiber
modal bandwidth
(MHz × km)

Max
transmission
distance

(1) Pull latch (2) Connector

10 Gbps XFP transceiver modules

Product
code

JD117B

JD108B

JD121A

JD107A

Module description

HP X130 10G XFP LC
SR Transceiver

HP X130 10G XFP LC
LR 1310nm
Transceiver

HP X135 10G XFP LC
ER Transceiver

HP X130 10G XFP LC
ZR 1550nm
Transceiver

Central
wavelength

(nm)

850

1310 9/125 N/A 10 km (6.21 miles)

1550 9/125 N/A 40 km (24.86 miles)

1550 9/125 N/A 80 km (49.71 miles)

Fiber
diameter
(μm)

50/125

62.5/125

Multimode
fiber modal
bandwidth
(MHz

2000 300 m (984.25 ft)

500 82 m(269.03 ft)

400 66 m(216.54 ft)

220 33 m (108.27 ft)

160 26 m (85.3 ft)

km)

Max transmission
distance

CX4 cables

55

Product code CX4 cable model Connector Max transmission distance

JD363B

JD364B

HP X230 Local Connect 50cm
CX4 Cable

HP X230 Local Connect 100cm
CX4 Cable

4X Infiniband 0.5 m (1.64 ft)

4X Infiniband 1 m (3.28 ft)

JD365A HP X230 CX4 to CX4 3m Cable 4X Infiniband 3 m (9.84 ft)

Figure 58 CX4 cable assembly

(1) Pull latch (2) Connector

56

p

p

p

Appendix C Ports and LEDs

Fixed ports

Console port

Every 5500 HI switch has one console port.

Table 11 Console port specifications

Item S

Connector type

Compliant standard

Transmission baud rate 9600 bps (default) to 115200 bps

Services

ecification

RJ-45

Asynchronous EIA/TIA-232

• Provides connection to an ASCII terminal.

• Provides connection to the serial port of a local or remote (through a pair

of modems) PC running terminal emulation program.

Management Ethernet port

Every 5500 HI switch has one management Ethernet port. You can connect this port to a PC or
management station for loading and debugging system software or remote management.

Table 12 Management Ethernet port specifications

Item S

Connector type RJ-45

Port transmission rate

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

ecification

• 10/100 Mbps, half/full duplex, auto MDI/MDI-X

• 1000 Mbps, full duplex, auto MDI/MDI-X

Max transmission distance 100 m (328.08 ft)

Standards IEEE 802.3i, 802.3u, 802.3ab

Functions and services Switch software and Boot ROM upgrade, network management

10/100/1000Base-T Ethernet port

All 5500 HI switches have 10/100/1000Base-T Ethernet ports.

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

Item S

Connector type

ecification

RJ-45

57

p

p

Item Specification

Interface attributes

Max transmission distance

• 10/100 Mbps, half/full duplex, auto MDI/MDI-X

• 1000 Mbps, full duplex, auto MDI/MDI-X

100 m (328.08 ft)

Transmission medium

Standards

Category-5 (or above) twisted pair cable

IEEE 802.3i, 802.3u, 802.3ab

100/1000Base-X SFP port

Every 5500 HI switch has four fixed 100/1000Base-X SFP ports. You can install the modules listed in
"100 Mbps SFP transceiver modules" and "1000 Mbps SFP transceiver modules" in the por

SFP+ port

Every 5500 HI switch has two fixed 1-/10-Gbps SFP+ ports. You can plug the transceiver modules and
cables in "1000 Mbps SFP transceiver modules" and "10 Gbps SFP+ transceiver modules/SFP+ cables"
int

o the SFP+ ports as needed. You can use the SFP+ ports as IRF physical ports to connect 5500 HI

switches in an IRF deployment.

LEDs

System status LED

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

ts.

Table 14 System status LED description

LED mark Status Descri

Steady green The switch is operating properly.

Flashing green (1 Hz) The switch is performing power-on self-test (POST).

SYS

Steady red POST has failed.

Flashing yellow (1 Hz) Some ports have failed to pass POST.

Off The switch is powered off.

Power supply status LED

A power supply status LED shows how the hot swappable power supply in a slot is operating.

Table 15 Power supply status LED description

LED mark Status Descri

PWR1/PWR2 Steady green

tion

tion

A power supply is installed in the power supply slot, and the
power output is normal.

58

p

LED mark Status Description

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.

Table 16 Port mode LED description

LED mark Status Descri

Mode

Steady yellow

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

A power supply is installed in the power supply slot, but the
power supply has a problem or no power is being input.

tion

Steady green The network port LEDs are showing port rates.

Flashing green (1 Hz) (available only for
the 5500-24G-PoE+-4SFP HI (2 slots),
5500-24G-PoE+-4SFP HI TAA (2 slots),
5500-48G-PoE+-4SFP HI (2 slots), and
5500-48G-PoE+-4SFP HI TAA (2 slots))

Steady yellow

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

The network port LEDs are showing duplex
modes.

Seven-segment LED

The seven-segment LED, together with the system status LED, shows detailed system operating information
(see Table 17).

Table 17 Seven-segment LED descrip

System status LED
(SYS) status

Flashing green

Flashing red

Flashing green

Steady red

Steady red

tion (1)

Seven-segment LED (Unit) status Description

The LED displays numbers one by one.

The LED displays flashing numbers.

A bar rotates clockwise around the LED.

The LED displays a flashing F character.

The LED displays a flashing t character.

POST is running, and the LED displays
the ongoing test item ID.

POST has failed, and the LED flashes
the ID of the failed test item.

Software is loading.

The switch is experiencing a fan
failure.

The switch is in an over-temperature
condition.

59

System status LED
(SYS) status

Seven-segment LED (Unit) status Description

The LED displays a capital C character.

The switch is the command switch in a
cluster.

The LED displays an S character.

The switch is a member switch in a
cluster.

Steady green

The LED displays a lowercase c character.

The switch is a candidate switch for a
cluster.

The LED displays a number.



The member ID of the switch.

The seven-segment LED, the system status LED, and the port mode LED on the 5500-24G-PoE+-4SFP HI (2
slots), 5500-24G-PoE+-4SFP HI TAA (2 slots), 5500-48G-PoE+-4SFP HI (2 slots), or
5500-48G-PoE+-4SFP HI TAA (2 slots) that supports PoE can display the PoE power consumption
percentage of the switch. For relevant information, see Table 18.

Table 18 Seven-segment LED descrip

t

ion (2)

LED status

LED

Unit

Port mode LED
(Mode)

Flashing green
(1 Hz) (PoE
mode)

System status
LED (SYS)

Steady green

Management Ethernet port LED

The management Ethernet port has a port LED to show its operating status and activities. The port mode
LED indicates the type of information that the port LED is showing.

Table 19 Management Ethernet port LED description

Port mode LED
(Mode) status

Steady green (rate
mode) or flashing
green ( 1 Hz, PoE
mode)

Management
Ethernet port LED
(ACT/LINK) status

Steady green

Steady yellow

Flashing yellow (3 Hz) POST has failed on the port.

Seven-segment LED

Description

For example, the

The LED displays different signs.

81 - 100%
61 - 80%
41 - 60%
21 - 40%
0 - 20%

sign indicates
that the switch is
outputting 0 to 20%
of the maximum PoE
output power.

Description

The port is operating at 1000 Mbps. The 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.

60

Port mode LED
(Mode) status

Steady yellow
(duplex mode)

Management
Ethernet port LED

Description

(ACT/LINK) status

Off No link is present on the port.

Steady green

Steady yellow

Flashing yellow (3 Hz) POST has failed on the port.

Off No link is present on the port.

The port is operating in full duplex mode. The port LED fast
flashes when the port is sending or receiving data.

The port is operating in half duplex mode. The port LED fast
flashes when the port is sending or receiving data.

10/100/1000Base-T Ethernet port LED

Each 10/100/1000Base-T auto-sensing Ethernet port has a status LED to show port operating status and
activities. The port mode LED indicates the type of port status information (for example, port rate or
duplex mode) that the port LEDs are showing. You can use the port LED mode switching button to change
the type of displayed port information.

Table 20 10/100/1000Base-T Ethernet port LED description

Port mode LED
(Mode) status

Port LED status Description

Steady green (rate
mode)

Flashing green (1 Hz)
(PoE mode, supported
by
5500-24G-PoE+-4SFP
HI (2 slots),
5500-24G-PoE+-4SFP
HI TAA (2 slots),
5500-48G-PoE+-4SFP
HI (2 slots), and
5500-48G-PoE+-4SFP
HI TAA (2 slots) only)

Steady yellow (duplex
mode)

Steady green

Steady yellow

Flashing yellow (3 Hz) POST has failed on the port.

Off No link is present on the port.

Steady green PoE power supply is normal.

Flashing green (1 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.

Steady green

Steady yellow

The port is operating at 1000 Mbps. The 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.

The device attached to the port requires power higher
than the maximum or currently available PoE output
power on the port.

The port is operating in full duplex mode. The port LED
fast flashes when the port is sending or receiving data.

The port is operating in half duplex mode. The port
LED fast flashes when the port is sending or receiving
data.

Flashing yellow (3 Hz) POST has failed on the port.

Off No link is present on the port.

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100/1000Base-X SFP port LED

Each 100/1000Base-X SFP port has a status LED to show port operating status and activities. The port
mode LED indicates the type of information (for example, port rate or duplex mode) that the port LEDs are
showing. You can use the port LED mode switching button to change the type of displayed port
information.

Table 21 100/1000Base-X SFP port LED description

Port mode LED (Mode)
status

Steady green (rate mode)
or flashing green ( 1 Hz,
PoE mode)

Steady yellow (duplex
mode)

SFP+ port LED

Each SFP+ port has a status LED to show port operating status and activities. The port mode LED indicates
the type of information (for example, port rate or duplex mode) that the port LEDs are showing. You can
use the port LED mode switching button to change the type of displayed port information.

Table 22 SFP+ port LED description

Port LED status Description

Steady green

Steady yellow

Flashing yellow (3 Hz) POST has failed on the port.

Off No link is present on the port.

Steady green

Flashing yellow (3 Hz) POST has failed on the port.

Off No link is present on the port.

The port is operating at 1000 Mbps. The port LED fast
flashes when the port is sending or receiving data.

The port is operating at 100 Mbps. The port LED fast
flashes when the port is sending or receiving data.

The port is operating in full duplex mode. The port LED
fast flashes when the port is sending or receiving data.

Port mode LED
(Mode) status

Steady green (rate
mode) or flashing
green ( 1 Hz, PoE
mode)

Steady yellow (duplex
mode)

SFP+ port LED status Description

Steady green

Steady yellow

Flashing yellow (3 Hz) POST has failed on the port.

Off No link is present on the port.

Steady green

Flashing yellow (3 Hz) POST has failed on the port.

Off No link is present on the port.

Interface card status LED

The interface card status LED shows the status of the interface card in the expansion interface card slot.

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.

The port is operating in full duplex mode. The port LED
fast flashes when the port is sending or receiving data.

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p

Table 23 Interface card status LED description

LED mark Status Descri

Steady green The interface card is in position and operating properly.

SLOT1/SLOT2

Flashing yellow

Off The expansion interface card slot is empty.

Port LED on the interface card

The interface cards available for the 5500 HI switches provide one port LED for each port. Except for the
LSPM2SP2P card, see their user guides for port LED description.

The LSPM2SP2P interface card, when used on a 5500 HI switch, supports not only 10 Gbps SFP+
transceiver modules and cables, but also 1000 Mbps SFP transceiver modules. Table 24 de
LED behaviors.

Table 24 Port LED description for the LSPM2SP2P interface card

Port mode LED
(Mode)

Steady green (rate
mode) or flashing
green ( 1 Hz, PoE
mode)

Port LEDs on the
LSPM2SP2P card

Steady green

Steady yellow

Flashing yellow (3 Hz) POST has failed on the port.

tion

The slot does not support the card model, or the card has
failed.

ribes its

sc

Description

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.

Off No link is present on the port.

The port is operating in full duplex mode. The port LED
fast flashes when the port is sending or receiving data.

Steady yellow
(duplex mode)

Steady green

Flashing yellow (3 Hz) POST has failed on the port.

Off No link is present on the port.

I/O status LED on the power supply

The PSR720-56A (JG544A) and PSR1110-56A (JG545A) power supplies have an input status LED and an
output status LED. For more information about the LEDs, see related power supply user guides.

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Support and other resources

Contacting HP

For worldwide technical support information, see the HP support website:

http://www.hp.com/support

Before contacting HP, collect the following information:

• Product model names and numbers

• Technical support registration number (if applicable)

• Product serial numbers

• Error messages

• Operating system type and revision level

• Detailed questions

Subscription service

HP recommends that you register your product at the Subscriber's Choice for Business website:

http://www.hp.com/go/wwalerts

After registering, you will receive email notification of product enhancements, new driver versions,
firmware updates, and other product resources.

Related information

Documents

To find related documents, browse to the Manuals page of the HP Business Support Center website:

http://www.hp.com/support/manuals

• For related documentation, navigate to the Networking section, and select a networking category.

• For a complete list of acronyms and their definitions, see HP FlexNetwork Technology Acronyms.

Websites

• HP.com http://www.hp.com

• HP Networking http://www.hp.com/go/networking

• HP manuals http://www.hp.com/support/manuals

• HP download drivers and software http://www.hp.com/support/downloads

• HP software depot http://www.software.hp.com

• HP Education http://www.hp.com/learn

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