H3C S5560S-EI & S5130S-HI Switch Series Installation Guide-6W106

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Contents

1 Preparing for installation· 1-3

Safety recommendations· 1-4

Examining the installation site· 1-4

Temperature and humidity· 1-4

Cleanliness· 1-5

EMI 1-5

Laser safety· 1-5

Installation tools· 1-6

2 Installing the switch· 2-6

Installing the switch in a 19-inch rack· 2-7

Installation methods· 2-7

Installation accessories· 2-9

Rack-mounting the switch by using front mounting brackets· 2-10

Rack-mounting the switch by using front and rear mounting brackets· 2-11

Mounting the switch on a workbench· 2-14

Grounding the switch· 2-15

Grounding the switch with a grounding strip· 2-15

Grounding the switch with a grounding conductor buried in the earth ground· 2-17

Installing and removing a power module· 2-18

Installing a PSR75-12A/PSR150-A1/PSR150-D1 power module· 2-18

Removing a PSR75-12A/PSR150-A1/PSR150-D1 power module· 2-19

Installing a PSR180-56A/PSR360-56A/PSR560-56D/PSR720-56A/PSR1110-56A power module· 2-20

Removing a PSR180-56A/PSR360-56A/PSR560-56D/PSR720-56A/PSR1110-56A power module· 2-21

Connecting the power cord· 2-22

Connecting the power cord for a PSR75-12A/PSR150-A1 power module· 2-23

Connecting the power cord for a PSR150-D1/PSR560-56D power module· 2-24

Connecting the power cord for a PSR180-56A/PSR360-56A/PSR720-56A/PSR1110-56A power module  2-25

Installing and removing an expansion module· 2-26

Installing an expansion module· 2-26

Removing an expansion module· 2-27

Verifying the installation· 2-27

3 Accessing the switch for the first time· 3-28

Setting up the configuration environment 3-28

Connecting the serial console cable· 3-28

Connecting the Micro USB console cable· 3-29

Setting terminal parameters· 3-31

Powering on the switch· 3-31

4 Setting up an IRF fabric· 4-33

IRF fabric setup flowchart 4-33

Planning IRF fabric setup· 4-34

Planning IRF fabric size and the installation site· 4-34

Identifying the master switch and planning IRF member IDs· 4-34

Planning IRF topology and connections· 4-34

Identifying IRF physical ports on the member switches· 4-35

Planning the cabling scheme· 4-36

Configuring basic IRF settings· 4-40

Connecting the IRF physical ports· 4-40

Verifying the IRF fabric setup· 4-40

5 Maintenance and troubleshooting· 5-42

Power module failure· 5-42

Fan tray failure· 5-42

Configuration terminal display issues· 5-42

No display· 5-42

Garbled display· 5-43

6 Appendix A Chassis views and technical specifications· 6-44

Chassis views· 6-44

S5560S-28F-EI 6-44

S5560S-52F-EI 6-45

S5560S-28P-EI 6-46

S5560S-52P-EI 6-47

S5560S-28S-EI 6-48

S5560S-52S-EI 6-49

S5560S-28S-PWR-EI 6-50

S5560S-52S-PWR-EI 6-51

S5130S-28C-HI 6-52

S5130S-28S-HI 6-53

S5130S-52C-HI 6-54

S5130S-52S-HI 6-55

S5130S-28S-PWR-HI 6-56

S5130S-28S-UPWR-HI 6-57

S5130S-52S-PWR-HI 6-58

S5130S-28C-PWR-HI 6-59

S5130S-52C-PWR-HI 6-60

Technical specifications· 6-61

S5560S-EI series· 6-61

S5130S-HI series· 6-66

7 Appendix B FRUs and compatibility matrixes· 7-73

Compatibility matrixes· 7-73

Power modules· 7-74

Expansion modules· 7-75

8 Appendix C Ports and LEDs· 8-76

Ports· 8-76

Console port 8-76

Management Ethernet port 8-76

USB port 8-76

10/100/1000BASE-T autosensing Ethernet port 8-77

SFP port 8-77

SFP+ port 8-80

Combo interface· 8-82

LEDs· 8-82

System status LED·· 8-82

Power module status LED·· 8-82

Mode LED (MODE) 8-83

10/100/1000BASE-T autosensing Ethernet port LED·· 8-83

SFP/SFP+ port LED·· 8-84

Management Ethernet port LED·· 8-84

Input status LED and output status LED on the power module· 8-84

Expansion slot LED·· 8-84

Port status LED on the expansion module· 8-85

9 Appendix D Cooling system·· 9-86

 


1 Preparing for installation

This document is applicable to the S5560S-EI switch series and the S5130S-HI switch series. Table 1-1 describes models of the S5560S-EI series and the S5130S-HI series.

Table 1-1 Switch models

Series

Model

Product code

S5560S-EI

S5560S-28F-EI

LS-S5560S-28F-EI

LS-S5560S-28F-EI-GL

S5560S-52F-EI

LS-S5560S-52F-EI

LS-S5560S-52F-EI-GL

S5560S-28P-EI

LS-S5560S-28P-EI

LS-S5560S-28P-EI-GL

S5560S-52P-EI

LS-S5560S-52P-EI

LS-S5560S-52P-EI-GL

S5560S-28S-EI

LS-S5560S-28S-EI

LS-S5560S-28S-EI-GL

S5560S-52S-EI

LS-S5560S-52S-EI

LS-S5560S-52S-EI-GL

S5560S-28S-PWR-EI

LS-S5560S-28S-PWR-EI

LS-S5560S-28S-PWR-EI-GL

S5560S-52S-PWR-EI

LS-S5560S-52S-PWR-EI

LS-S5560S-52S-PWR-EI-GL

S5130S-HI

S5130S-28S-HI

LS-S5130S-28S-HI

LS-S5130S-28S-HI-GL

S5130S-52S-HI

LS-S5130S-52S-HI

LS-S5130S-52S-HI-GL

S5130S-28C-HI

LS-S5130S-28C-HI

LS-S5130S-28C-HI-GL

S5130S-52C-HI

LS-S5130S-52C-HI

LS-S5130S-52C-HI-GL

S5130S-28S-PWR-HI

LS-5130S-28S-PWR-EI

LS-5130S-28S-PWR-EI-GL

S5130S-28S-UPWR-HI

LS-5130S-28S-UPWR-HI

S5130S-52S-PWR-HI

LS-5130S-52S-PWR-EI

LS-5130S-52S-PWR-EI-GL

S5130S-28C-PWR-HI

LS-5130S-28C-PWR-EI

LS-5130S-28C-PWR-EI-GL

S5130S-52C-PWR-HI

LS-5130S-52C-PWR-EI

LS-5130S-52C-PWR-EI-GL

 

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, remove all power cords from the switch. Do not clean the switch with wet cloth or liquid.

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

·     Do not place the switch on an unstable case or desk. The switch might be severely damaged in case of a fall.

·     Ensure good ventilation of the equipment room and keep the air inlet and outlet vents of the switch free of obstruction.

·     Make sure 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 installing the switch, wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded.

Examining the installation site

The switch 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 outlet vents for ventilation.

·     The rack or workbench has a good ventilation system.

·     Identify the hot aisle and cold aisle at the installation site, and make sure ambient air flows into the switch from the cold aisle and exhausts to the hot aisle.

·     Identify the airflow designs of neighboring devices, and prevent hot air flowing out of the neighboring device from entering the device.

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

·     The rack or workbench is reliably grounded.

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

Temperature and humidity

Maintain temperature and humidity in the equipment room as described in "Appendix A Chassis views and technical specifications."

·     Lasting high relative humidity can cause poor insulation, electricity leakage, mechanical property change of materials, and metal corrosion.

·     Lasting low relative humidity can cause washer contraction and ESD and cause problems including loose mounting screws and circuit failure.

·     High temperature can accelerate the aging of insulation materials and significantly lower the reliability and lifespan of the switch.

For the temperature and humidity requirements of different switch models, see "Technical specifications."

Cleanliness

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

Table 1-2 Dust concentration limit in the equipment room

Substance

Concentration limit (particles/m³)

Dust

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

NOTE:

Dust diameter ≥ 5 μm

 

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 1-3.

Table 1-3 Harmful gas limits in the equipment room

Gas

Maximum concentration (mg/m3)

SO2

0.2

H2S

0.006

NH3

0.05

Cl2

0.01

 

EMI

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

·     A conduction pattern of capacitance coupling.

·     Inductance coupling.

·     Electromagnetic wave radiation.

·     Common impedance (including the grounding system) coupling.

To prevent EMI, use the following guidelines:

·     If AC power is used, use a single-phase three-wire power receptacle with protection earth (PE) to filter interference from the power grid.

·     Keep the switch far away from radio transmitting stations, radar stations, and high-frequency devices.

·     Use electromagnetic shielding, for example, shielded interface cables, when necessary.

·     To prevent signal ports from getting damaged by overvoltage or overcurrent caused by lightning strikes, route interface cables only indoors.

Laser safety

WARNING

WARNING!

Disconnected optical fibers or transceiver modules might emit invisible laser light. Do not stare into beams or view directly with optical instruments when the switch is operating.

 

The switch is a Class 1 laser device.

Installation tools

No installation tools are provided with the switch. Prepare installation tools yourself as required.

·     ESD wrist strap

·     Flat-blade screwdriver

·     Phillips screwdriver

·     Needle-nose pliers

·     Diagonal pliers

·     Crimping tool

·     Marker


2 Installing the switch

CAUTION

CAUTION:

Keep the tamper-proof seal on a mounting screw on the chassis cover intact, and if you want to open the chassis, contact H3C for permission. Otherwise, H3C shall not be liable for any consequence.

 

Figure 2-1 Hardware installation flow

 

Installing the switch in a 19-inch rack

Installation methods

Table 2-1 Installation methods for the S5560S-EI and the S5130S-HI switches

Chassis

Installation methods

Installation requirements

Installation procedure

S5560S-28F-EI

S5560S-52F-EI

S5560S-28P-EI

S5560S-52P-EI

S5560S-28S-EI

S5560S-52S-EI

S5130S-28S-HI

S5130S-52S-HI

S5130S-28C-HI

S5130S-52C-HI

Using front mounting brackets

Install the front mounting brackets at the port side or the power module side.

See "Rack-mounting the switch by using front mounting brackets."

S5560S-28S-PWR-EI

S5560S-52S-PWR-EI

S5130S-28S-PWR-HI

S5130S-28S-UPWR-HI

S5130S-52S-PWR-HI

S5130S-28C-PWR-HI

S5130S-52C-PWR-HI

Using front and rear mounting brackets

·     Install the front mounting brackets at the port side or power module side.

·     Install the rear mounting brackets according to the rack depth.

¡     If the rack depth is in the range of 429 to 595 mm (16.89 to 23.43 in), orient the bracket with the wide flange inside the rack.

¡     If the rack depth is in the range of 274 to 440 mm (10.79 to 17.32 in) and the distance from the rear rack posts to the inner surface of the cabinet door is longer than 153 mm (6.02 in), orient the bracket with the wide flange outside the rack.

·     To use PSR1110-56A power modules, do not install the switch in a rack with a depth of 600 mm (23.62 in)

See "Rack-mounting the switch by using front and rear mounting brackets."

 

Figure 2-2 Procedure for rack-mounting the switch by using the front mounting brackets

 

Figure 2-3 Procedure for rack-mounting the switch by using the front and rear mounting brackets

 

 

NOTE:

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

 

Installation accessories

Table 2-2 Installation accessories for the S5560S-EI and the S5130S-HI switches

Installation accessories

S5560S-28F-EI
S5560S-52F-EI
S5560S-28P-EI
S5560S-52P-EI
S5560S-28S-EI
S5560S-52S-EI
S5130S-28S-HI
S5130S-52S-HI
S5130S-28C-HI
S5130S-52C-HI

S5560S-28S-PWR-EI
S5560S-52S-PWR-EI
S5130S-28S-PWR-HI

S5130S-28S-UPWR-HI
S5130S-52S-PWR-HI
S5130S-28C-PWR-HI
S5130S-52C-PWR-HI

Front mounting brackets (Figure 2-4)

Provided

Provided

Rear mounting brackets and shoulder screws (Figure 2-5)

N/A

Provided

 

Figure 2-4 Front mounting bracket

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

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

 

Figure 2-5 Rear mounting bracket and shoulder screw

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

(2) Shoulder screw

 

Rack-mounting the switch by using front mounting brackets

Attaching the front mounting brackets to the switch

1.     Determine the mounting position for the front mounting brackets. You can install the front mounting brackets at the port side or the power module side.

2.     Attach the front mounting brackets to the chassis:

a.     Align the round holes in the wide flange of one front mounting bracket with the screw holes in the chassis. See Figure 2-6 and Figure 2-7.

b.     Use M4 screws (provided with the switch) to attach the front mounting bracket to the chassis.

c.     Repeat the proceeding two steps to attach the other front mounting bracket to the chassis.

Figure 2-6 Attaching the front mounting bracket to the port side

 

Figure 2-7 Attaching the front mounting bracket to the power module side

 

Mounting the switch in the rack

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

2.     Make sure the front mounting brackets have been attached securely to the two sides of the switch.

3.     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.

4.     The other person uses M6 screws and cage nuts (user supplied) to attach the switch to the rack. Make sure the switch is installed evenly and securely in the rack.

Figure 2-8 Mounting the switch in the rack (front mounting brackets at the port side)

 

Figure 2-9 Mounting the switch in the rack (front mounting brackets at the power module side)

 

Rack-mounting the switch by using front and rear mounting brackets

Attaching the front mounting brackets and shoulder screws to the switch

You can attach the front mounting brackets at the port-side or power module-side mounting position. The following uses port-side mounting as an example. The power-side mounting is similar.

To attach the front mounting brackets and shoulder screws to the switch:

1.     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 2-10.

2.     Use M4 screws (supplied with the switch) to attach the front mounting bracket to the chassis.

3.     Repeat the proceeding two steps to attach the other front mounting bracket to the chassis.

4.     Unpack the shoulder screws. Attach a shoulder screw to one of the two installation positions as red-marked in Figure 2-10 at both sides of the chassis.

Figure 2-10 Attaching the front mounting brackets and shoulder screws to the chassis

 

Attaching the rear mounting brackets to the rack

1.     Determine the switch installation position in the rack.

2.     Install cage nuts in the rack posts.

3.     Orient the rear mounting brackets with the wide flange inside or outside the rack as required.

4.     Use M6 screws to attach the rear mounting brackets to the rear posts, as shown in Figure 2-11.

Do not fully tighten the M6 screws before mounting the switch in the rack.

Figure 2-11 Attaching the rear mounting brackets to a rack with the wide flange inside the rack

 

Figure 2-12 Attaching the rear mounting brackets to a rack with the wide flange outside the rack

 

Mounting the switch in the rack

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

2.     Make sure the front mounting brackets and shoulder screws are securely attached to the two sides of the switch.

3.     Attach cage nuts to the rack posts.

4.     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 shoulder screws make close contact with the upper edges of the rear mounting brackets, as shown in Figure 2-13.

5.     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 to the front rack posts.

Make sure the switch is installed securely in the rack.

Figure 2-13 Mounting the switch in the rack (with the wide flange of the rear mounting brackets inside the rack)

 

Figure 2-14 Mounting the switch in the rack (with the wide flange of the rear mounting brackets outside the rack)

 

Mounting the switch on a workbench

IMPORTANT

IMPORTANT:

·     Reserve a minimum of 10 cm (3.9 in) of clearance around the chassis for heat dissipation.

·     Do not place heavy objects on the switch.

 

To mount the switch on a workbench:

1.     Verify that the workbench is sturdy and reliably grounded.

2.     Place the switch with bottom up, and clean the round holes in the chassis bottom with dry cloth.

3.     Attach the rubber feet to the four round holes in the chassis bottom.

4.     Place the switch with upside up on the workbench.

Grounding the switch

WARNING

WARNING!

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

·     As a best practice to guarantee the grounding effect, ground the switch by connecting the grounding cable provided with the switch to the grounding strip in the equipment room.

 

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

You can ground the switch in one of the following ways, depending on the grounding conditions available at the installation site:

·     Grounding the switch with a grounding strip

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

 

 

NOTE:

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

·     For more information about lightning protection, see H3C Lightning Protection Guide.

 

Grounding the switch with a grounding strip

WARNING

WARNING!

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

 

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

Connecting the grounding cable to the chassis

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

2.     Use the grounding screw to attach the ring terminal of the grounding cable to the grounding screw hole. Fasten the screw.

Figure 2-15 Connecting the grounding cable to the chassis (1)

(1) Grounding screw

(2) Ring terminal

(3) Grounding sign

(4) Grounding hole

(5) Grounding cable

 

 

Figure 2-16 Connecting the grounding cable to the chassis (2)

(1) Grounding cable

(2) Grounding sign

(3) Grounding hole

(4) Ring terminal

(5) Grounding screw

 

 

Connecting the grounding cable to a grounding strip

1.     Cut the grounding cable to a length required for connecting to the grounding strip.

2.     Use a wire stripper to strip 20 mm (0.79 in) of insulation off the end of the grounding cable. Then use needle-nose pliers to bend the bare metal part to the shape as shown in Figure 2-17. Make sure the bended part can securely attached to the grounding post on the grounding strip.

3.     Attach the bended part of the grounding cable to the grounding post and use the hex nut to fasten the bended part to the post.

Figure 2-17 Connecting the grounding cable to the 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 does not have any grounding strips, but earth ground is available, hammer a 0.5 m (1.64 ft) or longer angle iron or steel tube into the earth ground to serve as a grounding conductor.

The dimensions of the angle iron must be a minimum of 50 × 50 × 5 mm (1.97 × 1.97 × 0.20 in). The steel tube must be zinc-coated and its wall thickness must be a minimum of 3.5 mm (0.14 in).

Weld the yellow-green grounding cable to the angel iron or steel tube and treat the joint for corrosion protection.

Figure 2-18 Grounding the switch by burying the grounding conductor into the earth ground

(1) Grounding screw

(2) Chassis rear panel

(3) Grounding cable

(4) Earth

(5) Joint

(6) Grounding conductor

 

Installing and removing a power module

WARNING

WARNING!

In power redundancy mode, you can replace a power module without powering off the switch but you must strictly follow the installation and removal procedures in Figure 2-19 and Figure 2-20 to avoid any bodily injury or damage to the switch.

 

CAUTION

CAUTION:

Provide a circuit breaker for each power module.

 

Figure 2-19 Installation procedure

 

Figure 2-20 Removal procedure

 

The switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required.

For the power modules available for the switch and their specifications, see "Appendix B FRUs and compatibility matrixes."

Installing a PSR75-12A/PSR150-A1/PSR150-D1 power module

CAUTION

CAUTION:

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

 

The installation procedure is the same for PSR75-12A, PSR150-A1, and PSR150-D1 power modules. The following procedure uses the PSR150-A1 power module as an example.

To install a PSR150-A1 power module:

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

2.     Remove the filler panel, if any, from the target power module slot as follows:

a.     Remove the screws on the filler panel.

b.     Use a flathead screwdriver to remove the filler panel.

Figure 2-21 Removing the filler panel

 

3.     Unpack the power module and verify that the power module model is correct.

4.     Orient the power module so that the lettering on the power module is upright.

5.     Grasping the power module handle with one hand and supporting its bottom with the other, slide the power module slowly along the guide rails into the slot (see callout 1 in Figure 2-22).

6.     Fasten the captive screws on the power module with a Phillips screwdriver to secure the power module in the chassis (see callout 2 in Figure 2-22).

If the captive screw cannot be tightly fastened, verify the installation of the power module.

Figure 2-22 Installing a PSR150-A1 power module

 

Removing a PSR75-12A/PSR150-A1/PSR150-D1 power module

The removal procedure is the same for PSR75-12A, PSR150-A1, and PSR150-D1 power modules. The following procedure uses the PSR150-A1 power module as an example.

To remove a PSR150-A1 power module:

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

2.     Disconnect the power cord.

3.     Loosen the captive screws of the power module with a Phillips screwdriver until they are completely disengaged.

4.     Grasp the handle of the power module with one hand and pull it out a little, support the bottom with the other hand, and pull the power module slowly along the guide rails out of the slot.

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

5.     Install the filler panel to prevent dust and ensure good ventilation if no power module is installed in the slot.

Installing a PSR180-56A/PSR360-56A/PSR560-56D/PSR720-56A/PSR1110-56A power module

CAUTION

CAUTION:

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

 

The installation procedure is the same for the PSR180-56A, PSR360-56A, PSR560-56D, PSR720-56A, and PSR1110-56A power modules. The following procedure uses the PSR720-56A power module as an example.

To install a PSR720-56A power module:

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

2.     Put your forefinger into the hole in the filler panel, if any, in the target power module slot, and pull out it gently.

Figure 2-23 Removing the filler panel

 

3.     Unpack the power module and verify that the power module model is correct.

Keep the packaging box and packaging bag of the power module for future use.

4.     Orient the power module so that the lettering on the power module is upright.

5.     Grasp the handle of the power module with one hand and support its bottom with the other. Slide the power module slowly along the guide rails into the slot until the latch of the power module clicks into place.

Figure 2-24 Installing the power module

 

Figure 2-25 PSR1110-56A power module installed in the chassis

 

 

NOTE:

The PSR1110-56A power module, including its handle, adds 64 mm (2.52 in) to chassis depth.

 

Removing a PSR180-56A/PSR360-56A/PSR560-56D/PSR720-56A/PSR1110-56A power module

The removal procedure is the same for the PSR180-56A, PSR360-56A, PSR560-56D, PSR720-56A, and PSR1110-56A power modules. The following procedure uses the PSR720-56A power module as an example.

To remove a PSR720-56A power module:

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

2.     Disconnect the power cord.

3.     Press the latch towards the handle, and pull the power module along the guide rails until it is part-way out.

4.     Grasp the handle of the power module with one hand, support the bottom with the other hand, and pull the power module slowly along the guide rails out of the slot.

Keep the removed power module in an antistatic bag or the power module package bag for future use.

5.     Install the filler panel to prevent dust and ensure good ventilation if no power module is installed in the slot.

Figure 2-26 Removing the power module

 

Connecting the power cord

CAUTION

CAUTION:

·     The available power cords vary by power module model. Do not mix power cords for different power modules. As a best practice, use the supplied power cord.

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

 

Table 2-3 Power cord connection procedures at a glance

Power module model

Available power source

Connection procedure reference

PSR75-12A

AC power source

Connecting the power cord for a PSR75-12A/PSR150-A1 power module

240V high-voltage DC power source

PSR150-A1

AC power source

Connecting the power cord for a PSR75-12A/PSR150-A1 power module

PSR150-D1

–48 VDC power source in the equipment room

Connecting the power cord for a PSR150-D1/PSR560-56D power module

RPS800-A or RPS1600-A

PSR560-56D

–48 VDC power source in the equipment room

Connecting the power cord for a PSR150-D1/PSR560-56D power module

RPS1600-A

PSR360-56A/PSR720-56A/PSR1110-56A

AC power source

Connecting the power cord for a PSR180-56A/PSR360-56A/PSR720-56A/PSR1110-56A power module

PSR180-56A

AC power source

Connecting the power cord for a PSR180-56A/PSR360-56A/PSR720-56A/PSR1110-56A power module

240 V high-voltage DC power source

 

Connecting the power cord for a PSR75-12A/PSR150-A1 power module

The power cord connection procedure is the same for the PSR75-12A and the PSR150-A1. This section uses a PSR150-A1 power module as an example.

To connect the power cord for a PSR150-A1 power module:

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

2.     Install the power cord retainer clip. Insert the two ends of the clip into the holes in the brackets on the left of the power receptacle.

3.     Pull the power cord retainer clip leftwards (see Figure 2-27).

4.     Connect the female connector of the power cord supplied with the power module to the power receptacle (see callout 1 in Figure 2-28).

5.     Pull the power cord retainer clip rightwards to secure the plug to the power receptacle (see callout 2 in Figure 2-28).

6.     Connect the other end of the power cord to an external power source.

For a PSR150-A1 power module, connect the power cord to an AC power source. For a PSR75-12A power module, connect the power cord to an AC power source or a 240V high-voltage DC power source.

Figure 2-27 Connecting the power cord for a PSR150-A1 power module (1)

 

Figure 2-28 Connecting the power cord for a PSR150-A1 power module (2)

 

Connecting the power cord for a PSR150-D1/PSR560-56D power module

CAUTION

CAUTION:

·     Connect the other ends of the wires for a PSR150-D1 power module to a –48 VDC power source, with the negative wire ( or L–) to the negative terminal () and the positive wire (+ or M/N) to the positive terminal (+).

·     To use a –48 VDC power source to supply power to the power module, use the DC power cord supplied with the power module.

·     To use an H3C RPS (–54 VDC) to supply power to the power module, use a compatible RPS power cord to connect the RPS to the power module.

·     The power cord color code scheme in Figure 2-29 is for illustration only. The cable delivered for your country or region might use a different color scheme. When you connect the power cord, always identify the polarity symbol on its wires.

 

The power cord connection procedure is the same for the PSR150-D1 and PSR560-56D power modules. The following procedure uses a PSR150-D1 power module as an example.

To connect the power cord for a PSR150-D1 power module:

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

2.     Unpack the power cord, correctly orient the plug at one end of the cable with the power receptacle on the power module, and insert the plug into the power receptacle (see callout 1 in Figure 2-29).

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 2-29).

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

Figure 2-29 Connecting the power cord for a PSR150-D1 power module

 

Connecting the power cord for a PSR180-56A/PSR360-56A/PSR720-56A/PSR1110-56A power module

The power cord connection procedure is the same for the PSR180-56A, PSR360-56A, PSR720-56A, and PSR1110-56A power modules. The following procedure uses a PSR720-56A power module as an example.

To connect the power cord for a PSR720-56A power module:

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

2.     Plug the female connector end of the power cord into the input socket of the power module (see callout 1 in Figure 2-30).

3.     Use a cable tie to secure the power cord to the handle of the power module (see callout 2 and callout 3 in Figure 2-30).

4.     Connect the other end of the power cord to a power source.

For a PSR360-56A, PSR720-56A, or PSR1110-56A power module, connect the power cord to an AC power source. For a PSR180-56A power module, connect the power cord to an AC power source or a 240V high-voltage DC power source.

Figure 2-30 Connecting the power cord for a PSR720-56A power module

 

Installing and removing an expansion module

CAUTION

CAUTION:

·     Do not touch any components on the expansion module.

·     Do not use excessive force when installing or removing the expansion module.

·     If you are not to install an expansion module after removal, install a filler panel over the empty slot to ensure good ventilation.

·     Do not install or remove the expansion module during switch startup.

 

The S5130S-28C-HI, S5130S-52C-HI, S5130S-28C-PWR-HI, and S5130S-52C-PWR-HI switches each provide an expansion slot at the rear panel. You can install an LSWM2SP2PB interface module in the slot. For more information about the interface module, see “Appendix B FRUs and compatibility matrixes.”

Installing an expansion module

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

2.     Use a Phillips screwdriver to remove the screw that secures the filler panel, and then use a flat-blade screwdriver to pry open the filler panel and remove it.

 

IMPORTANT

IMPORTANT:

Keep the removed filler panel for future use.

 

Figure 2-31 Removing the filler panel

 

3.     Take the expansion module out of the package, and then install the expansion module as shown in Figure 2-32.

a.     Open the ejector lever on the expansion module, as shown by callout 1.

b.     Slide the expansion module into the slot along the guide rails until you cannot push it further, as shown by callout 2.

c.     Close the ejector lever on the expansion module, as shown by callout 3.

d.     Use a Phillips screwdriver to fasten the screw and secure the expansion module into place, as shown by callout 4.

Figure 2-32 Installing the expansion module

 

Removing an expansion module

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

2.     Use a Phillips screwdriver to remove the screw that secures the expansion module.

3.     Open the ejector lever on the expansion module.

4.     Pull the expansion module slowly out of the slot along the guide rails.

Verifying the installation

After you complete the installation, verify the following information:

·     There is enough space for heat dissipation around the switch, and the rack or workbench is stable.

·     The grounding cable is securely connected.

·     The correct power source is used.

·     The power cords are correctly connected.

·     All the interface cables are cabled indoors. If any cable is routed outdoors, verify that the socket strip with lightning protection and lightning arresters for network ports have been correctly connected.


3 Accessing the switch for the first time

Setting up the configuration environment

You can access and configure the switch through the serial console port or the Micro USB console port. Only the Micro USB console port is available if you connect both the serial console port and Micro USB console port.

The switch is not provided with a serial console cable or Micro USB console cable. Prepare the cables yourself or purchase them from H3C.

Figure 3-1 Connecting the serial console port to a PC

 

Connecting the serial console cable

A serial console cable is an 8-core shielded cable, with a crimped RJ-45 connector at one end for connecting to the serial 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 3-2 Serial console cable

 

Table 3-1 Serial console port signaling and pinout

RJ-45

Signal

DB-9

Signal

1

RTS

8

CTS

2

DTR

6

DSR

3

TXD

2

RXD

4

SG

5

SG

5

SG

5

SG

6

RXD

3

TXD

7

DSR

4

DTR

8

CTS

7

RTS

 

To connect the switch to a configuration terminal (for example, a PC) through the serial console cable:

1.     Plug the DB-9 female connector of the serial console cable to the serial port of the PC.

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

 

IMPORTANT

IMPORTANT:

·     Identify the mark on the serial console port and make sure you are connecting to the correct port.

·     The serial ports on PCs do not support hot swapping. To connect a PC to an operating switch, first connect the PC end. To disconnect a PC from an operating switch, first disconnect the switch end.

 

Connecting the Micro USB console cable

A Micro USB console cable has a Micro USB Type B connector at one end to connect to the Micro USB console port of the switch, and a standard USB Type A connector at the other end to connect to the USB port on the PC.

To connect to the PC through the Micro USB console cable:

1.     Connect the standard USB Type A connector to the USB port of the PC.

2.     Connect the Micro USB Type B connector to the Micro USB console port of the switch.

3.     Click the following link, or copy it to the address bar on the browser to log in to download page of the USB console driver, and download the driver.

http://www.h3c.com.hk/Technical_Support___Documents/Software_Download/Other_Product/USB_Console/USB_Console/

4.     Select a driver program according to the operating system you use:

¡     XR21V1410_XR21B1411_Windows_Ver1840_x86_Installer.EXE—32-bit operating system.

¡     XR21V1410_XR21B1411_Windows_Ver1840_x64_Installer.EXE—64-bit operating system.

5.     Click Next on the installation wizard.

Figure 3-3 Device Driver Installation Wizard

 

6.     Click Continue Anyway if the following dialog box appears.

Figure 3-4 Software Installation

driver_installer_2.bmp

 

7.     Click Finish.

Figure 3-5 Completing the device driver installation wizard

driver_installer_3.bmp

 

Setting terminal parameters

To configure and manage the switch through the console port, you must run a terminal emulator program, TeraTermPro or PuTTY, on your PC. You can use the emulator program to connect a network device, a Telnet site, or an SSH site. For more information about the terminal emulator programs, see the user guides for these programs.

The following are the required terminal settings:

·     Bits per second—9,600.

·     Data bits—8.

·     Parity—None.

·     Stop bits—1.

·     Flow control—None.

Powering on the switch

Before powering on the switch, verify that the following conditions are met:

·     The power cord is correctly connected.

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

·     The console cable is correctly connected.

·     The PC has started, and its serial port settings are consistent with the console port settings on the switch.

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.

For more information about the configuration commands and CLI, see the configuration guides and command references for the switch series.


4 Setting up an IRF fabric

You can use H3C IRF technology to connect and virtualize switches into a large virtual switch called an "IRF fabric" for flattened network topology, and high availability, scalability, and manageability.

Only switches of the same series support IRF connection.

IRF fabric setup flowchart

Figure 4-1 IRF fabric setup flowchart

 

To set up an IRF fabric:

 

Step

Description

1.     Plan IRF fabric setup

Plan the installation site and IRF fabric setup parameters:

·     Planning IRF fabric size and the installation site

·     Identifying the master switch and planning IRF member IDs

·     Planning IRF topology and connections

·     Identifying IRF physical 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.     Connect ground wires and power cords

See "Grounding the switch" and "Connecting the power cord."

4.     Power on the switches

N/A

5.     Configure basic IRF settings

See the IRF configuration guide or virtual technologies configuration guide for the switch series, depending on the software version.

6.     Connect the IRF physical ports

Connect IRF physical ports on switches.

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

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

Plan the installation site depending on your network solution, as follows:

·     Place all IRF member switches in one rack for centralized high-density access.

·     Distribute the IRF member switches in different racks to implement the ToR access solution for a data center.

 

 

NOTE:

For the maximum IRF member devices supported by the switch, see the release notes that come with the switch.

 

Identifying the master switch and planning IRF member IDs

Determine which switch you want to use as the master for managing all member switches in the IRF fabric.

An IRF fabric has only one master switch. You configure and manage all member switches in the IRF fabric at the CLI of the master switch. IRF member switches automatically elect a master.

You can affect the election result by assigning a high member priority to the intended master switch. For more information about master election, see the IRF configuration guide or virtual technologies configuration guide for the switch series, depending on the software version.

Prepare an IRF member ID assignment scheme. An IRF fabric uses member IDs to uniquely identify and manage its members, and you must assign each IRF member switch a unique member ID.

Planning IRF topology and connections

You can create an IRF fabric in daisy chain topology or more reliable ring topology. In ring topology, the failure of one IRF link does not cause the IRF fabric to split as in daisy chain topology. Instead, the IRF fabric changes to a daisy chain topology without interrupting network services.

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 a minimum of 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 switch can form an IRF fabric only with switches from the same switch series. For the physical ports that can be used for IRF connections on each switch model and the restrictions for using the ports, see Table 4-1. The IRF physical ports can set up IRF connections only when operating at their highest speeds. For example, a 10-GE port must operate at 10 Gbps. A GE port must operate at 1 Gbps.

Figure 4-2 and Figure 4-3 show the topologies of an IRF fabric made up of three S5130S-52S-HI switches. The IRF port connections in the two figures are for illustration only, and more connection methods are available.

Figure 4-2 IRF fabric in daisy chain topology

 

Figure 4-3 IRF fabric in ring topology

 

Identifying IRF physical ports on the member switches

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

Table 4-1 shows the physical ports that can be used for IRF connection and the port use restrictions.

Table 4-1 IRF physical ports and use restrictions

Device model

Candidate IRF physical ports

Restrictions for using the ports for IRF connections

S5560S-28F-EI

S5560S-28S-EI

S5560S-28S-PWR-EI

S5130S-28S-HI

S5130S-28S-PWR-HI

S5130S-28S-UPWR-HI

S5560S-52F-EI

S5560S-52S-EI

S5560S-52S-PWR-EI

S5130S-52S-HI

S5130S-52S-PWR-HI

The following ports on the front panel:

·     Four SFP+ ports

·     10/100/1000BASE-T autosensing ports (supported only in F630x and later)

·     SFP ports (supported only in F630x and later)

The port must operate at its highest speed.

·     SFP+ port—10 Gbps

·     10/100/1000BASE-T autosensing port—1 Gbps

·     SFP port—1 Gbps

In an IRF fabric, the ports used for IRF connections on the member devices must be same type.

For a 52-port switch model, the 52 ports are divided into two groups: ports 1 to 24, port 51, and port 52 in one group and ports 25 to 50 in the other group. To bind multiple ports to an IRF port, make sure the ports are in the same group. The ports in one group can be bound to different IRF ports.

S5560S-28P-EI S5560S-52P-EI

The following ports on the front panel:

·     10/100/1000BASE-T autosensing Ethernet ports

·     SFP ports

The ports must operate at 1 Gbps.

In an IRF fabric, the ports used for IRF connections on the member devices must be same type.

For a 52-port switch model, the 52 ports are divided into two groups: ports 1 to 24, port 51, and port 52 in one group and ports 25 to 50 in the other group. To bind multiple ports to an IRF port, make sure the ports are in the same group. The ports in one group can be bound to different IRF ports.

S5130S-28C-HI

S5130S-28C-PWR-HI

S5130S-52C-HI

S5130S-52C-PWR-HI

The following ports on the front panel and the expansion module:

·     10/100/1000BASE-T autosensing Ethernet ports

·     SFP ports

·     SFP+ ports

The port must operate at its highest speed.

·     SFP+ port—10 Gbps

·     10/100/1000BASE-T autosensing port—1 Gbps

·     SFP port—1 Gbps

In an IRF fabric, the ports used for IRF connections on the member devices must be same type.

For a 52-port switch model, the 52 ports are divided into two groups: ports 1 to 24, port 51, and port 52 in one group and ports 25 to 48 and ports on the expansion module in the other group. To bind multiple ports to an IRF port, make sure the ports are in the same group. The ports in one group can be bound to different IRF ports.

 

Planning the cabling scheme

Use the following cables to connect the IRF physical ports on the switches:

·     Category 5 or above twisted-pair cable—10/100/1000BASE-T autosensing Ethernet ports.

·     GE SFP transceiver modules and optical fiber or SFP cableSFP ports. For the available models, see "


·     Appendix C Ports and LEDs."

·     SFP+ transceiver modules and optical fiber or SFP+ cableSFP+ ports. For the available models, see "


·     Appendix C Ports and LEDs."

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

As a best practice, use ring topology to connect the switches. The following describes cabling schemes in ring topology by using SFP+ cables and SFP+ transceiver modules and fibers to connect four switches.

Connecting the IRF member switches in one rack

Use SFP+ cables to connect the IRF member switches in a rack as shown in Figure 4-4. The switches in the ring topology (see Figure 4-5) are in the same order as connected in the rack.

Figure 4-4 Connecting the switches in one rack

 

Figure 4-5 IRF fabric topology

 

Connecting the IRF member switches in a ToR solution

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

Figure 4-6 shows an example for connecting 4 top of rack IRF member switches by using SFP+ transceiver modules and optical fibers. The topology is the same as Figure 4-5.

Figure 4-6 ToR cabling

 

Configuring basic IRF settings

After you install the IRF member switches, power on the switches, and log in to each IRF member switch (see the fundamentals configuration guide for the switch series) to configure their member IDs, member priorities, and IRF port bindings.

Follow these guidelines when you configure the switches:

·     Assign the master switch higher member priority than any other switch.

·     Bind physical ports to IRF port 1 on one switch and to IRF port 2 on the other switch. You perform IRF port binding before or after connecting IRF physical ports depending on the software release.

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

For more information about configuring basic IRF settings, see the IRF configuration guide or virtual technologies configuration guide for the switch series, depending on the software version.

Connecting the IRF physical ports

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

Wear an ESD wrist strap when you connect IRF physical ports. For how to connect SFP/SFP+ cables or SFP/SFP+ transceiver modules and fibers, see H3C SFP/SFP+/XFP/SFP28 Transceiver Modules and Network Cables Installation Guide.

Verifying the IRF fabric setup

To verify the basic functionality of the IRF fabric after you finish configuring basic IRF settings and connecting IRF ports:

1.     Log in to the IRF fabric through the console port of any member switch.

2.     Create a Layer 3 interface, assign it an IP address, and make sure the IRF fabric and the remote network management station can reach each other.

3.     Use Telnet, web, or SNMP to access the IRF fabric from the network management station. (See the fundamentals configuration guide for the switch series.)

4.     Verify that you can manage all member switches as if they were one node.

5.     Display the running status of the IRF fabric by using the commands in Table 4-2.

Table 4-2 Displaying and maintaining IRF configuration and running status

Task

Command

Display information about the IRF fabric.

display irf

Display all members’ IRF configurations that take effect at a reboot.

display irf configuration

Display IRF fabric topology information.

display irf topology

 

 

NOTE:

To avoid IP address collision and network problems, configure a minimum of 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 the IRF configuration guide or virtual technologies configuration guide for the switch series, depending on the software version.

 


5 Maintenance and troubleshooting

Power module failure

Symptom

The power module status LED on the front panel of the switch or the LEDs on the power module indicate that the power module is not operating correctly.

·     To identify the operating status of a power module on the non-PoE switches of the S5560S-EI or S5130S-HI series, observe the PWR LED on the front panel of the switch. For more information about the power module status LED on the front panel of the switch, see Table 8-8.

·     To identify the operating status of a power module on the PoE switches of the S5560S-EI or S5130S-HI series, observe the LEDs on the power module and the PWR LED on the front panel of the switch. For more information about the LEDs on a power module, see H3C PSR180-56A Power Module User Manual, H3C PSR360-56A Power Module User Manual, H3C PSR560-56D Power Module User Manual, H3C PSR720-56A Power Module User Manual, or H3C PSR1110-56A Power Module User Manual.

Solution

To resolve the issue:

1.     Verify that the power cord is correctly connected.

2.     Verify that the power source meets the requirement.

3.     Verify that the operating temperature of the switch is in an acceptable range and the power module has good ventilation.

4.     If the issue persists, contact H3C Support.

To replace a power module, see "Installing and removing a power module."

Fan tray failure

Symptom

The system status LED indicates that the fan tray is not operating correctly.

Solution

The switch uses fixed fan trays. If a fan tray issue occurs, contact H3C Support.

Configuration terminal display issues

If the configuration environment setup is correct, the configuration terminal displays booting information when the switch is powered on. If the setup is incorrect, the configuration terminal displays nothing or garbled text.

No display

Symptom

The PC displays nothing when the switch is powered on.

Solution

To resolve the issue:

1.     Verify that the power module is supplying power to the switch.

2.     Verify that the console cable is correctly connected.

3.     Verify that the console cable does not have any problems and the PC settings are correct.

4.     If the issue persists, contact H3C Support.

Garbled display

Symptom

The display on the PC is garbled.

Solution

To resolve the issue:

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

¡     Baud rate—9,600.

¡     Data bits—8.

¡     Stop bits—1.

¡     ParityNone.

¡     Flow controlNone.

2.     If the issue persists, contact H3C Support.


6 Appendix A Chassis views and technical specifications

Chassis views

S5560S-28F-EI

Figure 6-1 Front panel

(1) SFP port

(2) SFP port LED

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

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

(5) Management Ethernet port

(6) Console port (CONSOLE)

(7) Micro USB console port

(8) System status LED (SYS)

(9) Power module 2 status LED (PWR2)

(10) Power module 1 status LED (PWR1)

(11) SFP+ port LED

(12) Management Ethernet port LED (ACT/LINK)

(13) SFP+ port

 

Figure 6-2 Rear panel

(1) Grounding screw

(2) Power module 1 (PWR1)

(3) Power module 2 (PWR2)

 

The S5560S-28F-EI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR150-A1 AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

S5560S-52F-EI

Figure 6-3 Front panel

(1) SFP port

(2) SFP port LED

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

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

(5) Console port (CONSOLE)

(6) Micro USB console port

(7) System status LED (SYS)

(8) Power module 2 status LED (PWR2)

(9) Power module 1 status LED (PWR1)

(10) SFP+ port

(11) SFP+ port LED

 

Figure 6-4 Rear panel

(1) Grounding screw

(2) Power module 1 (PWR1)

(3) Power module 2 (PWR2)

 

The S5560S-52F-EI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR150-A1 AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

S5560S-28P-EI

Figure 6-5 Front panel

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

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

(3) Management Ethernet port

(4) Console port (CONSOLE)

(5) Micro USB console port

(6) Port LED mode switching button

(7) Mode LED (MODE)

(8) USB port

(9) System status LED (SYS)

(10) SFP port

(11) Power module 2 status LED (PWR2)

(12) Power module 1 status LED (PWR1)

(13) Management Ethernet port LED (ACT/LINK)

(14) SFP port LED

 

Figure 6-6 Rear panel

(1) Grounding screw

(2) Power module 1

(3) Power module 2

 

The S5560S-28P-EI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR150-A1 AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

S5560S-52P-EI

Figure 6-7 Front panel

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

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

(3) Management Ethernet port

(4) Console port (CONSOLE)

(5) Micro USB console port

(6) Port LED mode switching button

(7) Mode LED (MODE)

(8) USB port

(9) System status LED (SYS)

(10) SFP port

(11) Power module 2 status LED (PWR2)

(12) Power module 1 status LED (PWR1)

(13) Management Ethernet port LED (ACT/LINK)

(14) SFP port LED

 

Figure 6-8 Rear panel

(1) Grounding screw

(2) Power module 1

(3) Power module 2

 

The S5560S-52P-EI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR150-A1 AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

S5560S-28S-EI

Figure 6-9 Front panel

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

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

(3) Management Ethernet port

(4) Console port (CONSOLE)

(5) Micro USB console port

(6) Port LED mode switching button

(7) Mode LED (MODE)

(8) USB port

(9) System status LED (SYS)

(10) SFP+ port

(11) Power module 2 status LED (PWR2)

(12) Power module 1 status LED (PWR1)

(13) Management Ethernet port LED (ACT/LINK)

(14) SFP+ port LED

(15) SFP port LED

(16) SFP port

 

Figure 6-10 Rear panel

(1) Grounding screw

(2) Power module 1

(3) Power module 2

 

The S5560S-28S-EI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR150-A1 AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

S5560S-52S-EI

Figure 6-11 Front panel

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

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

(3) Management Ethernet port

(4) Console port (CONSOLE)

(5) Micro USB console port

(6) Port LED mode switching button

(7) Mode LED (MODE)

(8) USB port

(9) System status LED (SYS)

(10) SFP+ port

(11) Power module 2 status LED (PWR2)

(12) Power module 1 status LED (PWR1)

(13) Management Ethernet port LED (ACT/LINK)

(14) SFP+ port LED

 

Figure 6-12 Rear panel

(1) Grounding screw

(2) Power module 1

(3) Power module 2

 

The S5560S-52S-EI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR150-A1 AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

S5560S-28S-PWR-EI

Figure 6-13 Front panel

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

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

(3) SFP port

(4) SFP port LED

(5) Management Ethernet port

(6) Console port (CONSOLE)

(7) Micro USB console port

(8) Port LED mode switching button

(9) Mode LED (MODE)

(10) USB port

(11) System status LED (SYS)

(12) SFP+ port

(13) Power module 2 status LED (PWR2)

(14) Power module 1 status LED (PWR1)

(15) Management Ethernet port LED (ACT/LINK)

(16) SFP+ port LED

 

Figure 6-14 Rear panel

(1) Grounding screw

(2) Power module 1

(3) Power module 2

 

The S5560S-28S-PWR-EI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR720-56A AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

S5560S-52S-PWR-EI

Figure 6-15 Front panel

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

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

(3) Management Ethernet port

(4) Console port (CONSOLE)

(5) Micro USB console port

(6) Port LED mode switching button

(7) Mode LED (MODE)

(8) USB port

(9) System status LED (SYS)

(10) SFP+ port

(11) Power module 2 status LED (PWR2)

(12) Power module 1 status LED (PWR1)

(13) Management Ethernet port LED (ACT/LINK)

(14) SFP+ port LED

 

Figure 6-16 Rear panel

(1) Grounding screw

(2) Power module 1

(3) Power module 2

 

The S5560S-52S-PWR-EI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR720-56A AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

S5130S-28C-HI

Figure 6-17 Front panel

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

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

(3) Management Ethernet port

(4) Console port (CONSOLE)

(5) Micro USB console port

(6) Port LED mode switching button

(7) Mode LED (MODE)

(8) USB port

(9) System status LED (SYS)

(10) SFP+ port

(11) Expansion slot LED (SLOT)

(12) Power module 2 status LED (PWR2)

(13) Power module 1 status LED (PWR1)

(14) Management Ethernet port LED (ACT/LINK)

(15) SFP+ port LED

(16) SFP port LED

(17) SFP port

 

 

Figure 6-18 Rear panel

(1) Grounding screw

(2) Expansion module

(3) Power module 1 (PWR1)

(4) Power module 2 (PWR2)

 

The S5130S-28C-HI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR75-12A AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

The S5130S-28C-HI switch provides an expansion slot at the rear panel. It comes with a filler panel installed in this expansion slot. You can install one expansion module as needed. In this figure, an LSWM2SP2PB interface module is installed. For more information about installing and removing an expansion module, see "Installing and removing an expansion module."

S5130S-28S-HI

Figure 6-19 Front panel

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

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

(3) Management Ethernet port

(4) Console port (CONSOLE)

(5) Micro USB console port

(6) Port LED mode switching button

(7) Mode LED (MODE)

(8) USB port

(9) System status LED (SYS)

(10) SFP+ port

(11) Power module 2 status LED (PWR2)

(12) Power module 1 status LED (PWR1)

(13) Management Ethernet port LED (ACT/LINK)

(14) SFP+ port LED

(15) SFP port LED

(16) SFP port

 

Figure 6-20 Rear panel

(1) Grounding screw

(2) Power module 1

(3) Power module 2

 

The S5130S-28S-HI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR150-A1 AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

S5130S-52C-HI

Figure 6-21 Front panel

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

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

(3) Management Ethernet port

(4) Console port (CONSOLE)

(5) Micro USB console port

(6) Port LED mode switching button

(7) Mode LED (MODE)

(8) USB port

(9) System status LED (SYS)

(10) SFP+ port

(11) SFP+ port LED

(12) Expansion slot LED (SLOT)

(13) Power module 2 status LED (PWR2)

(14) Power module 1 status LED (PWR1)

(15) SFP port

(16) Management Ethernet port LED (ACT/LINK)

(17) SFP port LED

 

 

Figure 6-22 Rear panel

(1) Grounding screw

(2) Expansion module

(3) Power module 1 (PWR1)

(4) Power module 2 (PWR2)

 

The S5130S-52C-HI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR75-12A AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

The S5130S-52C-HI switch provides an expansion slot at the rear panel. It comes with this expansion slot installed with a filler panel. You can install one expansion module as needed. In this figure, an LSWM2SP2PB interface module is installed. For more information about installing and removing an expansion module, see "Installing and removing an expansion module."

S5130S-52S-HI

Figure 6-23 Front panel

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

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

(3) Management Ethernet port

(4) Console port (CONSOLE)

(5) Micro USB console port

(6) Port LED mode switching button

(7) Mode LED (MODE)

(8) USB port

(9) System status LED (SYS)

(10) SFP+ port

(11) Power module 2 status LED (PWR2)

(12) Power module 1 status LED (PWR1)

(13) Management Ethernet port LED (ACT/LINK)

(14) SFP+ port LED

 

Figure 6-24 Rear panel

(1) Grounding screw

(2) Power module 1

(3) Power module 2

 

The S5130S-52S-HI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR150-A1 AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

S5130S-28S-PWR-HI

Figure 6-25 Front panel

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

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

(3) SFP port

(4) SFP port LED

(5) Management Ethernet port

(6) Console port (CONSOLE)

(7) Micro USB console port

(8) Port LED mode switching button

(9) Mode LED (MODE)

(10) USB port

(11) System status LED (SYS)

(12) SFP+ port

(13) Power module 2 status LED (PWR2)

(14) Power module 1 status LED (PWR1)

(15) Management Ethernet port LED (ACT/LINK)

(16) SFP+ port LED

 

Figure 6-26 Rear panel

(1) Grounding screw

(2) Power module 1

(3) Power module 2

 

 

The S5130S-28S-PWR-HI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR720-56A AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

S5130S-28S-UPWR-HI

Figure 6-27 Front panel

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

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

(3) Management Ethernet port LED (ACT/LINK)

(4) Management Ethernet port

(5) Console port (CONSOLE)

(6) Micro USB console port

(7) Port LED mode switching button

(8) Mode LED (MODE)

(9) USB port

(10) System status LED (SYS)

(11) Power module 2 status LED (PWR2)

(12) Power module 1 status LED (PWR1)

(13) SFP+ port

(14) SFP+ port LED

 

Figure 6-28 Rear panel

(1) Grounding screw

(2) Power module 1

(3) Power module 2

 

The S5130S-28S-UPWR-HI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR720-56A AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

S5130S-52S-PWR-HI

Figure 6-29 Front panel

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

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

(3) Management Ethernet port

(4) Console port (CONSOLE)

(5) Micro USB console port

(6) Port LED mode switching button

(7) Mode LED (MODE)

(8) USB port

(9) System status LED (SYS)

(10) SFP+ port

(11) Power module 2 status LED (PWR2)

(12) Power module 1 status LED (PWR1)

(13) Management Ethernet port LED (ACT/LINK)

(14) SFP+ port LED

 

Figure 6-30 Rear panel

(1) Grounding screw

(2) Power module 1

(3) Power module 2

 

The S5130S-52S-PWR-HI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR720-56A AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

S5130S-28C-PWR-HI

Figure 6-31 Front panel

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

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

(3) SFP port

(4) SFP port LED

(5) Management Ethernet port

(6) Console port (CONSOLE)

(7) Micro USB console port

(8) Port LED mode switching button

(9) Mode LED (MODE)

(10) USB port

(11) System status LED (SYS)

(12) SFP+ port

(13) Expansion slot LED (SLOT)

(14) Power module 2 status LED (PWR2)

(15) Power module 1 status LED (PWR1)

(16) Management Ethernet port LED (ACT/LINK)

(17) SFP+ port LED

 

 

Figure 6-32 Rear panel

(1) Grounding screw

(2) Expansion module

(3) Power module 1 (PWR1)

(4) Power module 2 (PWR2)

 

The S5130S-28C-PWR-HI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR720-56A AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

The S5130S-28C-PWR-HI switch provides an expansion slot at the rear panel. It comes with this expansion slot installed with a filler panel. You can install one expansion module as needed. In this figure, an LSWM2SP2PB interface module is installed. For more information about installing and removing an expansion module, see "Installing and removing an expansion module."

S5130S-52C-PWR-HI

Figure 6-33 Front panel

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

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

(3) Management Ethernet port

(4) Console port (CONSOLE)

(5) Micro USB console port

(6) Port LED mode switching button

(7) Mode LED (MODE)

(8) USB port

(9) System status LED (SYS)

(10) SFP+ port

(11) SFP+ port LED

(12) Expansion slot LED (SLOT)

(13) Power module 2 status LED (PWR2)

(14) Power module 1 status LED (PWR1)

(15) SFP port

(16) Management Ethernet port LED (ACT/LINK)

(17) SFP port LED

 

 

Figure 6-34 Rear panel

(1) Grounding screw

(2) Expansion module

(3) Power module 1 (PWR1)

(4) Power module 2 (PWR2)

 

The S5130S-52C-PWR-HI switch comes with power module slot 1 empty and power module slot 2 installed with a filler panel. You can install one or two power modules for the switch as required. In this figure, two PSR720-56A AC power modules are installed in the power module slots. For more information about installing and removing a power module, see "Installing and removing a power module."

The S5130S-52C-PWR-HI switch provides an expansion slot at the rear panel. It comes with this expansion slot installed with a filler panel. You can install one expansion module as needed. In this figure, an LSWM2SP2PB interface module is installed. For more information about installing and removing an expansion module, see "Installing and removing an expansion module."

Technical specifications

S5560S-EI series

Table 6-1 Technical specifications for non-PoE switches of the S5560S-EI series (1)

Item

S5560S-28P-EI

S5560S-52P-EI

S5560S-28S-EI

S5560S-52S-EI

Dimensions (H × W × D)

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

Weight

≤ 8 kg (17.64 lb)

≤ 8.5 kg (18.74 lb)

≤ 8 kg (17.64 lb)

≤ 8.5 kg (18.74 lb)

Console port

·     1 × Micro USB console port

·     1 × serial console port

Only the Micro USB console port is available when you connect both ports.

USB port

1

1

1

1

Management Ethernet port

1

1

1

1

10/100/1000BASE-T autosensing Ethernet port

24 (The rightmost eight ports and their corresponding SFP ports form combo interfaces.)

48

24 (The rightmost eight ports and their corresponding SFP ports form combo interfaces.)

48

SFP port

12 (The leftmost eight ports and their corresponding 10/100/1000BASE-T autosensing Ethernet ports form combo interfaces.)

4

8 (Each and its corresponding 10/100/1000BASE-T autosensing Ethernet port form a combo interface.)

N/A

SFP+ port

N/A

N/A

4

4

Power module slot

2, on the rear panel

Input voltage

PSR75-12A:

·     Rated voltage:

¡     100 VAC to 240 VAC @ 50 or 60 Hz

¡     240 VDC

·     Max voltage:

¡     90 VAC to 290 VAC @ 47 to 63 Hz

¡     180 VDC to 320 VDC

PSR150-A1:

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

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

PSR150-D1:

·     Rated voltage: –48 VDC to –60 VDC

·     Max voltage: –36 VDC to –72 VDC

DC power source for the PSR150-D1 power module: –48 VDC power source in the equipment room or an RPS (H3C RPS800-A or RPS1600-A)

Minimum power consumption

·     Single PSR75-12A input: 12 W

·     Single PSR150-A1 input: 15 W

·     Single PSR150-D1 input: 15 W

·     Dual PSR75-12A inputs: 13 W

·     Dual PSR150-A1 inputs: 20 W

·     Dual PSR150-D1 inputs: 21 W

·     Single PSR75-12A input: 21 W

·     Single PSR150-A1 input: 24 W

·     Single PSR150-D1 input: 25 W

·     Dual PSR75-12A inputs: 23 W

·     Dual PSR150-A1 inputs: 29 W

·     Dual PSR150-D1 inputs: 30 W

·     Single PSR75-12A input: 12 W

·     Single PSR150-A1 input: 16 W

·     Single PSR150-D1 input: 15 W

·     Dual PSR75-12A inputs: 14 W

·     Dual PSR150-A1 inputs: 22 W

·     Dual PSR150-D1 inputs: 21 W

·     Single PSR75-12A input: 21 W

·     Single PSR150-A1 input: 25 W

·     Single PSR150-D1 input: 26 W

·     Dual PSR75-12A inputs: 24 W

·     Dual PSR150-A1 inputs: 30 W

·     Dual PSR150-D1 inputs: 32 W

Maximum power consumption

·     Single PSR75-12A input: 29 W

·     Single PSR150-A1 input: 32 W

·     Single PSR150-D1 input: 35 W

·     Dual PSR75-12A inputs: 32 W

·     Dual PSR150-A1 inputs: 39 W

·     Dual PSR150-D1 inputs: 44 W

·     Single PSR75-12A input: 44 W

·     Single PSR150-A1 input: 46 W

·     Single PSR150-D1 input: 57 W

·     Dual PSR75-12A inputs: 46 W

·     Dual PSR150-A1 inputs: 52 W

·     Dual PSR150-D1 inputs: 59 W

·     Single PSR75-12A input: 33 W

·     Single PSR150-A1 input: 35 W

·     Single PSR150-D1 input: 40 W

·     Dual PSR75-12A inputs: 36 W

·     Dual PSR150-A1 inputs: 42 W

·     Dual PSR150-D1 inputs: 47 W

·     Single PSR75-12A input: 47 W

·     Single PSR150-A1 input: 49 W

·     Single PSR150-D1 input: 58 W

·     Dual PSR75-12A inputs: 49 W

·     Dual PSR150-A1 inputs: 56 W

·     Dual PSR150-D1 inputs: 60 W

Chassis leakage current compliance

UL 62368-1/EN 62368-1/IEC 62368-1/UL 60950-1/EN 60950-1/IEC 60950-1/GB4943.1

Melting current of power module fuse

·     PSR75-12A: 3.15 A, 250 V

·     PSR150-A1: 6.3 A, 250 V

·     PSR150-D1: 8 A, 250 V

Operating temperature

–5°C to +45°C (23°F to 113°F)

Relative humidity

5% to 95%, noncondensing

Fire resistance compliance

UL 62368-1/EN 62368-1/IEC 62368-1/UL 60950-1/EN 60950-1/IEC 60950-1/GB4943.1

 

Table 6-2 Technical specifications for non-PoE switches of the S5560S-EI series (2)

Item

S5560S-28F-EI

S5560S-52F-EI

Dimensions (H × W × D)

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

Weight

6 kg (13.23 lb)

6.5 kg (14.33 lb)

Console port

1 × Micro USB console port

1 × serial console port

Only the Micro USB console port is available when you connect both ports.

Management Ethernet port

1

N/A

10/100/1000BASE-T autosensing Ethernet port

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

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

SFP port

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

48 (The rightmost two SFP ports and their corresponding 10/100/1000BASE-T autosensing Ethernet ports form combo interfaces.)

SFP+ port

4

Power module slot

2, on the rear panel

Input voltage

PSR75-12A:

·     Rated voltage:

¡     100 VAC to 240 VAC @ 50 or 60 Hz

¡     240 VDC

·     Max voltage:

¡     90 VAC to 290 VAC @ 47 to 63 Hz

¡     180 VDC to 320 VDC

PSR150-A1:

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

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

PSR150-D1:

You can use a –48 VDC power source in the equipment room or an H3C RPS (RPS800-A or RPS1600-A)

·     Rated voltage: –48 VDC to –60 VDC

·     Max voltage: –36 VDC to –72 VDC

Minimum power consumption

·     Single PSR75-12A input: 15 W

·     Single PSR150-A1 input: 18 W

·     Single PSR150-D1 input: 18 W

·     Dual PSR75-12A inputs: 17 W

·     Dual PSR150-A1 inputs: 23 W

·     Dual PSR150-D1 inputs: 22 W

·     Single PSR75-12A input: 26 W

·     Single PSR150-A1 input: 27 W

·     Single PSR150-D1 input: 27 W

·     Dual PSR75-12A inputs: 29 W

·     Dual PSR150-A1 inputs: 32 W

·     Dual PSR150-D1 inputs: 33 W

Maximum power consumption

·     Single PSR75-12A input: 45 W

·     Single PSR150-A1 input: 48 W

·     Single PSR150-D1 input: 51 W

·     Dual PSR75-12A inputs: 48 W

·     Dual PSR150-A1 inputs: 55 W

·     Dual PSR150-D1 inputs: 57 W

·     Single PSR75-12A input: 69 W

·     Single PSR150-A1 input: 74 W

·     Single PSR150-D1 input: 84 W

·     Dual PSR75-12A inputs: 72 W

·     Dual PSR150-A1 inputs: 95 W

·     Dual PSR150-D1 inputs: 95 W

Chassis leakage current compliance

UL 62368-1/EN 62368-1/IEC 62368-1/UL 60950-1/EN 60950-1/IEC 60950-1/GB4943.1

Melting current of power module fuse

·     PSR75-12A: 3.15 A, 250 V

·     PSR150-A1: 6.3 A, 250 V

·     PSR150-D1: 8 A, 250 V

Operating temperature

–5°C to +45°C (23°F to 113°F)

Relative humidity

5% to 95%, noncondensing

Fire resistance compliance

UL 62368-1/EN 62368-1/IEC 62368-1/UL 60950-1/EN 60950-1/IEC 60950-1/GB4943.1

 

Table 6-3 Technical specifications for PoE switches of the S5560S-EI series

Item

S5560S-28S-PWR-EI

S5560S-52S-PWR-EI

Dimensions (H × W × D)

43.6 × 440 × 460 mm (1.72 × 17.32 × 18.11 in)

Weight

≤ 8.5 kg (18.74 lb)

≤ 9.5 kg (20.94 lb)

Console port

·     1 × Micro USB console port

·     1 × serial console port

Only the Micro USB console port is available when you connect both ports.

USB port

1

1

Management Ethernet port

1

1

10/100/1000BASE-T autosensing Ethernet port

24 (The rightmost four ports and their corresponding SFP ports form combo interfaces.)

48

SFP port

4 (The four ports and their corresponding 10/100/1000BASE-T autosensing Ethernet ports form combo interfaces.)

N/A

SFP+ port

4

Power module slot

2, on the rear panel

Input voltage

PSR180-56A:

·     Rated voltage:

¡     100 VAC to 240 VAC @ 50 or 60 Hz

¡     240 VDC

·     Max voltage:

¡     85 VAC to 290 VAC @ 47 to 63 Hz

¡     180 VDC to 320 VDC

PSR360-56A/PSR720-56A:

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

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

PSR1110-56A:

·     Rated voltage: 115 VAC to 240 VAC @ 50 or 60 Hz

·     Max voltage: 102.5 VAC to 264 VAC @ 47 to 63 Hz

PSR560-56D:

·     Rated voltage: –48 VDC to –60 VDC

·     Max voltage: –36 VDC to –72 VDC

DC power source: –48 VDC power source in the equipment room or an RPS (H3C RPS1600-A)

PoE power capacity

Depends on the power module configurations. For more information, see Table 6-4.

Power consumption (static)

27 W

37 W

Power consumption (max)

920 W

1854 W

Chassis leakage current compliance

UL 62368-1/EN 62368-1/IEC 62368-1/UL 60950-1/EN 60950-1/IEC 60950-1/GB4943.1

Melting current of power module fuse

·     PSR180-56A:

¡     AC: 6.3 A, 500 V

¡     DC: 6.3 A, 400 V

·     PSR360-56A: 6.3 A, 250 V

·     PSR560-56D: 30 A, 75 V

·     PSR720-56A/PSR1110-56A: 15 A, 250 V

Operating temperature

–5°C to +45°C (23°F to 113°F)

Relative humidity

5% to 95%, noncondensing

Fire resistance compliance

UL 62368-1/EN 62368-1/IEC 62368-1/UL 60950-1/EN 60950-1/IEC 60950-1/GB4943.1

 

Table 6-4 PoE power capacity of the S5560S-28S-PWR-EI and S5560S-52S-PWR-EI switches

Power module configuration

S5560S-28S-PWR-EI

S5560S-52S-PWR-EI

Total PoE power capacity

Max PoE power capacity per port

Total PoE power capacity

Max PoE power capacity per port

2 × PSR1110-56A

810 W

30 W

1680 W

30 W

1 × PSR1110-56A and 1 × PSR720-56A

810 W

30 W

1680 W

30 W

1 × PSR1110-56A and 1 × PSR560-56D

810 W

30 W

1560 W

30 W

1 × PSR1110-56A and 1 × PSR360-56A

810 W

30 W

1320 W

30 W

2 × PSR720-56A

810 W

30 W

1320 W

30 W

1 × PSR720-56A and 1 × PSR560-56D

810 W

30 W

1140 W

30 W

2 × PSR560-56D

810 W

30 W

900 W

30 W

1 × PSR720-56A and 1 × PSR360-56A

810 W

30 W

900 W

30 W

1 × PSR1110-56A

810 W

30 W

900 W

30 W

1 × PSR560-56D and 1 × PSR360-56A

810 W

30 W

810 W

30 W

1 × PSR720-56A

630 W

30 W

630 W

30 W

2 × PSR360-56A

630 W

30 W

630 W

30 W

1 × PSR560-56D

480 W

30 W

480 W

30 W

1 × PSR360-56A

280 W

30 W

280 W

30 W

2 × PSR180-56A

185 W

30 W

185 W

30 W

1 × PSR180-56A

90 W

30 W

90 W

30 W

 

S5130S-HI series

Table 6-5 Technical specifications for non-PoE switch models of the S5130S-HI series

Item

S5130S-28S-HI

S5130S-52S-HI

S5130S-28C-HI

S5130S-52C-HI

Dimensions (H × W × D)

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

Weight

≤ 6 kg (13.23 lb)

≤ 6.5 kg (14.33 lb)

≤ 5 kg (11.02 lb)

≤ 5 kg (11.02 lb)

Console port

·     1 × Micro USB console port

·     1 × serial console port

·     Only the Micro USB console port is available when you connect both ports.

USB port

1

1

1

1

Management Ethernet port

1

1

1

1

10/100/1000BASE-T autosensing Ethernet port

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

48

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

48 (The rightmost two 10/100/1000BASE-T autosensing Ethernet ports and their corresponding SFP ports form combo interfaces.)

SFP port

8 (Each and its corresponding 10/100/1000BASE-T autosensing Ethernet port form a combo interface.)

N/A

8 (Each and its corresponding 10/100/1000BASE-T autosensing Ethernet port form a combo interface.)

2 (Each and its corresponding 10/100/1000BASE-T autosensing Ethernet port form a combo interface.)

SFP+ port

4

4

4

2

Power module slot

2, on the rear panel

2, on the rear panel

2, on the rear panel

2, on the rear panel

Expansion slot

N/A

N/A

1, on the rear panel

1, on the rear panel

Input voltage

PSR75-12A:

·     Rated voltage:

¡     100 VAC to 240 VAC @ 50 or 60 Hz

¡     240 VDC

·     Max voltage:

¡     90 VAC to 290 VAC @ 47 to 63 Hz

¡     180 VDC to 320 VDC

PSR150-A1:

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

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

PSR150-D1:

·     Rated voltage: –48 VDC to –60 VDC

·     Max voltage: –36 VDC to –72 VDC

DC power source for the PSR150-D1 power module: –48 VDC power source in the equipment room or an RPS (H3C RPS800-A or RPS1600-A)

PSR75-12A:

·     Rated voltage:

¡     100 VAC to 240 VAC @ 50 or 60 Hz

¡     240 VDC

·     Max voltage:

¡     90 VAC to 290 VAC @ 47 to 63 Hz

¡     180 VDC to 320 VDC

PSR150-D1:

·     Rated voltage: –48 VDC to –60 VDC

·     Max voltage: –36 VDC to –72 VDC

DC power source for the PSR150-D1 power module: –48 VDC power source in the equipment room or an RPS (H3C RPS800-A or RPS1600-A)

Minimum power consumption

·     Single PSR75-12A input: 15 W

·     Single PSR150-A1 input: 18 W

·     Single PSR150-D1 input: 18 W

·     Dual PSR75-12A inputs: 17 W

·     Dual PSR150-A1 inputs: 20 W

·     Dual PSR150-D1 inputs: 23 W

·     Single PSR75-12A input: 24 W

·     Single PSR150-A1 input: 25 W

·     Single PSR150-D1 input: 25 W

·     Dual PSR75-12A inputs: 27 W

·     Dual PSR150-A1 inputs: 28 W

·     Dual PSR150-D1 inputs: 30 W

·     Single PSR75-12A input: 12 W

·     Single PSR150-D1 input: 15 W

·     Dual PSR75-12A inputs: 14 W

·     Dual PSR150-D1 inputs: 21 W

·     Single PSR75-12A input: 21 W

·     Single PSR150-D1 input: 26 W

·     Dual PSR75-12A inputs: 23 W

·     Dual PSR150-D1 inputs: 31 W

Maximum power consumption

·     Single PSR75-12A input: 32 W

·     Single PSR150-A1 input: 34 W

·     Single PSR150-D1 input: 36 W

·     Dual PSR75-12A inputs: 35 W

·     Dual PSR150-A1 inputs: 39 W

·     Dual PSR150-D1 inputs: 44 W

·     Single PSR75-12A input: 51 W

·     Single PSR150-A1 input: 52 W

·     Single PSR150-D1 input: 53 W

·     Dual PSR75-12A inputs: 54 W

·     Dual PSR150-A1 inputs: 55 W

·     Dual PSR150-D1 inputs: 57 W

·     Single PSR75-12A input: 31 W

·     Single PSR150-D1 input: 33 W

·     Dual PSR75-12A inputs: 33 W

·     Dual PSR150-D1 inputs: 38 W

·     Single PSR75-12A input: 50 W

·     Single PSR150-D1 input: 53 W

·     Dual PSR75-12A inputs: 52 W

·     Dual PSR150-D1 inputs: 57 W

Chassis leakage current compliance

UL 62368-1/EN 62368-1/IEC 62368-1/UL 60950-1/EN 60950-1/IEC 60950-1/GB4943.1

Melting current of power module fuse

·     PSR75-12A: 3.15 A, 250 V

·     PSR150-A1: 6.3 A, 250 V

·     PSR150-D1: 8 A, 250 V

·     PSR75-12A: 3.15 A, 250 V

·     PSR150-D1: 8 A, 250 V

Operating temperature

–5°C to +45°C (23°F to 113°F)

Relative humidity

5% to 95%, noncondensing

Fire resistance compliance

UL 62368-1/EN 62368-1/IEC 62368-1/UL 60950-1/EN 60950-1/IEC 60950-1/GB4943.1

 

Table 6-6 Technical specifications for PoE switch models of the S5130S-HI series

Item

S5130S-28S-UPWR-HI

S5130S-28S-PWR-HI

S5130S-52S-PWR-HI

S5130S-28C-PWR-HI

S5130S-52C-PWR-HI

Dimensions (H × W × D)

43.6 × 440 × 460 mm (1.72 × 17.32 × 18.11 in)

Weight

≤ 8.5 kg (18.74 lb)

≤ 8.5 kg (18.74 lb)

≤ 9.5 kg (20.94 lb)

≤ 9 kg (19.84 lb)

≤ 9.5 kg (20.94 lb)

Console port

·     1 × Micro USB console port

·     1 × serial console port

·     Only the Micro USB console port is available when you connect both ports.

USB port

1

1

1

1

1

Management Ethernet port

1

1

1

1

1

10/100/1000BASE-T autosensing Ethernet port

24

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

48

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

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

SFP port

N/A

4 (Each and its corresponding 10/100/1000BASE-T port form a combo interface.)

N/A

4 (Each and its corresponding 10/100/1000BASE-T port form a combo interface.)

2 (Each and its corresponding 10/100/1000BASE-T port form a combo interface.)

SFP+ port

4

4

4

4

2

Power module slot

2, on the rear panel

2, on the rear panel

2, on the rear panel

2, on the rear panel

2, on the rear panel

Expansion slot

N/A

N/A

N/A

1, on the rear panel

1, on the rear panel

Input voltage

·     PSR180-56A (not supported on the S5130S-28S-UPWR-HI switch):

¡     Rated voltage range: 100 VAC to 240 VAC @ 50 Hz or 60 Hz or 240 VDC

¡     Max voltage range: 85 VAC to 290 VAC @ 47 Hz to 63 Hz or 180 VDC to 320 VDC

·     PSR360-56A/PSR720-56A:

¡     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

·     PSR1110-56A:

¡     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

·     PSR560-56D:

¡     Rated voltage range: –48 VDC to –60 VDC

¡     Max voltage range: –36 VDC to –72 VDC

·     For PSR560-56D DC input, you can use the –48 VDC power source at the installation site or an H3C RPS1600-A RPS.

PoE power capacity

Depends on the power module configurations. For more information, see Table 6-7.

Minimum power consumption

30 W

27 W

37 W

38 W

47 W

Maximum power consumption (including PoE power consumption)

2490 W

920 W

1854 W

965 W

1980 W

Chassis leakage current compliance

UL 62368-1/EN 62368-1/IEC 62368-1/UL 60950-1/EN 60950-1/IEC 60950-1/GB4943.1

Melting current of power module fuse

·     PSR180-56A (not supported on the S5130S-28S-UPWR-HI switch):

¡     AC: 6.3 A, 500 V

¡     DC: 6.3 A, 400 V

·     PSR360-56A: 6.3 A, 250 V

·     PSR560-56D: 30 A, 75 V

·     PSR720-56A/PSR1110-56A: 15 A, 250 V

Operating temperature

–5°C to +45°C (23°F to 113°F)

Relative humidity

5% to 95%, noncondensing

Fire resistance compliance

UL 62368-1/EN 62368-1/IEC 62368-1/UL 60950-1/EN 60950-1/IEC 60950-1/GB4943.1

 

Table 6-7 PoE power capacity of the S5130S-28S-UPWR-HI

Power module configuration

S5130S-28S-UPWR-HI

Total PoE power capacity

Max PoE power capacity per port

2 × PSR1110-56A

2160 W

90 W

1 × PSR1110-56A and 1 × PSR720-56A

1760 W

90 W

1 × PSR1110-56A and 1 × PSR560-56D

1600 W

90 W

1 × PSR1110-56A and 1 × PSR360-56A

1400 W

90 W

2 × PSR720-56A

1370 W

90 W

1 × PSR720-56A and 1 × PSR560-56D

1210 W

90 W

2 × PSR560-56D

1050 W

90 W

1 × PSR720-56A and 1 × PSR360-56A

1010 W

90 W

1 × PSR1110-56A

1040 W

90 W

1 × PSR560-56D and 1 × PSR360-56A

850 W

90 W

1 × PSR720-56A

650 W

90 W

2 × PSR360-56A

650 W

90 W

1 × PSR560-56D

490 W

90 W

1 × PSR360-56A

290 W

90 W

2 × PSR180-56A

N/A

N/A

1 × PSR180-56A

N/A

N/A

 

Table 6-8 PoE power capacity of the S5130S-28S-PWR-HI and S5130S-52S-PWR-HI switches

Power module configuration

S5130S-28S-PWR-HI

S5130S-52S-PWR-HI

Total PoE power capacity

Max PoE power capacity per port

Total PoE power capacity

Max PoE power capacity per port

2 × PSR1110-56A

810 W

30 W

1680 W

30 W

1 × PSR1110-56A and 1 × PSR720-56A

810 W

30 W

1680 W

30 W

1 × PSR1110-56A and 1 × PSR560-56D

810 W

30 W

1560 W

30 W

1 × PSR1110-56A and 1 × PSR360-56A

810 W

30 W

1320 W

30 W

2 × PSR720-56A

810 W

30 W

1320 W

30 W

1 × PSR720-56A and 1 × PSR560-56D

810 W

30 W

1140 W

30 W

2 × PSR560-56D

810 W

30 W

900 W

30 W

1 × PSR720-56A and 1 × PSR360-56A

810 W

30 W

900 W

30 W

1 × PSR1110-56A

810 W

30 W

900 W

30 W

1 × PSR560-56D and 1 × PSR360-56A

810 W

30 W

810 W

30 W

1 × PSR720-56A

600 W

30 W

600 W

30 W

2 × PSR360-56A

600 W

30 W

600 W

30 W

1 × PSR560-56D

480 W

30 W

480 W

30 W

1 × PSR360-56A

280 W

30 W

280 W

30 W

2 × PSR180-56A

185 W

30 W

185 W

30 W

1 × PSR180-56A

90 W

30 W

90 W

30 W

 

Table 6-9 PoE power capacity of the S5130S-28C-PWR-HI and S5130S-52C-PWR-HI switches

Power module configuration

S5130S-28C-PWR-HI

S5130S-52C-PWR-HI

Total PoE power capacity

Max PoE power capacity per port

Total PoE power capacity

Max PoE power capacity per port

2 × PSR1110-56A

810 W

30 W

1680 W

30 W

1 × PSR1110-56A and 1 × PSR720-56A

810 W

30 W

1680 W

30 W

1 × PSR1110-56A and 1 × PSR560-56D

810 W

30 W

1560 W

30 W

1 × PSR1110-56A and 1 × PSR360-56A

810 W

30 W

1320 W

30 W

2 × PSR720-56A

810 W

30 W

1320 W

30 W

1 × PSR720-56A and 1 × PSR560-56D

810 W

30 W

1140 W

30 W

2 × PSR560-56D

810 W

30 W

900 W

30 W

1 × PSR720-56A and 1 × PSR360-56A

810 W

30 W

900 W

30 W

1 × PSR1110-56A

810 W

30 W

900 W

30 W

1 × PSR560-56D and 1 × PSR360-56A

810 W

30 W

810 W

30 W

1 × PSR720-56A

600 W

30 W

600 W

30 W

2 × PSR360-56A

600 W

30 W

600 W

30 W

1 × PSR560-56D

480 W

30 W

480 W

30 W

1 × PSR360-56A

280 W

30 W

280 W

30 W

2 × PSR180-56A

185 W

30 W

185 W

30 W

1 × PSR180-56A

90 W

30 W

90 W

30 W

 


7 Appendix B FRUs and compatibility matrixes

Compatibility matrixes

Table 7-1 FRUs and compatibility matrixes for the S5560S-EI series

FRUs

Non-PoE switches of the S5560S-EI series

PoE switches of the S5560S-EI series

Hot swappable power modules

PSR75-12A

Supported

Not supported

PSR150-A1

Supported

Not supported

PSR150-D1

Supported

Not supported

PSR180-56A

Not supported

Supported

PSR360-56A

Not supported

Supported

PSR560-56D

Not supported

Supported

PSR720-56A

Not supported

Supported

PSR1110-56A

Not supported

Supported

 

Table 7-2 FRUs and compatibility matrixes for the S5130S-HI series

FRUs

S5130S-28S-HI
S5130S-52S-HI

S5130S-28C-HI
S5130S-52C-HI

S5130S-28S-UPWR-HI

S5130S-28S-PWR-HI
S5130S-52S-PWR-HI

S5130S-28C-PWR-HI
S5130S-52C-PWR-HI

Hot swappable power modules

PSR75-12A

Supported

Supported

Not supported

Not supported

Not supported

PSR150-A1

Supported

Not supported

Not supported

Not supported

Not supported

PSR150-D1

Supported

Supported

Not supported

Not supported

Not supported

PSR180-56A

Not supported

Not supported

Not supported

Supported

Supported

PSR360-56A

Not supported

Not supported

Supported

Supported

Supported

PSR560-56D

Not supported

Not supported

Supported

Supported

Supported

PSR720-56A

Not supported

Not supported

Supported

Supported

Supported

PSR1110-56A

Not supported

Not supported

Supported

Supported

Supported

Hot swappable expansion modules

LSWM2SP2PB

Not supported

Supported

Not supported

Not supported

Supported

 

You can install one power module, or two power modules for redundancy on a non-PoE switch. These switches support mix of an AC power module and a DC power module.

You can install one power module, or two power modules for redundancy on the S5130S-28S-PWR-HI and S5130S-52S-PWR-HI PoE switches. The PoE capabilities of these switches vary by power module configuration. For more information, see Table 6-6.

If the PSR180-56A is used together with a PSR360-56A, PSR560-56D, PSR720-56A, or PSR1110-56A, the total power output equals the output of two PSR180-56A power modules.

Power modules

Table 7-3 Power modules

Power module

Specifications

Reference

PSR75-12A

·     Rated input voltage range:

¡     AC: 100 VAC to 240 VAC @ 50 Hz or 60 Hz

¡     DC: 240 VDC

·     Max input voltage range:

¡     AC: 90 VAC to 290 VAC @ 47 Hz to 63 Hz

¡     DC: 180 VDC to 320 VDC

·     Max output power: 75 W

H3C PSR75-12A Power Module User Manual

PSR150-A1

·     Rated input voltage range: 100 VAC to 240 VAC @ 50 Hz or 60 Hz

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

·     Max output power: 150 W

H3C PSR150-A & PSR150-D Series Power Modules User Manual

PSR150-D1

·     Rated input voltage range: –48 VDC to –60 VDC

·     Max input voltage range: –36 VDC to –72 VDC

·     Max output power: 150 W

H3C PSR150-A & PSR150-D Series Power Modules User Manual

PSR180-56A

·     Rated input voltage range:

¡     AC: 100 VAC to 240 VAC @ 50 or 60 Hz

¡     DC: 240 VDC

·     Max input voltage range:

¡     AC: 85 VAC to 290 VAC @ 47 Hz to 63 Hz

¡     DC: 180 VDC to 320 VDC

·     Max output power: 180 W

H3C PSR180-56A Power Module User Manual

PSR360-56A

·     Rated input voltage range: 100 VAC to 240 VAC @ 50 Hz or 60 Hz

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

·     Max output power: 360 W

H3C PSR360-56A Power Module User Manual

PSR560-56D

·     Rated input voltage range: –48 VDC to –60 VDC

·     Max input voltage range: –36 VDC to –72 VDC

·     Max output power: 560 W

H3C PSR560-56D Power Module User Manual

PSR720-56A

·     Rated input voltage range: 100 VAC to 240 VAC @ 50 Hz or 60 Hz

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

·     Max output power: 720 W

H3C PSR720-56A Power Module User Manual

PSR1110-56A

·     Rated input voltage range: 115 VAC to 240 VAC @ 50 Hz or 60 Hz

·     Max input voltage range: 102.5 VAC to 264 VAC @ 47 Hz to 63 Hz

·     Max output power: 1110 W

H3C PSR1110-56A Power Module User Manual

 

 

NOTE:

The PSR1110-56A power module adds 64 mm (2.52 in) to the total depth of the switch, which includes the power module handle.

 

Expansion modules

Table 7-4 Expansion modules

Model

Description

Port quantity

Available transceiver modules and cables

Reference

LSWM2SP2PB

2-port 10-Gigabit SPF+ fiber Ethernet interface module

2

·     10-GE SFP+ module

·     10-GE SFP+ cable

·     GE SFP module

·     GE SFP cable

H3C LSWM2SP2PB & LSWM2SP4PB Interface Cards User Manual.

 

IMPORTANT

IMPORTANT:

By default, the operating mode is 0 for the expansion module on an S5130S-28C-HI or S5130S-28C-PWR-HI switch. In this mode, ports 26 and 28 on the front panel are available, and none of the ports on the expansion module is available. To use ports on the expansion module, execute the port-configuration-mode command to set the operating mode to 1 and then reboot the switch. After the configuration, ports 26 and 28 on the front panel become unavailable. For more information, see the Layer 2—LAN switching configuration guide of the device.

 


8 Appendix C Ports and LEDs

Ports

Console port

The switch has two console ports: a serial console port and a Micro USB console port.

Table 8-1 Console port specifications

Item

Serial console port

Micro USB console port

Connector type

RJ-45

Micro USB Type B

Compliant standard

EIA/TIA-232

USB 2.0

Transmission baud rate

9600 bps (default) to 115200 bps

Services

·     Provides connection to an ASCII terminal.

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

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

 

Management Ethernet port

All S5560S-EI and S5130S-HI switches except the S5560S-52F-EI switch each provide a management Ethernet port on the front panel. You can connect this port to a PC or management station for loading and debugging software or remote management.

Table 8-2 Management Ethernet port specifications

Item

Specification

Connector type

RJ-45

Connector quantity

1

Port transmission rate

10/100 Mbps, half/full duplex

MDI/MDI-X, autosensing

Transmission medium and max transmission distance

100 m (328.08 ft) over category-5 twisted pair cable

Functions and services

Switch software and Boot ROM upgrade, network management

 

USB port

All S5560S-EI and S5130S-HI switches except the S5560S-28F-EI and S5560S-52F-EI switches each have one OHC-compliant USB2.0 port that can upload and download data at a rate up to 480 Mbps. You can use this USB port to access the file system on the flash of the switch, for example, to upload or download application and configuration files.

 

 

NOTE:

USB devices from different vendors vary in compatibilities and drivers. H3C does not guarantee the correct operation of USB devices from all vendors on the switch. If a USB device fails to operate on the switch, replace it with one from another vendor.

 

10/100/1000BASE-T autosensing Ethernet port

Table 8-3 10/100/1000BASE-T autosensing Ethernet port specifications

Item

Specification

Connector type

RJ-45

Interface attributes

·     10 Mbps, full duplex

·     100 Mbps, full duplex

·     1000 Mbps, full duplex

·     MDI/MDI-X, auto-sensing

Max transmission distance

100 m (328.08 ft)

Transmission medium

Category-5 (or above) twisted pair cable

Standards

IEEE 802.3i, 802.3u, 802.3ab

 

SFP port

CAUTION

CAUTION:

Make sure the ambient temperature for an operating S5560S-28F-EI does not exceed 40°C (104°F) if the following conditions exist:

·     The switch uses one or two PSR75-12A power modules for power supply.

·     The switch uses transceiver modules with a maximum transmission distance greater than or equal to 80 km (49.71 miles).

 

CAUTION

CAUTION:

Make sure the ambient temperature for an operating S5560S-52F-EI does not exceed 40°C (104°F) if the following conditions exist:

·     The switch uses one or two PSR75-12A power modules for power supply.

·     The switch uses transceiver modules.

 

The following switches provide fixed SFP ports on the front panel. You can install the FE SFP modules in Table 8-4 or GE SFP transceiver modules and cables in Table 8-5 in the SFP ports:

·     S5560S-28F-EI

·     S5560S-52F-EI

·     S5560S-28S-EI

·     S5560S-28P-EI

·     S5560S-52P-EI

·     S5560S-28S-PWR-EI

·     S5130S-28S-HI

·     S5130S-28S-PWR-HI

·     S5130S-28C-HI

·     S5130S-52C-HI

·     S5130S-28C-PWR-HI

·     S5130S-52C-PWR-HI

The following SFP ports support only GE SFP transceiver modules and cables in Table 8-5:

·     SFP ports 25 to 28 on the S5560S-28P-EI.

·     All SFP ports on the S5560S-52P-EI.

Table 8-4 FE SFP transceiver modules available for the SFP ports

FE SFP module

Central wavelength (nm)

Connector

Fiber diameter (µm)

Max transmission distance

SFP-FE-SX-MM1310-A

1310

LC

Multi-mode, 50/125

2 km (1.24 miles)

Multi-mode, 62.5/125

SFP-FE-LX-SM1310-A

1310

LC

Single-mode, 9/125

15 km (9.32 miles)

SFP-FE-LX-SM1310-D

1310

LC

Single-mode, 9/125

15 km (9.32 miles)

SFP-FE-LH40-SM1310

1310

LC

Single-mode, 9/125

40 km (24.86 miles)

SFP-FE-LH80-SM1550

1550

LC

Single-mode, 9/125

80 km (49.71 miles)

SFP-FE-LX-SM1310-BIDI

TX: 1310

RX: 1550

LC

Single-mode, 9/125

15 km (9.32 miles)

SFP-FE-LX-SM1550-BIDI

TX: 1550

RX: 1310

 

IMPORTANT

IMPORTANT:

The SFP-FE-LX-SM1310-BIDI and SFP-FE-LX-SM1550-BIDI modules must be used in pairs.

 

Table 8-5 GE SFP transceiver modules and cables available for the SFP ports

GE SFP transceiver module and cable

Central wavelength (nm)

Connector

Cable/Fiber type and diameter (µm)

Modal bandwidth (MHz × km)

Max transmission distance

SFP copper transceiver module

SFP-GE-T

N/A

RJ-45

Twisted pair cable

N/A

100 m (328.08 ft)

SFP-GE-T-D

N/A

RJ-45

Twisted pair cable

N/A

100 m (328.08 ft)

SFP fiber transceiver module

SFP-GE-SX-MM850-A

850

LC

Multi-mode, 50/125

500

550 m (1804.46 ft)

400

500 m (1640.42 ft)

Multi-mode, 62.5/125

200

275 m (902.23 ft)

160

220 m (721.78 ft)

SFP-GE-SX-MM850-D

850

LC

Multi-mode, 50/125

500

550 m (1804.46 ft)

400

500 m (1640.42 ft)

Multi-mode, 62.5/125

200

275 m (902.23 ft)

160

220 m (721.78 ft)

SFP-GE-LX-SM1310-A

1310

LC

Single-mode, 9/125

N/A

10 km (6.21 miles)

Multi-mode, 50/125

500 or 400

550 m (1804.46 ft)

Multi-mode, 62.5/125

500

550 m (1804.46 ft)

SFP-GE-LX-SM1310-D

1310

LC

Single-mode, 9/125

N/A

10 km (6.21 miles)

SFP-GE-LH40-SM1310

1310

LC

Single-mode, 9/125

N/A

40 km (24.86 miles)

SFP-GE-LH40-SM1310-D

1310

LC

Single-mode, 9/125

N/A

40 km (24.86 miles)

SFP-GE-LH40-SM1550

1550

LC

Single-mode, 9/125

N/A

40 km (24.86 miles)

SFP-GE-LH80-SM1550

1550

LC

Single-mode, 9/125

N/A

80 km (49.71 miles)

SFP-GE-LH80-SM1550-D

1550

LC

Single-mode, 9/125

N/A

80 km (49.71 miles)

SFP-GE-LH100-SM1550

1550

LC

Single-mode, 9/125

N/A

100 km (62.14 miles)

SFP-GE-LX-SM1310-BIDI

TX: 1310 nm

RX: 1490 nm

LC

Single-mode, 9/125

N/A

10 km (6.21 miles)

SFP-GE-LX-SM1490-BIDI

TX: 1490 nm

RX: 1310 nm

LC

Single-mode, 9/125

N/A

10 km (6.21 miles)

SFP-GE-LH40-SM1310-BIDI

TX: 1310 nm

RX: 1550 nm

LC

Single-mode, 9/125

N/A

40 km (24.86 miles)

SFP-GE-LH40-SM1550-BIDI

TX: 1550 nm

RX: 1310 nm

LC

Single-mode, 9/125

N/A

40 km (24.86 miles)

SFP-GE-LH70-SM1490-BIDI

TX: 1490 nm

RX: 1550 nm

LC

Single-mode, 9/125

N/A

70 km (43.49 miles)

SFP-GE-LH70-SM1550-BIDI

TX: 1550 nm

RX: 149 nm

LC

Single-mode, 9/125

N/A

70 km (43.49 miles)

SFP cable

SFP-STACK-Kit

N/A

1.5 m (4.92 ft)

 

IMPORTANT

IMPORTANT:

The SFP-GE-LX-SM1310-BIDI and SFP-GE-LX-SM1490-BIDI modules must be used in pairs.

 

 

NOTE:

·     As a best practice, use only H3C SFP transceiver modules and cables for the SFP ports.

·     The H3C SFP transceiver modules and cables available for the SFP ports are subject to change over time. For the most recent list of SFP transceiver modules and cables available for the SFP port, contact your H3C Support or marketing staff.

·     For the specifications of H3C SFP transceiver modules and cables, see H3C Transceiver Modules User Guide.

 

SFP+ port

The following switches each provide four fixed SFP+ ports on the front panel:

·     S5560S-28F-EI

·     S5560S-52F-EI

·     S5560S-28S-EI

·     S5560S-52S-EI

·     S5560S-28S-PWR-EI

·     S5560S-52S-PWR-EI

·     S5130S-28C-HI

·     S5130S-28S-HI

·     S5130S-52S-HI

·     S5130S-28C-PWR-HI

·     S5130S-28S-PWR-HI

·     S5130S-28S-UPWR-HI

·     S5130S-52S-PWR-HI

The S5130S-52C-HI and S5130S-52C-PWR-HI switches each provide two fixed SFP+ ports on the front panel.

To connect peer SFP+ ports over a long distance, use SFP/SFP+ transceiver modules and fibers. To connect peer SFP+ ports over a short distance, use SFP+ cables. You can install the GE SFP transceiver module in Table 8-5, 10-GE SFP+ transceiver modules in Table 8-6, and 10-GE SFP+ cables in Table 8-7 in the SFP+ ports.

Table 8-6 10-GE SFP+ transceiver modules available for the SFP+ ports

10-GE SFP+ module

Central wavelength (nm)

Connector

Fiber diameter (µm)

Multimode fiber modal bandwidth (MHz × km)

Max transmission distance

SFP-XG-SX-MM850-D

850

LC

Multi-mode, 50/125

2000

300 m (984.25 ft)

500

82 m (269.03 ft)

400

66 m (216.54 ft)

Multi-mode, 62.5/125

200

33 m (108.27 ft)

160

26 m (85.30 ft)

SFP-XG-SX-MM850-E

850

LC

Multi-mode, 50/125

2000

300 m (984.25 ft)

500

82 m (269.03 ft)

400

66 m (216.54 ft)

Multi-mode, 62.5/125

200

33 m (108.27 ft)

160

26 m (85.30 ft)

SFP-XG-LX-SM1310-D

1310

LC

Single-mode, 9/125

N/A

10 km (6.21 miles)

SFP-XG-LX-SM1310-E

1310

LC

Single-mode, 9/125

N/A

10 km (6.21 miles)

SFP-XG-LH40-SM1550

1550

LC

Single-mode, 9/125

N/A

40 km (24.86 miles)

SFP-XG-LH40-SM1550-D

1550

LC

Single-mode, 9/125

N/A

40 km (24.86 miles)

SFP-XG-LH80-SM1550

1550

LC

Single-mode, 9/125

N/A

80 km (49.71 miles)

SFP-XG-LH80-SM1550-D

1550

LC

Single-mode, 9/125

N/A

80 km (49.71 miles)

 

Table 8-7 10-GE SFP+ cables available for the SFP+ ports

10-GE SFP+ cable

Cable length

LSWM1STK

0.65 m (2.13 ft)

LSWM2STK

1.2 m (3.94 ft)

LSWM3STK

3 m (9.84 ft)

LSTM1STK

5 m (16.40 ft)

 

Figure 8-1 SFP+ cable

(1) Connector

(2) Pull latch

 

 

NOTE:

·     As a best practice, use only H3C SFP/SFP+ transceiver modules and SFP+ cables for the SFP+ ports.

·     The H3C SFP/SFP+ transceiver modules and SFP+ cables available for the SFP+ ports are subject to change over time. For the most recent list of SFP/SFP+ transceiver modules and SFP+ cables, contact your H3C Support or marketing staff.

·     For the specifications of H3C SFP/SFP+ transceiver modules and SFP+ cables, see H3C Transceiver Modules User Guide.

 

Combo interface

The S5560S-28F-EI, S5560S-28S-EI, S5560S-28P-EI, S5130S-28S-HI, and S5130S-28C-HI switches each provide eight combo interfaces on the front panel. The S5560S-28S-PWR-EI, S5130S-28S-PWR-HI, and S5130S-28C-PWR-HI switches each provide four combo interfaces on the front panel. The S5560S-52F-EI, S5130S-52C-HI, and S5130S-52C-PWR-HI switches each provide two combo interfaces on the front panel. A combo interface contains an SFP port and a 10/100/1000BASE-T autosensing Ethernet port. Only one of these two ports can operate at a time.

LEDs

System status LED

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

Table 8-8 System status LED description

LED mark

Status

Description

SYS

Steady green

The switch is operating correctly.

Flashing green (1 Hz)

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

Steady red

The switch has failed the POST or is faulty.

Off

The switch is powered off.

 

Power module status LED

The switch provides two power module slots at the rear. For each power module, the switch provides a power module status LED on the front panel.

Table 8-9 Power module status LED description

LED mark

Status

Description

PWR1/PWR1

Steady green

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

Steady yellow

A power module is installed in the power module slot, but the power module has failed or no power is input to the power module.

Off

No power module is installed in the power module slot.

 

Mode LED (MODE)

All S5560S-EI and S5130S-HI series switches except the S5560S-28F-EI and S5560S-52F-EI switches each provide a mode LED (MODE) to indicate the type of information that the 10/100/1000BASE-T autosensing Ethernet port LEDs are showing.

You can use the LED mode switching button to change the indication of the mode LED.

Table 8-10 Description for the mode LED

LED mark

Status

Description

MODE

Steady green

The 10/100/1000BASE-T autosensing Ethernet port LEDs indicate the link and operating status of the port.

Flashing green (available only for the S5560S-28S-PWR-EI, S5560S-52S-PWR-EI, S5130S-28S-PWR-HI,

S5130S-28S-UPWR-HI,

S5130S-52S-PWR-HI, S5130S-28C-PWR-HI, and S5130S-52C-PWR-HI switches)

The 10/100/1000BASE-T autosensing Ethernet port LEDs indicates the PoE power supply status of the ports.

Flashing yellow

The 10/100/1000BASE-T autosensing Ethernet port LEDs indicates the IRF member ID of the switch. For example, if the LED for port 5 is steady green and the other LEDs are off, the IRF member ID of the switch is 5.

 

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

The switch provides a status LED for each 10/100/1000BASE-T autosensing Ethernet port. The port LED and the MODE LED work in conjunction to indicate the operating status of the 10/100/1000BASE-T autosensing Ethernet port.

Table 8-11 10/100/1000BASE-T autosensing Ethernet port LED description

MODE LED status

10/100/1000BASE-T autosensing Ethernet port LED status

Description

Steady green (Link/Active mode)

Steady green

A link is present on the port.

Flashing green

The port is sending or receiving data.

Off

No link is present on the port.

Flashing green (PoE mode, available only for the S5560S-28S-PWR-EI, S5560S-52S-PWR-EI, S5130S-28S-PWR-HI, S5130S-28S-UPWR-HI,

S5130S-52S-PWR-H, S5130S-28C-PWR-HI, and S5130S-52C-PWR-HI switches)

Steady green

PoE power supply is normal.

Flashing green (1 Hz)

·     The PoE power provided by the port fails to meet the power requirement of the PD.

·     PoE power supply overcurrent, overvoltage, or short-circuit occurs.

·     The remaining power of the switch fails to meet the power supply requirement of the port.

Off

The port is not connected to a PD or PoE is not enabled on the port.

Flashing yellow (IRF mode)

Steady green

The 10/100/1000BASE-T autosensing Ethernet port LEDs on the switch work in conjunction to indicate the IRF member ID of the switch. For example, if the LED for port 5 is steady green and the other port LEDs are off, the IRF member ID of the switch is 5.

 

SFP/SFP+ port LED

Table 8-12 SFP/SFP+ port LED description

SFP/SFP+ port LED status

Description

Steady green

A link is present on the port.

Flashing green

The port is sending or receiving data.

Off

·     No link is present on the port.

·     The mode LED is operating in IRF mode.

·     The mode LED is operating in PoE mode (only for PoE switches).

 

Management Ethernet port LED

Table 8-13 Management Ethernet port LED description

Management Ethernet port LED (ACT/LINK) status

Description

Steady green

A link is present on the port.

Flashing green

The port is sending or receiving data.

Off

No link is present on the port.

 

Input status LED and output status LED on the power module

The PSR180-56A, PSR360-56A, PSR560-56D, PSR720-56A, and PSR1110-56A power modules each have an input status LED and an output status LED. For more information about the LEDs, see the manuals for the power modules.

Expansion slot LED

The S5130S-28C-HI, S5130S-52C-HI, S5130S-28C-PWR-HI, and S5130S-52C-PWR-HI switches each provide an expansion slot at the rear panel. You can view the expansion slot LED on the front panel to identify the status of the installed expansion module.

Table 8-14 Expansion slot status LED description

Expansion slot LED (SLOT) status

Description

Steady on

An expansion module is present and is operating correctly.

Flashing amber

The expansion module is incompatible with the switch or the expansion module is faulty.

Off

No expansion module is present.

 

Port status LED on the expansion module

The expansion module provides a port status LED for each port on the module. For more information about the LED, see the user guide for the expansion module.


9 Appendix D Cooling system

To dissipate heat timely and ensure system stability, the switch uses a high-performance cooling system. Consider the site ventilation design when you plan the installation site for the switch.

On the S5130S-28C-HI, S5130S-52C-HI, S5130S-28C-PWR-HI, S5130S-28S-UPWR-HI, and S5130S-52C-PWR-HI switches, the fan trays draw in ambient air from the left side panel and exhaust the air from the right side panel, as shown in Figure 9-1.

On the other S5560S-EI & S5130S-HI series switches, the fan trays draw in ambient air from the left side and port side panels and exhaust the air from the right side panel, as shown in Figure 9-2.

Figure 9-1 Airflow through the S5130S-52C-HI switch

 

Figure 9-2 Airflow through the S5130S-52S-PWR-HI switch