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

Safety symbols

When reading this document, note the following symbols:

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

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

General safety recommendations

· Make sure the installation position is flat, vibration-free, and away from electromagnetic interferences. ESD and anti-slip measures are in place.

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

· Keep the chassis and installation tools away from walk areas.

· Keep the chassis clean and dust-free.

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

· Pay attention to the safety symbols on the package and handle the device accordingly.

Table 1 Symbols on the package

Symbol	Description
	The device shall not be vertically stacked beyond the specified number.
	Place the device with the arrows up.
	The device is fragile. Handle it with care.
	Keep the device from humidity, rains, and wet floor.

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

· Make sure the operating voltage for the power supply is in the required range.

· Use a screwdriver to fasten screws.

· Take away the packaging materials and installation tools after installation.

Electrical safety

· Carefully examine your work area for possible hazards such as moist floors, ungrounded power extension cables, and missing safety grounds.

· Locate the emergency power-off switch in the room before installation. Shut the power off at once in case accident occurs.

· Do not work alone when the device has power.

· Always verify that the power has been disconnected when you perform operations that require the device to be powered off.

Laser safety

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 device is operating.

The device is a Class 1 laser device.

· Before you remove the optical fiber connector from a fiber port, execute the shutdown command in interface view to shut down the port.

· Insert a dust cap into any open optical fiber connector and a dust plug into any open fiber port or transceiver module port to protect them from contamination and ESD damage.

Moving safety

When you move the device, follow these guidelines:

· To avoid damage, move and unpack the device with care.

· After you move the device from a location below 0°C (32°F) to the equipment room, follow these guidelines to prevent condensation:

¡ Wait a minimum of 30 minutes before unpacking the device.

¡ Wait a minimum of 2 hours before powering on the device.

· Use a pushcart when you move multiple devices.

· Before you move the device, remove all cables.

· If the device is to be transported over a long distance, perform the following tasks before the transport:

¡ Remove all removable components, such as power supplies and interface modules, and place them separately in antistatic bags.

¡ Replace the filler panels provided with the device to prevent obstacle intrusions and damages to the device.

· To transport the device over a short distance, make sure the removable components are securely installed on the device and the screws are tightly fastened.

· When you move or lift the chassis, support the bottom of the chassis, rather than hold any removable component.

· Make sure the accessories of the device are not lost or damaged during device moving.

Examining the installation site

The device can only be used indoors. To ensure correct operation and a long lifespan for your device, the installation site must meet the following requirements.

Make sure the floor can support the total weight of the rack, chassis, modules, and all other components. For weights of the chassis and components, see "Appendix A Chassis views and technical specifications."

Temperature and humidity

Maintain temperature and humidity in the equipment room at levels as described in Table 2.

· 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 bring problems including loose captive screws and circuit failure.

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

Table 2 Temperature/humidity requirements

Temperature

Relative humidity

· Operating:

¡ Without drives: 0°C to 45°C (32°F to 113°F)

¡ With drives: 5°C to 40°C (41°F to 104°F)

· Storage: –40°C to +70°C (–40°F to +158°F)

· Operating:

¡ Without drives: 5% RH to 95% RH, noncondensing

¡ With drives: 10% RH to 90% RH, noncondensing

· Storage: 5% RH to 95% RH, noncondensing

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 3 Dust concentration limit in the equipment room

Substance

Concentration limit (particles/m3)

Dust particles

≤ 3 × 104

(No visible dust on desk in three days)

NOTE:

Dust particle 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 4.

Table 4 Harmful gas limits in an equipment room

Gas	Max. (mg/m3)
SO2	0.2
H2S	0.006
NH3	0.05
Cl2	0.01
NO2	0.04

Cooling system

The device uses a front-rear air aisle. For adequate heat dissipation, follow these guidelines:

· Select a fan tray model that provides an airflow direction matching the heat dissipation requirements at the installation site for the device.

· Reserve a minimum clearance of 100 mm (3.94 in) around the inlet and outlet air vents.

· Make sure the installation site has a good cooling system.

The FAN-20F-2-A or LSWM1BFANSC fan tray blows air from the power supply side to the port side as shown in Figure 1. The fan tray has a blue fan tray handle.

Figure 1 Airflow with the FAN-20F-2-A/LSWM1BFANSC fan trays installed

The FAN-20B-2-A or LSWM1BFANSCB fan tray draws air from the port side to the power supply side as shown in Figure 2. The fan tray has a red fan tray handle.

Figure 2 Airflow with the FAN-20B-2-A/LSWM1BFANSCB fan trays installed

ESD prevention

To prevent electrostatic discharge (ESD), follow these guidelines:

· Make sure the device and the rack are reliably grounded.

· Take dust-proof measures for the equipment room. For more information, see "Cleanliness."

· Maintain the humidity and temperature at acceptable levels. For more information, see "Temperature and humidity."

· Before working with the device, wear an ESD wrist strap or gloves and ESD clothing, and remove conductive objects such as jewelry or watch. Make sure the wrist strap makes good skin contact and is reliably grounded.

· Place a removed component such as interface module on an ESD workbench or put it in an antistatic bag, with the PCB upward.

EMI

All electromagnetic interference (EMI) sources, from outside or inside of the device and application system, adversely affect the device 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 device 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. If part of the network cable of an Ethernet port must be routed outdoors, install a network signal lightning arrester for the port.

Lightning protection

To better protect the device from lightning, follow these guidelines:

· Make sure the grounding cable of the chassis is reliably grounded.

· Make sure the grounding terminal of the AC power receptacle is reliably grounded.

· Install a power lightning arrester at the input end of the power supply to enhance the lightning protection capability of the power supply.

· If an AC power cord is routed from outdoors for connecting to the device, connect the power cord first to a power lightning arrester before connecting it to the power receptacle on the device.

· If a network cable is routed from outdoors for connecting to an Ethernet port on the device, connect the network cable first to a network port lightning arrester before connecting it to the port.

IMPORTANT:

No network port lightning arrester or AC power lightning arrester is provided with the device. Prepare them as required. For the technical specifications and installation instructions for the lightning protectors, see the documents shipped with them.

Power supply

Verify that the power system at the installation site meets the requirements of the power supplies, including the input method and rated input voltage. For more information, see power supply specifications in "Appendix A Chassis views and technical specifications."

Installation tools

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

Table 5 Installation tools


Flathead screwdriver	Phillips screwdriver	Needle-nose pliers	Marker

Diagonal pliers	ESD wrist strap	Wire-stripping pliers	Crimping tool

Installation accessories

Table 6 Installation accessories


Mounting brackets each attached with a cable management bracket	Slide rails and chassis rails	M4 screw	M6 screw

Cage nut	Console cable	Grounding cable

Pre-installation checklist

Table 7 Pre-installation checklist

Item		Requirements
Installation site	Ventilation	· There is a minimum clearance of 100 mm (3.94 in) around the inlet and outlet air vents of the chassis for heat dissipation. · A good cooling system is available at the installation site.
	Temperature	· Operating: ¡ Without drives: 0°C to 45°C (32°F to 113°F) ¡ With drives: 5°C to 40°C (41°F to 104°F) · Storage: –40°C to +70°C (–40°F to +158°F)
	Humidity	· Operating: ¡ Without drives: 5% RH to 95% RH, noncondensing ¡ With drives: 10% RH to 90% RH, noncondensing · Storage: 5% RH to 95% RH, noncondensing
	Cleanliness	· Dust concentration ≤ 3 × 104 particles/m3 · No dust on desk within three days
	ESD prevention	· The device and the rack are reliably grounded. · The equipment room is dust-proof. · The humidity and temperature are at acceptable levels. · An ESD wrist strap, ESD clothing, and ESD gloves are available. · Antistatic bags are available.
	EMI prevention	· Effective measures are taken for filtering interference from the power grid. · The protection ground of the device is away from the grounding facility of power equipment or lightning protection grounding facility. · The device is far away from radio transmitting stations, radar stations, and high-frequency devices. · Electromagnetic shielding, for example, shielded interface cables, is used as required.
	Lightning protection	· The device is reliably grounded. · The AC power source is reliably grounded. · (Optional.) Network signal lightning arresters are available. · (Optional.) A power lightning arrester is available.
	Power supply	· A UPS is available. · The power-off switch in the equipment room is identified and accessible so that the power can be immediately shut off when an accident occurs.
	Rack-mounting requirements	· The rack has a good ventilation system. · The rack is sturdy enough to support the weight of the device and installation accessories. · The rack has a size that can accommodate the device. · The front and rear of the rack are a minimum of 0.8 m (2.62 ft) away from walls or other devices.
Safety precautions	· The device is far away from any moist area and heat source. · You have located the emergency power switch in the equipment room.
Tools and accessories	· Accessories provided with the device are available. · Installation tools are available.
Reference	· Documents shipped with the device are available. · Online documents are available.

Installing the device

WARNING!

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

The installation method is similar for the T50X0 IPS series. This document uses a T5000-S as an example. The device view varies by model. The following figures are for illustration only.

Installation flow

Table 8 Installation flow for the device

Step	Description
1. Start	Before installation, make sure all requirements on the checklist are met and the device is powered off.
2. Grounding the device	Before installation, make sure the device and rack are reliably grounded and you wear an ESD wrist strap.
3. Installing the device in a standard 19-inch rack	The device is heavy. Both mounting brackets and slide rails are required to support the weight of the chassis.
4. Installing a power supply	Before you install a power supply, make sure the power supply is not connected to any power source and the grounding cable of the device is connected reliably.
5. Installing a fan tray	Install compatible fan trays on the device.
6. Installing an interface module	No interface modules are provided with the device. Prepare them yourself as required.
7. Installing a drive	Install compatible drives on the device.
8. Connecting Ethernet cables	The device provides various ports. Choose compatible transceiver modules and cables as required. To avoid bodily injury or device damage, read the restrictions and guidelines carefully before connection.
9. Connecting power cords	Connect compatible power cords to the power supplies.
10. Verifying the installation	Verify that the device is installed securely and reliably grounded, and that the power supplies are as required.

Grounding the device

CAUTION:

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

· Do not connect the grounding cable to a fire main or lightning rod.

Grounding the T5030/T5060/T5080/T5000-S/T5000-C IPS device

The T5030/T5060/T5080/T5000-S/T5000-C IPS device provides a primary grounding point (above the power supplies) on the rear panel and an auxiliary grounding point on the left side. The primary grounding point has a grounding sign and a grounding screw while the auxiliary grounding point does not.

The grounding screw at the primary grounding point is also applicable to the auxiliary grounding point. If you are to use the auxiliary grounding point for grounding the device, attach the grounding cable to the auxiliary grounding point before mounting the device in the rack.

The grounding cable connection procedure is the same for the primary grounding point and the auxiliary grounding point. This section uses the primary grounding point as an example.

To connect the grounding cable:

1. Remove the grounding screw from the primary grounding point.

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

3. Connect the other end of the grounding cable to the grounding strip on the rack.

Figure 3 Connecting the grounding cable to the primary grounding point

Grounding the T5030-G IPS device

IMPORTANT:

Before mounting the T5030-G IPS device in a rack, connect the grounding cable for it. Use the grounding point near the front panel. If you use the grounding point near the rear panel, you cannot attach the chassis rails to the device.

The T5030-G IPS device provides primary and auxiliary grounding points on the side panel. The primary grounding point is close to the device front panel and has a grounding sign. This section uses the primary grounding point as an example.

To connect the grounding cable to the primary grounding point:

1. Use the grounding screws to attach the two-hole terminal of the grounding cable to the grounding holes and fasten the screws.

2. Connect the other end of the grounding cable to a grounding strip.

Figure 4 Connecting the grounding cable to the primary grounding point

Installing the device in a standard 19-inch rack

WARNING!

To avoid bodily injury and device damage, a minimum of two persons are required to install the device.

CAUTION:

· Ensure a clearance of 1 RU (44.45 mm, or 1.75 in) between the device and walls or other devices for heat dissipation.

· The mounting brackets and chassis rails are required to support the weight of the chassis.

To mount the device in a rack, make sure the rack meets the requirements described in Table 9.

Table 9 Device dimensions and rack requirements

Device dimensions

Rack requirements

· Height—88.1 mm (3.47 in)

· Width—440 mm (17.32 in)

· Depth—775.5 mm (30.53 in)

¡ 660 mm (25.98 in) for the chassis

¡ 90 mm (3.54 in) for the cable management bracket at the chassis front

¡ 25.5 mm (1.00 in) for the power supply handle at the chassis rear

· A minimum of 1 m (3.28 ft) in depth (recommended).

· A minimum of 100 mm (3.94 in) between the front rack posts and the front door.

· A minimum of 760 mm (29.92 in) between the rear rack posts and the rear door.

· 518 mm (20.39 in) to 923 mm (36.34 in) between the front and rear rack posts.

To install the device in a 19-inch rack:

1. Wear an ESD wrist strap and unpack the device and accessories.

2. Make sure the rack is sturdy and reliably grounded.

3. Use a mounting bracket to mark the cage nut installation positions on the rack posts. Four cage nuts are required on each front rack post and two are required on each rear rack post.

4. Install cages nuts at the marked installation positions.

5. Use M6 screws to attach the slide rails to the rear rack posts.

Figure 5 Installing cage nuts and slide rails

6. Use the provided M4 screws to attach the mounting brackets and chassis rails to both sides of the device.

The device provides multiple installation positions for chassis rails. Attach chassis rails to the appropriate positions and make sure the front ends of the slide rails can reach out of the chassis rails after the device is installed in the rack.

Figure 6 Attaching the mounting brackets and chassis rails to the device

7. Supporting the bottom of the device, align the chassis rails with the slide rails and slide the slide rails into the chassis rails until the mounting brackets are flush against the front rack posts.

8. Use M6 rack screws to secure the mounting brackets to the front rack posts.

Figure 7 Mounting the device in the rack

Installing a power supply

CAUTION:

· Before installing a power supply, make sure the power is disconnected and the device is reliably grounded.

· Install a filler panel over an empty power supply slot to prevent dust and ensure good ventilation in the chassis.

· Do not install AC and DC power supplies on the same device.

No power supplies are provided with the device. Prepare them yourself as required.

The power supply installation procedures are similar. The following procedure installs an AC power supply.

To install a power supply:

1. Remove the filler panel, if any, from the power supply slot.

Figure 8 Removing the filler panel

2. Install the power supply.

a. Orient the power supply with the retaining latch on the right side.

b. Holding the handle of the power supply with one hand and supporting the module bottom with the other, push the power supply into the slot along the guide rails until it is securely seated in the slot.

Figure 9 Installing an AC power supply

Installing a fan tray

CAUTION:

· Before installing a fan tray, make sure the airflow direction provided by the fan tray meets the ventilation requirements.

· The device came with both fan tray slots empty. To ensure good ventilation, you must install two fan trays of the same model before powering on the device.

· The device will power off automatically at startup if it does not have any fan trays installed. You must disconnect the power cords from the device and then restart the device after installing fan trays in the device.

· If a fan tray fails during device operation, replace the fan tray as soon as possible and keep the failed fan tray in place before replacing it.

· To prevent damage to the fan tray and the connectors on the backplane, insert the fan tray gently. If you encounter any resistance while inserting the fan tray, pull out the fan tray, re-orient it, and then insert it again.

· If one fan tray fails during the device operation, replace the fan tray immediately and keep the fan tray in the slot before the replacement. If both fan trays fail, replace one fan tray first immediately. Replace the other fan tray after the new fan tray operates correctly. Do not remove the two fan trays at the same time, or the device will be powered off.

IMPORTANT:

Only the T5030-G IPS device supports the LSWM1BFANSC and LSWM1BFANSCB fan trays.

No fan trays are provided with the device. Prepare them yourself as required.

The installation procedure for the FAN-20B-2-A, FAN-20F-2-A, LSWM1BFANSC, and LSWM1BFANSCB fan trays is the same. The following procedure takes the FAN-20B-2-A fan tray as an example.

To install a fan tray:

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

2. Orient the fan tray with the "TOP" mark on the top. Grasp the fan tray handle with one hand, and support its bottom with the other hand. Slide the fan tray along the guide rails into the slot until it has a firm contact with the backplane.

Figure 10 Installing a fan tray

Installing an interface module

CAUTION:

· Do not hot swap interface modules.

· To avoid module damage, do not touch the surface-mounted components on an interface module directly with your hands.

· Install a filler panel over empty interface module slots to prevent dust and ensure good ventilation in the chassis.

No interface modules are provided with the device. Prepare them yourself as required.

To install an interface module:

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

2. Remove the screws on the filler panel with a Phillips screwdriver and remove the filler panel.

Keep the filler panel for future use.

3. Open the ejector levers on the module and slide the module steadily into the slot along the guide rails.

4. Close the ejector levers until the interface module is securely seated in the slot.

5. Fasten the captive screws on the module with a Phillips screwdriver.

Figure 11 Installing an interface module

Installing a drive

CAUTION:

· Do not hot swap drives.

· The device does not come with any drives and cannot recognize drives from other vendors. Purchase drives from H3C as needed.

· To avoid ESD damage, wear an ESD wrist strap when installing or removing a drive.

· Hold a drive by its sides. Do not touch drive components and do not squeeze, shake, or strike the drive.

· Install a filler panel in the empty drive slots to avoid damage caused by build-up dust.

· Before using a drive, execute the fdisk and format commands from the CLI to partition and format the drive.

To install a drive:

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

2. Remove the filler panel from the drive slot.

3. Press the red button on the drive panel to release the locking lever.

4. Hold the locking lever, slide the drive into the slot along the guide rails, and then close the locking lever.

Figure 12 Installing a drive

Connecting Ethernet cables

Connecting a copper Ethernet port

You can use either a straight-through or a cross-over network cable to connect a copper Ethernet port. For more information about Ethernet twisted pair cables, see Ethernet twisted pair cable in "Appendix C Cables."

To connect a copper Ethernet port:

1. Connect one end of the Ethernet cable to a copper Ethernet port on the device, and the other end to an Ethernet port on the peer device.

2. Examine whether the LEDs of the Ethernet port are normal. For more information about LEDs, see "Appendix B LEDs."

NOTE:

After connecting the device to the network, you can use the ping or tracert command to verify network connectivity. For more information about the commands, see the command reference for the device.

Connecting a fiber port

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 device is operating.

CAUTION:

· Never bend or curve a fiber excessively. The bend radius of a fiber must be not less than 100 mm (3.94 in).

· Keep the fiber end clean.

· Make sure the fiber connector matches the transceiver module.

· Before connecting a fiber, make sure the optical receive power does not exceed the transceiver module's upper threshold. If the threshold is exceeded, the transceiver module might be damaged.

· Before installing a transceiver module in a fiber port, remove the optical fibers, if any, from the transceiver module.

· To connect a fiber port by using an optical fiber, first install a transceiver module in the port and then connect the optical fiber to the transceiver module.

· Insert a dust cap into any open optical fiber connector and a dust plug into any open fiber port or transceiver module port to protect them from contamination and ESD damage.

· Make sure the Tx and Rx ports on a transceiver module are connected to the Rx and Tx ports on the peer end, respectively.

The device supports GE SFP transceiver modules, 10GE SFP+ transceiver modules, and 40GE QSFP+ transceiver modules. For the transceiver module specifications, see port specifications in "Appendix A Chassis views and technical specifications."

No transceiver modules are provided with the device. As a best practice, use H3C transceiver modules for the device.

Figure 13 GE SFP transceiver module

Figure 14 10GE SFP+ transceiver module

Figure 15 40GE QSFP+ transceiver module

To connect a fiber port:

1. Remove the dust plug from the fiber port.

2. Pull the bail latch on the transceiver module upwards to catch the knob on the top of the transceiver module. Take the transceiver module by its two sides and push the end without the bail latch gently into the port until it snaps into place.

3. Remove the dust cap from the optical fiber connector, and use dust free paper and absolute alcohol to clean the end face of the fiber connector.

4. Identify the Rx and Tx ports on the transceiver module. Use the optical fiber to connect the Rx port and Tx port on the transceiver module to the Tx port and Rx port on the peer end, respectively.

Figure 16 Installing and connecting an optical fiber

Connecting power cords

CAUTION:

Make sure the grounding cable of the device is correctly connected and the power source is powered off before connecting the power cord.

Connecting an AC power cord

1. Connect one end of the AC power cord to the AC-input power receptacle on the power supply.

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

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

Figure 17 Connecting an AC power cord

Connecting a DC power cord

Connecting a DC power cord for the T5030/T5060/T5080/T5000-S/T5000-C IPS device

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

2. Use a releasable cable tie to secure the DC power cord to the power supply handle.

3. Connect the other end of the power cord to a DC power source.

Figure 18 Connecting a DC power cord

Connecting a DC power cord for the T5030-G IPS device

1. Correctly orient the DC power cord connector, and insert the connector into the DC power input receptacle on the power supply.

2. Use the releasable cable tie provided with the power supply to secure the DC power cord to the power supply handle.

3. Connect the other end of the DC power cord to a DC power source.

Figure 19 Connecting the DC power cord

Verifying the installation

Verify the following items to ensure correct installation:

· There is enough space around the device for heat dissipation.

· The device and its components are installed securely. The screws are fastened tightly.

· The power source specifications are as required by the device.

· The grounding cable, console cable, power cords, and interface cables are connected correctly.

Accessing the device for the first time

Setting up the configuration environment

To set up the configuration environment, see "Logging in from the console port" and "Logging in from the Web interface," respectively. To access the device for the first time, you can log in to the device from the console port or Web interface. To access the device through Telnet, first configure Telnet settings from the console port.

Powering on the device

Checking before power-on

WARNING!

Locate the emergency power-off switch in the room before power-on so you can quickly shut power off when an electrical accident occurs.

Before powering on the device, verify the following information:

· The power cord and grounding cable are correctly connected.

· The correct power source is used.

· The console cable is correctly connected, the terminal or PC used for configuration has started, and the configuration parameters have been correctly set.

· The interface modules (if any) are correctly installed.

Powering on the device

Switch on the power source of the device.

Checking after power-on

After powering on the device, verify that:

· The LEDs on the front panel indicate that the device is operating correctly. For more information about LEDs, see "Appendix B LEDs."

· The fan blades are rotating and air is exhausted from the air outlet vents.

· The configuration terminal displays the following:

System is starting...

Press Ctrl+D to access BASIC-BOOTWARE MENU...

Press Ctrl+T to start heavy memory test..

Booting Normal Extended BootWare

The Extended BootWare is self-decompressing....Done.

****************************************************************************

* *

* H3C SecPath BootWare, Version 1.05 *

* *

****************************************************************************

Compiled Date : Aug 31 2017

Memory Type : DDR3 SDRAM

Memory Size : 16384MB

Flash Size : 8MB

sda0 Size : 3728MB

CPLD Version : 1.0

PCB Version : Ver.B

BootWare Validating...

Press Ctrl+B to access EXTENDED-BOOTWARE MENU...

Loading the main image files...

Loading file sda0:/MAIN-CMW710-SYSTEM-XXXX.bin.........................

Done.

Loading file sda0:/MAIN-CMW710-BOOT-XXXX.bin...........Done.

Image file sda0:/MAIN-CMW710-BOOT-XXXX.bin is self-decompressing.....

Done.

System image is starting...

Cryptographic algorithms tests passed.

Line con0 is available.

Press ENTER to get started.

…

Press ENTER to access user view of the device.

NOTE:

To access the EXTENDED-BOOTWARE menu, press Ctrl + B immediately when the "Press Ctrl+B to access EXTENDED-BOOTWARE MENU" message displays. If you do not press Ctrl+B at the prompt, the system starts to read and decompress program files. To enter the EXTENDED-BOOT menu afterwards, you need to reboot the device.

Logging in to the device

To access the device for the first time, you can log in to the device from the console port or Web interface. To access the device through Telnet, first configure Telnet settings from the console port.

For more information about accessing the device, see the configuration guides and command references for the device.

Logging in from the console port

You can use the console port to access the device for the first time. The default console port login information is as follows:

· Authentication method—scheme

· Username—admin

· Password—admin

To access the device from the console port:

1. Use a console cable to connect the console port on the device to a configuration terminal, for example, a PC.

2. Run a terminal emulator program, TeraTermPro or PuTTY, on your configuration terminal.

For more information about the terminal emulator programs, see the user guides for these programs.

3. Configure the terminal settings as follows:

¡ Bits per second—9600.

¡ Data bits—8.

¡ Stop bits—1.

¡ Parity—None.

¡ Flow control—None.

Logging in from the Web interface

IMPORTANT:

After accessing the Web interface with the default account, modify the password of the default account or create a new administrator account and delete the default account as a best practice.

At the first login from the Web interface, you can use the default account or use an account created from the CLI.

The default Web interface login information is as follows:

· Username—admin

· Password—admin

· IP address of GigabitEthernet 1/0/0—192.168.0.1/24

To log in to the device from the Web interface by using the default account:

1. Use an Ethernet cable to connect a PC to Ethernet management port GigabitEthernet 1/0/0 on the device.

2. Configure an IP address in subnet 192.168.0.0/24 for the PC. Make sure the PC and the device are reachable to reach other.

The PC must use a different IP address than GigabitEthernet 1/0/0.

3. Start a browser, enter 192.168.0.1 in the address bar, and press Enter.

4. Enter the default username admin and password admin and then click Login.

5. Modify the login information.

At the first login from the Web interface, change the password as required in the pop-up window, and then click OK.

Keep the new password secure.

Logging in through Telnet

1. Log in to the device through the console port, and enable the Telnet function in system view by using the telnet server enable command.

2. Enter VTY user line view, and configure the authentication mode, user role, and common properties.

By default, the authentication mode is scheme, the username is admin, and the password is admin.

3. Specify an IP address for the PC. Make sure the PC and the device are reachable to each other.

By default, the IP address of GigabitEthernet 1/0/0 on the device is 192.168.0.1/24.

4. Run the Telnet client on the PC and enter the login information.

Hardware replacement

CAUTION:

Wear an ESD wrist strap or ESD gloves for hardware maintenance. They are not provided with the device. Prepare them yourself.

Replacing a fan tray

WARNING!

· To avoid bodily injury, do not touch an operating fan tray.

· Follow electrical safety instructions when you hot swap a fan tray.

CAUTION:

To prevent an unbalanced fan from causing loud noise, do not touch the fan blades and rotating axis even if they are not rotating.

The fan trays are hot swappable.

To replace a fan tray:

1. Holding the fan tray handle with one hand and supporting the fan tray bottom with the other, pull the fan tray out of the slot along the guide rails.

2. Put the removed fan tray into an antistatic bag.

3. Install a new fan tray. For the installation procedure, see "Installing a fan tray."

Figure 20 Removing a fan tray

Replacing a power supply

WARNING!

Before removing a power supply, turn off the power source and remove the power cord.

To replace a power supply:

1. Turn off the power source and then remove the power cord from the power supply.

To remove a DC power cord, squeeze the upper and lower sides of the plug and then pull the plug out.

Figure 21 Removing a DC power cord

2. Holding the handle on the power supply with one hand, press the retaining latch on the power supply to the right with your thumb, and pull the power supply part way out of the slot.

3. Supporting the power supply bottom with the other hand, slowly pull the power supply out of the slot.

4. Put the removed power supply into an antistatic bag.

5. Install a new power supply. For the installation procedure, see "Installing a power supply."

Figure 22 Removing the DC power supply

Replacing an interface module

CAUTION:

· Do not hot swap interface modules. Power off the device before replacing an interface module.

· If you are not to install a new interface module after removing the old one, install a filler panel in the slot to prevent dust and ensure good ventilation.

The replacement procedure is the same for the interface modules. This following procedure replaces an NSQM1GP8A interface module.

To replace an interface module:

1. Power off the device.

2. Use a Phillips screwdriver to loosen the captive screws on the module.

3. Holding the two ejector levers of the module, pull the ejector levers outward, and pull the module part way out of the slot along the guide rails.

Supporting the bottom of the module with one hand, use the other hand to gently pull the module out of the slot.

Figure 23 Removing an interface module

4. Put the removed module on an antistatic workbench or into an antistatic bag with the circuit board facing upward.

5. Install a new interface module. For the installation procedure, see "Installing an interface module."

Replacing a drive

CAUTION:

· To avoid storage medium damage, execute the umount command from the CLI to unmount all partitions before removing a drive.

· Do not hot swap drives.

To replace a drive:

1. Log in to the Web interface. Click the Unmount button on the Storage settings page.

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

3. Press the button on the drive panel to release the locking lever.

4. Hold the locking lever and pull the drive out of the slot.

5. Install a new drive. For the installation procedure, see "Installing a drive."

Figure 24 Removing a drive

Replacing a transceiver module

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 device is operating.

CAUTION:

· Do not touch the golden plating on a transceiver module during the replacement process.

· Make sure the new transceiver module and the transceiver module at the other end of the optical fiber have the same specifications.

Figure 25 Golden plating

To replace a transceiver module:

1. Use the shutdown command in interface view at the CLI to shut down the port.

2. Remove the LC connectors of the optical fiber from the transceiver module.

Install dust caps for the LC connectors to prevent contamination and ESD damage.

3. Pivot the clasp of the transceiver module down to the horizontal position, and then gently pull the transceiver module out.

Figure 26 Removing a transceiver module

4. Install dust caps for the removed transceiver module, and then put it into the package.

5. Install a new transceiver module. For the installation procedure, see "Connecting a fiber port."

Hardware management and maintenance

NOTE:

The output depends on your device model and software version. For more information about the commands used in this chapter, see the corresponding configuration guides and command references.

Displaying detailed information about the device

Use the display device verbose command to display detailed information, including the running status and hardware version, about the device and its interface modules.

<Sysname> display device verbose

Slot 1 SubSlot 0 info:

Status : Normal

Type : RPU

PCB 1 Ver : VER.B

Software Ver : XXXX

CPU Ver : 1.0

CPLD_A : 1.0

CPLD_B : 1.0

CFCard Num : 0

Displaying software and hardware version information for the device

Use the display version command to display software and hardware version information for the device.

<Sysname> display version

H3C Comware Software, Version 7.1.064, Test XXXX

H3C SecPath T5000-S uptime is 0 weeks, 2 days, 21 hours, 1 minute

Last reboot reason: User reboot

Boot image: sda0:/MAIN-CMW710-BOOT-XXXX.bin

Boot image version: 7.1.064, Test XXXX

Compiled Dec 21 2017 16:00:00

System image: sda0:/MAIN-CMW710-SYSTEM-XXXX.bin

System image version: 7.1.064, Test XXXX

Compiled Dec 21 2017 16:00:00

SLOT 1

CPU type: xxx

DDR3 SDRAM Memory: xxxM bytes

SD0: xxxM bytes

NSQ1MPBHA PCB Version: Ver.B

NSQ1MPBBHB PCB Version: Ver.A

NSQ1MPHDBHA PCB Version: Ver.A

NSQ1MPGC4BHA PCB Version: Ver.A

NSQ1MPLEDBHA PCB Version: Ver.A

CPLD_A Version: 1.0

CPLD_B Version: 1.0

Release Version: SecPath T5000-S-XXXX

Basic BootWare Version: 1.05

Extend BootWare Version: 1.05

[SUBCARD 0] NSQ1MPBHA(Hardware)Ver.B, (Driver)1.0, (Cpld)1.0

Displaying electrical label information for the device

Use the display device manuinfo command to display the electrical label information for the device.

<Sysname> display device manuinfo

Slot 1 CPU 0:

DEVICE_NAME : Secpath T5000-S

DEVICE_SERIAL_NUMBER : 210235A3KXH17A000022

MAC_ADDRESS : 74EA-C8C5-8EEB

MANUFACTURING_DATE : 2017-11-08

VENDOR_NAME : H3C

…

Table 10 Output description

Field	Description
DEVICE_NAME	Device name
DEVICE_SERIAL_NUMBER	Device serial number
MAC_ADDRESS	MAC address of the device
MANUFACTURING_DATE	Manufacturing date of the device
VENDOR_NAME	Vendor name

Displaying the CPU usage of the device

Use the display cpu-usage command to display the CPU usage of the device.

<Sysname> display cpu-usage

Slot 1 CPU 0 CPU usage:

0% in last 5 seconds

0% in last 1 minute

0% in last 5 minutes

Table 11 Output description

Field	Description
Slot 1 CPU 0 CPU usage	CPU 0 usage information for the interface module in slot 1.
0% in last 5 seconds	Average CPU usage in the last 5 seconds. (After the device boots, the device calculates and records the average CPU usage at intervals of 5 seconds.)
0% in last 1 minute	Average CPU usage in the last minute. (After the device boots, the device calculates and records the average CPU usage at intervals of 1 minute.)
0% in last 5 minutes	Average CPU usage in the last 5 minutes. (After the device boots, the device calculates and records the average CPU usage at intervals of 5 minutes.)

Displaying the memory usage of the device

Use the display memory command to display the memory information of the device.

<Sysname> display memory

Memory statistics are measured in KB:

Slot 1:

Total Used Free Shared Buffers Cached FreeRatio

Mem: 16413016 5065956 11347060 0 2380 166656 69.2%

-/+ Buffers/Cache: 4896920 11516096

Swap: 0 0 0

Table 12 Output description

Field	Description
Slot	Slot number of the interface module.
Mem	Memory usage information.
Total	Total size of the physical memory space that can be allocated. The memory space is virtually divided into two parts. Part 1 is used for kernel codes, kernel management, and ISSU functions. Part 2 can be allocated and used for such tasks as running service modules and storing files. The size of part 2 equals the total size minus the size of part 1.
Used	Used physical memory.
Free	Free physical memory.
Shared	Physical memory shared by processes.
Buffers	Physical memory used for buffers.
Cached	Physical memory used for caches.
FreeRatio	Free memory ratio.
-/+ Buffers/Cache	-/+ Buffers/Cache:used = Mem:Used – Mem:Buffers – Mem:Cached, which indicates the physical memory used by applications. -/+ Buffers/Cache:free = Mem:Free + Mem:Buffers + Mem:Cached, which indicates the physical memory available for applications.
Swap	Swap memory.

Displaying the operational status of power supplies

Use the display power command to display the operational status of power supplies.

<Sysname> display power

Slot 1 Power 0 Status: Normal

Slot 1 Power 1 Status: Absent

Table 13 Output description

Field

Description

Power

Number of the power supply.

Status

Power supply state:

· Normal—The power supply is operating correctly.

· Absent—The power supply is not present.

· Abnormal—The power supply has failed.

Displaying temperature information for the device

Use the display environment command to display the temperature information for the device.

<Sysname> display environment

System Temperature information (degree centigrade):

--------------------------------------------------------------------------------

---------

Slot Sensor Temperature LowerLimit Warning-UpperLimit Alarm-UpperLimit Shutdown-UpperLimit

1 inflow 1 36 0 60 70

1 inflow 2 34 0 60 70

1 outflow 1 42 0 60 70

1 hotspot 1 62 0 80 92

Table 14 Output description

Field	Description
Slot	Slot number of the interface module.
Sensor	Temperature sensor: · inflow—Air inlet vent temperature sensor. · outflow—Air outlet vent temperature sensor.
Temperature	Current temperature.
LowerLimit	Low temperature alarm threshold.
Warning-UpperLimit	High temperature warning threshold.
Alarm-UpperLimit	High temperature alarm threshold.
Shutdown-UpperLimit	High temperature shutdown threshold. The device automatically powers off when the temperature exceeds this threshold.

Displaying the operational status of fan trays

Use the display fan command to display the operational status of fan trays.

<Sysname>display fan

SLOT 1 Fan 0-0 Status: Normal Speed:7692

SLOT 1 Fan 0-1 Status: Normal Speed:7894

SLOT 1 Fan 1-0 Status: Normal Speed:7894

SLOT 1 Fan 1-1 Status: Normal Speed:7692

Table 15 Output description

Field	Description
SLOT 1	Member ID of the device.
Fan 0 to Fan 5	Number of the fan tray.
Status	Fan tray status: · Absent—No fan tray is present. · Normal—The fan tray is operating correctly. · Faulty—The fan tray is faulty. · NoSupport—The fan tray is not supported. · FanDirectionFault—The fan tray airflow direction is inconsistent with the expected fan tray direction.
Speed	Fan tray speed. The fan tray adjusts its speed automatically to adapt to the device temperature. The inflow and outflow temperature sensors monitor the device temperature. To view device temperature information, execute the display environment command.

Displaying the operational statistics about the device

When you perform routine maintenance or the system fails, you might need to view the operational information of each functional module for locating failures. Typically you need to run display commands one by one. To collect more information one time, you can execute the display diagnostic-information command in any view to display or save the operational statistics of multiple functional modules of the device.

· Save the operational statistics of each functional module of the device:

<Sysname> display diagnostic-information

Save or display diagnostic information (Y=save, N=display)? [Y/N]:y

Please input the file name(*.tar.gz)[sda0:/diag.tar.gz]:

Diagnostic information is outputting to sda0:/diag.tar.gz.

Please wait...

Save successfully.

To view the diag.gz file:

a. Execute the tar extract archive-file diag.tar.gz command in user view to decompress the file.

b. Execute the gunzip diag.gz command.

c. Execute the more diag command.

d. Press Page Up and Page Down.

· Display the operational statistics for each functional module of the device:

<Sysname> display diagnostic-information

Save or display diagnostic information (Y=save, N=display)? [Y/N]:n

===============================================

===============display clock===============

11:03:38 UTC Sat 01/13/2018

=================================================

…

Displaying transceiver module information

Identifying transceiver modules

To identify transceiver modules, you can use the following command to view the key parameters of the transceiver modules. The key parameters include transceiver module type, connector type, central wavelength of the laser, transmission distance, and vendor name.

To display transceiver module information, execute the display transceiver interface [ interface-type interface-number ] command.

Troubleshooting transceiver modules

The system outputs alarm information for you to locate and troubleshoot faults of transceiver modules.

To display the alarm information about transceiver modules, execute the display transceiver alarm interface [ interface-type interface-number ] command.

Rebooting the device

CAUTION:

· If the main system software image file does not exist, do not use the reboot command to reboot the device. Specify the main system software image file first, and then reboot the device.

· The precision of the rebooting timer is 1 minute. 1 minute before the rebooting time, the device prompts "REBOOT IN ONE MINUTE" and reboots in one minute.

· If you are performing file operations when the device is to be rebooted, the system does not execute the reboot command for security.

To reboot the device, use one of the following methods:

· Use the reboot command to reboot the device immediately.

· Schedule a reboot to occur at a specific time or date or after a delay by using the schedule reboot command.

· Power cycle the device. This method cuts off the power of the device forcibly, which might cause data loss or hardware damage. It is the least-preferred method.

To reboot the device immediately:

Task	Command	Remarks
Reboot the device immediately.	reboot	Available in user view.

To schedule a reboot:

Task

Command

Remarks

Schedule a reboot to occur at a specific time or date.

scheduler reboot at

Use either command.

By default, no reboot date or time or reboot delay time is specified.

Available in user view.

Schedule a reboot to occur after a delay.

scheduler reboot delay

Troubleshooting

Power supply failure

Symptom

The device cannot be powered on, and the power LED (PWR0/PWR1) on the front panel is off.

Solution

To resolve the issue:

1. Power off the device.

2. Verify that the power supply is as required by the device.

3. Verify that the power cords of the device are firmly connected.

4. Verify that the power cords are not damaged.

5. If the issue persists, contact H3C Support.

Configuration terminal display problem

Symptom

The configuration terminal displays nothing or garbled text when the device is powered on.

Solution

To resolve the issue:

1. Verify that the power supply system is operating correctly.

2. Verify that the console cable is correctly connected.

3. Verify that the console cable is connected to the serial port that is configured for the configuration terminal.

4. Verify that the configuration terminal parameters are configured as follows:

¡ Baud rate—9600.

¡ Data bits—8.

¡ Parity—None.

¡ Stop bits—1.

¡ Flow control—None.

¡ Terminal emulation—VT100.

5. Verify that the console cable is in good condition.

6. If the issue persists, contact H3C Support.

NOTE:

For information about serial port parameter setting, see "Logging in from the console port."

Password loss

For more information about dealing with the console port password loss, see the release notes for the device.

High operating temperature

Symptom

The temperature of the device is higher than the normal operating temperature (45°C or 113°F).

Solution

To resolve the issue:

1. Verify that the fan trays are operating correctly.

2. Verify that the operating environment of the device has good ventilation.

3. Use the display environment command to examine whether the temperature of the device keeps rising if a warning-level high temperature alarm message as follows is generated.

%Nov 28 20:02:59:085 2019 H3C DEV/4/TEMPERATURE_WARNING: -Context=1; Temperature is greater than the high-temperature warning threshold on slot 1 sensor outflow 1. Current temperature is 58 degrees centigrade.

If the temperature reaches the alarming-level high temperature alarm threshold, immediately back up data, power off the device, and then contact your local sales agent.

NOTE:

Information about the device temperature in the display environment command output varies by device model.

Software loading failure

Symptom

Software loading fails and the system runs the software of the previous version.

Solution

To resolve the issue:

1. Verify that the physical ports are correctly connected. If a port is not connected securely, reconnect the port and make sure the connections are correct.

2. Verify that no parameter is configured incorrectly. You can examine the software loading process displayed on the HyperTerminal for configuration errors. The following errors can lead to software loading failure.

¡ When XMODEM is used to load software, a baud rate other than 9600 bps is selected, but the baud rate for the HyperTerminal is not reset.

¡ When TFTP is used to load software, an incorrect IP address, software name, or TFTP serve path is configured.

¡ When FTP is used to load software, an incorrect IP address, software name, username, or password is entered.

3. If the issue persists, contact H3C Support.

Appendix A Chassis views and technical specifications

Chassis views

T5030/T5060/T5080/T5000-S/T5000-C

Front panel

On the front panel, the T5030/T5060/T5080/T5000-S/T5000-C IPS device provides eight interface module slots and two drive slots.

Figure 27 Front panel

(1) Interface module slots 1 through 8	(2) Drive slot HD0
(3) Drive slot HD1	(4) LEDs

Rear panel

On the rear panel, the T5030/T5060/T5080/T5000-S/T5000-C IPS device provides the following ports and slots:

· Four combo interfaces, including one management Ethernet port.

· Two USB ports.

· One console port.

· Two fan tray slots.

· Two power supply slots.

Figure 28 Rear panel

(1) 10/100/1000BASE-T Ethernet copper port (combo interface)
(2) 1000BASE-X Ethernet fiber port (combo interface)
(3) Console port (CONSOLE)	(4) USB port (host mode, type A)
(5) Fan tray slot FAN0	(6) Fan tray slot FAN1
(7) Power supply slot PWR0	(8) Grounding screw
(9) Power supply slot PWR1	(10) Management Ethernet port (MGMT)

Interface numbering

The T5030/T5060/T5080/T5000-S/T5000-C IPS device provides multiple types of ports including console ports, management Ethernet ports, 10/100/1000BASE-T Ethernet copper ports, 1000BASE-X Ethernet fiber ports, 10GBASE-R Ethernet fiber ports, and 40GBASE-R Ethernet fiber ports.

The ports are numbered in the interface-type X/Y/Z format.

· interface-type—Interface type.

· X—IRF member device ID.

· Y—Subslot number. The value is 0 for fixed ports on the device rear panel. The interface module slots are numbered from 1 to 8.

· Z—Number marked for the port on the device real panel or interface module, starting from 0.

Example:

· The fixed ports on the device rear panel are numbered from GigabitEthernet 1/0/0 to GigabitEthernet 1/0/3. The management Ethernet port is numbered GigabitEthernet 1/0/0.

· If an NSQM1TG8A interface module is installed in slot 3 of the device, the ports on the interface module are numbered from Ten-GigabitEthernet 1/3/0 to Ten-GigabitEthernet 1/3/7.

T5030-G

Front panel

On the front panel, the T5030-G IPS device provides the following ports and slots:

· Twelve 10/100/1000BASE-T autosensing Ethernet copper ports.

· Four 40GBASE-R Ethernet fiber ports.

· Sixteen 10GBASE-R Ethernet fiber ports.

· Two USB ports.

· One console port.

· One reset button (not supported in the current version).

· Four interface module slots.

· Two drive slots.

· One management Ethernet port.

Figure 29 Front panel

(1) Drive slot HD0	(2) Drive slot HD1
(3) Interface module slots (Slot 1 to Slot 4)	(4) 10GBASE-R Ethernet fiber ports
(5) 40GBASE-R Ethernet fiber ports	(6) 10/100/1000BASE-T Ethernet copper ports
(7) Console port	(8) Management Ethernet port (0/MGMT)
(9) USB port (host mode, type A)	(10) Reset button (not supported in the current version)
(11) LEDs

Rear panel

On the rear panel, the T5030-G IPS device provides four power supply slots, two fan tray slots, and two slots reserved for future use.

Figure 30 Rear panel

(1) Reserved slots for future use	(2) Fan tray slots
(3) Power supply slots

Interface numbering

The T5030-G IPS device provides multiple types of ports including console ports, management Ethernet ports, 10/100/1000BASE-T Ethernet copper ports, 1000BASE-X Ethernet fiber ports, 10GBASE-R Ethernet fiber ports, and 40GBASE-R Ethernet fiber ports.

The ports are numbered in the interface-type X/Y/Z format.

· interface-type—Interface type.

· X—IRF member device ID.

· Y—Subslot number. The value is 0 for fixed ports on the device front panel. The interface modules slots are numbered from 1 to 4.

· Z—Number marked for the port on the device front panel or interface module, starting from 0.

Example:

· The fixed ports on the device front panel are numbered from GigabitEthernet 1/0/0 to GigabitEthernet 1/0/31.

· If an NS-NIMT-GP4B interface module is installed in the slot 3 of the device, the ports on the interface module are numbered from Ten-GigabitEthernet 1/3/0 to Ten-GigabitEthernet 1/3/4.

Expansion slots

Table 16 Expansion slots on the device

Device model	Interface module slots	Drive slots
T5030/T5060/T5080	8	2
T5030-G	4	2
T5000-S/T5000-C	8	2

Interface modules

CAUTION:

· Do not hot swap interface modules.

· To install GE transceiver modules on 10GE fiber ports of an NSQM1TG8A or NSQM1G4XS4 interface module, install the interface module in slot 3

· By default, autonegotiation is disabled on GE fiber ports of an NSQM1G4XS4 interface module. If you have to switch the port transmission speed or duplex mode because the autonegotiation mode is inconsistent with that on the peer device, install the NSQM1G4XS4 interface module in slot 3.

Compatible slots for interface modules

Table 17 Compatible slots for interface modules

Interface module	T5030/T5060/T5080/T5000-S/T5000-C	T5030-G
NSQM1TG8A	Slots 1 through 3	Not supported
NSQM1QG2A	Slots 1 through 3	Not supported
NSQM1G4XS4	Slots 1 through 3	Not supported
NSQM1GT8A	Slots 4 through 8	Not supported
NSQM1GP8A	Slots 4 through 8	Not supported
NSQM1GT4PFCA	Slots 4 through 8	Not supported
NS-NIM-GP4B	Not supported	Slots 1 through 4
NS-NIM-QG1A	Not supported	Slots 1 through 4
NS-NIM-TG4B	Not supported	Slots 1 through 4

NSQM1TG8A

The NSQM1TG8A interface module provides eight 10GBASE-R Ethernet fiber ports.

Figure 31 NSQM1TG8A front view

(1) LED	(2)10GBASE-R Ethernet fiber ports
(3) Captive screw	(4) Ejector lever

NSQM1QG2A

The NSQM1QG2A interface module provides two 40GBASE-R Ethernet fiber ports.

Figure 32 NSQM1QG2A front view

(1) LED	(2) 40GBASE-R Ethernet fiber ports
(3) Captive screw	(4) Ejector lever

NSQM1G4XS4

The NSQM1G4XS4 interface module provides four 10GBASE-R Ethernet fiber ports (10G-SR/LR) and four 1000BASE-X Ethernet fiber ports.

Figure 33 NSQM1G4XS4 front view

(1) LED	(2) 1000BASE-X Ethernet fiber ports
(3) 10GBASE-R Ethernet fiber ports	(4) Captive screw
(5) Ejector lever

NSQM1GT8A

The NSQM1GT8A interface module provides eight 10/100/1000BASE-T Ethernet copper ports.

Figure 34 NSQM1GT8A front view

(1) LED	(2) 10/100/1000BASE-T Ethernet copper ports
(3) Captive screw	(4) Ejector lever

NSQM1GP8A

The NSQM1GP8A interface module provides eight 1000BASE-X Ethernet fiber ports.

Figure 35 NSQM1GP8A front view

(1) LED	(2) 1000BASE-X Ethernet fiber ports
(3) Captive screw	(4) Ejector lever

NSQM1GT4PFCA

The NSQM1GT4PFCA interface module provides four 10/100/1000BASE-T Ethernet copper ports that support the bypass feature.

Figure 36 NSQM1GT4PFCA front view

(1) LED	(2) 10/100/1000BASE-T Ethernet copper ports
(3) Captive screw	(4) Ejector lever

NS-NIM-GP4B

The NS-NIM-GP4B interface module provides four 1000BASE-X Ethernet fiber ports.

Figure 37 NS-NIM-GP4B front view

(1) Ready LED	(2) 1000BASE-X Ethernet fiber ports
(3) Captive screw	(4) Ejector lever

NS-NIM-QG1A

The NS-NIM-QG1A interface module provides one 40GBASE-R Ethernet fiber port.

Figure 38 NS-NIM-QG1A front view

(1) Ready LED	(2) 40GBASE-R Ethernet fiber port
(3) Captive screw	(4) Ejector lever

NS-NIM-TG4B

The NS-NIM-TG4B interface module provides four 10GBASE-R Ethernet fiber ports.

Figure 39 NS-NIM-TG4B front view

(1) Ready LED	(2) 10GBASE-R Ethernet fiber ports
(3) Captive screw	(4) Ejector lever

Power supplies

The T5030/T5060/T5080/T5000-S/T5000-C IPS device came with power supply slot PWR0 installed with a filler panel and power supply slot PWR1 empty. The T5030-G IPS device provides four power supply slots (PWR0, PWR1, PWR2, and PWR3) and came with filler panels in three power supply slots.

The device supports AC and DC power supplies and supports power supply redundancy. To use two power supplies on the device, make sure they are the same in specifications. When two power supplies are installed, you can hot swap one.

No power supplies are provided with the device. You must purchase power supplies for the device as required.

For the power supply specifications, see "Power supplies."

Table 18 Power supplies available for the device

Device model	Power supply quantity and type	Available power supplies models
T5030/T5060/T5080/T5000-S/T5000-C	2 removable power supplies	PSR650B-12A1, PSR650B-12D1
T5030-G	4 removable power supplies	PSR450-12A1, PSR450-12D

AC power supply

PSR450-12A1

The PSR450-12A1 AC power supply (product code PSR450-12A1) provides a rated output power of 450 W.

Figure 40 PSR450-12A1 power supply front view

(1) Latch	(2) LED
(3) Handle	(4) Power receptacle
(1) Latch	(2) LED
(3) Handle	(4) Power receptacle

PSR650B-12A1

The PSR650B-12A1 AC power supply (product code PSR650B-12A1-A) provides a rated output power of 650 W.

Figure 41 PSR650B-12A1 power supply front view

(1) Retaining latch	(2) Handle
(3) Power receptacle

DC power supply

PSR450-12D

The PSR450-12D DC power supply (product code PSR450-12D) provides a rated output power of 450 W.

Figure 42 PSR450-12D DC power supply front view

(1) Latch	(2) LED
(3) Handle	(4) Power receptacle

PSR650B-12D1

The PSR650B-12D1 DC power supply (product code PSR650B-12D1-A) provides a rated output power of 650 W.

Figure 43 PSR650B-12D1 DC power supply front view

(1) Retaining latch	(2) Handle
(3) Power receptacle

Fan trays

CAUTION:

For adequate heat dissipation, make sure two fan trays of the same model are installed on the device before powering on the device.

The device provides two fan tray slots: FAN0 and FAN1 and supports the FAN-20F-2-A, FAN-20B-2-A, LSWM1BFANSC, and LSWM1BFANSCB fan trays. The FAN-20F-2-A and LSWM1BFANSC fan trays provide power supply-side intake and port-side exhaust airflow. The FAN-20B-2-A and LSWM1BFANSCB fan trays provide port-side intake and power supply-side exhaust airflow.

No fan trays are provided with the device. Prepare them yourself as required. For the specifications of the fan trays available for the device, see "Fan trays."

FAN-20F-2-A/LSWM1BFANSC fan tray

Figure 44 FAN-20F-2-A/LSWM1BFANSC fan tray

(1) Handle	(2) Alarm LED

FAN-20B-2-A/LSWM1BFANSCB fan tray

Figure 45 FAN-20B-2-A/LSWM1BFANSCB fan tray

(1) Handle	(2) Alarm LED

Technical specifications

Dimensions and weights

The total weight of the device includes the chassis and the removable components.

Table 19 Dimensions and weights

Model	Dimensions (H × W × D)	Weight
T5030/T5060/T5080/T5000-S/T5000-C chassis	88.1 × 440 × 660 mm (3.47 × 17.32 × 25.98 in) (excluding rubber feet and mounting brackets)	20.1 kg (44.31 lb)
T5030-G chassis	88.1 × 440 × 660 mm (3.47 × 17.32 × 25.98 in) (excluding rubber feet and mounting brackets)	15 kg (33.07 lb)
NSQM1TG8A interface module	19.8 × 189 × 212.4 mm (0.78 × 7.44 × 8.36 in)	0.55 kg (1.21 lb)
NSQM1QG2A interface module	19.8 × 189 × 212.4 mm (0.78 × 7.44 × 8.36 in)	0.55 kg (1.21 lb)
NSQM1G4XS4 interface module	19.8 × 189 × 212.4 mm (0.78 × 7.44 × 8.36 in)	0.54 kg (1.19 lb)
NSQM1GT8A interface module	19.8 × 189 × 212.4 mm (0.78 × 7.44 × 8.36 in)	0.55 kg (1.21 lb)
NSQM1GP8A interface module	19.8 × 189 × 212.4 mm (0.78 × 7.44 × 8.36 in)	0.55 kg (1.21 lb)
NSQM1GT4PFCA interface module	19.8 × 189 × 212.4 mm (0.78 × 7.44 × 8.36 in)	0.6 kg (1.32 lb)
NS-NIM-GP4B interface module	19.8 × 189 × 212.4 mm (0.78 × 7.44 × 8.36 in)	0.6 kg (1.32 lb)
NS-NIM-Q1GA interface module	19.8 × 189 × 212.4 mm (0.78 × 7.44 × 8.36 in)	0.5 kg (1.10 lb)
NS-NIM-TG4B interface module	19.8 × 189 × 212.4 mm (0.78 × 7.44 × 8.36 in)	0.6 kg (1.32 lb)

Storage

Table 20 Storage specifications

Device model	Memory
T5030/T5000-C	16 GB DDR3
T5030-G	32 GB DDR4
T5060/T5000-S	32 GB DDR3
T5080	64 GB DDR3

Power consumption

The total power consumption of the device includes the chassis and the removable components.

Table 21 Power consumption

Item	Specification
T5030/T5060/T5080/T5000-C chassis	191 W
T5030-G chassis	369 W
T5000-S chassis	199 W
NSQM1TG8A interface module	12.96 W
NSQM1QG2A interface module	6.40 W
NSQM1G4XS4 interface module	6.46 W
NSQM1GT8A interface module	3.03 W
NSQM1GP8A interface module	8.15 W
NSQM1GT4PFCA interface module	5.78 W
NS-NIM-GP4B interface module	7.6 W
NS-NIM-Q1GA interface module	6.1 W
NS-NIM-TG4B interface module	7.6 W

Power supplies

Table 22 PSR450-12A1 AC power supply specifications

Item	Specification
Rated input voltage range	100 VAC to 240 VAC @ 50 Hz or 60 Hz
Maximum input current	7 A
Maximum power	450 W

Table 23 PSR650B-12A1 AC power supply specifications

Item	Specification
Rated input voltage range	100 VAC to 240 VAC @ 50 Hz or 60 Hz
Maximum input current	5 A to 10 A
Maximum power	650 W

Table 24 PSR450-12D DC power supply specifications

Item	Specification
Rated input voltage range	–48 VDC to –60 VDC
Maximum input current	15 A
Maximum power	450 W

Table 25 PSR650B-12D1 DC power supply specifications

Item	Specification
Rated input voltage range	–40 VDC to –60 VDC
Maximum input current	12 A to 22 A
Maximum power	650 W

Fan trays

Table 26 Fan tray specifications

Item	Specification
Dimensions (H × W × D, excluding the handle)	84.5 × 87 × 209 mm (3.33 × 3.43 × 8.23 in)
Airflow direction	FAN-20F-2-A/LSWM1BFANSC: From the power supply side to the port side
Airflow direction	FAN-20B-2-A/LSWM1BFANSCB: From the port side to the power supply side
Hot swapping	Supported
Max airflow	120 CFM (3.40 m3/min)
Max power consumption	57 W
Operating voltage	12 VDC

Drives

Table 27 NS-SSD-480G-SATA-SFF drive specifications

Item	Specification
Dimensions (H × W × D)	19 × 75.7 × 118.4 mm (0.75 × 2.98 × 4.66 in)
Weight	0.07 kg (0.15 lb)
Hot swapping	Not supported
Capacity	480 GB
Operating temperature	0°C to 45°C (32°F to 113°F)
Power consumption	3 W

Port specifications

Console port

Table 28 Console port specifications

Item	Specification
Connector	RJ-45
Standard compliant	RS-232
Baud rate	9600 bps (default) to 115200 bps
Cable type	Common asynchronous serial port cable
Transmission distance	≤ 15 m (49.21 ft)
Services	· Connection to an ASCII terminal · Connection to the serial port of a local PC to run the terminal emulation program · CLI

10/100/1000BASE-T Ethernet copper port

Table 29 10/100/1000BASE-T Ethernet copper port specifications

Item	Specification
Connector	RJ-45
Standard compliance	802.3, 802.3u, and 802.3ab
Interface type	MDI/MDI-X autosensing
Cable type	Category 5 or higher twisted pair cable
Transmission distance	100 m (328.08 ft)
Interface speed and duplex mode	10 Mbps, half/full-duplex 100 Mbps, half/full-duplex 1000 Mbps, full-duplex

NOTE:

The media dependent interface (MDI) standard is typically used on Ethernet ports of network adapters. The media dependent interface crossover (MDI-X) standard is typically used on hubs or LAN switches.

GE copper transceiver module

Table 30 GE copper transceiver module specifications

Item	Specification
Connector	RJ-45
Transceiver module type	See Table 31.
Cable type	Category 5 or higher twisted pair cable
Transmission distance	100 m (328.08 ft)
Duplex mode	Full duplex mode

Table 31 GE SFP transceiver module specifications

Transceiver module model	Transmission distance	Transmission rate	Connector type
SFP-GE-T	100 m (328.08 ft)	1250 Mbps	RJ-45
SFP-GE-T-D	100 m (328.08 ft)	1250 Mbps	RJ-45

1000BASE-X Ethernet fiber port

Table 32 1000BASE-X fiber port specifications

Item	Specification
Connector type	LC
Transceiver module type	See Table 33 and Table 34.
Interface speed	1000 Mbps
Duplex mode	Full duplex

Table 33 and Table 34 describe the specifications for the SFP transceiver modules available for the 1000BASE-X Ethernet fiber ports.

Table 33 1000BASE-X Ethernet SFP transceiver module specifications (1)

Transceiver module	Central wavelength (nm)	Fiber mode	Fiber diameter (µm)	Modal bandwidth (MHz*km)
SFP-GE-SX-MM850-A	850	MMF	50/125	500
			50/125	400
			62.5/125	200
				160
				160
SFP-GE-LX-SM1310-A	1310	SMF	9/125	N/A
		MMF	50/125	500/400
		MMF	62.5/125	500
SFP-GE-LH40-SM1310	1310	SMF	9/125	N/A
SFP-GE-LH40-SM1550	1550	SMF	9/125	N/A
SFP-GE-LH80-SM1550	1550	SMF	9/125	N/A
SFP-GE-LH100-SM1550	1550	SMF	9/125	N/A
SFP-GE-LX-SM1310-D	1310	SMF	9/125	N/A
SFP-GE-SX-MM850-D	850	MMF	50/125	500
			50/125	400
			62.5/125	200
			62.5/125	160

Table 34 1000BASE-X Ethernet SFP transceiver module specifications (2)

Transceiver module	Transmission distance	Transmitted optical power (dBm)	Received optical power (dBm)
SFP-GE-SX-MM850-A	550 m (1804.46 ft)	–9.5 to 0	–17 to –3
	500 m (1640.42 ft)
	275 m (902.23 ft)
	220 m (721.78 ft)
	220 m (721.78 ft)
SFP-GE-LX-SM1310-A	10 km (6.21 miles)	–9.5 to –3	–20 to –3
	550 m (1804.46 ft)
	550 m (1804.46 ft)
SFP-GE-LH40-SM1310	40 km (24.86 miles)	–5 to +5	–22 to –3
SFP-GE-LH40-SM1550	40 km (24.86 miles)	–4 to +1	–21 to –3
SFP-GE-LH80-SM1550	80 km (49.71 miles)	–4 to +5	–22 to –3
SFP-GE-LH100-SM1550	100 km (62.14 miles)	0 to +5	–30 to –9
SFP-GE-LX-SM1310-D	10 km (6.21 miles)	–9.5 to –3	–20 to –3
SFP-GE-SX-MM850-D	550 m (1804.46 ft)	–9.5 to 0	–17 to –3
	500 m (1640.42 ft)
	275 m (902.23 ft)
	220 m (721.78 ft)

10GBASE-R Ethernet fiber port

Table 35 10GBASE-R Ethernet fiber port specifications

Item	Specification
Connector type	LC
Transceiver module type	See Table 36 and Table 37.
Interface speed	LAN PHY: 10 Gbps

Table 36 and Table 37 describe the specifications for the SFP+ transceiver modules available for the 10GBASE-R Ethernet fiber ports.

Table 36 SFP+ transceiver module specifications (1)

Transceiver module	Central wavelength (nm)	Fiber mode	Fiber diameter (µm)	Modal bandwidth (MHz*km)
SFP-XG-SX-MM850-A	850	MMF	50/125	2000
				500
				400
			62.5/125	200
				160
				160
SFP-XG-LX220-MM1310	1310	MMF	50/125	1500
				500
				400
			62.5/125	200
			62.5/125	160
SFP-XG-LX-SM1310	1310	SMF	9/125	N/A
SFP-XG-LH40-SM1550	1550	SMF	9/125	N/A
SFP-XG-SX-MM850-D	850	MMF	50/125	2000
				500
				400
			62.5/125	200
			62.5/125	160

Table 37 SFP+ transceiver module specifications (2)

Transceiver module	Transmission distance	Transmission speed	Transmitted optical power (dBm)	Received optical power (dBm)
SFP-XG-SX-MM850-A	300 m (984.25 ft)	10.31 Gbps	–7.3 to –1	–9.9 to +0.5
	82 m (269.03 ft)
	66 m (216.54 ft)
	33 m (108.27 ft)
	26 m (85.30 ft)
	8 m (26.25 ft)
SFP-XG-LX220-MM1310	220 m (721.78 ft)	10.31 Gbps	–6.5 to +0.5	–6.5 to +1.5
	220 m (721.78 ft)
	100 m (328.08 ft)
	220 m (721.78 ft)
	220 m (721.78 ft)
SFP-XG-LX-SM1310	10 km (6.21 miles)	10.31 Gbps	–8.2 to +0.5	–14.4 to +0.5
SFP-XG-LH40-SM1550	40 km (24.86 miles)	10.31 Gbps	–4.7 to +4	–15.8 to –1
SFP-XG-SX-MM850-D	300 m (984.25 ft)	10.31 Gbps	–7.3 to –1	–9.9 to +0.5
	82 m (269.03 ft)
	66 m (216.54 ft)
	33 m (108.27 ft)
	26 m (85.30 ft)

40GBASE-R Ethernet fiber port

QSFP+ transceiver modules (MPO port)

The QSFP+ transceiver module (MPO port) provides a transmission rate of 40 Gbps and uses an MPO connector.

Table 38 40GBASE-R Ethernet fiber port specifications

Item	Specification
Connector type	MPO
Transceiver module type	See Table 39 and Table 40.
Interface speed	LAN PHY: 40 Gbps

Table 39 QSFP+ transceiver module (MPO port) specifications (1)

Transceiver module	Central wavelength (nm)	Fiber mode	Fiber diameter (µm)	Mode bandwidth (MHz*km)
QSFP-40G-SR4-MM850	850	MMF	50/125	2000
QSFP-40G-SR4-MM850	850	MMF	50/125	4700
QSFP-40G-CSR4-MM850	850	MMF	50/125	2000
QSFP-40G-CSR4-MM850	850	MMF	50/125	4700

Table 40 QSFP+ transceiver module (MPO port) specifications (2)

Transceiver module	Transmission distance	Transmission speed	Transmitted optical power (dBm)	Received optical power (dBm)
QSFP-40G-SR4-MM850	100 m (328.08 ft)	40 Gbps	–7.6 to 0	–9.5 to +2.4
QSFP-40G-SR4-MM850	150 m (492.13 ft)	40 Gbps	–7.6 to 0	–9.5 to +2.4
QSFP-40G-CSR4-MM850	300 m (984.25 ft)	40 Gbps	–7.6 to 0	–9.9 to +2.4
QSFP-40G-CSR4-MM850	400 m (1312.34 ft)	40 Gbps	–7.6 to 0	–9.9 to +2.4

QSFP+ transceiver modules (LC port)

The QSFP+ transceiver module (LC port) provides a transmission rate of 40 Gbps and uses an LC connector.

Table 41 40GE port specifications

Item	Specification
Connector type	LC
Transceiver module type	See Table 42.
Standard compliance	40GBASE-R
Interface speed	LAN PHY: 40 Gbps

Table 42 QSFP+ transceiver module (LC port) specifications

Transceiver module	Central wavelength (nm)	Fiber mode	Fiber diameter (µm)	Mode bandwidth (MHz*km)	Transmission distance	Power (dBm)
Transceiver module	Central wavelength (nm)	Fiber mode	Fiber diameter (µm)	Mode bandwidth (MHz*km)	Transmission distance	Tx power	Rx power
QSFP-40G-BIDI-SR-MM850	Two lanes: · 850 · 900	MMF	50/125	2000	100 m (328.08 ft)	–4 to +5	–6 to +5
QSFP-40G-BIDI-SR-MM850	Two lanes: · 850 · 900	MMF	50/125	4700	150 m (492.13 ft)	–4 to +5	–6 to +5
QSFP-40G-LR4L-WDM1300	Four lanes: · 1271 · 1291 · 1311 · 1331	SMF	9/125	N/A	2 km (1.24 miles)	–10 to +2.3	–11.5 to +2.3
QSFP-40G-ER4-WDM1300	Four lanes: · 1271 · 1291 · 1311 · 1331	SMF	9/125	N/A	40 km (24.86 miles)	–2.7 to +4.5	–21.2 to –4.5
QSFP-40G-LR4-WDM1300	Four lanes: · 1271 · 1291 · 1311 · 1331	SMF	9/125	N/A	10 km (6.21 miles)	–7 to +2.3	–13.7 to +2.3
QSFP-40G-BIDI-WDM850	Four lanes: · 850 · 880 · 910 · 940	MMF	50/125	2000	240 m (787.40 ft)	–7.6 to +3	–9 to +3

Appendix B LEDs

T5030/T5060/T5080/T5000-S/T5000-C

This section uses the LEDs on the T5030 IPS device as an example.

Figure 46 LEDs on the front panel

(1) Drive status LED	(2) Fan tray status LED
(3) Power supply status LEDs	(4) System status LED

Figure 47 LEDs on the rear panel

(5) 10/100/1000BASE-T Ethernet copper port LED (combo interface)	(6) 1000BASE-X Ethernet fiber port LED (combo interface)

Table 43 LED descriptions

LED	Mark	Status	Description
Drive status LEDs	HD0 HD1	Flashing green	Data is being written in or read from the drive.
		Steady green	The drive has finished the initialization and is operating correctly.
		Off	The drive is not present or has failed.
Fan tray status LEDs	FAN0 FAN1	Steady green	The fan tray is operating correctly.
Fan tray status LEDs	FAN0 FAN1	Off	The fan tray has failed.
Power supply LEDs	PWR0 PWR1	Steady green	The power supply is operating correctly.
Power supply LEDs	PWR0 PWR1	Off	The power supply is not present or has failed.
System status LED	SYS	Slow flashing green (1 Hz)	The device is operating correctly.
		Fast flashing green (8 Hz)	The system is starting or loading software.
		Off	The device is not powered on or has failed.
Ethernet copper port LED (combo interface)	10/100/1000BASE-T	Flashing green	The port is receiving or sending data.
		Steady green	A link is present.
		Off	No link is present.
Ethernet fiber port LED (combo interface)	1000BASE-X	Flashing green	The port is receiving or sending data at 1000 Mbps.
		Steady green	A 1000 Mbps link is present.
		Off	No link is present.

T5030-G

Figure 48 LEDs on the front panel

(1) System status LED	(2) Fan tray status LED
(3) Power supply status LED	(4) Management Ethernet port LED
(5) 10/100/1000BASE-T Ethernet copper port LED	(6) 10/100/1000BASE-T Ethernet copper port LED
(7) 10GBASE-R Ethernet fiber port LED	(8) 40GBASE-R Ethernet fiber port LED

Table 44 LED descriptions

LED	Mark	Status	Description
System status LED	SYS	Slow flashing green (0.5 Hz)	The device is operating correctly.
		Fast flashing green (4 Hz)	The system is starting or loading software.
		Steady green	The system has failed.
		Off	The system has failed (excluding the resetting period).
Fan tray status LED	FAN	Steady green	The fan tray is operating correctly.
Fan tray status LED	FAN	Off	The fan tray has failed.
Power supply status LED	PWR	Steady green	The power supply is operating correctly.
Power supply status LED	PWR	Off	The power supply is not in position or has failed.
Management Ethernet port LED	MGMT	Flashing green	The port is receiving or sending data.
		Steady green	A link is present.
		Off	No link is present.
Ethernet copper port LED	10/100/1000BASE-T	Flashing green	The port is receiving or sending data.
		Steady green	A link is present.
		Off	No link is present.
Ethernet copper port LED	10/100/1000BASE-T	Flashing green	The port is receiving or sending data.
		Steady green	A link is present.
		Off	No link is present.
10G Ethernet fiber port LED	10GBASE-R	Flashing green	The port is receiving or sending data at 10 Gbps.
		Steady green	A 10 Gbps link is present.
		Off	No link is present.
40G Ethernet fiber port LED	40GBASE-R	Flashing green	The port is receiving or sending data at 40 Gbps.
		Steady green	A 40 Gbps link is present.
		Off	No link is present.

NOTE:

The slot LED (SLOT) is reserved for future use.

Interface module LEDs

The interface modules use similar LEDs. This section uses the LEDs on the NSQM1TG8A and NSQM1GT8A interface modules as an example.

Figure 49 LEDs on the NSQM1TG8A

Figure 50 LEDs on the NSQM1GT8A

(1) Ready LED	(2) Ethernet copper port LED
(3) Ethernet fiber port LED

Table 45 Interface module LED descriptions

LED	Mark	Status	Description
Ready LED	READY	Slow flashing green (1 Hz)	The system is operating correctly.
		Fast flashing green (8 Hz)	The system is starting.
		Off	The system has failed.
Ethernet copper port LED	10/100/1000BASE-T	Flashing green	The port is receiving or sending data.
		Steady green	A link is present.
		Off	No link is present.
Ethernet fiber port LED	1000BASE-X	Flashing green	The port is receiving or sending data at 1000 Mbps.
		Steady green	A 1000 Mbps link is present.
		Off	No link is present.
	10GBASE-R	Flashing green	The port is receiving or sending data at 10 Gbps.
		Steady green	A 10 Gbps link is present.
		Off	No link is present.
	40GBASE-R	Flashing green	The port is receiving or sending data at 40 Gbps.
		Steady green	A 40 Gbps link is present.
		Off	No link is present.

Appendix C Cables

Console cable

A console cable is an 8-core shielded cable with a crimped RJ-45 connector at one end and a DB-9 female connector at the other end. The RJ-45 connector is for connecting to the console port of the device, and the DB-9 female connector is for connecting to the serial port on the configuration terminal.

Figure 51 Console cable

Table 46 Console cable connection

RJ-45	Signal	Direction	DB-9
1	RTS	←	7
2	DTR	←	4
3	TXD	←	3
4	CD	→	1
5	GND	-	5
6	RXD	→	2
7	DSR	→	6
8	CTS	→	8

Ethernet twisted pair cable

Introduction

An Ethernet twisted pair cable consists of four pairs of insulated copper wires twisted together. Every wire uses a different color, and has a diameter of about 1 mm (0.04 in). A pair of twisted copper cables can cancel the electromagnetic radiation of each other, and reduce interference of external sources. An Ethernet twisted pair cable mainly transmits analog signals and is advantageous in transmitting data over shorter distances. It is the commonly used transmission media of the Ethernet. The maximum transmission distance of the Ethernet twisted pair cable is 100 m (328.08 ft). To extend the transmission distance, you can connect two twisted pair cable segments with a repeater. At most four repeaters can be added, which means five segments can be joined together to provide a transmission distance of 500 m (1640.42 ft).

Ethernet twisted pair cables can be classified into category 3, category 4, category 5, category 5e, category 6, and category 7 cables based on performance. In LANs, category 5, category 5e, and category 6 are commonly used.

Table 47 Description for commonly used Ethernet twisted pair cables

Type	Description
Category 5	Suitable for data transmission at a maximum speed of 100 Mbps
Category 5e	Suitable for data transmission at a maximum speed of 1000 Mbps
Category 6	Suitable for data transmission at a speed higher than 1 Gbps

Based on whether a metal shielding is used, Ethernet twisted pair cables can be classified into shielded twisted pair (STP) and unshielded twisted pair (UTP). An STP cable provides a metallic braid between the twisted pairs and the outer jacket. This metallic braid helps reduce radiation, prevent information from being listened, and eliminate external electromagnetic interference (EMI) of external sources. STPs have strict application requirements and are expensive although they provide better EMI prevention performance than UTPs, so in most LANs, UTPs are commonly used.

An Ethernet twisted pair cable connects network devices through the RJ-45 connectors at the two ends. Figure 52 shows the pinouts of an RJ-45 connector.

Figure 52 RJ-45 connector pinout

NOTE:

The RJ-45 Ethernet ports of the device use category 5 or higher Ethernet twisted pair cables for connection.

EIA/TIA cabling specifications define two standards, 568A and 568B, for cable pinouts.

· Standard 568A—pin 1: white/green stripe, pin 2: green solid, pin 3: white/orange stripe, pin 4: blue solid, pin 5: white/blue stripe, pin 6: orange solid, pin 7: white/brown stripe, pin 8: brown solid.

· Standard 568B—pin 1: white/orange stripe, pin 2: orange solid, pin 3: white/green stripe, pin 4: blue solid, pin 5: white/blue stripe, pin 6: green solid, pin 7: white/brown stripe, pin 8: brown solid.

Ethernet twisted pair cables can be classified into straight-through and crossover cables based on their pinouts.

· Straight-through—The pinouts at both ends are T568B compliant, as shown in Figure 53.

· Crossover—The pinouts are T568B compliant at one end and T568A compliant at the other end, as shown in Figure 54.

Figure 53 Straight-through cable

Figure 54 Crossover cable

Select an Ethernet twisted pair cable according to the RJ-45 Ethernet port type on your device. An RJ-45 Ethernet port can be MDI (for routers and PCs) or MDIX (for switches). Table 48 and Table 49 show their pinouts.

Table 48 RJ-45 MDI port pinouts

Pin	10Base-T/100Base-TX		1000Base-T
Pin	Signal	Function	Signal	Function
1	Tx+	Sends data	BIDA+	Bi-directional data cable A+
2	Tx-	Sends data	BIDA-	Bi-directional data cable A-
3	Rx+	Receives data	BIDB+	Bi-directional data cable B+
4	Reserved	N/A	BIDC+	Bi-directional data cable C+
5	Reserved	N/A	BIDC-	Bi-directional data cable C-
6	Rx-	Receives data	BIDB-	Bi-directional data cable B-
7	Reserved	N/A	BIDD+	Bi-directional data cable D+
8	Reserved	N/A	BIDD-	Bi-directional data cable D-

Table 49 RJ-45 MDIX port pinouts

Pin	10Base-T/100Base-TX		1000Base-T
Pin	Signal	Function	Signal	Function
1	Rx+	Receives data	BIDB+	Bi-directional data cable B+
2	Rx-	Receives data	BIDB-	Bi-directional data cable B-
3	Tx+	Sends data	BIDA+	Bi-directional data cable A+
4	Reserved	N/A	BIDD+	Bi-directional data cable D+
5	Reserved	N/A	BIDD-	Bi-directional data cable D-
6	Tx-	Sends data	BIDA-	Bi-directional data cable A-
7	Reserved	N/A	BIDC+	Bi-directional data cable C+
8	Reserved	N/A	BIDC-	Bi-directional data cable C-

To ensure normal communication, the pins for sending data on one port must correspond to the pins for receiving data on the peer port. When both ports on the two devices are MDI or MDIX, use a crossover Ethernet cable; when one port is MDI and the other is MDIX, use a straight-through Ethernet cable. To summarize, straight-through and crossover cables connect the following devices:

· Straight-through cables connect devices of different types—for example, router to PC and router to switch.

· Crossover cables connect devices of the same type—for example, switch to switch, router to router, and PC to PC.

If an RJ-45 Ethernet port is enabled with MDI/MDIX autosensing, it can automatically negotiate pin roles.

NOTE:

The RJ-45 Ethernet ports on the device support MDI/MDIX autosensing.

Making an Ethernet twisted pair cable

1. Cut the cable to a required length with the crimping tool.

2. Strip off an appropriate length of the cable sheath. The length is typically that of the RJ-45 connector.

3. Untwist the pairs so that they can lay flat, and arrange the colored wires based on the wiring specifications.

4. Cut the top of the wires even with one another and insert the wires into the RJ-45 connector. Make sure the wires extend to the front of the RJ-45 connector and make good contact with the metal contacts in the RJ-45 connector and in the correct order.

5. Crimp the RJ-45 connector with the crimping tool until you hear a click.

6. Use a cable tester to verify the connectivity of the cable.

Optical fiber

Optical fibers feature low loss and long transmission distance.

Optical fibers can be classified into single mode fibers and multi-mode fibers. A single mode fiber (with yellow jacket) carries only a single ray of light; a multi-mode fiber (with orange jacket) carries multiple modes of lights.

Table 50 Characteristics of single mode and multi-mode optical fibers

Item	Single mode fiber	Multi-mode fiber
Core	Small core (10 micrometers or less)	Larger core than single mode fiber (50 micrometers, 62.5 micrometers or greater)
Dispersion	Less dispersion	Allows greater dispersion and therefore, signal loss exists.
Light source and transmission distance	Uses lasers as the light source often within campus backbones for distance of several thousand meters	Uses LEDs as the light source often within LANs or distances of a couple hundred meters within a campus network

Table 51 Allowed maximum tensile force and crush load

Period of force	Tensile load (N)	Crush load (N/mm)
Short period	150	500
Long term	80	100

Fiber connectors are indispensable passive components in an optical fiber communication system. They allow the removable connection between optical channels, which makes the optical system debugging and maintenance more convenient. There are multiple types of fiber connectors. Figure 55 shows an LC connector.

Figure 55 Appearance of an LC connector

Follow these guidelines when you connect an optical fiber:

· Before connecting an optical fiber, make sure the connector and cable type match the interface module.

· The fiber Ethernet port of the device supports only the LC connector.

· Fiber connectors are fitted with dust caps. Keep the dust caps secure when the fiber connectors are in use. Install dust caps when the fiber connectors are not in use to avoid damage to their end face. Replace the dust cap if it is loose or polluted.

· Before connecting an optical fiber, use dust free paper and absolute alcohol to clean the end face of the two fiber connectors. You can brush the end faces only in one direction.

· Never bend or curve a fiber.

· If the fiber has to pass through a metallic board hole or bend along the acute side of mechanical parts, the fiber must wear jackets or cushions.

H3C SecPath T5030[30-G][60][80][T5000-S][T5000-C] Intrusion Prevention System Installation Guide-6W102

Safety recommendations

Lightning protection

Pre-installation checklist

Installing the device

Installing a power supply

Connecting Ethernet cables

Connecting a fiber port

Connecting power cords

Connecting a DC power cord

Connecting a DC power cord for the T5030/T5060/T5080/T5000-S/T5000-C IPS device

Connecting a DC power cord for the T5030-G IPS device

Powering on the device

Replacing a power supply

Replacing an interface module

Displaying detailed information about the device

Displaying software and hardware version information for the device

Displaying electrical label information for the device

Displaying the CPU usage of the device

Displaying the memory usage of the device

Displaying the operational status of power supplies

Displaying temperature information for the device

Displaying the operational status of fan trays

Displaying the operational statistics about the device

Displaying transceiver module information

Identifying transceiver modules

Troubleshooting transceiver modules

Rebooting the device

Symptom

Solution

Symptom

Solution

Password loss

Symptom

Solution

Symptom

Solution

Front panel

Rear panel

Interface numbering

Front panel

Rear panel

Interface numbering

NS-NIM-GP4B

NS-NIM-QG1A

NS-NIM-TG4B

PSR450-12A1

PSR650B-12A1

PSR450-12D

PSR650B-12D1

FAN-20B-2-A/LSWM1BFANSCB fan tray

Dimensions and weights

Power consumption

Fan trays

10/100/1000BASE-T Ethernet copper port

GE copper transceiver module

1000BASE-X Ethernet fiber port

40GBASE-R Ethernet fiber port

QSFP+ transceiver modules (MPO port)

QSFP+ transceiver modules (LC port)

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