Contents

1 Installation flowchart 1-1

2 Preparing for installation· 2-1

Safety recommendations· 2-1

General safety recommendations· 2-1

Electricity safety· 2-1

Moving safety· 2-1

ESD prevention· 2-2

Working at heights· 2-2

Examining the installation site· 2-3

Temperature and humidity· 2-3

Cleanliness· 2-3

Wall/Workbench· 2-4

EMI 2-4

Lightning protection· 2-4

Cable layout requirements· 2-5

General cable layout requirements· 2-5

Cable trays· 2-6

Network cables· 2-6

Grounding cables· 2-6

Installation tools· 2-7

Installation accessories· 2-8

3 Installing the device· 3-1

Mounting the device to a desktop· 3-1

Mounting the device to a wall 3-1

Grounding the device· 3-4

4 Connecting cables· 4-1

Connecting power supplies· 4-1

Connecting the power cord· 4-1

Connecting the power adapter 4-1

Connecting an Ethernet cable· 4-2

Connecting the cable to a GE terminal block port 4-2

Connecting the cable to a GE RJ45 port 4-2

Connecting industrial serial cables· 4-3

5 Installing antennas· 5-1

Installing Wi-Fi antennas· 5-1

Installing NR antennas· 5-2

6 Installing the SIM card· 6-1

7 Verifying the installation· 7-1

8 Device initial power on and startup· 8-1

Local login through the console port 8-1

Setting up the environment 8-1

Configuring terminal parameters· 8-1

Logging in to the device through the CONSOLE port 8-2

Logging in to the device through Telnet 8-2

Logging in to the device through wired connection· 8-2

Logging in to the device wirelessly· 8-2

Logging in to the device through the web interface· 8-3

Logging in to the web interface through a wired connection· 8-3

Logging in to the web interface wirelessly· 8-4

Logging out of the web interface· 8-4

9 Managing the device through Cloudnet 9-1

Downloading and installing the Cloudnet app· 9-1

Logging in to Cloudnet 9-1

 

1 Installation flowchart

The device installation process is as shown in Figure1-1.

Figure1-1 Installation flowchart

 

 

2 Preparing for installation

Safety recommendations

To avoid any equipment damage or bodily injury caused by improper use, read the following safety recommendations before installation. Note that the recommendations do not cover every possible hazardous condition. When performing operations, you should also comply with the safety regulations of the location.

Do not attempt to carry out maintenance or debugging inside the equipment on your own, in order to avoid injuries caused by unforeseen or other abnormal factors.

General safety recommendations

·     Only qualified professionals or trained personnel can install, operate, or maintain the device.

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

·     During the operation of electrical equipment, the surface of the device might become hot. Install the equipment in a restricted access area. Only maintenance personnel or trained individuals should access equipment in restricted areas, to prevent others from touching it and to avoid burns.

·     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 device chassis.

·     It is strictly forbidden to store flammable and explosive items in and around the area where the equipment is located.

·     Handle the devices according to the sizes of and packaging symbols on the packages.

Electricity safety

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

·     Locate the emergency power-off switch in the room before installation, operation, and maintenance so you can shut off the power immediately if an accident occurs. Remove the power cord if necessary.

·     Make sure the operating voltage is in the required range.

·     Make sure the device is correctly grounded before powering on the device if grounding is required.

Moving safety

·     Lift and put down the chassis slowly and never move it suddenly.

·     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.

·     Remove all external cables before moving the device.

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

·     Remove all removable components (such as antenna) and place them separately in antistatic bags. To transport the device over a short distance, make sure the removable components are securely installed on the device.

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

ESD prevention

To prevent electrostatic discharge (ESD) damage, you can wear antistatic gloves or an ESD wrist strap with an alligator clip.

Antistatic gloves are suitable for the installation, operation, and maintenance of equipment.

ESD wrist straps, depending on the type of connector, can be categorized into alligator clip ESD wrist straps and plug-type ESD wrist straps:

·     Alligator clip ESD wrist straps are suitable for the following scenarios:

¡     Installing equipment into a 19-inch rack, assuming the cabinet is well grounded.

¡     Operating and maintaining equipment already installed in the cabinet.

·     Plug-type ESD wrist straps are suitable for operating and maintaining devices with an ESD socket that have been properly grounded.

 

NOTE: ·     As a best practice, use a hybrid-connector ESD wrist strap. The connector of such an ESD wrist strap is a combination of an alligator clip and a plug, allowing users to select one type of connector as needed. ·     To use a plug-type ESD wrist strap, make sure the device has been well-grounded.

 

Working at heights

·     Work at height must comply with the national working standards for high-altitude operations.

·     Workers must undergo a physical examination and safety technical training, and only after passing an examination can they carry out work at height.

·     Before starting high-altitude work, check that all the equipment is in good condition, including the necessary machinery and tools.

·     Workers at height should take safety precautions, wearing helmets and safety belts.

·     When working at height, be vigilant to prevent objects from falling.

·     In cold regions, workers should wear warm clothing in advance.

·     External high-altitude work should be carried out under good weather conditions, with wind forces less than 4; work should cease if it exceeds this. Moreover, it is not suitable to work at height outdoors in rain, snow, fog, poor visibility, and extreme temperatures (above 38°C or below -10°C).

·     If a worker feels unwell while working at height, they must stop the work.

·     When using a ladder during the work process, the following should be noted:

¡     Before using a ladder, ensure it is stable and undamaged, and do not exceed its weight limit when using.

¡     If the ladder is inclined over 5m, an upright double-legged ladder over 3m, or work is conducted in a hazardous environment, someone must hold the ladder or other safety measures must be taken. An A-frame ladder should be fully extended when in use.

¡     The inclination of the ladder should have an angle with the ground that is less than or equal to 75°; this can be measured with a protractor or by using your arm. When using a ladder, place the wider rungs at the bottom or use protective measures to prevent slipping.

¡     Place the ladder on a firm surface and never on unstable objects like cardboard boxes or stones that can tip over or slide.

¡     When leaning on an inclined ladder, do not shift your center of gravity beyond the edges of the ladder frame. When climbing a ladder, do not exceed the last four rungs, and if climbing onto a roof, the ladder should extend at least 1m beyond the eaves.

Examining the installation site

The device can only be used indoor. To ensure correct operation and long service life of the device, install it in an environment that meets the requirements described in the following subsections.

Temperature and humidity

Maintain appropriate temperature and humidity in the installation site.

·     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 device.

For the temperature and humidity requirements for the device, see the hardware information and 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.

Table2-1 Dust concentration limit in the equipment room

Substance	Concentration limit (particles/m³)
Dust	≤ 17600000
NOTE: Dust diameter ≥ 0.5 μm

 

The equipment room must also meet limits on salts, acids, and sulfides to eliminate corrosion and premature aging of components, as shown in Table2-2.

Table2-2 Harmful gas limits in the equipment room

Gas	Average concentration (mg/m3)	Maximum concentration (mg/m3)
SO2	0.3	1.0
H2S	0.1	0.5
Cl2	0.1	0.3
HCI	0.1	0.5
HF	0.01	0.03
NH3	1.0	3.0
O3	0.05	0.1
NOX	0.5	1.0

 

	NOTE: The average value is the typical control limit for corrosive gases in a data center environment, and it is generally not recommended to exceed this requirement. The maximum value is the limit or peak value, and the time reaching the limit or peak value should not exceed 30 minutes per day.

 

Wall/Workbench

To rack or wall-mount the device, make sure the rack or wall meets the following requirements:

·     The wall/workbench is sturdy enough to support the weights of the device and its accessories.

·     The wall/workbench can accommodate the device.

·     When installing more than two pieces of equipment, all devices should be aligned on the same horizontal (or vertical) line, with spacing between them to facilitate daily operation and maintenance, and sufficient space must be reserved for future system expansion.

·     When installing the device to a wall/workbench, make sure the ports are not face upwards. There should be no obstructions within 300m in front of the front panel, within 300mm behind the rear panel, and within 60mm on either side of the device.

EMI

All electromagnetic interference (EMI) sources, from outside or inside of the device 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:

·     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.

Lightning protection

To enhance lightning protection for the device, follow these guidelines:

·     Make sure the installation site, power source, and the device are reliably grounded.

·     Install a surge protected power strip at the power input end.

·     To prevent signal ports from getting damaged by overvoltage or overcurrent caused by lightning strikes, install a surge protection device (SPD) for the interface cables if part of the cable is routed outdoors. Ground the SPD near the feeder window.

Cable layout requirements

General cable layout requirements

·     Signal and control cables should avoid being routed together with high-voltage power conduits and fire protection piping to ensure there are no strong electrical or magnetic interferences. Cables should be laid along cable trays or ducts, with clear and straight routing, without crossing or dangling in the air. When passing a white wall, cables must go through conduits.

·     Cables need to be tied or fixed with specialized cable clips, maintaining consistent intervals for ties or fixings, and complying with requirements. Excess tie ends should be cut off, and all tie ends should be trimmed flush without any sharp points. Reserved cables should be neatly coiled and secured without affecting the normal operation of other equipment and devices. The spacing for tying cables and conduits should meet the requirements shown in Table2-3.

Table2-3 Cable tie spacing requirements

Condition	≤1/2″ wire diameter	>1/2″ wire diameter
When laid out horizontally	≤ 1.0 m	≤ 1.5 m
When laid out vertically	≤ 0.8 m	≤ 1.0 m

 

·     Cables should be laid straight and neatly, avoiding any uneven or sharp bends. When bending is required, the bend should be smooth and uniform, and the bending radius must comply with the specific requirements for that type of cable.

¡     The bending radius for Category 5e cables should be more than 30 mm, and for CAT6A cables, it should be more than 50 mm.

¡     The bending radius of the power cable should be greater than 50 mm (or not less than 20 times the outer diameter of the cable).

¡     The bending radius of the grounding wire should be more than 0.13 m.

·     Cables should be made of flame-retardant or fire-resistant materials; their outer surface should be clean, clear of construction marks, without apparent folding or twisting, and should avoid being forcibly stretched. The cable's sheath insulation layer should be free of damage and scratches, and the feeder should have no exposed copper.

·     When cables are connected to outdoor equipment, the outer diameter of the cable must match the inner diameter of the waterproof plug. Unused connectors should be tightened with plugs or sealed with waterproof tape at the ends to prevent water leakage. Waterproofing process requirements can refer to 315 and 333 process methods.

·     Before outdoor cables enter indoors, they must be bent for waterproofing. The bottom of the corrugated pipe's waterproof bend must have a drip hole cut to prevent rainwater from entering indoors along the feeder line. The entrance points and holes must be sealed with waterproof materials. When bending, the bending radius requirements must be met to avoid affecting indicators such as the standing wave ratio.

·     All entry holes (including cable conduit holes) in the equipment room should be sealed with fireproof materials after installation. When indoor cable trays pass through wall holes or floor slabs, protective frames should be installed around the holes. Waterproof sealing of feeder windows should meet the sealing requirements of engineering design and relevant standards.

·     For cables containing metallic materials, proper shielding and grounding measures should be in place before entering the equipment room, such as using shielded cables or laying through steel pipes, with metal shielding layers at both ends reliably grounded.

·     All cables should be correctly connected; both ends of the cables should have clear and distinct labels, and the connectors should be made to standard, without any looseness.

Cable trays

·     You should assemble the cable tray (or channel) so that it is straight, without any noticeable twists or tilts. Cable trays running horizontally along the wall must be parallel to the ground, while those running vertically must be perpendicular to the ground.

·     When installing the side supports, terminal reinforcing angle irons, hangers, and columns for the cable tray (or channel), you must follow engineering design requirements, ensuring that these components are secure, upright, and straight.

·     You must maintain a consistent length of excess material for all the expansion bolts you use for support and reinforcement.

·     You should apply paint to all iron parts uniformly, ensuring the color is consistent and the finish is free from marks and does not bubble.

·     If you use metal steel pipes or trunking for the cable tray (or channel), you must ground the system according to design requirements. You should choose the nearest point for grounding and ensure that the electrical connection remains in good condition.

Network cables

·     After laying Category 5e and Category 6 cables, there should be a surplus. A reserved length of 0.5 m to 1.0 m should be planned for handover rooms and equipment rooms, and 10mm to 30 mm for work areas. If there are special requirements, reserve lengths according to design needs.

·     Category 5e and Category 6 cables should avoid being laid alongside strong electric lines, high-voltage pipelines, fire protection pipelines, etc., to ensure there is no interference from strong electric or magnetic fields.

·     For the bundling of Category 5e and Category 6 cables, the distance between ties should not exceed 40 cm where the cables are concealed within conduits or above suspended ceilings; at open conduit areas and when cables are visibly laid, the distance between ties should not exceed 30 cm. Category 5e and Category 6 cables must be securely tied with nylon cable ties.

·     For Category 5e and Category 6 cables that cannot be laid in conduits, cable shafts, suspended ceilings, or ceilings, consider installing them on cable racks or using PVC pipes.

·     At the equipment end of Category 5e and Category 6 cables, a certain amount of slack should be left and neatly tied for easy maintenance and cable termination in the future.

·     The laying length of Category 5e and Category 6 cables generally should not exceed 100 meters. If the actual length is more than 100 meters, the design should be revised, or certain measures should be taken to address the issue.

·     The craftsmanship of RJ45 connectors should meet the design and construction requirements.

Grounding cables

·     If a grounding wire passes through a wall, you must protect the section that passes through with PVC or corrugated pipes, and you need to seal the wall penetration with fireproof putty.

·     You should use copper strips or braided copper for the grounding busbar in the machine room and secure it to the cable tray approximately every meter.

·     You must connect the grounding wire to the building's comprehensive grounding bar. If the cable tray is already connected to the comprehensive grounding bar, you may connect the grounding wire to the cable tray.

·     When connecting ground wires to the ground grid, you must prevent the formation of an inverted funnel that could collect water. The direction of any funnel must face downward.

·     You need to choose grounding points that are higher than the ground grid, and feeder grounding should be directed downwards along the feeder direction. Upward grounding is strictly prohibited.

·     You are forbidden from connecting indoor equipment protective ground wires to outdoor lightning protection nets or rods on rooftops.

·     When terminal connectors and wires are made of different materials, you should coat the contact surfaces with an antioxidant.

·     You must use a grounding wire with a cross-sectional area of no less than 6 square millimeters for the protective grounding of equipment. The grounding location should comply with design requirements.

·     You should keep AC ground, DC ground, protective ground, and lightning protection ground separate. Each grounding point must have good contact without any looseness, and you should treat it to prevent oxidation and rust.

·     The grounding resistance should be less than 1 ohm.

·     You must ensure that lightning rods have good electrical performance and grounding. All outdoor antennas should be within the 45° protection angle of the lightning rod.

·     All connection joints between equipment and cables or antennas and cables or cables and cables working outdoors or in humid environments must be waterproofed. The waterproofing process requirements can refer to methods such as 315 and 333.

Installation tools

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

 

 

 

Installation accessories

Table2-4 Installation accessories

Accessory	Diagram	Obtaining method	Remarks
Mounting ears and screws		Provided	The device comes with mounting ears.
Screw anchor and screw		Provided
DIN rail and screws		Provided
Antenna		Provided	Six antennas. An antenna can be installed to an NR antenna port or a Wi-Fi antenna port.
Terminal blocks		Provided	One 2-pin terminal block, one 5-pin terminal block, and one 8-pin terminal block.
Equipment grounding wire		User supplied	To mount the device to a desktop or wall, grounding is not required. To mount the device to a DIN rail, if the DIN rail is inside a chassis and the chassis contains other devices, ground the device to ensure EMC performance.
Power adapter		Provided Product code: 0213A05S
Power cord		Provided

 

 

3 Installing the device

Mounting the device to a desktop

Be careful to place the device upright on a clean, stable workbench.

Figure3-1 Installing device to desktop

 

Mounting the device to a wall

CAUTION: ·     The installation accessories of different products might have different appearances. ·     Before drilling holes in a vertical wall, confirm that there are no strong electrical currents at the drilling location to avoid causing personal injury.

 

1.     As shown in Figure3-2, mark the installation holes on the wall.

2.     Drill four holes with a diameter of 6 mm (0.24 in) at the marked locations.

3.     Insert a screw anchor into each hole, and tap the screw anchor with a rubber hammer until it is all flush with the wall surface.

Figure3-2 Securing the expansion screws to the wall

 

4.     Pass the screws that match the screw anchors through the corresponding installation holes, adjust the position of the device, and use a screwdriver to tighten the screws clockwise to secure the device to the wall.

Figure3-3 Securing the device to the wall

 

 

5.     Pass the screws that match the DIN bracket through the corresponding installation holes, adjust the position of the device, and use a screwdriver to tighten the screws clockwise to secure the DIN bracket to the device.

Figure3-4 Securing the DIN bracket to the device

 

6.     Press the metal spring at the lower end of the DIN bracket against the DIN rail, lift the device upwards forcefully, and snap the upper end of the device's DIN bracket into the rail.

Figure3-5 Snapping the DIN bracket into the rail

 

Grounding the device

·

CAUTION: ·     Correctly connecting the grounding cable is crucial to lightning protection and EMI protection. ·     Connect the grounding cable to the grounding system in the equipment room, and make sure the engineering grounding device is operating safely. Do not connect it to a fire main or lightning rod. ·     When connecting the grounding cable to the grounding hole on the device chassis, make sure the OT terminal does not obstruct the installation and removal of adjacent pluggable components.

 

To mount the device to a desktop or wall, grounding is not required. To mount the device to a DIN rail, if the DIN rail is inside a chassis and the chassis contains other devices, ground the device to ensure EMC performance.

To ground the device:

1.     Use a Phillips screwdriver to turn counterclockwise and remove the grounding screw on the device chassis grounding hole.

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

3.     Install the grounding screw with the OT terminal attached to the grounding hole of the device chassis, and tighten it with a Phillips screwdriver.

Figure3-6 Connecting the grounding cable to the grounding hole on the device chassis (1)

(1) Grounding screw	(2) Ring terminal
(3) Grounding sign	(4) Grounding hole
(5) Grounding cable

 

Figure3-7 Connecting the grounding cable to the grounding hole on the device chassis (2)

(1) Grounding screw	(2) Ring terminal
(3) Grounding sign	(4) Grounding hole
(5) Grounding cable

 

4 Connecting cables

Connecting power supplies

	WARNING! ·     Make sure the device is correctly grounded. ·     Provide a circuit breaker for each power input. When you connect a power cord, make sure the circuit breaker is switched off. ·     To prevent adapter damage because of insufficient power, use the power adapter that came with the device for power supply.

 

The device provides a DC power adapter port and a DC power terminal block port for connection to a DC power supply. Select one as needed.

Connecting the power cord

1.     Wear an ESD wrist strap.

2.     Insert the end with a terminal block port of the power cord into the DC power terminal block port on the device.

Figure4-1 Connecting the power cord

 

Connecting the power adapter

NOTE: To prevent adapter damage because of insufficient power, use the power adapter that came with the device for power supply.

 

1.     Connect the power adapter to an external AC power outlet.

2.     Connect the DC output end of the power adapter to the DC power adapter port on the device.

Figure4-2 Connecting the power adapter

 

 

Connecting an Ethernet cable

Connecting the cable to a GE terminal block port

1.     Insert the end with a terminal block port of the Ethernet cable into the GE terminal block port.

2.     After device power-on, identify whether the Ethernet port LED is in correct state.

Figure4-3 Connecting the cable to a GE terminal block port

 

 

Connecting the cable to a GE RJ45 port

1.     Insert the end with an RJ45 port of the Ethernet cable into the GE RJ45 port.

2.     After device power-on, identify whether the Ethernet port LED is in correct state.

Figure4-4 Connecting the cable to a GE RJ45 port

 

Connecting industrial serial cables

Insert the end with a terminal block port of the industrial serial cable into the RS485/RS232 terminal block port.

Figure4-5 Connecting an industrial serial cable

 

 

5 Installing antennas

Installing Wi-Fi antennas

1.     Facing the front panel of the device, tighten the antenna clockwise onto the device's WiFi antenna port.

Figure5-1 Installing the antenna to the Wi-Fi antenna port

 

2.     Push the antenna upwards to a right angle position to complete the antenna installation.

Figure5-2 Antenna installation completed

 

Installing NR antennas

1.     Facing the rear panel of the device, tighten the antenna clockwise onto the device's NR antenna port.

Figure5-3 Installing the antenna to the NR antenna port

 

2.     Push the antenna upwards to a right angle position to complete the antenna installation.

Figure5-4 Antenna installation completed

 

 

6 Installing the SIM card

IMPORTANT: ·     The SIM card is not provided by default; users can purchase one based on their actual needs. ·     The device offers two SIM card slots, supporting automatic switching between SIM cards. ·     When installing or removing a SIM card, please ensure the device is powered off to guarantee its normal operation. ·     When handling the SIM card, do not touch the components. ·     If the SIM card is not being installed, please fit the dust cover to prevent dust or foreign objects from entering the device and causing electrostatic adhesion or damage.

 

1.     Open the dust cover of the SIM card slot.

2.     Slowly push the SIM card along the card slot guide rail until it is fully inserted.

Figure6-2 Inserting the SIM card

3.     Put on the dust cover of the SIM card slot.

 

7 Verifying the installation

During the installation, check the following items before each power-on each:

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

·     The grounding cable is connected correctly.

·     The power source is as required by the device.

·     The power cords are correctly connected.

·     If part of the network cable for a port is routed outdoors, verify that a network port lightning protector is used for the port.

·
If a power line is routed from outdoors, verify that a surge protected power strip is used for the switch.

 

8 Device initial power on and startup

NOTE: ·     By default, the device operates in fit mode. ·     You can switch the operating mode of the CPE5100 between fit and cloud as needed. For more information about the fit mode, cloud mode, and operating mode switchover, see H3C CPE5100 Series 5G Wireless Data Terminal AP Operating Mode Switchover Operation Guide.

 

When the device is powered on for the first time, you can directly log in to the device through the console port. Local login through the console port is the basic login method and basis of other login methods. To remotely log in to the device through Telnet or the web interface, you must first obtain the IP address of the device.

Local login through the console port

Setting up the environment

NOTE: ·     As a best practice, when connecting the PC to the device, first install the DB-9 end of the configuration cable to the PC, and then connect the RJ-45 end to the console port of the device. ·     As a best practice, when disconnecting the PC from the device, first remove the RJ-45 end, and then remove the DB-9 end. ·     If the PC has only USB ports and does not have an RS-232 port, use a USB to RS-232 adapter to connect the PC to the console port, and install the required drivers.

 

1.     Connect the DB-9 female connector of the console port cable to the serial port of the terminal used for configuring the device, and then connect the RJ-45 end to the console port of the device.

2.     Power on the device. The startup information of the device will be displayed on the configuration terminal.

Configuring terminal parameters

To set up a local configuration environment through the console port, you must use a terminal emulation program, such as HyperTerminal or PuTTY, to establish a connection with the router. You can run terminal emulation programs to connect to network devices or access sites through Telnet or SSH. For more information about how to use terminal emulation programs, see the programs' user guides.

Configure the terminal parameters as follows:

·     Baud rate—115200.

·     Data bits—8.

·     Stop bits—1.

·     Parity—None.

·     Flow control—None.

Logging in to the device through the CONSOLE port

After the device is powered on, the PC terminal screen displays the following information:

System is starting...

Booting Normal Extend BootWare.

……

System application is starting...

Startup configuration file does not exist.

User interface con0 is available.

 

 

 

Press ENTER to get started.

Logging in to the device through Telnet

By default, Telnet is enabled on the device, and the default login information is as follows:

·     Username: admin

·     Password: h3capadmin

·     Management IP address (non-FIT mode): 192.168.8.1/24

 

NOTE: ·     By default, interface VLAN-interface 1 of the device can obtain an IP address through DHCP. When a DHCP server is deployed in the network, the CPE preferentially obtains an IP address through DHCP. ·     If the device operates in cloud mode and cannot obtain an IP address automatically, the device uses 192.168.8.1/24. ·     To view the IP address of interface VLAN-interface 1, log in to the device through the console port, and then execute the display ip interface brief command in any view.

 

Logging in to the device through wired connection

By default, you can log in to the device through a wired network when the device operates in fit or cloud mode.

To log in to the device through a wired network by using the default login information:

1.     Connect the maintenance endpoint to the GE RJ45 port or GE terminal block port on the device.

2.     Configure an IP address for the maintenance endpoint, and make sure the maintenance endpoint and interface VLAN-interface 1 on the device can reach each other.

3.     On the maintenance terminal, start the terminal emulation program (such as HyperTerminal or PuTTY), select the Telnet option, and then enter the device's management IP address, username, and password.

Logging in to the device wirelessly

NOTE: Configure the wireless client to dynamically obtain an IP address. Some Intel NICs might not be compatible with the 802.11ax mode. To successfully detect Wi-Fi 6 wireless networks, upgrade the NIC drivers to the latest version as a best practice. For more information, see the related document at the Intel offcial website.

 

By default, you can log in to the device through a wireless network when the device operates in cloud mode.

To log in to the device through a wireless network by using the default login information:

1.     Enable Wi-Fi on the wireless client. Search for and connect to the Wi-Fi named H3C_XXXXXX, where XXXXXX is the last six digits of the device's MAC address.

2.     Execute the telnet wlan.h3c.com command on the CLI of the wireless terminal.

3.     Enter the default username and password, and change the password as needed upon prompt.

Logging in to the device through the web interface

NOTE: You can log in to the device through the web interface only when the device operates in cloud mode.

 

The device supports both HTTP and HTTPS.

By default, HTTP and HTTPS are enabled on the device, and the default login information is as follows:

·     Username: admin

·     Password: h3capadmin

·     User role: network-admin

·     Management IP address (non-FIT mode): 192.168.8.1/24

 

NOTE: ·     By default, interface VLAN-interface 1 of the device can obtain an IP address through DHCP. When a DHCP server is deployed in the network, the CPE preferentially obtains an IP address through DHCP. ·     If the device operates in cloud mode and cannot obtain an IP address automatically, the device uses 192.168.8.1/24. ·     To view the IP address of interface VLAN-interface 1, log in to the device through the console port, and then execute the display ip interface brief command in any view.

 

Logging in to the web interface through a wired connection

To log in to the device web interface through a wired network by using the default login information:

1.     Connect the maintenance endpoint to the GE RJ45 port or GE terminal block port on the device.

2.     Configure an IP address for the maintenance endpoint, and make sure the maintenance endpoint and interface VLAN-interface 1 on the device can reach each other.

3.     On the maintenance endpoint, enter the management IP address of the device in the address bar of a browser, and press Enter to access the local web management interface of the device. If HTTP is used, the URL is in the http://ip-address:80 format, where http:// can be omitted. If HTTPS is used, the URL is in the https://ip-address:443 format. ip-address represents the IP address of interface VLAN-interface 1. Port numbers 80 and 443 are the default port numbers for HTTP and HTTPS, respectively, and can be omitted.

4.     Click Log In. Change the login password upon the prompt as needed, and then click OK.

Logging in to the web interface wirelessly

NOTE: ·     Configure the wireless client to dynamically obtain an IP address. ·     Some Intel NICs might not be compatible with the 802.11ax mode. To successfully detect Wi-Fi 6 wireless networks, upgrade the NIC drivers to the latest version as a best practice. For more information, see the related document at the Intel offcial website.

 

To log in to the device web interface through a wireless network by using the default login information:

1.     Enable Wi-Fi on the wireless client. Search for and connect to the Wi-Fi named H3C_XXXXXX, where XXXXXX is the last six digits of the device's MAC address.

2.     On the wireless endpoint, enter http://wlan.h3c.com in the address bar of a browser, and then press Enter to open the device login page.

 

NOTE: Access http://myap.h3c.com in E1103P01 or earlier versions.

 

3.     Enter the default username and password, and then click Log In. Change the login password as needed upon the prompt, and then click OK.

Logging out of the web interface

For security purposes, log out of the web interface immediately after you finish your tasks.

To log out of the web interface, click admin on the top right of the page, and then select Log Out.

The system does not save the running configuration automatically when you log out of the web interface. As a best practice, use either of the following methods to save the running configuration before logging out of the web interface:

·     Click Save on the top right of the page, and then click Yes in the dialog box that opens.

·     From the left navigation pane, select System > Management > Configuration. Click Save Running Configuration, select to the next-startup configuration file, and then click Apply.

9 Managing the device through Cloudnet

You can manage a device through Cloudnet only when the device operates in cloud mode.

Downloading and installing the Cloudnet app

Use an Android 4.0/iOS7.0 or above operating system to download the Cloudnet app.

Access https://cloudnet.h3c.com through a browser, use a phone to scan the QR code on the login page to download and install the Cloudnet app.

Logging in to Cloudnet

IMPORTANT: For the device to access Cloudnet, make sure the IP address of the device can reach the Internet.

 

After you connect the device to the public network, log in to Cloudnet, add the device to the device list at a specific site on Cloudnet, and then view and manage the device remotely. For more information about logging in to Cloudnet, adding sites, and adding devices, see H3C Cloudnet Deployment Guide.

1.     Log in to Cloudnet by using either of the following methods:

¡     Web login—Access https://cloudnet.h3c.com in a browser, and then enter the username and password on the login page.

¡     Mobile app login—Connect your phone to the network, open the Cloudnet APP, and then enter the username and password on the login page.

2.     Add the device.

For detailed information, see H3C Cloudnet Deployment Guide from the Cloudnet online documentation.