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Huawei PowerCube 500 V200R001C10, AR550CX-300G1, AR550CX-300H1 Quick Manual

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1
Issue: 05
Date: 2020-04-10
PowerCube 500 V200R001C10 Quick Guide
(AR550CX-300H1, AR550CX-300G1)
Copyright © Huawei Technologies Co., Ltd. 2020. All rights reserved.
1
Overview
Function module: AR550CX-
300H1, AR550CX-300G1
Lithium battery: CBM20E-N14A1
Appearance Grid Hybrid Scenario Solar Hybrid Scenario
Lightning rod
Antenna
CPE
Bullet
cameras
Dome
camera
Cantilever
Pole
mounting kit
Function
module
Lithium battery
Lithium battery
Pole
Lithium battery
Lithium battery
Function
module
Pole
mounting kit
Pole
mounting kit
Bullet
cameras
Dome camera
CPE
Lightning rod
Antenna
PV modules
PV module
support
Pole
Cantilever
Lithium
Battery
Indicator
Color
Status
Meaning
Run
indicator
(RUN)
Green
Off
The lithium battery has no power input or
is faulty.
Steady on
The lithium battery is powered on.
Blinking
slowly
(0.5 Hz)
The lithium battery is communicating
properly with upstream monitoring
equipment.
Blinking
fast (4 Hz)
The lithium battery fails to communicate
with upstream monitoring equipment.
Alarm
indicator
(ALM)
Red
Off
There is no alarm.
Steady on
The
lithium battery
has generated a fault
alarm and needs to be replaced.
Blinking
slowly
(0.5 Hz)
The
lithium battery has generated a
protection alarm, which can be cleared.
Function
Module
Indicator
Color
Status
Meaning
Run
indicator
Green
Off
The function module has no power
input or is faulty.
Blinking
slowly
(0.5 Hz)
The function module is communicating
properly with upstream monitoring
equipment.
Blinking
fast (4 Hz)
The function module fails to
communicate with upstream monitoring
equipment.
Alarm
indicator
Yellow
Off
There is no alarm.
Blinking
slowly
The function module has generated an
alarm, which can be cleared.
Steady
on
The function module has generated an
AC power failure or PV array fault alarm,
which can be cleared.
Fault
indicator
Red
Off
The function module is normal.
Blinking
slowly
The function module has an external
fault, which can be cleared.
Steady
on
The function module has an internal
fault, which cannot be cleared.
The three indicators are steady on when the power unit of the
function module is upgrading. They return to normal status after the
upgrade is complete.
2
2
Tools
3
Routing Cables Through the Pole
1. Place the pole on a wooden case or a similar object.
2. Route a pull wire.
3. Route cables.
Routing Cables Through
the Grid Hybrid Pole
Mains AC cable, module
ground cable, optical fiber,
camera cable, and CPE cable
Camera signal cable,
power cable, and
alarm cable
CPE cable
Module
ground cable
Mains AC cable
and optical fiber
Bullet camera signal
cable, power cable,
and ground cable
Dome camera signal cable,
power cable, alarm cable, and
ground cable
Routing Cables Through
the Cantilever
Camera
ground cable
Routing Cables Through
the Solar Hybrid Pole
Mains AC
cable and
optical fiber
Module
ground cable
Mains AC cable, module
ground cable, optical
fiber, camera cable, CPE
cable, and PV cable
CPE cable
Camera signal cable,
power cable, and
alarm cable
PV DC input cable
CPE cables can be used only in scenarios where
CPE is adopted.
The cables routed from the pole cable hole have
a length of 1.5 m reserved. The cables routed
from the cantilever cable hole have a length of
0.5 m reserved.
The object where the pole is placed should be
able to bear a load above 700 kg.
3
4
Installing a Cantilever
5
Installing Cameras and Cables
Installing Cameras
5.1
For the camera installation method, see the camera document.
Installing Camera Cables
5.2
For the cable connections at the camera side, see the camera document. Reserve the other ends of cables.
6
(Optional) Installing the CPE
For the CPE installation method, see the CPE document.
7
Installing PV Modules and Cables (Solar Hybrid Scenario)
1. Remove the connective kit, adjust the PV module direction based on the
PV module direction principles, and then reinstall the connective kit.
2. Install the PV module support.
3. Adjust the tilt angle of the PV
module support based on the
site latitude.
4. Loosen the bolt at the base
of the PV module support.
5. Install the angle adjustment bracket and
tighten the bolt at the base of the PV module
support.
or
or
or
In the northern hemisphere, PV modules face due south. In the southern hemisphere, PV modules face due north.
Site
Latitude
PV
Module
Tilt
Angle
0
15°
15
°
16
25°
25
°
26
30°
35
°
31
45°
45
°
4
6. Install horizontal beams.
7. Install two PV modules.
8. Install raking strut beams for the PV modules.
10.Tighten the bolts at the horizontal
beams and raking strut beams.
11.Install raking struts for the PV modules. 12.Install PV cables.
Adhesive
tape
Spacing shim
9. Install spacing shims for the
PV modules.
Spacing shim
Raking
strut beam
Keep the slots of horizontal beams facing
inwards for installing PV modules.
Partially tighten the bolts so that PV modules
can be adjusted during installation.
NOTE
Ensure that the junction boxes on the
rear of PV modules are positioned
consistently.
Ensure that the openings of the raking
strut beams face outwards.
Partially tighten the bolts to prevent the
PV modules from sliding.
NOTE
5
8
Installing a Lightning Rod
1. Use a positioning
sticker to mark the
installation position for
the pole mounting kit.
2. Install the pole
mounting kit.
Positioning
sticker
Installing the Function Module and Lithium Battery on a Pole
10.1
Cable hole
9
Installing an Antenna
For the antenna installation method, see the antenna document.
10
Installing the Function Module and Lithium Battery
Solar Hybrid Scenario
Grid Hybrid Scenario
Site
Latitude
Lightning Rod
Tilt Angle
0
15°
15
°
16
25°
25
°
26
30°
35
°
31
45°
45
°
Adjust the tilt angle of the lightning
rod based on the site latitude.
Wear protective gloves during installation.
Do not place a module with its bottom against the ground.
Never install a module with power on. Ensure that the angle between a module and the line vertical to the ground is within 10 degrees.
The paint on the module exterior should be intact. If paint has flaked off, repaint the area to avoid corrosion.
Ensure that the arrow on the top of the pole mounting kit points exactly to the middle
point on the top of the positioning sticker.
There are three types of bolts available for installing the pole mounting kit. Choose
the appropriate type of bolts based on the pole diameter.
Bolt
(190 mm)
Bolt (120 mm)
Bolt (160 mm)
Pole Diameter
(105140 mm)
Pole Diameter
(140175 mm)
Pole Diameter
(175210 mm)
6
3. Install the function module
hanging kit.
4. Install a function module.
5. Install the lithium battery hanging kit.
6. Install a lithium battery.
7. (Optional) Install the second lithium battery.
(Optional) Installing the Function Module and Lithium Battery on a Wall
10.2
Unit: mm
1. Remove wall mounting kits A and B.
The option to
install a lithium
battery
depends on
the scenario.
No lithium
battery is
required in the
grid-only
scenario.
NOTE
If two lithium
batteries are required,
install one above the
other. Install the pole
mounting kit after
using a positioning
sticker at the cable
hole in the upper part
of the pole to mark its
installation position.
For the method, see
steps 1 and 2.
The wall must be made of reinforced concrete and be able to bear at least 800 N. The wall must not be damaged if subject to a tension of
1.25 kN exerted outwards vertical to the wall.
Space Planning Installation Procedure
Wall mounting
kit A
Wall mounting
kit B
7
2. Mark mounting holes.
Unit: mm
Hammer drill
3. Drill holes and install bolts in the holes.
4. Install wall mounting kits B. 5. Install wall mounting kits A.
Unit: mm
6. Install the function
module hanging kit.
7. Install a function module onto the wall. 8. Install the lithium battery hanging kit.
Level
Marker
One wall mounting kit A and one wall mounting
kit B are used for each module. Determine the
number of wall mounting kits based on the
number of modules to be installed.
NOTE
The option to install a lithium battery
depends on the scenario. No lithium battery
is required in the grid-only scenario.
NOTE
8
9. Install a lithium battery onto the wall.
10.(Optional) Install the second
lithium battery onto the wall.
Installing Ground Cables for Modules
11.1
11
Installing Cables
1. Connect ground cables between the function module and lithium batteries.
Installing Cables for the Maintenance Compartment
11.2
If two lithium batteries are
required, install them onto two
adjacent wall hanging kits.
NOTE
Route inter-device cables through the pole.
NOTE
Module ground cable
2. Connect the other end of the module
ground cable to the pole ground bar.
Pole ground bar
function module Lithium battery Lithium battery
Cable Hole Diameter Requirements
No.
Cable Hole
Silk Screen
Cable Type
Cable Outer
Diameter
1
GE
PoE
network cable, optical fiber
6.8
±0.3 mm
2
RS485/FE
-
3
DI
-
4
DO
Dome camera alarm linkage cable
5
12VDC
Bullet camera power cable
9.3
±0.4 mm
6
24VAC
Dome camera power cable
9
1. Push up the sunshade
until the spring fastener
is stuck gently.
2. Open the maintenance
compartment door.
3. Install cables for PoE cameras.
4. (Optional) Install signal cables for non-PoE cameras.
5. (Optional) Install power cables for non-PoE cameras.
Bullet camera 1
Bullet camera 2
Bullet camera 3
Dome camera
Cable distribution terminal
The power cable for the dome camera can only be connected to
the 24VAC port.
Use waterproof tape to protect the cable distribution terminal
and put it inside the pole.
6. (Optional) Install the door status sensor.
7. (Optional) Install the dome camera alarm linkage cable.
Dome camera
alarm cable
Installation Procedure
Cables for the dome
camera can only be
connected to the
PoE++ 01 ports.
Bullet camera 1
Bullet camera 2
Bullet camera 3
Dome camera
NOTE
Bullet camera 1
Bullet camera 2
Bullet camera 3
Dome camera
10
Battery cable terminal
AC input, PV input cable terminal
Preparing Cable Terminals
11.3
8. Install optical fibers.
9. Close the maintenance compartment door.
10.Push down the
sunshade until
the spring
fastener is stuck
gently.
Optical network
This figure uses single-ring networking as an example.
NOTE
NOTE
PV input cables can only be used in scenarios with solar energy.
PV input cables and battery cables are finished cables. You only need to strip the cables and then insert them into the cable terminals.
AC input cables need to be prepared onsite. Multi-core cables must be used; otherwise, waterproof connectors may be exposed to water
leakage.
Before assembling cables with waterproof connectors, ensure that the connections between the cables and terminals are secure and reliable.
Negative (blue)
Positive (red)
PE (green)
N/L2 (blue)
L/L1 (brown)
Cable Type
Core Cross-
Sectional Area
Cable Outer
Diameter
Battery cable (2-core) 3.36 mm
2
9.014.5 mmPV input cable (2-core) 1.54 mm
2
AC input cable (3-core) 1.54 mm
2
Scale line
Preparing Battery Cables and Connecting Waterproof Connectors
Flat-head
screwdriver
Preparing PV Input Cables and Connecting Waterproof Connectors
Flat-head
screwdriver
Scale line
Before closing the maintenance compartment
door, check that cables are properly installed.
After closing the door, press the left side of the
maintenance compartment door by hand and
tighten the screws.
11
Installing Power Cables and Signal Cables
11.4
Preparing AC Input Cables and Connecting Waterproof Connectors
(Unit: mm)
Flat-head
screwdriver
Scale line
Installing an RJ45 Communications Cable for a Lithium Battery
Ensure that caps and waterproof connectors are installed at all idle ports on the modules.
Connecting Cables Between the Function Module and Lithium Batteries
PV input
AC input
Function module
Lithium battery Lithium battery
12
12
Installing Cable Covers
Installing a Cable Cover for the Function Module
12.1
Install a Cable Cover for the Lithium Battery
12.2
13
Erecting the Pole
Erecting the Mains Pole
Erecting the Solar Hybrid Pole
1. Check whether the pole needs to be repainted.
Repaint the damaged area of the pole, and
then use the crane to hoist the pole to the
foundation.
2. Secure the pole to the foundation.
1. Check whether the pole needs to be repainted.
Repaint the damaged area of the pole, and
then use the crane to hoist the pole to the
foundation.
2. Secure the pole to the foundation.
13
15
Power-On Commissioning
14
Verifying the Installation
1. Check the indicators on the function module and lithium batteries. Ensure that the green indicators are blinking slowly and that the
yellow and red indicators are off.
2. If a problem is found, refer to the alarm definitions in the user manual for troubleshooting.
Observing Indicators
15.1
Logging In to the Device for the First Time
15.2
Before logging in to the device for the first time,
prepare the Console communications cable.
2. Start the terminal emulation software on the PC.
If the PC uses the built-in terminal emulation software (such as HyperTerminal that can support Windows 2000 system), you do not need
to prepare the software separately. If the system does not provide terminal emulation software, obtain free HyperTerminal software such
as PuTTY from the Internet. The following uses the PuTTY as an example to describe how to configure the HyperTerminal software.
3. Choose Session and set Connection type to Seria.
Select the connected port based on the actual situation. For example, on supported Windows systems, view the port information in
Device Manager and select the connected port.
Ensure that communications parameter settings on the terminal emulation software are the same as the default values on the device:
transmission rate 9600 bit/s, 8 data bits, 1 stop bit, no parity check, and no traffic control.
Parameter Default Value
Transmission rate 9600 bit/s
Traffic control No
Parity check No
Stop bit 1
Data bits 8
Default configuration for the Console
port of the device
4. Select Serial and configure serial port parameters.
If you modify the serial port communications parameter settings for
the device, you need to modify the communications parameter
settings on the PC accordingly and then set up a connection again.
NOTE
1. Connect the DB9 connector of the Console communications cable to the COM port of a PC, and then connect the RJ45 connector to the
Console port of the device.
NOTE
1. Check that the mounting kits are securely installed and all screws are tightened.
2. Check that all cables are reliably connected with correct polarity and there is no short circuit.
3. Check whether any screw holes are not installed with screws. If so, install screws at the holes.
4. Check that all idle cable holes in modules are protected with waterproof caps.
PC
DB9 female
connector
14
5. After you click Open, the copyright statement of the device is displayed on the HyperTerminal. Enter a valid user name and password as
prompted to log in to the command line interface (CLI) of the device. (The information displayed in the following figure is for reference only.)
The preset user name for the device is admin and the password is Admin@huawei.
NOTE
Basic Configuration
15.3
Parameter
Value (Example)
Device name
RouterA
Management VLAN
22
Service VLAN
1001 (video surveillance)
Management IP
10.0.0.1
Management gateway IP
10.0.0.254
Service interface range
Interfaces 0
7
Uplink interface range
Interfaces 8
9
Listening port of the TCP server
5000
Before configuring the parameters, determine the following data:
Configuring Basic Network Information
1. Run the system-view command to access the system view.
2. Run the sysname RouteA command to set the device name to RouteA. By default, the device host name is Huawei.
3. Run the vlan batch 22 1001 command to create the service VLAN and management VLAN.
4. Run the vlan 22 command to access the VLAN22 view.
5. Run the description management vlan command to set the VLAN description to Management VLAN.
6. Run the quit command to exit the VLAN view.
7. Run the vlan 1001 command to access the VLAN1001 view.
8. Run the description Video command to set the VLAN description to Video.
9. Run the quit command to exit the VLAN view.
10.Run the interface vlanif 22 command to access the Vlanif22 view.
11.Run the ip address 10.0.0.1 255.255.255.0 command to set the IP address for the VLANIF interface.
12.Run the quit command to exit the VLANIF interface view.
13.Run the interface gigabitethernet 0/0/0 command to set a service interface. Access the 0/0/0 interface view and set other service ports by
referring to this interface setting.
The value of interface-number depends on the interface number. For example, if the interface number is 8, the value of interface-
number is 0/0/8. For the interface number, see the silk screen on the device port.
Interfaces 8 and 9 support the 2.5GE optical module. It is recommended that interfaces 8 and 9 be used as uplink interfaces, and
interfaces 07 be used as service interfaces.
NOTE
14.Run the description Cam command to set the interface description to Cam.
15.Run the port link-type access command to set the interface mode to access.
16.Run the port default vlan 1001 command to set the default VLAN of the interface to 1001.
17.Run the quit command to exit the interface view.
18.Run the interface gigabitethernet 0/0/8 command to set an uplink interface. Access the 0/0/8 interface view and set other uplink interfaces
by referring to this interface setting.
19.Run the description Uplink command to set the interface description to Uplink.
20.Run the port link-type trunk command to set the interface type to Trunk.
21.Run the port trunk allow-pass vlan 22 1001 command to set the interface to allow VLAN22 and 1001 access.
22.Run the quit command to exit the interface view.
23.Run the ip route-static 0.0.0.0 0.0.0.0 10.0.0.254 command to set the default route, next hop direction, and management gateway IP
address.
15
(The information displayed in the following figure is for reference only.)
Run the display ip interface brief [ interface-type
[ interface-number ] ] command to view the brief
information about the IP address for the interface.
1. Run the user-interface tty 2 command to access the TTY user interface view. For the RS422/485 serial port, the TTY value is 2.
2. Run the mode raw command to set the serial port service mode to RAW and access the RAW service view, or access the existing RAW
service view.
3. Run the undo raw-transport enable command to disable the RAW service function.
By default, the serial port service mode is NONE.
Configuring Serial Port Transparent Transmission
4. Run the raw-transport tcp server server-port 5000 command to appoint the device as the server and to transparently transmit serial port
data over TCP. The appointed listening port of the server is 5000.
5. Run the raw-transport enable command to enable the RAW service function.
(The information displayed in the following figure is for reference only.)
6. Run the quit command.
In the system view, run the following commands:
Check the configuration result and verify that the server can receive data collected by the function module.
Run the display transport info command to check the serial port service configuration.
Run the display transport mode command to check the serial port service mode.
Run the display transport session command to check the serial port session information.
Run the display transport stat command to check the serial port status information.
NOTE
NOTE
By default, the RAW service function is disabled.
The device working mode and the basic properties of the serial port transparent transmission service configured in the
RAW service view take effect only after the RAW service is enabled.
NOTE
By default, the RAW service function is disabled.
The device working mode in the serial port transparent transmission service and the basic properties of the service
should be configured when the RAW service is disabled.
Huawei Technologies Co., Ltd.
Huawei Industrial Base, Bantian, Longgang
Shenzhen 518129 People's Republic of China
e.huawei.com
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