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ZTE Rectifier cabinet quick user-guide

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System Introduction ------------System Structure
Electrical Specifications
ZXD3000 Rectifier
Centralized Supervision Unit (CSU)
Signal Interface Unit (SIU)
Equipment Installation -----------
Document number / version :
SJ-20120213132526-001 / 2012-04-06 (R1.1)
Warnings/Cautions
Removing/Installing the CSU and Rectifiers
Step 1 Installing the Cabinet
Step 2 Connecting Grounding Cables
Step 3 Connecting AC Input Cables
Step 4 Connecting DC Output Cables
Step 5 Installing Batteries and Connecting Battery Cables
Step 6 Installing Battery Temperature Sensors
Step 7 Connecting Supervision Cables
System Commissioning ---------Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Performing Electrical Check
Checking Rectifiers One by One
Connecting Batteries to the System and Starting the CSU
Operating the CSU
Starting the Rectifiers
Connecting Loads to the System
System Maintenance
----------
Normal Shutdown
Emergency Shutdown
Startup
Manual Power Recovery
Manually Enabling the CSU to Count Operating Rectifiers (for software V1.0G only)
elated Documentation
ZXDU CSU500 (SV1.0/SV1.0G) Centralized Supervision Unit Quick Reference
Providing parameter setting guidelines for system commissioning.
Providing an alarm list in which the user can record actual alarm output relays.
For all related manuals, users can refer to the product manual CD or search on the ZTE
website.
Website: http://ensupport.zte.com.cn.
The key word can be “ZXDU68 W201” or “V5.0R05M04”.
ZTE CORPORATION
Address: No. 55, Hi-tech Road South, ShenZhen, P.R.China
Postcode: 518057
URL: http://ensupport.zte.com.cn
Tel: +86-755-26771900
Fax: +86-755-26770801
E-mail:support@zte.com.cn
ZXDU68 W201 (V5.0R05M04) DC Power System
System Structure
ZXD3000 Rectifier
Electrical Specifications
The rectifier converts AC to DC, powering DC loads and charging the batteries.
1. Fan box
Item
Specification
AC input
AC input mode:
■ 110V - 127V ~ 3W+N+PE (L1/L2/L3/N/PE)
■ 110V - 127V ~ 2W+N+PE (L1/L2/N/PE)
■ 220V - 240V ~ 3W+N+PE (L1/L2/L3/N/PE)
■ 220V - 240V ~ 1W+N+PE (L/N/PE)
2. Communications equipment
space (13U)
1
3. Power distribution
components
9
11
5. Smoke sensor support
7. ZXD3000 rectifiers
8. Signal Interface Unit (SIU)
LLVD
1
9. Centralized Supervision Unit
(CSU)
3
LLVD2/
BLVD
5
1
DC SPD
3
4
2
BATT Input
6
7
8
12
Fault
Query Button
(QUY)
Running Status
Working with Current
stable voltage limit
Fault
Sleeping Communication Alarm
interruption
occurrence occurrence
Power
Lit
Lit
Flashing
Running
Lit
ZXD3000, four sets
Maximum output power: 3000 W (when the input voltage is 176 V to 300
V and the operating temperature is -40 ℃ to +55 ℃)
Indicator
Frequency: 50 Hz/60 Hz
10. Fan Control (FCTL) board
AC
SPD
AC Input
Alarm
With 110V - 127V AC input:
Rated AC input voltage: 110 V – 127 V (phase voltage) / 190 V - 220 V
(line voltage)
Line voltage range: 85 V - 295 V
■ With 220V - 240V AC input:
Rated AC input voltage: 220 V - 240 V (phase voltage) / 380 V - 415 V
(line voltage)
Phase voltage range: 85 V - 295 V
6. Protection Earth (PE) busbar
10
Running
■
4. Battery racks
2
Power
Rectifier
11. Working ground busbar
(GND)
12. Heat exchanger
DC
output
13. Door stop bar
Lit
Lit
Flashing Not lit
-
-
Not lit
Alarm
-
-
-
Flashing
Lit
-
Fault
Not lit
Not lit
Not lit
-
Lit
Output voltage range: -42 V to -58 V
Rated output power: 12 kW (-48 V to -57.6 V)
Centralized Supervision Unit (CSU)
15. Door stop bar
CSU: Centralized Supervision Unit
The CSU monitors power distribution, rectifiers and batteries.
LLVD = Load Low Voltage Disconnect
13
-
The “-” mark in the table means that the status of the corresponding indicator
is not fixed.
Rated output voltage: -53.5 V
14. Thermoelectric Cooler
(TEC)
4
Lit
USB interface
MCB = Miniature Circuit Breaker
SIU: Signal Interface Unit
SMR: Switching Mode Rectifier
SPD = Surge Protection Device
14
TEC = Thermoelectric Cooler
Ethernet interface
1. Fan box (
cover removed)
10. Working ground busbar
Indicator
3. Power distribution components
1
2
Power
Running Status
Working normally
Lit
Running Flashing
Alarm
LLVD1
5. PE busbar
4
5
6
Lit
Alarm occurrence
Lit
Lit/Not lit
-
Flashing
The “-” mark in the table means that the status of the corresponding
indicator is not fixed.
LLVD2/BLVD
3
Not lit
Breaking down
7
LLVD1 ON
Signal Interface Unit (SIU)
LLVD2 ON
1
AC Input
AC SPD
DC SPD
Signal Interface Board
(SIB)
3
2
4
BATT Input
BLVD ON
Caution
Slot Configuration
SMR 1
SMR 2
SIU
SMR 3
SMR 4
CSU
SIU: Signal Interface Unit
SMR: Switching Mode Rectifier
CSU: Centralized Supervision Unit
ZTE Corporation
1. DC output LLVD1 circuit breakers
5. DC SPD
2. DC output LLVD2/BLVD circuit
breakers
6. Battery circuit breakers
3. AC input circuit breaker
SIB
SIB
7. LLVD1 ON button and LLVD2/
BLVD ON button
Refer to the “Connecting Supervision
Cables” section on page 4/6 for
interfaces on the SIB.
4. AC Surge Protection Device (SPD)
Address: No. 55, Hi-tech Road South, ShenZhen, P.R.China
Postcode: 518057
When pulling out the SIU, move
slowly to avoid disconnecting cables
connected to the SIB.
Website: http://ensupport.zte.com.cn
Email: support@zte.com.cn
ZXDU68 W201 (V5.0R05M04) DC Power System
Removing/Installing the CSU and Rectifiers
Warnings/Cautions
Remove watches, bracelets, rings or other conductive objects before the operation. Wear
special gloves for protection against electrostatic hazards. Failure to comply can result in
damage to equipment.
Never set heavy objects on top of the cabinet. Failure to comply can result in damage to
equipment.
Removing the CSU
1
Installing the CSU
Loosen the captive screws.
2
1
2
Tighten the captive screws.
2
Tighten the captive screws.
Locked
(1) Batteries used in the system should be of the same type. Old and new batteries must not
be used together. (2) Battery packs should not be short-circuited in any way during the
operation.
Always use insulated tools when making electrical connections and always ensure that all
connection terminals and unnecessarily exposed metal parts are fully insulated. Failure to
comply can result in damage to equipment.
The system has high leakage current, thus it must be properly grounded before power-on.
The grounding cable should be connected to the nearest grounding terminal, and the cable
length cannot be greater than 30 m.
Cable requirements:
Be aware of jamming!
Removing the Rectifier
1
Installing the Rectifier
Loosen the captive screws.
2
Cable diameter: The diameter of a cable should match the load capacity.
1
Locked
Cable color: When using cables in non-standard colors, use black cables and mark them
using heat-shrinkable tubing or insulated tape in corresponding colors to avoid errors. If
local regulations have different requirements for cable colors, always follow the local
regulations. Failure to comply can result in damage to equipment.
Cable turning radius: At a corner of a cabling route, the turning radius should be 10 times
equal to or greater than the cable diameter to avoid short circuits due to the cable tube
damage caused by the turning radius being too small.
Be aware of jamming!
Installing the Cabinet
Connecting Grounding Cables
Open the door and remove the
CSU and rectifiers.
1
Space Requirement for the Cabinet Placement
Secure the cabinet to the mounting
base and keep it vertical to the floor.
The vertical deviation should satisfy
the requirement specified in the
engineering acceptance document
of ZTE Corporation.
No stacking
D2
Keep
vertical
SIU
SMR 3
SMR 4
CSU
1
GND
Door stop bar
2
Grounding cables of the system should be
connected to the nearest grounding terminal, and
the cable length cannot be greater than 30 m.
Communications
equipment space
Lift the door stop bar to close the
door of the cabinet.
2
DC distribution unit
SMRs, CSU and SIU
PE
The door stop bar is
used to keep the door of
the cabinet open.
D1
The use of shims
Shims can be placed at the
bottom of the mounting
base to keep the base
parallel to the floor.
2
Open the cover plates on left and
right sides of the cabinet base.
3
Loosen this screw.
Unit: mm
b
89
2100 mm × 750 mm × 700 mm
Battery racks
a
750
690
Cabinet Dimensions (H × W × D):
Open the cover plate.
Grounding busbar on site
Ø14.5
Bottom
524.3
700
Front space (D1) ≥ 1000 mm
Side space (D2) ≥ 100 mm
Rear space (D3) ≥ 100 mm
Caution
GND (black)
D2
SMR 2
PE (yellow-green)
D3
SMR 1
4
M12 X100
expansion bolt
5
Nut
Spring washer
80 mm
Cabinet front
3
4.
52
ZTE Corporation
Ø16 mm
Flat washer
Installed expansion
bolt
690
Address: No. 55, Hi-tech Road South, ShenZhen, P.R.China
Postcode: 518057
Website: http://ensupport.zte.com.cn
Email: support@zte.com.cn
ZXDU68 W201 (V5.0R05M04) DC Power System
AC Input Mode
AC Input Circuit Breaker
AC Input Cables to
Be Connected
1
Choose Proper DC Output Branches.
The system provides two battery circuit breakers. Two battery packs can be
installed inside the W201 cabinet.
Choose circuit breakers of proper capacity.
The load capacity connected to each DC output branch cannot exceed the circuit
breaker capacity. Certain redundancy should be reserved to prevent interruption of
power supply to the loads due to the circuit breaker trip.
110V - 127V ~ 3W+N+PE
63A/3P*1 MCB
L1, L2, L3, N, PE
For example, if the capacity of a circuit breaker is 32 A, it can connect a load with the
peak capacity of no more than 25 A.
110V - 127V ~ 2W+N+PE
80A/2P*1 MCB
L1, L2, N, PE
Divide loads into primary loads and secondary loads.
220V - 240V ~ 3W+N+PE
63A/3P*1 MCB
L1, L2, L3, N, PE
Connect primary loads to the LLVD2/BLVD branches and secondary loads to the
LLVD1 branches.
220V - 240V ~ 1W+N+PE
100A/1P*1 MCB
L, N, PE
Caution:
Battery Placement Requirements
Enough space should be reserved around each battery and a minimum
distance of 10 mm is required.
If the spacing requirement (no less than 10 mm as shown) is satisfied, the
batteries should be placed on the right and rear sides in the cabinet to avoid
short circuit caused by friction of the door lock.
Near right rear corner
D ≥ 10 mm
D
Disconnection Mode
Load
Configuration
LLVD1
Secondary loads
20P MCBs (maximum)
LLVD2/BLVD
Primary loads
- + -
Caution
LLVD1
OFF!
OFF
OFF!
OFF
OFF!
PE
OFF
L1 L2 L3
N
PE
PE (yellow-green)
N (blue)
AC input
circuit breaker
L1 (yellow)
Ensure that the red
detection cables are
properly connected to
the circuit breakers.
DC load
L3 (red)
Start with battery pack 1 to put
batteries into the racks.
2
Connect the positive (BATT+) and negative
(BATT-) battery cables.
Secondary load
_
1
DC load
Primary load
Example:
Connect the AC input cables of the W201
cabinet with three-phase AC input.
Plate
- + - + - + - +
GND
2
-
+
-
+
-
+ -
+
Battery pack 2
-
+
-
+
-
+ -
+
Battery pack 1
Route the cable backwards.
Caution
Install the cover.
Address: No. 55, Hi-tech Road South, ShenZhen, P.R.China
BATT
Connect plates between two adjacent
batteries in each pack.
OFF!
OFF
+
(The disconnection mode and the configuration of DC output branches are
subject to the contract. This image is for reference only.)
ZTE Corporation
BATT
(Top view)
BATT Input
GND (black)
+
BATT
- +
3
1
-48V (blue)
GND (black)
_
L2 (green)
Front
BAT- (blue)
N
OFF
PE N L1 L2 L3
BAT- (blue)
AC output
OFF! circuit breaker
LLVD2/BLVD
-48V (blue)
3P
BATT
+
Ensure that circuit breakers are set to OFF position prior to connecting
battery cables. Failure to comply can result in damage to equipment.
Positive and negative battery cables must be connected to their correct
terminals. Failure to comply can result in damage to equipment.
See the figure below for cable routing. Battery cables should be routed
backwards, not forwards.
GND
AC power distribution box
+ -
Steps
2 Connect DC Output Cables.
Ensure that all circuit breakers are set to OFF position and that no power is
applied to the system prior to making any electrical connections. Failure to
comply can result in death, personal injury or damage to equipment.
The live and neutral cables must not be reversed!
+ -
D
D
(Front view)
The disconnection mode and the configuration of DC output circuit breakers
are subject to the contract.
Before connecting the AC input cables, ensure that the W201 cabinet
is applicable to local AC input system. Failure to comply can result in
damage to equipment.
D
D
BAT+ (red)
The four types of W201 cabinet are applicable to four AC input modes. For a
description of the AC input modes and the AC input cables to be connected on
site, refer to the table below.
Connecting DC Output Cables
BAT+ (red)
Connecting AC Input Cables
Installing Batteries and Connecting
Battery Cables
Postcode: 518057
Website: http://ensupport.zte.com.cn
Email: support@zte.com.cn
Do not route the
cable forwards!
ZXDU68 W201 (V5.0R05M04) DC Power System
Installing Battery Temperature
Sensors
Based on the actual requirements, connect supervision cables to relays and
interfaces on the Signal Interface Board (SIB).
The battery temperature detection cables have been laid in the chassis and one
end (with two-pin plug) of the cable has been connected to the battery
temperature detection interface on the SIB. The other end is the temperature
sensor, which needs to be installed on site.
The SIB provides input & output relays, communication interfaces, battery
temperature sampling interfaces, and environmental detection interfaces.
- + - + - + - +
Battery pack 1
Preparation: Clean the side of
the left-most batteries.
Description
X3
Input relay 1, 2
X4
Input relay 3, 4
The four input relays can be customized by the user for
alarm input.
The default status of the input relays in the CSU is
“Close”.
Output relay 1,2
X15
Output relay 3,4
X16
Output relay 5,6
X17
Output relay 7,8
2
1
Description
X11
RS232 interface
X12
RS485 interface (independent)
X13
RS485 interface (multiplex)
X22
RS232 interface
Connect communication cables based on the supervision network.
X1 (To BACK-X6)
X11 and X13 cannot be used at the same time.
X22 is multiplex with X11.
The RJ45 Ethernet interface on the CSU can be used for the
supervision network.
Refer to the section “Setting System & Battery Parameters” in the
ZXDU CSU500 (SV1.0/SV1.0G) Centralized Supervision Unit
Quick Reference to verify if the current communication parameters
meet the requirements.
NC = Normally Closed
NO = Normally Open
Battery Temperature Sampling Interfaces and
Environmental Detection Interfaces
Interface
X14
VCC5V_T
T_E
2
1
VCC5V_T
T_B4
2
1
X16
Output relay 5,6
Input & Output Relays
Firmly paste each sensor onto the side of
the left-most battery in each battery pack.
X18
CSU fault
Interface
6
5
4
3
2
1
RO8-NC
RO8-COM
RO8-NO
RO7-NC
RO7-COM
RO7-NO
6
5
4
3
2
1
RO2-NC
RO2-COM
RO2-NO
RO1-NC
RO1-COM
RO1-NO
X15
Output relay 3,4
6
5
4
3
2
1
Battery pack 2
X10
Env. temp
ROW-NC
3
ROW-COM 2
ROW-NO
1
2
1
48VP
DOOR
- + - + - + - +
X17
Output relay 7,8
RO4-NC
RO4-COM
RO4-NO
RO3-NC
RO3-COM
RO3-NO
Remove the paper
cover of each sensor.
SIB
(TO EIB-X11)
X21
X21 (To EIB-X11
X14
Output relay 1,2
1
2
3
2
1
5
X7
X4
Input relay 3, 4
48VP
INRLY4
INRLY3
9
X6
VCC5V_T
T_B3
4
SI
SIB
B
X3
Input relay 1,2
Communication Interfaces
6
5
4
3
2
1
8
WATER
AGND_W
VCC_WATER
+VCC5V_W
3
SIB
X5
Door status
X9
Batt4 temp
RO6-NC
RO6-COM
RO6-NO
RO5-NC
RO5-COM
RO5-NO
4
3
2
1
7
When pulling out the
SIU, move slowly to
avoid disconnecting
cables connected to the
SIB.
X8
Batt3 temp
2
1
2
Caution
Insert the dual-pin plugs into
interfaces on the SIB.
X7
Batt2 temp
VCC5V_T
T_B2
6
3
X6
Batt1 temp
3
2
1
1
X22
RS232(multiplexing with X11) X2
Flood
RXD
3
TXD
2
GND_2
1
48VP
INRLY2
INRLY1
X11
RS232
X13
X12
RS485(multiplex)
RS485(indepent)
RS485B1
RS485B0
1
1
RS485A1
RS485A0
2
2
2
1
Dual-pin plug
VCC5V_T
T_B1
Temperature sensor
Connecting Supervision Cables
1) The output relays 1 to 6 correspond to the software
codes A1 to A6 in the CSU. Users can customize these
output relays for alarm output.
2) The output relay 7 is reserved to control the generator.
3) The output relay 8 is reserved to control the
emergency lighting.
Interface
Description
X2
Flooding alarm
Connects to the flood sensor
X5
Door alarm
Connects to the door sensor
X6
Battery 1 temperature
Connects to the temperature sensor of battery pack 1
X7
Battery 2 temperature
Connects to the temperature sensor of battery pack 2
X8
Battery 3 temperature
Connects to the temperature sensor of battery pack 3
X9
Battery 4 temperature
Connects to the temperature sensor of battery pack 4
X10
Environmental temperature
Connects to the environmental temperature sensor
NC and NO Contactors
Each output relay has two different contactors, Normally Open (NO) and
Normally Closed (NC). Pay attention to their designations when making cable
connections.
Alarms and Corresponding Output Relays
Refer to the “Alarm List” in the ZXDU CSU500 (SV1.0/SV1.0G) Centralized
Supervision Unit Quick Reference.
Record the actual output relays in the “Alarm List”.
ZTE Corporation
Output Relay
Code
Output Relay
Code
X14-1
A1
X16-5
A5
X14-2
A2
X16-6
A6
X15-3
A3
X17-7
A7
X15-4
A4
X17-8
A8
Address: No. 55, Hi-tech Road South, ShenZhen, P.R.China
Postcode: 518057
Website: http://ensupport.zte.com.cn
Email: support@zte.com.cn
ZXDU68 W201 (V5.0R05M04) DC Power System
Checking AC Input Voltage
Performing Electrical Check
Checking Rectifiers One by One
AC power distribution box
Caution
3P
Electrical check must be performed before system commissioning, to
avoid equipment damage caused by cable connection errors.
AC output
circuit breaker
ON
OFF!
PE N L1 L2 L3
PE
N
OFF
Checking for Short Circuit
L1 L2 L3
N
PE
AC input
circuit breaker
AC power distribution box
3P
Slot Configuration
AC output
OFF! circuit breaker
PE N L1 L2 L3
OFF!
PE
N
OFF
OFF
L1 L2 L3
N
Steps:
1. Install rectifier 1 into the slot SMR 1.
2. Set the AC input circuit breaker of the W201 system to ON position.
3. Observe the rectifier indicators to ensure that the rectifier is operating properly.
4. Remove rectifier 1.
5. Repeat the above steps to check the rectifiers (SMR 2 - SMR 4) and ensure that
the rectifiers are operating properly.
PE
AC input
circuit breaker
Example:
Measure the phase voltage between L1 and N.
(The figure is for reference only.)
Turn the knob to the
AC voltage scale.
SMR 1
SMR 2
SIU
SMR 3
SMR 4
CSU
Indicators
Power
Steps
Running
1. Set the AC output circuit breaker (in the AC power distribution box) to ON position.
2. Turn the knob of the multimeter to the AC voltage scale.
3. Measure the AC input line voltage.
Check items for 110V - 27V ~ 3W+N+PE AC input: L1-L2, L2-L3, L3-L1
Example:
Check for short circuit between L1 and N.
(The figure is for reference only.)
Turn the knob to
the buzzer scale.
Check items for 110V - 127V ~ 2W+N+PE AC input: L1-L2
Check items for 220V - 240V ~ 3W+N+PE AC input: L1-N, L2-N, L3-N
Check items for 220V - 240V ~ 2W+N+PE AC input: L1-N, L2-N
AC Input Voltage Check:
With 110 V AC input, the line voltage should be within the range of 85 V to 295 V.
With 220 V AC input, the phase voltage should be within the range of 85 V to 295 V.
Caution
Ensure that all power is removed prior to performing the check. Failure
to comply can result in death, personal injury or damage to equipment.
Maintenance Suggestion:
If the AC input line voltage is not within the range, the rectifiers cannot be started.
Start the generator for power supply.
Steps
1. Ensure that the AC output circuit breaker (in the AC power
distribution box) is set to OFF position.
Status Indication:
Checking Terminal Voltage of Battery Packs
2. Turn the knob of the multimeter to the buzzer scale to
check for short circuit.
Alarm
A rectifier is operating properly if its power and
running indicators are lit and its alarm and fault
indicators are not lit.
Fault
Relationship Between AC Input Voltage and Output Power
The ZXD3000 rectifier controls its output power according to the input voltage.
AC Input Voltage
Output Power
≤ (85 ± 5) V
0%
(85 V ± 5 V) to 110 V
40% to 55%
110 V to 176 V
55% to 100%
176 V to (295 V ± 5 V)
100%
>295V ± 5 V
0%
Output Power = Percentage of the Maximum Power
Connecting Batteries to the System
and Starting the CSU
OFF!
Check Item
Qualified
AC input cables (L1/L2/L3/N/PE)
YES □
Load cables (positive and negative)
YES □
OFF
Black probe
GND
BATT1- BATT2-
Steps:
1. Install the CSU.
2. Set the battery circuit breakers to ON position.
Red probe
Status Indication:
Test Points
Red probe: GND
Black probe: battery
circuit breaker
Short Circuit Check:
An alarm sound given by the multimeter indicates
that there is a short circuit!
Maintenance Suggestion:
Locate any short circuit and eliminate it before proceeding
to the next step.
Turn the knob to the
DC voltage scale.
Danger
After the CSU self-check and initialization, the LCD displays the
main menu screen, meaning that the CSU is operating properly.
Maintenance Suggestion
If the power indicator ( ) of the CSU is not lit (power-on failure),
check the positive and negative battery cables to ensure that they
are not reversed. If the fault persists, re-install the CSU.
Example:
Measure the voltage of battery pack 1.
Real Msg
Steps:
Positive and negative battery cables must be connected to the correct
terminals. Failure to comply can result in damage to equipment and even a
battery explosion.
A negative measured value indicates that the positive and negative battery
cables are reversed. Re-connect the cables!
ZTE Corporation
1. Turn the knob of the digital multimeter to the DC voltage scale.
2. Measure the terminal voltage of each battery pack.
Check items: BATT1(-) - GND, BATT2(-) - GND
Main Menu Screen
Battery Voltage Check:
The voltage of each battery pack should be a positive value and not lower than
43.2 V (the value is for reference only ).
Address: No. 55, Hi-tech Road South, ShenZhen, P.R.China
Postcode: 518057
Website: http://ensupport.zte.com.cn
Email: support@zte.com.cn
ZXDU68 W201 (V5.0R05M04) DC Power System
Operating the CSU
Normal Shutdown
The software version of the W201 system with 110V - 127V AC input is V1.0G.
The software version of the W201 system with 220V - 240V AC input is V1.0.
Perform the following operations in the CSU. For details, refer to the ZXDU
CSU500 (SV1.0/SV1.0G) Centralized Supervision Unit Quick Reference.
Manual Power Recovery
Caution
The system shutdown will cause power supply interruption to the loads
connected. Do not shut down the system without permission. Failure to
comply can result in loss of traffic or damage to equipment.
Steps:
When the system is used for the first time, the system and battery parameters
must be set properly according to the actual configuration on site.
1. To ensure that the system is free of loads, remove power from all loads
or switch the loads to another power supply system.
2. Set all DC output circuit breakers to OFF position.
2. (Optional) Set output relays and levels for alarms.
Users can set the output relay and level for each alarm and record the setting in
the “Alarm List”.
3. (Optional) Set attributes for input relays.
Users can set the alarm name and alarm state for each input relay. The default
alarm state of each input relay is “Close”.
Starting the Rectifiers
3. Set all battery circuit breakers to OFF position.
4. Set W201 AC input circuit breaker to OFF position.
5. Set the AC output circuit breaker (in the AC power distribution box) to
OFF position to remove power from the W201 system.
Caution
The emergency shutdown should only be performed during an emergency.
Failure to comply can result in loss of traffic or damage to equipment.
Steps:
Steps:
1. Install the rectifiers one by one.
2. Set all battery circuit breakers to OFF position.
SIU
SMR 3
SMR 4
CSU
Startup
High current leakage exists during the system operation. The system must be
well grounded before power-on. Failure to comply can result in damage to
equipment or operation failure.
Steps:
Prerequisites:
1. Ensure that power switches of the load equipment are set to OFF position.
2. Set the DC output circuit breakers connected to the load equipment to ON position.
Before startup, ensure that the system has been properly installed and
configured and all required tests has passed.
3. Use a multimeter to check DC power supply for one of the loads.
Steps:
Red probe (+): Touching the +/GND connection terminal of the load
Black probe (-): Touching the -48 V connection terminal of the load
4. Verify that the multimeter indicates a value of 42 V to 58 V.
5. After the test has passed for all loads, set power switches of the load equipment to
ON position.
Red probe
PB +PL
BLVD ON
+1
Maximum output power of a single rectifier
PB (power required by the battery charging) =
Nominal voltage of the battery pack × Rated battery charging current
For example, PB = 48 V × 0.15C10
PL (load power): Marked on the nameplate of the load
Maximum output power of a single rectifier: 3000 W
When the CSU operates properly, activate the rectifiers that are deactivated in Step 2.
Connecting Loads to the System
DC INPUT
_
+
LLVD2 ON
Follow-Up Action:
Caution
DC Load
LLVD1 ON
If the CSU is operating properly, the CSU can accordingly disconnect the
branch(es) that is (are) manually connected through the above steps.
Device Addresses of the Rectifiers
SMR 2
2. Because the CSU is ineffective and cannot limit the output current of the
rectifiers, to avoid high-current charging to the batteries, calculate the
quantity of the rectifiers that need to operate according to the total load
power and the power required by the battery charging. Deactivate the
excessive rectifiers according to the calculation result. (Note: Keep phase
balance.)
Note:
2. Set device addresses for the rectifiers one by one.
SMR 1
1. Press the LLVD1 ON button to connect the LLVD1 branch to the system.
The LLVD1 loads are powered on.
Quantity of required =
rectifiers
Caution
1. Set the AC output circuit breaker (in the AC power distribution box) to
OFF position to remove power from the W201 system.
Refer to the “Setting the Device Addr. of a Rectifier” section in the ZXDU
CSU500 (SV1.0/SV1.0G) Centralized Supervision Unit Quick Reference.
Steps:
3. Press the LLVD2/BLVD ON button to connect the battery branch to the
system and charge the batteries. Omit this step if the LLVD2/BLVD
disconnection has not occurred.
Emergency Shutdown
For the W201 system with 110V - 127V AC input (software version: V1.0G),
manually enable the CSU to count operating rectifiers after removing a rectifier
from the cabinet. Failure to comply can result in the SMR Comm.Fail (SMR
communication failure) alarm.
For the W201 system with 220V - 240V AC input (software version: V1.0), set
the SMR Quantity parameter according to actual number of operating rectifiers.
Note:
The disconnection mode (LLVD1, LLVD2, BLVD) is subject to the contract.
Steps:
1. Set system and battery parameters.
When the system is in the state of LLVD1 or LLVD2/BLVD disconnection, if
the CSU is ineffective despite that the AC recovers and the rectifiers output
DC power, users can perform the following steps to manually connect the
disconnected branch(es).
1. Set the AC output circuit breaker (in the AC power distribution box) to
ON position to apply power to the W201 system.
Manually Enabling the CSU to Count
Operating Rectifiers (for software V1.0G only)
When a new rectifier is installed, the CSU can automatically count operating rectifiers.
When a rectifier is removed from the cabinet, select SMR Ctrl. > CAN Dev.Stat. to manually
enable the CSU to count operating rectifiers. Otherwise, the SMR Comm.Fail (SMR
communication failure) alarm will be activated.
Ctrl.
2. Set AC input circuit breaker to ON position.
Ent
3. Wait for the rectifiers and CSU to start up automatically. Verify that the
CSU displays the main menu screen.
DC output circuit breaker
Batt.Manage
SMR Ctrl.
Save Ctrl.
Alm.Ctrl.
GEN Ctrl.
Ent
Initial password: 0000
Ctrl.
Batt.Manage
SMR Ctrl.
Save Ctrl.
Alm.Ctrl.
GEN Ctrl.
Test Criteria:
Positive value of 42 V to 58 V
Maintenance Suggestion:
If the measured value is negative, it
Black probe indicates that the positive and negative
DC output cables are reversed and need
to be removed and connected to the
correct terminals.
ZTE Corporation
Ctrl.
Password:
0000
4. Set all battery circuit breakers to ON position.
5. Set the DC output circuit breakers to ON position to power the DC loads.
ON
Edit
Address: No. 55, Hi-tech Road South, ShenZhen, P.R.China
Ent
SMR-1#1/4
SMR Sleep
SMR Waken
SMR Fan Ctrl.En.
SMR Fan Ctrl.Dis.
CAN Dev.Stat.
SMR-1#1/4
SMR Sleep
SMR Waken
SMR Fan Ctrl.En.
SMR Fan Ctrl.Dis.
CAN Dev.Stat.
/
Message
Ent
: to select an item
Succeed!
Esc : to return to the
upper-level interface
Postcode: 518057
Website: http://ensupport.zte.com.cn
Email: support@zte.com.cn
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