Part 1 Part 1 Part 1 Part 1 Part 1 Descriptions of Battery Model Descriptions of Battery Model Descriptions of Battery Model Descriptions of Battery Model Descriptions of Battery Model Part 2 Part 2 Part 2 Part 2 Part 2 Selection of batteries used for communication power supplies Selection of batteries used for communication power supplies Selection of batteries used for communication power supplies Selection of batteries used for communication power supplies Selection of batteries used for communication power supplies Part 3 Part 3 Part 3 Part 3 Part 3 Selection of batteries used for UPS Selection of batteries used for UPS Selection of batteries used for UPS Selection of batteries used for UPS Selection of batteries used for UPS Appendix A Appendix A Appendix A Appendix A Appendix A Emerson battery series Emerson battery series Emerson battery series Emerson battery series Emerson battery series Appendix B Appendix B Appendix B Appendix B Appendix B Appendix C Appendix C Appendix C Appendix C Appendix C Battery glossaries and abbreviations Battery glossaries and abbreviations Battery glossaries and abbreviations Battery glossaries and abbreviations Battery glossaries and abbreviations Query table of battery model used for telecom power Query table of battery model used for telecom power Query table of battery model used for telecom power Query table of battery model used for telecom power Query table of battery model used for telecom power system, installation rack/cabinet and the total weight system, installation rack/cabinet and the total weight system, installation rack/cabinet and the total weight system, installation rack/cabinet and the total weight system, installation rack/cabinet and the total weight CONTENT
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Part 1Part 1Part 1Part 1Part 1 Descriptions of Battery ModelDescriptions of Battery ModelDescriptions of Battery ModelDescriptions of Battery ModelDescriptions of Battery Model
Part 2Part 2Part 2Part 2Part 2 Selection of batteries used for communication power suppliesSelection of batteries used for communication power suppliesSelection of batteries used for communication power suppliesSelection of batteries used for communication power suppliesSelection of batteries used for communication power supplies
Part 3Part 3Part 3Part 3Part 3 Selection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPS
Appendix AAppendix AAppendix AAppendix AAppendix A Emerson battery seriesEmerson battery seriesEmerson battery seriesEmerson battery seriesEmerson battery series
Appendix BAppendix BAppendix BAppendix BAppendix B
Appendix CAppendix CAppendix CAppendix CAppendix C Battery glossaries and abbreviationsBattery glossaries and abbreviationsBattery glossaries and abbreviationsBattery glossaries and abbreviationsBattery glossaries and abbreviations
Query table of battery model used for telecom powerQuery table of battery model used for telecom powerQuery table of battery model used for telecom powerQuery table of battery model used for telecom powerQuery table of battery model used for telecom power
system, installation rack/cabinet and the total weightsystem, installation rack/cabinet and the total weightsystem, installation rack/cabinet and the total weightsystem, installation rack/cabinet and the total weightsystem, installation rack/cabinet and the total weight
CONTENT
T 12 V 100 SE / A
Part 1:Part 1:Part 1:Part 1:Part 1:Descriptions of Battery ModelDescriptions of Battery ModelDescriptions of Battery ModelDescriptions of Battery ModelDescriptions of Battery Model
Example :T12V100SE/AExample :T12V100SE/AExample :T12V100SE/AExample :T12V100SE/AExample :T12V100SE/A
Identity number differences of batteries expressed by A,B,C....... no default)
Structure expressed by 1-3 bits capital letters, see the explanations below
Capacity(rated capacity for Telion series, it is C10 for UPStar series, it is C20)
Voltage rated voltage of battery, not default value
Series number English capital letters T stands for Telion series U stands for UPStar
series
N o t e
The structure is expressed by 1-3 bits of capital letters and the definitions are given below:
Fire retardant S (Security); defined as default if the battery is not fire retardant
Front access F (Front Access); Front access is defined as default
Gas collection E (Environmental); No gas collection is defined as default
Old battery model is kept in the brackets, such as T2V200E/A GFM-200
P a r t 2P a r t 2P a r t 2P a r t 2P a r t 2Selection of batteries used forSelection of batteries used forSelection of batteries used forSelection of batteries used forSelection of batteries used for
communication power suppliescommunication power suppliescommunication power suppliescommunication power suppliescommunication power supplies
1. Procedures for selecting battery1. Procedures for selecting battery1. Procedures for selecting battery1. Procedures for selecting battery1. Procedures for selecting battery
Step Step Step Step Step 11111 Select the batteries with the reference to the tables in the rear part according to the following rules and the battery capacity calculated
through power supply selection (The Telion series batteries for selection include: 6V100Ah, 12V40Ah, 12V50Ah, 12V65Ah, 12V80Ah,
(1) Two 48V battery strings connected in parallel are the main configuration, other configurations are subordination selections;
(2) Select 2V battery for the capacity above 48V400Ah (2 battery strings in parallel should be given the top priority, 1 string or less
than 6 strings in parallel is the auxiliary configuration) ;
(3) Select 12V battery for the capacity below 48V300Ah (2 battery strings in parallel is the main configuration, 1 string or 3 strings
in parallel is the auxiliary configuration) ; 2V battery can also be selected (1 battery string of 48V200Ah or 48V300Ah) , among
them, 2 battery strings in parallel is the preferable scheme.
(4) Cautions for configuring battery capacity
1) Configuration of battery strings: For important telecom station, the batteries should be configured in 1+1 redundancy mode.
Under other conditions, the designing capacity should be halved or only one battery string is selected.
2) Upper limit of battery capacity: Cmax 50Iload
Step Step Step Step Step 22222 Determine the battery installation mode according to battery capacity and field reconnaissance data of battery room
(1) Field reconnaissance data of battery room include bearing capacity of floor (if the equipment is installed in 2nd floor or above),
space of machine room, anti-shock requirements and so on;
(2) User can also select the installation mode designed by ENP, which is much more widely applied;
(3) Battery installation mode should be defined clearly if special design is required according to actual machine room layout.
P a r t 2P a r t 2P a r t 2P a r t 2P a r t 2Selection of batteries used forSelection of batteries used forSelection of batteries used forSelection of batteries used forSelection of batteries used for
communication power suppliescommunication power suppliescommunication power suppliescommunication power suppliescommunication power supplies
2. Installation illustrations and parameters of batteries used for2. Installation illustrations and parameters of batteries used for2. Installation illustrations and parameters of batteries used for2. Installation illustrations and parameters of batteries used for2. Installation illustrations and parameters of batteries used for communication power system communication power system communication power system communication power system communication power system2.1. Installation illustrations and parameters of 48V100Ah battery2.1. Installation illustrations and parameters of 48V100Ah battery2.1. Installation illustrations and parameters of 48V100Ah battery2.1. Installation illustrations and parameters of 48V100Ah battery2.1. Installation illustrations and parameters of 48V100Ah battery
Single layer single row installation illustration
of 48V100Ah battery
Note: Battery installation mode can be designed according to reconnaissance data(space of machine room, bearing capacity of floor and anti-shock
requirements and so on) Please refer to Appendix B if battery cabinet is used.
2.2 Installation illustrations and parameters of 48V200Ah battery 2.2 Installation illustrations and parameters of 48V200Ah battery 2.2 Installation illustrations and parameters of 48V200Ah battery 2.2 Installation illustrations and parameters of 48V200Ah battery 2.2 Installation illustrations and parameters of 48V200Ah battery
2-layer 2-row installation illustration of 48V200Ah 6-layer flat-laying installation illustration of 48V200Ah
Capacity of
battery strings
48V200Ah
battery model
T2V200E/A GFM-200
Quantity
(PCS)
24
Battery installation sizes
(L W H)
662 450 1122
874 400 1006
Total weight
K g
410
422
Remark
2-layer 2-row battery rack
6-layer flat-laying battery rack
Note: Battery installation mode can be designed according to reconnaissance data(space of machine room, bearing capacity of floor and anti-shock
requirements and so on) Please refer to Appendix B if battery cabinet is used.
Capacity of
battery strings
48V100Ah
battery model
T12V100SE/B 6-GFM-10019N
Quantity(PCS)
4
Battery installation sizes
(L W H)
796 452 298
Total weight
K g
200
Remark
Single layer single row battery rack
P a r t 2P a r t 2P a r t 2P a r t 2P a r t 2Selection of batteries used forSelection of batteries used forSelection of batteries used forSelection of batteries used forSelection of batteries used for
communication power suppliescommunication power suppliescommunication power suppliescommunication power suppliescommunication power supplies
Note: Battery installation mode can be designed according to reconnaissance data(space of machine room, bearing capacity of floor and anti-shock
requirements and so on) Please refer to Appendix B if battery cabinet is used.
2.3 Installation illustrations and parameters of 48V300Ah battery2.3 Installation illustrations and parameters of 48V300Ah battery2.3 Installation illustrations and parameters of 48V300Ah battery2.3 Installation illustrations and parameters of 48V300Ah battery2.3 Installation illustrations and parameters of 48V300Ah battery
2-layer 2-row installation illustration of 48V300Ah6-layer flat-laying installation illustrationof 48V300Ah
2.4 Installation illustrations and parameters of 48V400Ah2.4 Installation illustrations and parameters of 48V400Ah2.4 Installation illustrations and parameters of 48V400Ah2.4 Installation illustrations and parameters of 48V400Ah2.4 Installation illustrations and parameters of 48V400Ah
Capacity of
battery strings
48V300Ah
battery model
T2V300E/A GFM-300
Quantity
(PCS)
24
Battery installation sizes
(L W H)
932 450 1122
874 400 1276
Total weight
K g
630
643
Remark
2-layer 2-row battery rack
6-layer flat-laying battery rack
Note: Battery installation mode can be designed according to reconnaissance data(space of machine room, bearing capacity of floor and anti-shock
requirements and so on) Please refer to Appendix B if battery cabinet is used.
2-layer 2-row installation illustration of 48V400Ah4-layer flat-laying installation illustrationof 48V400Ah
Capacity of
battery strings
48V400Ah
battery model
T2V400E/A GFM-400
Quantity
(PCS)
24
Battery installation sizes
(L W H)
1058 446 1116
1284 370 1010
Total weight
K g
733
748
Remark
2-layer 2-row battery rack
4-layer flat-laying battery rack
P a r t 2P a r t 2P a r t 2P a r t 2P a r t 2Selection of batteries used forSelection of batteries used forSelection of batteries used forSelection of batteries used forSelection of batteries used for
communication power suppliescommunication power suppliescommunication power suppliescommunication power suppliescommunication power supplies
Capacity of
battery strings
48V500Ah
battery model
T2V500E/A (GFM-500 )
Quantity
(PCS)
24
Battery installation sizes
(L W H)
1148 518 1125
1542 370 1010
Total weight
K g
1015
1035
Remark
2-layer 2-row battery rack
4-layer flat-laying battery rack
Capacity of
battery strings
48V650Ah
battery model
T2V650E/A (GFM-650)
Quantity
(PCS)
24
Battery installation sizes
(L W H)
11148 640 1126
1840 400 1022
Total weight
K g
1200
1221
Remark
2-layer 2-row battery rack
4-layer flat-laying battery rack
Note: Battery installation mode can be designed according to reconnaissance data(space of machine room, bearing capacity of floor and anti-shock
requirements and so on) Please refer to Appendix B if battery cabinet is used.
Note: Battery installation mode can be designed according to reconnaissance data(space of machine room, bearing capacity of floor and anti-shock
requirements and so on) Please refer to Appendix B if battery cabinet is used.
2.5 Installation illustrations and parameters of 48V500Ah2.5 Installation illustrations and parameters of 48V500Ah2.5 Installation illustrations and parameters of 48V500Ah2.5 Installation illustrations and parameters of 48V500Ah2.5 Installation illustrations and parameters of 48V500Ah
2.6 Installation illustrations and parameters of 48V650Ah2.6 Installation illustrations and parameters of 48V650Ah2.6 Installation illustrations and parameters of 48V650Ah2.6 Installation illustrations and parameters of 48V650Ah2.6 Installation illustrations and parameters of 48V650Ah
2-layer 2-row installation illustration of 48V500Ah4-layer flat-laying installation illustrationof 48V500Ah
2.7 Installation illustrations and parameters of 48V800Ah2.7 Installation illustrations and parameters of 48V800Ah2.7 Installation illustrations and parameters of 48V800Ah2.7 Installation illustrations and parameters of 48V800Ah2.7 Installation illustrations and parameters of 48V800Ah
Capacity of
battery strings
48V800Ah
battery model
T2V800/A 6-GFM-10019N
Quantity(PCS)
24
Battery installation sizes
(L W H)
1580 493 1450
Total weight
K g
1524
Remark
Single layer single row battery rack
4-layer flat-laying battery rack
Note: Battery installation mode can be designed according to reconnaissance data(space of machine room, bearing capacity of floor and anti-shock
requirements and so on) Please refer to Appendix B if battery cabinet is used.
2.8 Installation illustrations and parameters of 48V1000Ah2.8 Installation illustrations and parameters of 48V1000Ah2.8 Installation illustrations and parameters of 48V1000Ah2.8 Installation illustrations and parameters of 48V1000Ah2.8 Installation illustrations and parameters of 48V1000Ah
Capacity of
battery strings
48V1000Ah
battery model
T2V1000/A (GFM-1000 )
Quantity(PCS)
24
Battery installation sizes
(L W H)
1580 493 1450
Total weight
K g
1836
Remark
Single layer single row battery rack
4-layer flat-laying battery rack
Note: Battery installation mode can be designed according to reconnaissance data(space of machine room, bearing capacity of floor and anti-shock
requirements and so on) Please refer to Appendix B if battery cabinet is used.
P a r t 2P a r t 2P a r t 2P a r t 2P a r t 2Selection of batteries used forSelection of batteries used forSelection of batteries used forSelection of batteries used forSelection of batteries used for
communication power suppliescommunication power suppliescommunication power suppliescommunication power suppliescommunication power supplies
2.9 Installation illustrations and parameters of 48V1600Ah2.9 Installation illustrations and parameters of 48V1600Ah2.9 Installation illustrations and parameters of 48V1600Ah2.9 Installation illustrations and parameters of 48V1600Ah2.9 Installation illustrations and parameters of 48V1600Ah
Capacity of
battery strings
48V1600Ah
battery model
T2V1600/A (GFM-1600)
Quantity(PCS)
24
Battery installation sizes
(L W H)
4432 784 540
Total weight
K g
3000
Remark
Single layer single row battery rack
single laying 2-row battery rack
Note: Battery installation mode can be designed according to reconnaissance data(space of machine room, bearing capacity of floor and anti-shock
requirements and so on)
2.10 Installation illustrations and parameters of 48V2000Ah2.10 Installation illustrations and parameters of 48V2000Ah2.10 Installation illustrations and parameters of 48V2000Ah2.10 Installation illustrations and parameters of 48V2000Ah2.10 Installation illustrations and parameters of 48V2000Ah
Capacity of
battery strings
48V2000Ah
battery model
T2V2000/A (GFM-2000)
Quantity(PCS)
24
Battery installation sizes
(L W H)
4432 968 540
Total weight
K g
3700
Remark
Single layer single row battery rack
single laying 2-row battery rack
Note: Battery installation mode can be designed according to reconnaissance data(space of machine room, bearing capacity of floor and anti-shock
requirements and so on)
single layer 2-row installation illustrationof 48V1600Ah
single layer 2-row installation illustrationof 48V2000Ah
P a r t 2P a r t 2P a r t 2P a r t 2P a r t 2Selection of batteries used forSelection of batteries used forSelection of batteries used forSelection of batteries used forSelection of batteries used for
communication power suppliescommunication power suppliescommunication power suppliescommunication power suppliescommunication power supplies
2.11 Installation illustrations and parameters of 48V3000Ah2.11 Installation illustrations and parameters of 48V3000Ah2.11 Installation illustrations and parameters of 48V3000Ah2.11 Installation illustrations and parameters of 48V3000Ah2.11 Installation illustrations and parameters of 48V3000Ah
Capacity of
battery strings
48V3000Ah
battery model
T2V3000/A (GFM-3000)
Quantity(PCS)
24
Battery installation sizes
(L W H)
4432 1348 540
Total weight
K g
5560
Remark
Single layer single row battery rack
single laying 2-row battery rack
Note: Battery installation mode can be designed according to reconnaissance data (space of machine room, bearing capacity of floor and anti-shock
requirements and so on)
single layer 2-row installation illustrationof 48V3000Ah
P a r t 2P a r t 2P a r t 2P a r t 2P a r t 2Selection of batteries used forSelection of batteries used forSelection of batteries used forSelection of batteries used forSelection of batteries used for
communication power suppliescommunication power suppliescommunication power suppliescommunication power suppliescommunication power supplies
P a r t 3P a r t 3P a r t 3P a r t 3P a r t 3Selection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPS
1. Procedures for selecting battery1. Procedures for selecting battery1. Procedures for selecting battery1. Procedures for selecting battery1. Procedures for selecting battery
StepStepStepStepStep 1 1 1 1 1 Select the batteries with the reference to the tables in the rear part according to the following rules and the battery capacity calculated through
power supply selection.
1 Telion 2V series battery 400Ah 3000Ah should be used when the capacity of battery strings exceeds 400Ah;
2 Generally, the number of battery strings in parallel is 2 or 3;
3 One battery string is the main configuration mode if the required voltage is high 240V or above , others are subordinate
configuration;
4 Telion series battery should be preferably selected if the backup time is required to be longer than 8h;
5 UPStar series battery(low price) should be preferably selected if the cost is the main considerations.
Two battery series can be selected Telion series 6V100Ah 12V40Ah, 12V50Ah, 12V65Ah, 12V80Ah, 12V100Ah 2V200Ah,
2V300Ah, 2V400Ah, 2V500Ah, 2V650Ah, 2V800Ah, 2V1000Ah, 2V1600Ah, 2V2000Ah, and 2V3000Ah; UPStar series 12V24Ah, 12V38Ah,
12V65Ah, 12V100Ah, and 6V200Ah .
StepStepStepStepStep 22222 Determine the battery installation mode according to battery capacity and field reconnaissance data of battery room
1 Field reconnaissance data of battery room include bearing capacity of floor if the equipment is installed in 2nd floor or
above , space of machine room, anti-shock requirements and so on;
2 User can also select the installation mode designed by ENP, which is much more widely applied;
3 Battery installation mode should be defined clearly if special design is required according to actual machine room layout.
P a r t 3P a r t 3P a r t 3P a r t 3P a r t 3Selection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPS
2. Installation illustration and parameters of UPS batteries2. Installation illustration and parameters of UPS batteries2. Installation illustration and parameters of UPS batteries2. Installation illustration and parameters of UPS batteries2. Installation illustration and parameters of UPS batteries2.1 Installation illustrations and parameters of batteries with 36V rated voltage2.1 Installation illustrations and parameters of batteries with 36V rated voltage2.1 Installation illustrations and parameters of batteries with 36V rated voltage2.1 Installation illustrations and parameters of batteries with 36V rated voltage2.1 Installation illustrations and parameters of batteries with 36V rated voltage
single battery string(36V) installation illustration 2 battery strings(36V) in parallel installation illustration
Capacity of
battery strings
36V38Ah
36V65Ah
36V130Ah
36V200Ah
battery
model
U12V38/A
U12V65/A
U12V65/A
U12V100/A
Quantity
(PCS)
3
3
6
6
Number of
battery strings
1-string
1-string
2-string of 36V65Ah in parallel
2-string of 36V100Ah in parallel
Battery installation sizes
L W H m m
battery cabinet: 450 410 230
battery cabinet 655 432 290
battery cabinet 655 864 290
battery cabinet 655 864 290
Total weight
K g
50
82
164
255
Remark
suitable for 1KVA UPS with backup time of 1h
suitable for 1KVA UPS with backup time of 2h
suitable for 1KVA UPS with backup time of 4h
suitable for 1KVA UPS with backup time of 8h
P a r t 3P a r t 3P a r t 3P a r t 3P a r t 3Selection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPS
Capacity of
battery strings
96V38Ah
96V65Ah
96V100Ah
96V200Ah
battery
model
U12V38/A
U12V65/A
U12V100/A
U12V100/A
Quantity
(PCS)
8
8
8
16
Number of
battery strings
1-string
1-string
1-string
2-string of 96V100Ah in parallel
Battery installation sizes
L W H m m
battery cabinet: 450 450 630
battery cabinet 800 450 630
battery cabinet 800 450 630
battery cabinet 800 900 630
Total weight
K g
132
207
327.2
654.4
Remark
suitable for 2KVA UPS with backup time of 1h
suitable for 2KVA UPS with backup time of 2h
suitable for 2KVA UPS with backup time of 4h
suitable for 2KVA UPS with backup time of 8h
2.2 Installation illustrations and parameters of batteries with 96V rated voltage2.2 Installation illustrations and parameters of batteries with 96V rated voltage2.2 Installation illustrations and parameters of batteries with 96V rated voltage2.2 Installation illustrations and parameters of batteries with 96V rated voltage2.2 Installation illustrations and parameters of batteries with 96V rated voltage
single battery string(96V) installation illustration 2 battery strings(96V) in parallel installation illustration
P a r t 3P a r t 3P a r t 3P a r t 3P a r t 3Selection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPS
Capacity of
battery strings
120V38Ah
120V65Ah
120V100Ah
120V200Ah
battery
model
U12V38/A
U12V65/A
U12V100/A
U12V100/A
Quantity
(PCS)
10
10
10
20
Number of
battery strings
1-string
1-string
1-string
2-string of 120V100Ah in parallel
Battery installation sizes
L W H m m
battery cabinet: 620 450 530
battery cabinet 800 450 900
battery cabinet 800 450 900
battery cabinet 800 900 900
Total weight
K g
158.2
261
411.3
822.6
Remark
suitable for 3KVA UPS with backup time of 1h
suitable for 3KVA UPS with backup time of 2h
suitable for 3KVA UPS with backup time of 4h
suitable for 3KVA UPS with backup time of 8h
2.3 Installation illustrations and parameters of batteries with 120V rated voltage2.3 Installation illustrations and parameters of batteries with 120V rated voltage2.3 Installation illustrations and parameters of batteries with 120V rated voltage2.3 Installation illustrations and parameters of batteries with 120V rated voltage2.3 Installation illustrations and parameters of batteries with 120V rated voltage
single battery string(120V) installation illustration 2 battery strings(120V) in parallel installation illustration
P a r t 3P a r t 3P a r t 3P a r t 3P a r t 3Selection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPS
2.4 Installation illustrations and parameters of batteries with 240V rated voltage2.4 Installation illustrations and parameters of batteries with 240V rated voltage2.4 Installation illustrations and parameters of batteries with 240V rated voltage2.4 Installation illustrations and parameters of batteries with 240V rated voltage2.4 Installation illustrations and parameters of batteries with 240V rated voltage
240V38Ah installation illustration 1 battery string(240V) installation illustration 2 battery strings(240V) in parallel 4 battery strings(240V) in parallel
Capacity of
battery strings
240V38Ah
240V65Ah
240V100Ah
240V200Ah
240V400Ah
battery
model
U12V38/A
U12V65/A
U12V100/A
U12V100/A
U12V100/A
Quantity
(PCS)
20
20
20
40
80
Number of
battery strings
1-string
1-string
1-string
2-string of
240V100Ah in parallel
4-string of
240V100Ah in parallel
Battery installation sizes
L W H m m
battery cabinet 800 450 900
battery cabinet 980 450 1245
battery cabinet 980 450 1245
battery cabinet 980 450 1245 total
2PCS
battery cabinet 980 450 1245 total
4PCS
Total weight
K g
301.3
502
802
1604
3208
Remark
suitable for 6KVA UPS with backup time of 1h
suitable for 6KVA UPS with backup time of 2h
or 10KVA UPS with backup time of 1h
suitable for 6KVA UPS with backup time of 4h
or 10KVA UPS with backup time of 2h
suitable for 6KVA UPS with backup time of 8h
or 10KVA UPS with backup time of 4h
suitable for 10KVA UPS with backup time
of 8h
2.5 Installation illustrations and parameters of batteries with 480V rated voltage2.5 Installation illustrations and parameters of batteries with 480V rated voltage2.5 Installation illustrations and parameters of batteries with 480V rated voltage2.5 Installation illustrations and parameters of batteries with 480V rated voltage2.5 Installation illustrations and parameters of batteries with 480V rated voltage
single battery string(480V) installation illustration 2 battery strings(480V) in parallel 3 battery strings(480V) in parallel
Capacity of
battery strings
480V24Ah
480V38Ah
480V65Ah
480V100Ah
480V130Ah
480V200Ah
480V300Ah
battery
model
U12V24/A
U12V38/A
U12V65/A
U12V100/A
U12V65/A
U12V100/A
U12V100/A
Quantity
(PCS)
40
40
40
40
80
80
120
Number of
battery strings
1-string
1-string
1-string
1-string
2-string of
480V65Ah in parallel
2-string of
480V100Ah in parallel
3-string of
480V100Ah in parallel
Battery installation sizes
L W H m m
battery cabinet
800 450 900 total 2PCS
battery cabinet
800 450 900 total 2PCS
battery cabinet
980 450 1245 total 2PCS
battery cabinet
980 450 1245 total 2PCS
battery cabinet
980 450 1245 total 4PCS
battery cabinet
980 450 1245 total 4PCS
battery cabinet
980 450 1245 total 6PCS
Total weight
K g
430.6
602.6
1004
1604
2008
3208
4812
Remark
suitable for 10KVA UPS with backup time of 1h
or 15KVA UPS with backup time of 30min
suitable for 15KVA UPS with backup time of 1h
or 20KVA UPS with backup time of 30min
suitable for 10KVA UPS with backup time of 2h
or 20KVA UPS with backup time of 1h
suitable for 10KVA UPS with backup time of 4h
or 15KVA/20KVA UPS with backup time of 2h
suitable for 15KVA UPS with backup time of 4h
suitable for 10KVA/15KVA UPS with backup time of 8h
or 20KVA UPS with backup time of 4h
suitable for 20KVA UPS with backup time of 8h
P a r t 3P a r t 3P a r t 3P a r t 3P a r t 3Selection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPS
2.6 Installation illustrations and parameters of batteries with 360V rated voltage2.6 Installation illustrations and parameters of batteries with 360V rated voltage2.6 Installation illustrations and parameters of batteries with 360V rated voltage2.6 Installation illustrations and parameters of batteries with 360V rated voltage2.6 Installation illustrations and parameters of batteries with 360V rated voltage
1 battery string(360V) (12V cell) 2 battery strings(360V) in parallel (12V cell) 3 battery strings (360V) in parallel (12V cell)
P a r t 3P a r t 3P a r t 3P a r t 3P a r t 3Selection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPS
P a r t 3P a r t 3P a r t 3P a r t 3P a r t 3Selection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPS
Capacity of
battery strings
360V24Ah
360V38Ah
360V48Ah
360V65Ah
360V100Ah
360V130Ah
360V200Ah
360V300Ah
battery
model
U12V24/A
U12V38/A
U12V24/A
U12V65/A
U12V100/A
U12V65/A
U12V100/A
U12V100/A
Quantity
(PCS)
30
30
60
30
30
60
60
90
Number of
battery strings
1-string
1-string
2-string of
360V24Ah in parallel
1-string
1-string
2-string of
360V65Ah in parallel
2-string of
360V100Ah in parallel
3-string of
360V100Ah in parallel
Battery installation sizes
L W H m m
One 20PCS-battery cabinet (800
450 900) and one 10PCS-battery
cabinet 620 450 530
One 20PCS-battery cabinet 800
450 900 and one 10PCS-battery
cabinet 620 450 530
battery cabinet
800 450 900 total 3PCS
battery cabinet
820 821.5 1400
battery cabinet
1000 800 1800
battery cabinet
1640 821.5 1400
battery cabinet
1000 800 1800 total 2PCS
battery cabinet
1000 800 1800 total 3PCS
Total weight
K g
330.5
460
646
815
1325
1630
2650
3975
Remark
suitable for 20KVA UPS with backup
time of 10min
suitable for 20KVA UPS with backup time of
15min; or 30KVA UPS with backup time of 10min
suitable for 30KVA UPS with backup time of 15min
suitable for 20KVA/30KVA UPS with backup time
of 30min or 40KVA UPS with backup time of
10min/15min or 60KVA with backup time of 10min
suitable for 20KVA UPS with backup time of 1h;
or 40KVA UPS with backup time of 30min
or 60KVA UPS with backup time of 15min;
suitable for 20KVA UPS with backup time of 2h
or 30KVA UPS with backup time of 1h
suitable for 20KVA UPS with backup time of 3h
or 30KVA UPS with backup time of 2h;
or 40KVA UPS with backup time of 1h
or 60KVA UPS with backup time of 30min
suitable for 20KVA UPS with backup time of 4h/5h;
or 30KVA UPS with backup time of 3h/4h;
or 40KVA UPS with backup time of 2h;
or 60KVA UPS with backup time of 1h
P a r t 3P a r t 3P a r t 3P a r t 3P a r t 3Selection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPS
2.7 Installation illustrations and parameters of batteries with 384V rated voltage2.7 Installation illustrations and parameters of batteries with 384V rated voltage2.7 Installation illustrations and parameters of batteries with 384V rated voltage2.7 Installation illustrations and parameters of batteries with 384V rated voltage2.7 Installation illustrations and parameters of batteries with 384V rated voltage
P a r t 3P a r t 3P a r t 3P a r t 3P a r t 3Selection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPS
P a r t 3P a r t 3P a r t 3P a r t 3P a r t 3Selection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPSSelection of batteries used for UPS
M a i n f e a t u r e sM a i n f e a t u r e sM a i n f e a t u r e sM a i n f e a t u r e sM a i n f e a t u r e s1 Long life in telecom level Designing according to special telecom requirements with 15-year designing life.2 New generation grid alloy: The battery has strong anti-corrosion and anti-distortion capabilities because its grid uses special alloy made of Pb-Ca-Sn-Al
low percent of Ca, high percent of Sn , which ensures the long life of the battery. Besides, the level of negative pole is improved, which can suppress the generation of hydrogento prevent the water in the electrolyte from decomposing.
3 High reliable sealing The terminals are sealed reliably. They are coated with a layer of heat-shrinking tube that can act as a protection coat after being heated. An O -shape sealing ring is installed around the tube and the ring is the second sealing protection layer. The upper part of the terminal is sealed with imported resin that can act as a thirdsealing protection coat. Thus these three protection coat guarantee the battery have no leakage, so the leakage problem is solved completely.
4 Excellent deep-discharging recovery function: Perform short circuit test on the batteries. The battery capacity can maintain at 95% or above after 5 times of cycle dischargetest.
5 Anti heat-failure function If the battery is charged with constant voltage at 75 ambient temperature, the charging current will not increase abnormally, which indicatesthat the battery has a strong temperature adaptability.
6 Patented gas collection device The device collects the gas(mainly hydrogen) generated in charging process(such as high temperature and sealing environment) and thepossible acid fog, process them and then expel the waste gases, thus gas accumulation is avoided and the adaptability of the battery to environment is improved. Suitable for:Mobile station outdoor, network access(integrated cabinet) and other precise equipment.
7 UL and CE safety certification: Product using safety is fully guaranteed.
M a i n f e a t u r e sM a i n f e a t u r e sM a i n f e a t u r e sM a i n f e a t u r e sM a i n f e a t u r e s1 Simple maintenance: Sealing technology is used, so there is no necessity of adding water or acid periodically in the
whole life of the battery.
2 Safe & Reliable No abundant electrolyte, anti-explosion design
3 Small self-discharging: Self discharging each day is below 0.1%
4 Reliable sealing Multi-sealing technology is used to guarantee no leakage of the battery
5 Small internal resistance: Good discharging performance at big current
6 Long life: 10-year designing float-charging life
Query table of battery model used forQuery table of battery model used forQuery table of battery model used forQuery table of battery model used forQuery table of battery model used fortelecom power system, installationtelecom power system, installationtelecom power system, installationtelecom power system, installationtelecom power system, installationrack/cabinet and the total weightrack/cabinet and the total weightrack/cabinet and the total weightrack/cabinet and the total weightrack/cabinet and the total weight
Appendix BAppendix BAppendix BAppendix BAppendix B
SN battery capacity
and quantitybattery model installation
mode
Rack for single layer single row
rack for 2-layer 1-row
rack for 2-layer flat-laying
rack for 2-layer 3-row
Cabinet for single layer single row
cabinet for 2-layer 1 row
cabinet for 3-layer 1 row
Code of single battery
Code of single battery
8PCS can be placed in ONUF01B
Used for microwave base stationCode of single battery 4PCScan be placed in ONU512A, 8PCScan be placed in ONU512C
Query table of battery model used forQuery table of battery model used forQuery table of battery model used forQuery table of battery model used forQuery table of battery model used fortelecom power system, installationtelecom power system, installationtelecom power system, installationtelecom power system, installationtelecom power system, installationrack/cabinet and the total weightrack/cabinet and the total weightrack/cabinet and the total weightrack/cabinet and the total weightrack/cabinet and the total weight
Appendix BAppendix BAppendix BAppendix BAppendix B
VRLA battery Valve Regulated Lead-Acid battery
CCV Close Circuit Voltage
OCV Open Circuit Voltage
Ah Unit of battery capacity Ah
Vf Float Charging Voltage
C10 10h rate rated capacity Ah the value is 1.00 C10
C3 3h rate rated capacity Ah the value is 0.75 C10
C1 1h rate rated capacity Ah the value is 0.55 C10
Ct Actual measured capacity of battery Ah which is the value obtained
by multiplying the discharging current I(A) with the discharging time t(h)
Ce Actual measured capacity of battery Ah at 25 basic temperature
I10 10h rate discharging current, the value is 1.00I10(A)
I3 3h rate discharging current, the value is 2.50I10(A)
I1 1h rate discharging current, the value is 5.50I10(A)
Appendix CAppendix CAppendix CAppendix CAppendix CBBBBBaaaaatttttttttteeeeerrrrry gly gly gly gly glooooossssssssssarieariearieariearies ans ans ans ans andddddabbreviationsabbreviationsabbreviationsabbreviationsabbreviations