Backup Power Solutions

Products

GEL 6GFM200GD

6GFM200GD is GEL deep cycle battery superiorly designed for frequent cyclic discharge applications under extreme temperature. By using strong grid to insure reliable performance under frequent cyclic discharge use. 400 cycles could be available at 100% DOD. Offering extra-durable cyclic performance, high efficiency of recovery, that is more suitable for solar, mobility, E-toll, marine, deep discharge UPS etc..

Specification

Cells Per Unit

6

Voltage Per Unit

12

Capacity

200AH@10hr-rate to 1.75V per cell @ 25℃

Weight

Approx. 64.2kg (Tolerance±2%)

Max. Discharge Current

2000A(5sec)

Internal Resistance

-

Operating Temperature Range

Discharge: -20℃~60℃
Charge: -20℃~50℃
Storage: -20℃~60℃

Normal Operating Temperature Range

25±5℃

Float Charging Voltage

13.6 to 13.8 VDC/unit Average at 25℃

Recommended Maximum Charging
Current

60A

Equalization and Cycle Service

14.6 to 14.8 VDC /unit Average at 25℃

Self Discharge

C-POWER Valve Regulated Lead Acid(VRLA) can be stored for more than
6 months at 25℃. Self-discharge ratio less than 3% per month at 25℃.
Please charge batteries before using.

Terminal

Terminal F10/F16

Container Material

A.B.S. UL94-HB, Flammability resistance of UL94-V2 can be avail upon request.

 

Constant Current Discharge Characteristics: A(25℃)

F.V/Time

5MIN

10MIN

15MIN

30MIN

1HR

2HR

3HR

4HR

5HR

8HR

10HR

20HR

9.60V

545.12

408.33

344.69

225.33

130.00

77.788

53.766

44.064

36.067

24.844

21.006

11.553

10.0V

529.36

388.53

337.62

221.61

129.40

77.204

53.560

43.860

35.855

24.642

20.804

11.343

10.2V

513.67

374.81

332.31

219.65

128.20

76.619

53.148

43.656

35.643

24.440

20.602

11.133

10.5V

461.25

345.86

316.41

214.16

127.00

76.034

52.942

43.248

35.219

24.238

20.400

10.923

10.8V

416.33

315.39

291.66

204.76

124.00

74.669

51.500

42.228

34.582

23.834

20.198

10.713

11.1V

355.48

281.87

261.61

191.83

117.80

71.355

49.234

40.188

33.097

22.824

19.592

10.083

 

 

Constant Power Discharge Characteristics: W(25℃)

F.V/Time

5MIN

10MIN

15MIN

30MIN

1HR

2HR

3HR

4HR

5HR

8HR

10HR

20HR

9.60V

5683.2

4348.7

3791.6

2568.8

1502.2

916.87

639.82

525.24

430.28

296.63

251.02

138.52

10.0V

5527.2

4215.5

3730.7

2537.4

1498.6

912.01

640.04

524.57

429.18

295.21

249.44

136.12

10.2V

5464.0

4104.2

3688.7

2519.4

1487.0

906.51

637.24

523.44

427.71

293.28

247.22

133.60

10.5V

4974.3

3821.8

3518.4

2460.7

1473.7

899.92

634.77

518.54

422.62

290.85

244.80

131.08

10.8V

4530.6

3522.9

3252.0

2358.8

1446.5

888.45

617.49

506.74

414.98

286.00

242.38

128.56

11.1V

3979.4

3185.1

2927.4

2215.6

1384.6

855.45

590.81

482.26

397.16

273.89

235.10

120.99

 

 

 

Capacity Factors With Different Temperature

Battery Type

-20℃

-10℃

0℃

5℃

10℃

20℃

25℃

30℃

40℃

45℃

GEL Battery

6V & 12V

50%

70%

83%

85%

90%

98%

100%

102%

104%

105%

2V

60%

75%

85%

88%

92%

99%

100%

103%

105%

106%

AGM Battery

6V & 12V

46%

66%

76%

83%

90%

98%

100%

103%

107%

109%

2V

55%

70%

80%

85%

92%

99%

100%

104%

108%

110%

 

Discharge Current VS. Discharge Voltage

Final Discharge Voltage V/cell

1.75V

1.70V

1.60V

Discharge Current (A)

A≤0.2C

0.2C≤A≤1.0C

≥1.0C

Charge the batteries at least once every six months, if they are stored at 25℃

Charging Method:

Constant Voltage

-0.2C*2h+2.4-2.45V/cell*24h, Max. Current 0.3CA

Constant Current

-0.2C*2h+0.1CA*12h

Fast

-0.2C*2h+0.3CA*4.0h

Maintenance & Cautions

Cycle Service

  • Avoid battery over discharge, especially battery sereis connection use.
  • Charged with recommend voltage, ensure battery can be full recharged.

In general, recharge capacity should be 1.1-1.15 times discharge capacity.

  • Effect of temperature on cycle charge voltage: -4mV/℃/Cell.
  • There are a number of factors that will affect the length of cyclic service.

The most significant are depth of discharge, ambient temperature, discharge rate, and the manner in which the battery is recharged.

Generally specking, the most important factors is depth of discharge