Abt Powerline SC1-8 Panduan Produk - Halaman 6

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Discharge

Discharge Characteristics

The curves shown in Figure

rates shown in Table 3 illustrate the typical discharge

characteristics of Powerline SC at an ambient

temperature of 20 C. The symbol "C"expresses the

nominal capacity of the battery measured at a 20-Hour

discharge rate. Please refer to General Specifications to

determine the nominal capacity rating of specific

Powerline SC models. The standard industry practice to

determine the nominal capacity of a valve regulated

lead acid battery is to discharge the battery under test

at C and 1.75Vpc.

Table 3 shows the different currents that can be drawn

at various discharge capacity rates.

Table 4 shows that the rated nominal capacity of a

battery is reduced when it is discharged at a value of

current that exceeds its 20-Hour discharge rate. This

should be taken into consideration when a battery is

being selected for a particular application.

Figure1. Discharge Characteristics

v/6v

v/12v

6.5

13.0

6.0

12.0

5.5

11.0

5.0

10.0

4.5

9.0

4.0

8.0

3.5

7.0

Table 1. Discharge current at stipulated discharge

rates

20 Hr.

Capacity

0.05C 0.10C 0.15C 0.20C 0.25C 0.40C 0.60C 1.0C 2.0C 3.0C

0.35

0.70 1.05

7.5

0.375

0.75 1.125

0.40

0.80 1.20

0.60

1.20 1.80

0.90

1.80 2.70

and the discharge current

0.17C 0.019C

0.25C

0.6C

3C 2C

20 30

Discharge time

Discharge Current(A,20 C)

1.4

1.75

2.8

4.2

1.5

1.875 3.0

4.5

1.6

2.0

3.2

4.8

2.4

3.0

4.8

7.2

3.6

4.5

7.2

10.8

Table 2. Discharge capacity at various discharge

rates

20 Hr.

Capacity

Over Discharge (Deep Discharge)

The dotted line in Figure 1 indicates the lowest

recommended voltage under load, or cut off voltage, for

Powerline SC at various discharge rates. In general, lead

acid batteries are damaged in terms of capacity and

service life if discharged below the recommended cut off

voltages. It is generally recognized that all lead calcium

alloy grid batteries are subject to over discharge damage.

For example, if a lead acid battery were discharged to

zero volts, and left standing in either "on" or "off " load

0 . 0 5 C

conditions for a long period of time, severe sulphation

would occur, raising the internal resistance of the battery

abnormally high. In such an extreme case, the battery

may not accept charge. Powerline SC have been designed

to withstand some levels of over-discharge. However,

whilst this is not the recommended way of operation,

20 30

Powerline SC can recover their capacity when recharged

correctly. Final discharge voltage is shown in Table 3.

Table 3. Final discharge voltage

Discharge current

7.0 14.0 21.0

0.2 C ≤

7.5

15 22.5

0.5 C ≤

If a battery is to be discharged at a rate in excess of 3C

Amps, please contact us prior to use.

Temperature characteristics

At higher temperatures, the electrical (Ah) capacity of a

battery increases and conversely at lower temperatures,

the electrical (Ah) capacity of a battery decreases.

Discharge Current(A,20 C)

10Hr

5Hr

20Hr

TO 1.75V/C TO 1.75V/C TO 1.75V/C TO 1.70V/C TO 1.60V/C

0.350

0.651

1.180

0.375

0.698

1.287

0.400

0.745

1.374

0.600

1.116

2.057

0.900

1.674

2.978

Final discharge voltage

(Ampere)

≤0.2 C

0.5 C

1.0 C

1.0C ≤

3Hr

1Hr

1.865

4.410

2.020

4.775

2.128

5.040

3.197

7.560

4.688

11.340

(V/c)

1.75

1.70

1.65

1.60