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Reduction in Usable Capacity at Higher Discharge Rates
As stated above, the rated capacity of the battery in Ah is normally applicable at a
discharge rate of 20 Hours. As the discharge rate is increased, the usable capacity
reduces due to "Peukert Effect". This relationship is not linear but is more or less
according to the Table below:
HOURS OF
DISCHARGE
20 Hrs.
10 Hrs.
8 Hrs.
6 Hrs.
5 Hrs.
3 Hrs.
2 Hrs.
1 Hrs.
Using the above Table will show that a 100 Ah capacity battery will deliver 100% (i.e.
full 100 Ah) capacity if it is slowly discharged over 20 hours at the rate of C/20 A or 5A.
However, if it is discharged at a rate of 2 Hrs. (C/2A or 50A) then theoretically, it should
provide 100 Ah ÷ 50A = 2 Hours. However, the Table above shows that for 2 Hours
discharge rate (C/2A or 50A), the capacity is reduced to 50% (i.e. 50 Ah). Therefore, at
50 Ampere discharge rate the battery will actually last for 50 Ah ÷ 50A = 1 Hour.
State of Charge (SOC) of a Battery
The "Standing Voltage" of a battery can approximately indicate the State of Charge
(SOC) of the battery. The "Standing Voltage" is measured after disconnecting any
charging device(s) and the battery load(s) and letting the battery "stand" idle for
3 to 8 hours before the voltage measurement is taken. Table 3.3 shows the State of
Charge versus Standing Voltage for a 12V battery system (6 cells in series) at around
80ºF (26.7ºC). For 24-volt systems, multiply by 2 (12 cells in series); for 48-volt systems,
multiply by 4 (24 cells in series).
GENERAL INFORMATION: BATTERIEs
DISCHARGE
RATE
FOR 100Ah BATTERy
C/20 A
C/10 A
C/8 A
C/6 A
C/5 A
C/3 A
C/2 A
C A
Table 3.2. Battery Capacity versus Rate of Discharge
DISCHARGE RATE
5A
10A
12.5A
16.7A
20A
33.3A
50A
100A
3
USABLE
CAPACITy
100 %
87 %
83 %
75 %
70 %
60 %
50 %
40 %
13
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