Installation Manual
10
FLOODED LEAD ACID BATTERY CHARGING
MULTI-PHASE CHARGING
The most common type of charge method at present is a three phase charge
plus periodic equalizations. Check with your charger manufacturer for specific
programming instructions.
BULK CHARGE
The first phase of the charging process is the bulk charge. This is when the
maximum amount of current flows into the battery bank until a desired voltage
is reached. The recommended charge current is 10%-20% of the AH capacity
of the battery bank, based on the 20 Hr AH rate (C20). Higher current levels
may cause the battery bank to overheat. A lower current may be used; however,
this will prolong charge time and increase the potential for sulfation build-up.
Bulk charge voltage set points are outlined in Table 2 (a) & 2 (b) Flooded
Charging Parameters.
ABSORPTION CHARGE
The most important part of the charge cycle is the Absorption charge. The Bulk
charge typically recharges the battery bank to approximately 80% state of
charge, the Absorption charge then completes the charging cycle. Most three
phase chargers include an Absorption time setting which allows the user to
program the duration of time needed to reach a full state of charge. To set the
Absorption time, a simple calculation is required. Using the 20 Hr AH rating of the
battery bank (C20) and the charger output, it is possible to determine the time
needed to fully charge the battery bank.
As stated previously, the Bulk charge phase brings the bank to approximately
80% state of charge. The remaining 20% charge is a function of time and current.
The charger will maintain current level until the Bulk set point has been reached.
The charger will then switch to the programmed Absorption voltage and timer. As the
battery charge nears completion, the internal resistance in the battery increases and
charge current begins to decrease. It is assumed that over the time of the Absorption
charge that 50% of your maximum charge current will be available (this is factored
into the equation). 0.42 = (20%/50%) + 5%. 5% is added due to losses.
ABSORPTION CHARGE TIME
Where : T = 0.42 x C /I
T = ABSORPTION CHARGE TIME
C = 20 hr RATED CAPACITY (total battery bank)
I = Charging Current (Amps) (recommended 10% to 20% of C20 discharge rate)
0.42 = ( 20%/50%) + 5% (5% is added due to losses)