Page 465 - Handbook of Electrical Engineering
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454 HANDBOOK OF ELECTRICAL ENGINEERING
A ‘rule-of-thumb’ guide to the appropriate slow charging current is to divide the ampere-hour
(AH) capacity of the battery (at a 10 hour rate) by about 7, e.g. a 100 AH battery would require a
charging current of about 15 amps for 10 hours.
Modern chargers are usually designed to charge a battery in one or more of the follow-
ing ways:-
• Float charge – for Pb and NiCd cells.
• Boost charge – for Pb and NiCd cells.
• Trickel charge – for Pb cells only.
The transfer from one method to another may be automatically or manually achieved during
the charging period.
17.2.1.2 Float charge
With this method the battery is connected to its load during charging. The charger must be designed
to supply sufficient current for the battery and the load. The charger operates in an almost constant
voltage manner with its voltage normally just above the battery voltage. When a sudden demand of
current occurs the battery and the charger attempt to share the current. However, the demand from
the charger may exceed its rating and so the mode of operation then changes to constant current.
The battery supplies the remaining current. The load voltage is determined by the battery during the
sudden demand. The recommended float charge voltage applied to the battery during normal demand
is about 2.2 to 2.25 volts per cell for Pb cells and about 1.4 and 1.45 volts per cell for NiCd cells.
This will ensure full capacity is maintained in the battery without manual supervision.
Typical battery-plus-charger units can be rated up to 250 volts and 400 amps. Some oil com-
panies prefer to restrict the DC voltage to 120 volts for safety reasons.
17.2.1.3 Boost charge
As the name implies boost charging is used to quickly restore the capacity of the battery, usually
following a heavy demand. The boost current may be much larger than the rated float charging
current. When boost charging is required the charger operates in the constant voltage mode but with
a raised voltage. The raised voltage causes the boost current. As the battery becomes charged the
boost current falls. When the current falls to a predetermined value the control circuit automatically
switches the charger back into the float charge mode. An auto-manual switch is often provided to
enable boost charging to be applied as required.
The elevated DC voltage may not be tolerated by the load and so care needs to be taken at
the specification stage to ensure that boost charging is permissible.
17.2.1.4 Trickle charge
Trickle charging is used only for Pb cells. The current used in trickle charging is very much less than
the rated battery current. The method is used for storage batteries which supply little or no current
as a normal condition. They therefore remain charged for long periods and a small trickle of current
is sufficient to maintain the charge.
