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SC1766 Datasheet PDF : 11 Pages
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BATTERY
CHARGE CONTROLLER
SC1766
Janaury 30, 1998
PRINCIPLES OF OPERATION
Battery Properties
The basic principle of rechargeable battery systems,
including NiMH and NiCd cells, is that the processes of
charge and discharge are reversible. The charge char-
acteristics of NiMH and NiCd cells look similar in that
1) the cell voltage at the end of charge drops and 2)
the cell temperature increases rapidly near the end of
charge. The figure below shows the charge voltage
and charge temperature characteristics of NiMH and
NiCd cells. Notice that the cell voltage decline of NiMH
cells at the end of charge is less pronounced than for
NiCd cells.
Fast battery chargers are available where recharging
takes only 1 hour or less with a simple control circuit.
One main purpose of the control circuit is to terminate
the fast charge process to prevent the temperature and
internal pressure of the battery cell from building to a
damaging level which degrades or even destroys the
battery cell.
The SC1766 is a battery fast charge controller IC that
utilizes the following methods to terminate the fast
charge process for NiMH or NiCd battery cells:
1 Negative delta voltage cut-off (-∆V ),
2 Peak voltage timer cut-off (0∆V ),
3 Maximum temperature cut-off (TCO),
4 Maximum voltage cut-off (VCO),
5 Safety timer cut-off.
The principle of operation of the SC1766 is described
in the following section.
SC1766 Operation
When power is first applied to the charge system, con-
sisting of rechargeable battery cells, charge current
source, the SC1766 and its associated external circuit,
all internal digital circuit blocks of the SC1766 are reset
by internal power-on-reset circuitry. The internal control
unit then checks the battery condition to prevent fast
charge from taking place under battery fault conditions,
i.e. cell voltage fault (VBT< 0.65V or VBT> 3.7V) or cell
temperature fault (αNTC > αNTCL or αNTC < αNTCH
for the 14-pin version). Temperature fault limits corre-
sponding to αNTCL and αNTCH are determined by an
external thermistor divider circuit as included in the typ-
ical application circuit. After the battery passes condi-
tion fault checks, the VOUT pin goes to low to start fast
charge while the initial timer and safety timer of the
SC1766 start counting. Both the negative delta voltage
detector and the peak voltage timer, however, are dis-
abled until the initial stage of a charge cycle elapses.
The SC1766 constantly monitors the voltage at the
VBT pin, which rises as battery cells are being fast-
charged until the battery full condition is nearly ap-
proached. The battery temperature is also constantly
sensed to guard against abnormal temperature situa-
tions. The VOUT pin will be pulled high by an external
pull-up device and the fast charge process will be
switched to trickle charge when one of the following
situations is encountered:
• A negative delta voltage of 0.25% at the VBT pin is
detected compared to its peak value (−∆V),
• The battery voltage stays at its peak value for the
duration determined by the peak voltage timer set-
ting (0∆V),
• The VBT pin voltage exceeds the “high” battery
voltage protection limit (VCO),
• The battery temperature, sensed by the thermistor
divider, exceeds the fault temperature range
(TCO),
• The selected safety timer period has finished.
TIMER PIN
The timer pin can be used as follows to select one of
the preset safety timer periods and its corresponding
periods of initial timer and peak voltage timer:
TIMER pin Safety timer
VDD
40 min.
GND
80 min.
Floating 160 min.
Peak V timer
2 min.
4 min.
8 min.
Initial timer
1.5 min.
3 min.
3 min.
© 1997 SEMTECH CORP.
652 MITCHELL ROAD NEWBURY PARK CA 91320
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