S-8232 Seiko, S-8232 Datasheet - Page 13
S-8232
Manufacturer Part Number
S-8232
Description
BATTERY PROTECTION IC
Manufacturer
Seiko
Datasheet
1.S-8232.pdf
(27 pages)
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Rev.5.4
Normal Condition
Overcurrent Condition
Overcharge Condition
Overdischarge Condition
Operation
This IC monitors the voltages of the two serially connected batteries and the discharge current to control
charging and discharging. When the voltages of two batteries are in the range from the overdischarge
detection voltage (V
batteries becomes equal or lower than a specified value (the VM pin voltage is equal or lower than
overcurrent detection voltage 1), the charging and discharging FETs are turned on. In this condition,
charging and discharging can be carried out freely. This condition is called normal condition. In this
condition, the VM and VSS pins are shorted by the RVSM resistor.
When the discharging current becomes equal to or higher than a specified value (the VM pin voltage is
equal to or higher than the overcurrent detection voltage) during discharging under normal condition and
it continues for the overcurrent detection delay time (t
stop discharging. This condition is called overcurrent condition. The VM and VSS pins are shorted by
the RVSM resistor at this time. The charging FET is also turned off. When the discharging FET is off and
a load is connected, the VM pin voltage equals the V
The overcurrent condition returns to the normal condition when the load is released and the impedance
between the EB− and EB+ pins (refer to the Figure 8 ) is 200 MΩ or higher. When the load is released,
the VM pin, which is shorted to the VSS pin with the RVSM resistor, goes back to the V
IC detects that the VM pin potential returns to overcurrent detection voltage 1 (V
to the normal condition.
Following two cases are detected as overcharge conditions :
The auxiliary overcharge detection voltages (V
voltages (V
The overcharge condition is released in two cases :
The release mechanism is as follows : the discharge current flows through an internal parasitic diode of
the charging FET immediately after a load is installed and discharging starts, and the VM pin voltage
increases by about 0.6 V from the VSS pin voltage momentarily. The IC detects this voltage (overcurrent
detection voltage 1 or higher), releases the overcharge condition and returns to the normal condition.
If any one of the battery voltages falls below the overdischarge detection voltage (V
discharging under normal condition and it continues for the overdischarge detection delay time (t
longer, the discharging FET turns off and discharging stops. This condition is called the overdischarge
condition. When the discharging FET turns off, the VM pin voltage becomes equal to the V
the IC’s current consumption falls below the power-down current consumption (I
called the power-down condition. The VM and VCC pins are shorted by the RVCM resistor under the
overdischarge and power-down conditions.
The power-down condition is canceled when the charger is connected and the voltage between VM and
VCC is overcurrent detection voltage 2 or higher. When all the battery voltages becomes equal to or
higher than the overdischarge release voltage (V
changes to the normal condition.
(1) If one of the battery voltages becomes higher than the overcharge detection voltage (V
(2) If one of the battery voltages becomes higher than the auxiliary overcharge detection voltage
V
or for no overcharge hysteresis type (V
(1) The battery voltage which exceeded the overcharge detection voltage (V
(2) If the battery voltage which exceeded the overcharge detection voltage (V
_00
CUaux1, 2
during charging under normal condition and it continues for the overcharge detection delay time
(t
(V
shorted by the RVSM resistor under the overcharge condition.
overcharge release voltage (V
than the overcharge release voltage (V
discharging starts, the charging FET turns on and the normal condition returns.
CU1, 2
CUaux1, 2
CU1, 2
[V] = 1.25 × V
) or longer, the charging FET turns off to stop charging.
) and are defined by following equations :
*1, *2
) the charging FET turns off immediately to stop charging. The VM and VSS pins are
DD1, 2
) to the overcharge detection voltage (V
CU1, 2
[V]
BATTERY PROTECTION IC FOR 2-SERIAL-CELL PACK
CD1, 2
Seiko Instruments Inc.
), the charging FET turns on and the normal condition returns.
CU1, 2
= V
CD1, 2
CUaux1, 2
CD1, 2
DU1, 2
), but the charger is removed, a load is placed, and
CC
IOV
) V
potential.
) are correlated with the overcharge detection
) in this condition, the overdischarge condition
) or longer, the discharging FET is turned off to
CUaux1, 2
CU1, 2
[V] = 1.11 × V
), and the current flowing through the
CU1, 2
IOV1
CU1, 2
PDN
CU1, 2
) or lower and returns
[V]
). This condition is
S-8232 Series
) is equal or higher
SS
) falls below the
potential. The
CC
DD1, 2
voltage and
) during
DD1, 2
CU1, 2
) or
13
)
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