S-8233BBFT SII [Seiko Instruments Inc], S-8233BBFT Datasheet - Page 14

S-8233BBFT

Manufacturer Part Number

S-8233BBFT

Description

BATTERY PROTECTION IC (FOR A 3-SERIAL-CELL PACK)

Manufacturer

SII [Seiko Instruments Inc]

Datasheet

1.S-8233BBFT.pdf (26 pages)

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BATTERY PROTECTION IC FOR 3-SERIAL-CELL PACK

S-8233B Series

Over discharge condition

Delay circuits

CTL terminal

If any one of the battery voltages falls below the over discharge detection voltage (V

under normal condition and it continues for the over discharge detection delay time (t

discharging FET turns off and discharging stops. This condition is called the over discharge condition.

When the discharging FET turns off, the VMP terminal voltage becomes equal to the V

IC's current consumption falls below the power-down current consumption (I

the power-down condition. The VMP and VSS terminals are shorted by the R

discharge and power-down conditions.

The over charge detection delay time (t

over current detection delay time 1 (t

The delay times are calculated by the following equations:

[If the CTL logic is “normal”]<S-8233BA, S-8233BC, S-8233BE>

If the CTL terminal is floated under normal condition, it is pulled up to the V

the charging and discharging FETs turn off to inhibit charging and discharging. Both charging and

discharging are also inhibited by applying the VCC terminal to the CTL terminal externally. At this time,

the VMP and VCC terminals are shorted by the R

[If the CTL logic is“reverse”]<S-8233BB, S-8233BD>

The power-down condition is canceled when the charger is connected and the voltage between VMP and

or higher than the over discharge release voltage (V

changes to the normal condition.

Caution: The delay time for over current detection 2 and 3 is fixed by an internal IC circuit. The

When the CTL terminal becomes equal to V

back to their appropriate conditions for the battery voltages.

When the CTL terminal becomes equal to V

to inhibit charging and discharging. If the CTL terminal is floated under normal condition, charging and

discharging are enabled and go back to their appropriate conditions for the battery voltages.

Caution Please note unexpected behavior might occur when electrical potential difference

IOV1

[S] =Delay factor ( 1.07, 2.13, 3.19)×C4 [uF]

[S] =Delay factor ( 0.20, 0.40, 0.60)×C5 [uF]

is 3.0 V or higher (over current detection voltage 3). When all the battery voltages becomes equal to

[S]=Delay factor ( 0.10, 0.20, 0.30)×C6 [uF]

delay time cannot be changed via an external capacitor.

between the CTL pin ('L' level) and VSS is generated through the external filter

VSS

and C

Min.

VSS

) as a result of input voltage fluctuations.

Typ.

I0V1

Max.

Seiko Instruments Inc.

CU1

) are changed with external capacitors (C4 to C6).

to t

CU3

potential, charging and discharging are enabled and go

potential, both the charging and discharging FETs turn off

), over discharge detection delay time (t

VCM

resistor.

) in this condition, the over discharge condition

PDN

VSM

potential in the IC, and both

). This condition is called

resistor under the over

) during discharging

) or longer, the

DD1

voltage and the

to t

Rev.4.2

DD3

), and

_00

S-8233BBFT SII [Seiko Instruments Inc], S-8233BBFT Datasheet - Page 14

S-8233BBFT

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