S-8242B Seiko Instruments, S-8242B Datasheet - Page 7

S-8242B

Manufacturer Part Number

S-8242B

Description

BATTERY PROTECTION IC

Manufacturer

Seiko Instruments

Datasheet

1.S-8242B.pdf (30 pages)

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Rev.1.4

Caution Unless otherwise specified, the output voltage levels “H” and “L” at CO pin (V

1. Overcharge Detection Voltage, Overcharge Release Voltage

2. Overdischarge Detection Voltage, Overdischarge Release Voltage

3. Overcurrent Detection Voltage 1, Overcurrent Detection Voltage 2

4. Charger Detection Voltage

Test Circuits

(Test Condition 1, Test Circuit 1)

(Test Condition 2, Test Circuit 2)

(Test Condition 3, Test Circuit 2)

(Test Condition 4, Test Circuit 2)

Overcharge detection voltage 1 (V

from “H” to “L” when the voltage V1 is gradually increased from the starting condition of V1 = V2 = V

V. Overcharge release voltage 1 (V

from “L” to “H” when setting V2 = 3.5 V and the voltage V1 is then gradually decreased. Overcharge hysteresis

voltage 1 (V

Overcharge detection voltage 2 (V

from “H” to “L” when the voltage V2 is gradually increased from the starting condition of V1 = V2 = V

V. Overcharge release voltage 2 (V

from “L” to “H” when setting V1 = 3.5 V and the voltage V2 is then gradually decreased. Overcharge hysteresis

voltage 2 (V

Overdischarge detection voltage 1 (V

goes from “H” to “L” when the voltage V1 is gradually decreased from the starting condition of V1 = V2 = 3.5 V, V3 = 0

V. Overdischarge release voltage 1 (V

goes from “L” to “H” when setting V2 = 3.5 V and the voltage V1 is then gradually increased. Overdischarge

hysteresis voltage 1 (V

overdischarge detection voltage 1 (V

Overdischarge detection voltage 2 (V

goes from “H” to “L” when the voltage V2 is gradually decreased from the starting condition of V1 = V2 = 3.5 V, V3 = 0

V. Overdischarge release voltage 2 (V

goes from “L” to “H” when setting V1 = 3.5 V and the voltage V2 is then gradually increased. Overdischarge

hysteresis voltage 2 (V

overdischarge detection voltage 2 (V

Overcurrent detection voltage 1 (V

for changing V

the voltage V3 is increased rapidly within 10 µs from the starting condition of V1 = V2 = 3.5 V, V3 = 0 V.

Overcurrent detection voltage 2 (V

for changing V

the voltage V3 is increased rapidly within 10 µs from the starting condition of V1 = V2 = 3.5 V, V3 = 0 V.

The charger detection voltage (V

from “L” to “H” when the voltage V3 is gradually decreased from 0 V after the voltage V1 is gradually increased from

the starting condition of V1 = 1.8 V, V2 = 3.5 V, V3 = 0 V until the voltage V1 becomes V

The charger detection voltage can be measured only in a product whose overdischarge hysteresis V

_00

judged by the threshold voltage (1.0 V) of the N-channel FET. Judge the CO pin level with respect to

and the DO pin level with respect to V

CL1

CL2

HC1

HC2

) is defined as the difference between overcharge detection voltage 1 (V

) is defined as the difference between overcharge detection voltage 2 (V

from “H” to “L” lies between the minimum and the maximum value of overcurrent delay time 1 when

from “H” to “L” lies between the minimum and the maximum value of overcurrent delay time 2 when

HD1

HD2

) is defined as the difference between overdischarge release voltage 1 (V

) is defined as the difference between overdischarge release voltage 2 (V

CHA

CU1

CU2

IOV1

IOV2

DL1

DL2

) is defined as the voltage between the VM pin and VSS pin at which V

CL1

CL2

BATTERY PROTECTION IC FOR 2-SERIAL-CELL PACK

) is defined as the voltage between the VDD pin and VC pin at which V

) is defined as the voltage between the VC pin and VSS pin at which V

DL1

DL2

) is defined as the voltage between the VM pin and VSS pin whose delay time

) is defined as the voltage between the VDD and VC pins at which V

) is defined as the voltage between the VC and VSS pins at which V

DU1

DU2

) is defined as the voltage between the VDD pin and VC pin at which V

) is defined as the voltage between the VC pin and VSS pin at which V

) is defined as the voltage between the VDD pin and VC pin at which V

) is defined as the voltage between the VC pin and VSS pin at which V

Seiko Instruments Inc.

DL1

CU1

CU2

+ (V

) and overcharge release

) and DO pin (V

S-8242B Series

HD1

≠ 0 V.

/2).

–0.05 V, V3 = 0

DU1

DU2

) are

) and

goes

S-8242B Seiko Instruments, S-8242B Datasheet - Page 7

S-8242B

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