S-8254AAAFT-TB-X Datasheet, PDF(1/29 Page) Seiko Instruments Inc

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S-8254AAAFT-TB-X Datasheet, PDF (1/29 Pages) Seiko Instruments Inc – BATTERY PROTECTION IC

S-8254A Series

www.sii-ic.com

Â© SII Semiconductor Corporation, 2002-2016

BATTERY PROTECTION IC

FOR 3-SERIAL- OR 4-SERIAL-CELL PACK

Rev.5.2_00

The S-8254A Series is a protection IC for 3-serial- or 4-serial-cell lithium-ion / lithium polymer rechargeable

batteries and includes a high-accuracy voltage detector and delay circuit.

The S-8254A Series protects both 3-serial or 4-serial cells using the SEL pin for switching.

ï® Features

(1) High-accuracy voltage detection for each cell

â¢ Overcharge detection voltage n (n = 1 to 4)

â¢ Overcharge release voltage n (n = 1 to 4)

3.9 V to 4.4 V (50 mV step)

3.8 V to 4.4 V*1

Accuracy Â±25 mV

Accuracy Â±50 mV

â¢ Overdischarge detection voltage n (n = 1 to 4) 2.0 V to 3.0 V (100 mV step) Accuracy Â±80 mV

â¢ Overdischarge release voltage n (n = 1 to 4) 2.0 V to 3.4 V*2

Accuracy Â±100 mV

(2) Three-level overcurrent protection

â¢ Overcurrent detection voltage 1

0.05 V to 0.30 V (50 mV step) Accuracy Â±25 mV

â¢ Overcurrent detection voltage 2

0.5 V

Accuracy Â±100 mV

â¢ Overcurrent detection voltage 3

VVC1 â 1.2 V

Accuracy Â±300 mV

(3) Delay times for overcharge detection, overdischarge detection and overcurrent detection 1 can be set

by external capacitors (delay times for overcurrent detection 2 and 3 are fixed internally).

(4) Switchable between a 3-serial cell and 4-serial cell using the SEL pin

(5) Charge/discharge operation can be controlled via the control pins.

(6) High-withstand voltage

Absolute maximum rating : 26 V

(7) Wide operating voltage range

2 V to 24 V

(8) Wide operating temperature range â40Â°C to + 85Â°C

(9) Low current consumption

â¢ During operation

30 Î¼A max. (+25Â°C)

â¢ During power-down 0.1 Î¼A max. (+25Â°C)

(10) Lead-free, Sn100%, halogen-free*3

*1. Overcharge hysteresis voltage n (n = 1 to 4) can be selected as 0 V or from a range of 0.1 V to 0.4 V in

50 mV steps.

(Overcharge hysteresis voltage = Overcharge detection voltage â Overcharge release voltage)

*2. Overdischarge hysteresis voltage n (n = 1 to 4) can be selected as 0 V or from a range of 0.2 V to 0.7 V

in 100 mV steps.

(Overdischarge hysteresis voltage = Overdischarge release voltage â Overdischarge detection voltage)

*3. Refer to âï® Product Name Structureâ for details.

ï® Applications

â¢ Lithium-ion rechargeable battery packs

â¢ Lithium polymer rechargeable battery packs

ï® Package

â¢ 16-Pin TSSOP

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