BQ24100_10 Datasheet, PDF(20/40 Page) Texas Instruments – SYNCHRONOUS SWITCHMODE, LI-ION AND LI-POLYMER CHARGE-MANAGEMENT IC WITH INTEGRATED POWER FETs ( bqSWITCHER™)

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BQ24100_10 Datasheet, PDF (20/40 Pages) Texas Instruments – SYNCHRONOUS SWITCHMODE, LI-ION AND LI-POLYMER CHARGE-MANAGEMENT IC WITH INTEGRATED POWER FETs ( bqSWITCHER™)

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bq24100, bq24103, bq24103A

bq24104, bq24105, bq24108, bq24109

bq24113, bq24113A, bq24115

SLUS606O â JUNE 2004 â REVISED MARCH 2010

www.ti.com

VOREG

VBAT

2V/cell

Battery

Detected

Battery

Detected

Battery

Connected

Yes

Battery

Detected

IWAKE

IBAT

- IDISCHRG1

tDISCHRG1

tWAKE

tDISCHRG1

Figure 12. Battery Detect Timing Diagram

Battery Detection Example

In order to detect a no battery condition during the discharge and wake tests, the maximum output capacitance

should not exceed the following:

a. Discharge (IDISCHRG1 = 400 mA, tDISCHRG1 = 1s, VSHORT = 2V)

CMAX_DIS

IDISCHRG1

VOREG *

tDISCHRG1

VSHORT

400 mA 1s

CMAX_DIS + 4.2 V * 2 V

CMAX_DIS + 182 mF

(10)

b. Wake (IWAKE = 2 mA, tWAKE = 0.5 s, VOREG â VRCH = 4.1V)

Ç Ç CMAX_WAKE +

IWAKE tWAKE

VOREG * VRCH * 0 V

CMAX_WAKE

(4.2

2 mA

V * 0.1

0.5s

V) *

CMAX_WAKE + 244 mF

(11)

Based on these calculations the recommended maximum output capacitance to ensure proper operation of the

battery detection scheme is 100 mF which will allow for process and temperature variations.

Figure 13 shows the battery detection scheme when a battery is inserted. Channel 3 is the output signal and

Channel 4 is the output current. The output signal switches between VOREG and GND until a battery is inserted.

Once the battery is detected, the output current increases from 0A to 1.3A, which is the programmed charge

current for this application.

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Product Folder Link(s): bq24100 bq24103 bq24103A bq24104 bq24105 bq24108 bq24109 bq24113 bq24113A

bq24115

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