BQ24133 Datasheet, PDF(21/35 Page) Texas Instruments – 1.6-MHz Synchronous Switch-Mode Li-Ion and Li-Polymer Stand-Alone Battery Charger with Integrated MOSFETs and Power Path Selector

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

BQ24133 Datasheet, PDF (21/35 Pages) Texas Instruments – 1.6-MHz Synchronous Switch-Mode Li-Ion and Li-Polymer Stand-Alone Battery Charger with Integrated MOSFETs and Power Path Selector

◁

bq24133

www.ti.com

SLUSAF7B â DECEMBER 2010 â REVISED MAY 2011

Once the device has powered up, a 8-mA discharge current is applied to the SRN terminal. If the battery voltage

falls below the LOWV threshold within 1 second, the discharge source is turned off, and the charger is turned on

at low charge current (125mA). If the battery voltage gets up above the recharge threshold within 500ms, there is

no battery present and the cycle restarts. If either the 500ms or 1 second timer time out before the respective

thresholds are hit, a battery is detected and a charge cycle is initiated.

VBAT_RE

Battery

Absent

Battery

Absent

VRECH

VLOW

Battery

Present

Figure 19. Battery Detect Timing Diagram

Care must be taken that the total output capacitance at the battery node is not so large that the discharge current

source cannot pull the voltage below the LOWV threshold during the 1 second discharge time. The maximum

output capacitances can be calculated according to the following equations:

CMAX

IDISCH Â´ tDISCH

(4.1 V - 2.9 V) Â´ Number of cells

(6)

Where CMAX is the maximum output capacitance, IDISCH is the discharge current, tDISCH is the discharge time.

Example

For a 3-cell Li+ charger, IDISCH = 8mA, tDISCH = 1 second.

CMAX

8 mA Â´

1.2 V

1 sec

Â´3

= 2.2 mF

(7)

Based on these calculations, no more than 2200 ÂµF should be allowed on the battery node for proper operation

of the battery detection circuit.

BATTERY SHORT PROTECTION

When SRN pin voltage is lower than 2V it is considered as battery short condition during charging period. The

charger will shut down immediately for 1ms, then soft start back to the charging current the same as precharge

current. This prevents high current may build in output inductor and cause inductor saturation when battery

terminal is shorted during charging. The converter works in non-synchronous mode during battery short.

BATTERY OVER-VOLTAGE PROTECTION

The converter will not allow the high-side FET to turn-on until the battery voltage goes below 102% of the

regulation voltage. This allows one-cycle response to an over-voltage condition â such as occurs when the load

is removed or the battery is disconnected. A total 6mA current sink from SRP/SRN to AGND allows discharging

the stored output inductor energy that is transferred to the output capacitors. If battery over-voltage condition

lasts for more than 30ms, charge is disabled.

Product Folder Link(s): bq24133

Submit Documentation Feedback

▷