BQ24150A Datasheet, PDF(32/41 Page) Texas Instruments – Fully Integrated Switch-Mode One-Cell Li-Ion Charger With Full USB Compliance and USB-OTG Support

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bq24150A

bq24151A

SLUS931 â APRIL 2009 ..................................................................................................................................................................................................... www.ti.com

depending on the current left to charge the battery pack. Under extreme conditions, the system current is

close to the short circuit current levels and the battery may not reach the fast-charge region in a timely

manner. As a result, the safety timers flag the battery pack as defective, terminating the charging process.

Because the safety timer cannot be disabled, the inserted battery pack must not be depleted to make the

application possible.

â¢ For instance, if the battery pack voltage is too low, highly depleted, or totally dead or even shorted, the

system voltage is clamped by the battery and it cannot operate even if the input power is on.

System Load Before Sensing Resistor

The second circuit is very similar to first one; the difference is that the system load is connected before the sense

resistor, as shown in Figure 35.

VBUS

Isns

+ VIN

bq2415xA

PMID

PGND

Rsns

Isys

Ichg

BAT

System

Load

Figure 35. System Load Before Sensing Resistor

The advantages of system load before sensing resistor to system load after sensing resistor:

â¢ The charger controller is based only on the current goes through the current-sense resistor. So, the constant

current fast charge and termination functions work well, and are not affected by the system load. This is the

major advantage of it.

â¢ A depleted battery pack can be connected to the charger without the risk of the safety timer expiration caused

by high system load.

â¢ The charger can disable termination and keep the converter running to keep battery fully charged, or let the

switcher terminate when the battery is full and then run off of the battery via the sense resistor.

Design considerations and potential issues:

â¢ The total current is limited by the IC input current limit, or peak current protection, or the thermal regulation

but not the charge current setting. The charge current does not drop when the system current load increases

until the input current limit is reached. This solution is not applicable if the system requires a high current.

â¢ Efficiency declines when discharging through the sense resistor to the system.

DESIGN EXAMPLE FOR TYPICAL APPLICATION CIRCUITS

Systems Design Specifications:

â¢ VBUS = 5 V

â¢ V(BAT) = 4.2 V (1-Cell)

â¢ I(charge) = 1.25 A

â¢ Inductor ripple current = 30% of fast charge current

1. Determine the inductor value (LOUT) for the specified charge current ripple:

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