BQ24153 Datasheet, PDF(31/40 Page) Texas Instruments – Fully Integrated Switch-Mode One-Cell Li-Ion Charger With Full USB Compliance and USB-OTG Support

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BQ24153 Datasheet, PDF (31/40 Pages) Texas Instruments – Fully Integrated Switch-Mode One-Cell Li-Ion Charger With Full USB Compliance and USB-OTG Support

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bq24153

bq24156, bq24158

SLUSA27 â MARCH 2010

Table 11. Charge Current Settings for 68-mâ¦ and 100-mâ¦ Sense Resistors

BIT

VI(CHRG3)

VI(CHRG2)

VI(CHRG1)

VI(CHRG0)

Offset

VI(REG) (mV)

54.4

27.2

13.6

6.8

37.4

IO(CHARGE) (mA)

R(SNS) = 68mâ¦

800

400

200

100

550

IO(CHARGE) (mA)

R(SNS) = 100mâ¦

544

272

136

374

Output Inductor and Capacitance Selection Guidelines

The IC provides internal loop compensation. With this scheme, best stability occurs when LC resonant

frequency, fo, is approximately 40 kHz (20 kHz to 80 kHz). Equation 3 can be used to calculate the value of the

output inductor, LOUT, and output capacitor, COUT.

fo =

2p Â´ LOUT Â´ COUT

(3)

To reduce the output voltage ripple, a ceramic capacitor with the capacitance between 4.7 mF and 47 mF is

recommended for COUT, see the application section for components selection.

POWER TOPOLOGIES

System Load After Sensing Resistor

One of the simpler high-efficiency topologies connects the system load directly across the battery pack, as

shown in Figure 35. The input voltage has been converted to a usable system voltage with good efficiency from

the input. When the input power is on, it supplies the system load and charges the battery pack at the same time.

When the input power is off, the battery pack powers the system directly.

VBUS

Isns

Isys

+ VIN

bq2415x

PMID

PGND

Rsns

Ichg

BAT

System

Load

Figure 35. System Load After Sensing Resistor

The advantages:

1. When the AC adapter is disconnected, the battery pack powers the system load with minimum power

dissipations. Consequently, the time that the system runs on the battery pack can be maximized.

2. It saves the external path selection components and offers a low-cost solution.

3. Dynamic power management (DPM) can be achieved. The total of the charge current and the system current

can be limited to a desired value by setting charge current value. When the system current increases, the

charge current drops by the same amount. As a result, no potential over-current or over-heating issues are

caused by excessive system load demand.

4. The total of the input current can be limited to a desired value by setting input current limit value. So USB

specifications can be met easily.

5. The supply voltage variation range for the system can be minimized.

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