BQ24232HA Datasheet, PDF(27/36 Page) Texas Instruments – USB-Friendly Lithium-Ion Battery Charger

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BQ24232HA Datasheet, PDF (27/36 Pages) Texas Instruments – USB-Friendly Lithium-Ion Battery Charger

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bq24232HA

SLUSCG4 â MAY 2016

Typical Application (continued)

Select the closest standard value, which for this case is 4.32 kâ¦. Connect this resistor between ISET (pin 16)

and VSS.

8.2.2.1.2 Program The Input Current Limit (ILIM)

RILIM = KILIM / II_MAX

KILIM = 1530 Aâ¦ from the Electrical Characteristics table.

RISET = 1530 Aâ¦ / 0.5 A = 3.06 kâ¦

Select the closest standard value, which for this case is 3.06 kâ¦. Connect this resistor between ILIM (pin 12) and

VSS.

8.2.2.1.3 Program The Termination Current Threshold (ITERM, bq24232HA)

RITERM = RISET Ã ITERM / KITERM

KITERM = 0.03 A from Electrical Characteristics table

RITERM = 4.32 kâ¦ Ã 0.025 A/0.03 A = 3.6 kâ¦

Select the closest standard value, which for this case is 3.57 kâ¦. Connect this resistor between ITERM (pin 15)

and VSS

8.2.2.1.4 Program 7.5-hour Fast-Charge Safety Timer (TMR)

RTMR = tMAXCHG / (10 Ã KTMR )

KTMR = 48 s/kâ¦ from the Electrical Characteristics table.

RTMR = (7.5 hr Ã 3600 s/hr) / (10 Ã 48 s/kâ¦) = 56.25 kâ¦

Select the closest standard value, which for this case is 56.2 kâ¦. Connect this resistor between TMR (pin 2) and

VSS.

8.2.2.2 TS Function

Use a 10-kâ¦ NTC thermistor in the battery pack (103AT). To disable the temperature sense function, use a fixed

10-kâ¦ resistor between the TS (pin 1) and VSS. Pay close attention to the linearity of the chosen NTC so that it

provides the desired hot and cold turnoff thresholds.

8.2.2.3 CHG and PGOOD

LED Status: connect a 1.5-kâ¦ resistor in series with a LED between OUT and CHG and OUT and PGOOD.

Processor Monitoring Status: connect a pullup resistor (approximately 100 kâ¦) between the processorâs power

rail and CHG and PGOOD.

8.2.2.4 Selecting IN, OUT, and BAT Pin Capacitors

In most applications, all that is needed is a high-frequency decoupling capacitor (ceramic) on the power pin,

input, output, and battery pins. Using the values shown on the application diagram is recommended. After

evaluation of these voltage signals with real system operational conditions, the user can determine if capacitance

values can be adjusted toward the minimum recommended values (dc load application) or higher values for fast,

high-amplitude, pulsed load applications. Note, if the application is designed with high input voltage sources (bad

adapters or wrong adapters), the capacitor needs to be rated appropriately. Ceramic capacitors are tested to 2x

their rated values so a 16-V capacitor may be adequate for a 30-V transient (verify the tested rating with

capacitor manufacturer).

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