BQ24751B Datasheet, PDF(22/38 Page) Texas Instruments – Host-Controlled Multi-Chemistry Battery Charger with Low Iq and System Power Selector

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Not Recommended For New Designs

bq24751B

SLUS835A â JULY 2008 â REVISED MARCH 2009 .......................................................................................................................................................... www.ti.com

and

IRIPPLE_MAX

Â£ ISYN

Â£ IRIPPLE_ MAX

IRIPPLE

(VIN

VBAT

)Â´

VBAT

VIN

Â´

VIN

Â´

(1-

)Â´

Â´

(4)

where

VIN = adapter voltage

VBAT = BAT voltage

fS = switching frequency

L = output inductor

D = VBAT/VIN, duty-cycle

IRIPPLE_MAX happens when the duty cycle (D) value is close to 0.5 at given VIN,fS, and L.

The ISYNSET comparator, or charge undercurrent comparator, compares the voltage between SRP-SRN and

the internal threshold. The threshold is set to 13 mV on the falling edge with an 8-mV hysteresis on the rising

edge with a 10% variation.

High Accuracy IADAPT Using Current Sense Amplifier (CSA)

An industry-standard, high-accuracy current sense amplifier (CSA) is used by the host or some discrete logic to

monitor the input current through the analog voltage output of the IADAPT pin. The CSA amplifies the sensed

input voltage of ACP â ACN by 20x through the IADAPT pin. The IADAPT output is a voltage source 20 times

the input differential voltage. When PVCC is above 5 V and ACDET is above 0.6 V, IADAPT no longer stays at

ground, but becomes active. If the user wants to lower the voltage, they can use a resistor divider from IOUT to

AGND, and still achieve accuracy over temperature as the resistors can be matched according to their thermal

coefficients.

A 200-pF capacitor connected on the output is recommended for decoupling high-frequency noise. An additional

RC filter is optional, after the 200-pF capacitor, if additional filtering is desired. Note that adding filtering also

adds additional response delay.

Input Overvoltage Protection (ACOV)

ACOV provides protection to prevent system damage due to high input voltage. Once the adapter voltage is

above the programmable OVPSET voltage (3.1 V), charge is disabled, the adapter is disconnected from the

system by turning off ACDRV, and the battery is connected to the system by turning on BATDRV. ACOV is not

latchedânormal operation resumes when the OVPSET voltage returns below 3.1 V.

Input Undervoltage Lockout (UVLO)

The system must have 5 V minimum of PVCC voltage for proper operation. This PVCC voltage can come from

either the input adapter or the battery, using a diode-OR input. When the PVCC voltage is below 5 V, the bias

circuits REGN, VREF, and the gate drive bias to ACFET and BATFET stay inactive, even with ACDET above

0.6 V.

AC Lowvoltage (ACLOWV)

ACLOWV clears the break-before-make protection latch when ACP < 3V in additon to UVLO clearing this latch

when PVCC < UVLO. It ensures the BATDRV is off when ACP < 3V, and thus this function allows the ACDRV to

turn on the ACFET again when ACP < 3V or PVCC <UVLO.

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