DRV8829 Datasheet, PDF(9/17 Page) Texas Instruments

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DRV8829 Datasheet, PDF (9/17 Pages) Texas Instruments – H-BRIDGE MOTOR DRIVER IC

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DRV8829

www.ti.com

SLVSA74B â MAY 2010 â REVISED MAY 2011

nRESET and nSLEEP Operation

The nRESET pin, when driven active low, resets the internal logic. It also disables the H-bridge drivers. All inputs

are ignored while nRESET is active.

Driving nSLEEP low will put the device into a low power sleep state. In this state, the H-bridge is disabled, the

gate drive charge pump is stopped, the V3P3OUT regulator is disabled, and all internal clocks are stopped. In

this state all inputs are ignored until nSLEEP returns inactive high. When returning from sleep mode, some time

(approximately 1 ms) needs to pass before the motor driver becomes fully operational. Note that nRESET and

nSLEEP have internal pulldown resistors of approximately 100 kÎ©. These signals need to be driven to logic high

for device operation.

Protection Circuits

The DRV8829 is fully protected against undervoltage, overcurrent and overtemperature events.

Overcurrent Protection (OCP)

An analog current limit circuit on each FET limits the current through the FET by removing the gate drive. If this

analog current limit persists for longer than the OCP time, all FETs in the H-bridge will be disabled and the

nFAULT pin will be driven low. The device will remain disabled until either nRESET pin is applied, or VM is

removed and re-applied.

Overcurrent conditions on both high and low side devices; i.e., a short to ground, supply, or across the motor

winding will all result in an overcurrent shutdown. Note that overcurrent protection does not use the current sense

circuitry used for PWM current control, and is independent of the ISENSE resistor value or VREF voltage.

Thermal Shutdown (TSD)

If the die temperature exceeds safe limits, all FETs in the H-bridge will be disabled and the nFAULT pin will be

driven low. Once the die temperature has fallen to a safe level operation will automatically resume.

Undervoltage Lockout (UVLO)

If at any time the voltage on the VM pins falls below the undervoltage lockout threshold voltage, all circuitry in the

device will be disabled and internal logic will be reset. Operation will resume when VM rises above the UVLO

threshold.

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