DRV8312 Datasheet, PDF(11/31 Page) Texas Instruments

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DRV8312 Datasheet, PDF (11/31 Pages) Texas Instruments – Three Phase PWM Motor Driver

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ERROR REPORTING

The FAULT and OTW pins are both active-low,

open-drain outputs. Their function is for

protection-mode signaling to a PWM controller or

other system-control device.

Any fault resulting in device shutdown, such as

overtemperatue shut down, overcurrent shut-down, or

undervoltage protection, is signaled by the FAULT pin

going low. Likewise, OTW goes low when the device

junction temperature exceeds 125Â°C (see Table 1).

Table 1. Protection Mode Signal Descriptions

FAULT

OTW

DESCRIPTION

Overtemperature warning and

(overtemperature shut down or overcurrent

shut down or undervoltage protection) occurred

Overcurrent shut-down or GVDD undervoltage

protection occurred

Overtemperature warning

Device under normal operation

TI recommends monitoring the OTW signal using the

system microcontroller and responding to an OTW

signal by reducing the load current to prevent further

heating of the device resulting in device

overtemperature shutdown (OTSD).

To reduce external component count, an internal

pullup resistor to internal VREG (3.3 V) is provided on

both FAULT and OTW outputs. Level compliance for

5-V logic can be obtained by adding external pull-up

resistors to 5 V (see the Electrical Characteristics

section of this data sheet for further specifications).

DEVICE PROTECTION SYSTEM

The DRV8312/32 contain advanced protection

circuitry carefully designed to facilitate system

integration and ease of use, as well as to safeguard

the device from permanent failure due to a wide

range of fault conditions such as short circuits,

overcurrent, overtemperature, and undervoltage. The

DRV8312/32 respond to a fault by immediately

setting the half bridge outputs in a high-impedance

(Hi-Z) state and asserting the FAULT pin low. In

situations other than overcurrent or overtemperature,

the device automatically recovers when the fault

condition has been removed or the gate supply

voltage has increased. For highest possible reliability,

reset the device externally no sooner than 1 second

after the shutdown when recovering from an

overcurrent shut down (OCSD) or OTSD fault.

DRV8312

DRV8332

SLES256 â MAY 2010

Bootstrap Capacitor Under Voltage Protection

When the device runs at a low switching frequency

(e.g. less than 10 kHz with a 100-nF bootstrap

capacitor), the bootstrap capacitor voltage might not

be able to maintain a proper voltage level for the

high-side gate driver. A bootstrap capacitor

undervoltage protection circuit (BST_UVP) will

prevent potential failure of the high-side MOSFET.

When the voltage on the bootstrap capacitors is less

than the required value for safe operation, the

DRV8312/32 will initiate bootstrap capacitor recharge

sequences (turn off high side FET for a short period)

until the bootstrap capacitors are properly charged for

safe operation. This function may also be activated

when PWM duty cycle is too high (e.g. less than 20

ns off time at 10 kHz). Note that bootstrap capacitor

might not be able to be charged if no load or

extremely light load is presented at output during

BST_UVP operation, so it is recommended to turn on

the low side FET for at least 50 ns for each PWM

cycle to avoid BST_UVP operation if possible.

For applications with lower than 10 kHz switching

frequency and not to trigger BST_UVP protection, a

larger bootstrap capacitor can be used (e.g., 1 uF cap

for 800 Hz operation). When using a bootstrap cap

larger than 220 nF, it is recommended to add 5 ohm

resistors between 12V GVDD power supply and

GVDD_X pins to limit the inrush current on the

internal bootstrap diodes.

Overcurrent (OC) Protection

The DRV8312/32 have independent, fast-reacting

current detectors with programmable trip threshold

(OC threshold) on all high-side and low-side

power-stage FETs. There are two settings for OC

protection through mode selection pins:

cycle-by-cycle (CBC) current limiting mode and OC

latching (OCL) shut down mode.

In CBC current limiting mode, the detector outputs

are monitored by two protection systems. The first

protection system controls the power stage in order to

prevent the output current from further increasing,

i.e., it performs a CBC current-limiting function rather

than prematurely shutting down the device. This

feature could effectively limit the inrush current during

motor start-up or transient without damaging the

device. During short to power and short to ground

conditions, the current limit circuitry might not be able

to control the current to a proper level, a second

protection system triggers a latching shutdown,

resulting in the related half bridge being set in the

high-impedance (Hi-Z) state. Current limiting and

overcurrent protection are independent for

half-bridges A, B, and C, respectively.

Product Folder Link(s): DRV8312 DRV8332

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