A3941 Allegro MicroSystems, Inc., A3941 Datasheet - Page 10

A3941

Manufacturer Part Number

A3941

Description

Automotive Full Bridge MOSFET Driver

Manufacturer

Allegro MicroSystems, Inc.

Datasheet

1.A3941.pdf (20 pages)

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A3941

pins), synchronous rectification turns on the MOSFET that is

complementary to the one that is turned off. This ensures that the

current passes through the lower resistance MOSFET rather than

the diode.

When SR is low, synchronous rectification is disabled. In this

case, fewer MOSFET switching cycles occur, reducing dissipa-

tion in the A3941. However, load current recirculates through the

higher resistance body diode of the power MOSFETs, causing

greater power dissipation in the power bridge.

RESET Pin

the A3941 to enter sleep mode. When RESET is held low, the

regulator and all internal circuitry are disabled and the A3941

enters sleep mode. Before fully entering sleep mode, there is a

short delay while the regulator decoupling and storage capacitors

discharge. This typically takes a few milliseconds, depending on

the application conditions and component values.

During sleep mode, current consumption from the VBB supply

is reduced to a minimal level. In addition, latched faults and the

corresponding fault flags are cleared. When the A3941 is coming

out of sleep mode, the protection logic ensures that the gate drive

outputs are off until the charge pump reaches its correct operat-

ing condition. The charge pump stabilizes in approximately 3 ms

under nominal conditions.

RESET can be used also to clear latched fault flags without

entering sleep mode. To do so, hold RESET low for less then the

reset pulse time, t

the outputs, such as short circuit detection or bootstrap capacitor

undervoltage.

Note that the A3941 can be configured to start without any exter-

nal logic input. To do so, pull up the RESET pin to V

of an external resistor. The resistor value should be between

20 and 33 kΩ.

Coast and Brake States

To put the power bridge into a coast state, that is all power bridge

MOSFETs switched off, the two PWM inputs, PWMH and

PWML, must be held low and at the same time SR must be held

low. This forces all gate drive outputs low.

Braking is achieved by forcing the power bridge to apply a short

across the load, allowing the back EMF of the load to generate a

braking torque.

This is an active-low input, and when active it allows

RES

. This clears any latched fault that disables

Automotive Full Bridge MOSFET Driver

by means

Several brake states are possible using combinations of inputs

on PWMH, PWML, and SR. For example, holding PWML and

SR high, while PWMH is low, turns on both low-side FETs to

short the load. The shorting path is always present and provides

braking in both directions of motor rotation. Another example is

holding SR low, when PWML is high and PWMH is low, mak-

ing only one low-side FET active, and the braking current flow

through the body diode of the opposite low-side FET. This pro-

vides braking in only one direction, because the diode does not

permit the braking current to flow if the motor is reversed. Also,

the braking current can be made to circulate around the high-side

switches by swapping PWMH and PWML.

Diagnostics

Several diagnostic features are integrated into the A3941 to

provide indication of fault conditions and, if required, take action

to prevent permanent damage. In addition to system-wide faults

such as undervoltage and overtemperature, the A3941 integrates

individual drain-source monitors for each external FET, to pro-

vide short circuit detection.

Diagnostic Management Pins

VDSTH Pin

measuring the drain-source voltage, V

and comparing it to the threshold voltage applied to the VDSTH

input, V

transients, the comparison is delayed by an internal blanking

timer. If the voltage applied to the VDSTH pin is greater than the

disable threshold voltage, V

tion is disabled.

VDRAIN Pin

external FET bridge. This input allows accurate measurement of

the voltage at the drain of the high-side FETs. It should be con-

nected directly to the common connection point for the drains of

the power bridge FETs at the positive supply connection point.

The input current to the VDRAIN pin is proportional to the volt-

age on the VDSTH pin and can be approximated by:

where I

FF1 and FF2 Pins

indicate fault conditions by their state, as shown in table 3. In

DSTH

is the voltage on the VDSTH pin, in V.

VDRAIN

DSTH

Faults on the external FETs are determined by

. To avoid false fault detection during switching

This is a low current sense input from the top of the

is the current into the VDRAIN pin, in μA, and

VDRAIN

These are open drain output fault flags, which

= 72 × V

115 Northeast Cutoff

1.508.853.5000; www.allegromicro.com

Allegro MicroSystems, Inc.

Worcester, Massachusetts 01615-0036 U.S.A.

DSDIS

, then FET short circuit detec-

DSTH

, of each active FET

+ 52 ,

A3941 Allegro MicroSystems, Inc., A3941 Datasheet - Page 10

A3941

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