MC33932VW Freescale Semiconductor, MC33932VW Datasheet - Page 11

MC33932VW

Manufacturer Part Number

MC33932VW

Description

IC H-BRIDGE THROTTLE CTRL 44HSOP

Manufacturer

Freescale Semiconductor

Type

H Bridger

Datasheet

1.MC33932VW.pdf (21 pages)

Specifications of MC33932VW

Input Type

Non-Inverting

Number Of Outputs

On-state Resistance

120 mOhm

Current - Output / Channel

Current - Peak Output

11A

Voltage - Supply

8 V ~ 28 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

44-HSOP

Product

H-Bridge Drivers

Rise Time

3 us

Fall Time

3 us

Supply Voltage (max)

28 V

Supply Voltage (min)

- 0.3 V

Supply Current

80 uA

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Bridge Type

H-Bridge

Maximum Turn-on Delay Time

1 ms

Minimum Operating Temperature

- 40 C

Number Of Drivers

Output Current

5 A

Output Voltage

7 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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package. The only connection that is shared internally is the

Analog Ground (AGND). This description is given for the H-

Bridge A half of the total device. However, the H-Bridge B half

will exhibit identical behavior.

torque, direction, dynamic breaking, PWM control, and

closed-loop control) make the 33932 a very attractive, cost-

effective solution for controlling a broad range of small DC

motors. The 33932 outputs are capable of supporting peak

DC load currents of up to 5.0 A from a 28 V V

internal charge pump and gate drive circuitry are provided

that can support external PWM frequencies up to 11 kHz.

pin (the FB pin) that provides a constant-current source

ratioed to the active high side MOSFET

used to provide “real time” monitoring of output current to

facilitate closed-loop operation for motor speed/torque

control, or for the detection of open load conditions.

the two totem-pole half-bridge outputs. Two independent

disable inputs, D1 and EN/D2, provide the means to force the

POWER GROUND AND ANALOG GROUND

(PGND AND AGND)

together with a very low-impedance connection.

POSITIVE POWER SUPPLY (VPWR)

VPWR pins must be connected together on the printed circuit

board with as short as possible traces, offering as low an

impedance as possible between pins.

STATUS FLAG (SF)

active LOW open drain structure requiring a pull-up resistor

to V

Table, page

INPUT 1,2 AND DISABLE INPUT 1

(IN1, IN2, AND D1

outputs. These pins are 3.0 V/ 5.0 V CMOS-compatible

inputs with hysteresis. IN1 and IN2 independently control

OUT1 and OUT2, respectively. D1 input is used to tri-state

disable the H-bridge outputs.

Analog Integrated Circuit Device Data

Freescale Semiconductor

The 33932 has two identical H-Bridge drivers in the same

Numerous protection and operational features (speed,

The 33932 has an analog feedback (current mirror) output

Two independent inputs, IN1 and IN2, provide control of

The power and analog ground pins should be connected

VPWR pins are the power supply inputs to the device. All

This pin is the device fault status output. This output is an

These pins are input control pins used to control the

. The maximum V

for the SF Output status definition.

)

is < 7.0 V. Refer to

’ current. This can be

FUNCTIONAL DESCRIPTION

FUNCTIONAL PIN DESCRIPTION

PWR

Table 5, Truth

source. An

INTRODUCTION

H-bridge outputs to a high-impedance state (all H-bridge

switches OFF). The EN/D2 pin also controls an enable

function that allows the IC to be placed in a power-conserving

Sleep Mode.

time PWM current regulation), output short-circuit detection

with latch-OFF, and over-temperature detection with latch-

OFF. Once the device is latched-OFF due to a fault condition,

either of the Disable inputs (D1 or EN/D2), or V

“toggled” to clear the status flag.

accomplished by a constant-OFF time PWM method using

current limit threshold triggering. The current limiting scheme

is unique in that it incorporates a junction temperature-

dependent current limit threshold. This means that the

current limit threshold is “reduced to around 4.2 A” as the

junction temperature increases above 160°C. When the

temperature is above 175°C, over-temperature shutdown

(latch-OFF) will occur. This combination of features allows

the device to continue operating for short periods of time (< 30

seconds) with unexpected loads, while still retaining

adequate protection for both the device and the load.

outputs OUT1 and OUT2 are both tri-state disabled; however,

the rest of the device circuitry is fully operational and the

supply I

Table 3, Static Electrical

H-BRIDGE OUTPUT (OUT1, OUT2)

free-wheeling diodes. The bridge output is controlled using

the IN1, IN2, D1, and EN/D2 inputs. The outputs have PWM

current limiting above the I

have thermal shutdown (tri-state latch-OFF) with hysteresis

as well as short circuit latch-OFF protection.

between load currents that are higher than the I

and short circuit currents. This timer is activated at each

output transition.

CHARGE PUMP CAPACITOR (CCP)

the external charge pump reservoir capacitor. The allowable

value is from 30 to 100 nF. This capacitor must be connected

from the CCP pin to the VPWR pin. The device cannot

operate properly without the external reservoir capacitor.

The 33932 has output current limiting (via constant OFF-

Current limiting (Load Current Regulation) is

When D1 is SET (D1 = logic HIGH) in the disable state,

These pins are the outputs of the H-bridge with integrated

A disable timer (time t

This pin is the charge pump output pin and connection for

PWR(STANDBY)

current is reduced to a few mA. Refer to

Characteristics,

) is incorporated to distinguish

LIM

threshold. The outputs also

FUNCTIONAL DESCRIPTION

page

INTRODUCTION

PWR

LIM

threshold

must be

33932

MC33932VW Freescale Semiconductor, MC33932VW Datasheet - Page 11

MC33932VW

Specifications of MC33932VW

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