mc33192dw Freescale Semiconductor, Inc, mc33192dw Datasheet - Page 6

mc33192dw

Manufacturer Part Number

mc33192dw

Description

Mi-bus Interface Stepper Motor Controller

Manufacturer

Freescale Semiconductor, Inc

Datasheet

1.MC33192DW.pdf (12 pages)

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characteristic ability to hold a shaft rotor position with or

without a stator coil being energized. Normally the shaft

holding ability of the motor with a stator coil energized is

referred to as “Holding Torque” while “Residual Torque” or

“Detent Torque” refers to the shaft holding ability when a

stator coil is not energized. The Holding Torque value is

dependent on the interactive magnetic force created by the

resulting energized stator fields with that of the permanent

magnet rotor. The Residual Torque is a function of the

physical size and composition of the permanent magnet rotor

material coupled with its intrinsic magnetic attraction for the

un–energized stator core material and as a result, the weaker

of the two torques.

coil is energized during alternate step periods which

produces a somewhat weaker Holding Torque. Holding

Torque is maximized when both coils are simultaneously

Permanent magnetic stepping motors exhibit the

It is to be noted when using half step operation, only one

Full

–

NOTES: 1. X = Don’t care; Z = High impedance; 1 = High (active “on”) state; 0 = Low (inactive “off”) state.

Step

Half

2. The stator field direction and position of the rotor are shown for explanation purposes and relative to the basic

3. DIR1 establishes the direction of current flow in H–Bridge “A”.

4. DIR2 establishes the direction of current flow in H–Bridge “B”.

Figure 8. Truth Table and Serial Push Field Data Bits For Sequential Stepping

stepper motor shown in Figure 3.

Inh1

DIR1

Push Field Bits

DIR2

Inh2

MC33192

H–Bridge Outputs

energized. In addition, since each winding and resulting flux

conditions are not perfectly matched for each half step,

incremental accuracy is not as good as when full stepping.

Two Phase Drive Signals

Field determine the direction of H–Bridge current flow, and

thus the magnetic field polarization of the stator coils, for

H–Bridge outputs “A” and “B” respectively. The directional

signals DIR1 and DIR2, generated by the MCU,

communicate over the MI–Bus to control the two H–Bridge

power output stages of the MC33192 to drive two phase

bipolar permanent magnet motors. Figure 8 shows the

MC33192 truth table to accomplish incremental stepping of

the motor in a clockwise or counter–clockwise direction in

either half or full step modes. The stator field polarization and

rotor position are also shown for reference relative to the

basic stepper motor of Figure 5.

The DIR1 and DIR2 bits in the Data Frame of the Push

MOTOROLA ANALOG IC DEVICE DATA

(Note 2)

Stator

Field

Position

(Note 2)

Rotor

Direction

Rotation

of Shaft

CCW

mc33192dw Freescale Semiconductor, Inc, mc33192dw Datasheet - Page 6

mc33192dw

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