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參數(shù)資料

型號(hào)：	MC33192
廠商：	Motorola, Inc.
英文描述：	MI-BUS INTERFACE STEPPER MOTOR CONTROLLER
中文描述：	架MI -總線接口步進(jìn)電機(jī)控制器
文件頁數(shù)：	5/12頁
文件大?。?/td>	190K
代理商：	MC33192

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MC33192

MOTOROLA ANALOG IC DEVICE DATA

There are four types of system error detections which are

not mutually exclusive; These are:

1) Noise Detection

The system MC33192 slave devices receive the Push

Field message from the MCU twice for each Time Slot (ts)

of the Bi–Phase Code. A receive error occurs when the two

message samples fail to “l(fā)ogic wise” match. Noise and

Bi–Phase detection are discussed further under Message

Coding.

2) Bi–Phase Detection

The system slave devices receiving the Push Field

message from the MCU detect the Bi–Phase Code. A

detector error occurs when the two time slots of the Bi–Phase

Code do not contain an Exclusive–OR logic function.

3) Field Check

A field error is detected when a fixed–form bit field

contains an improper number of bits. A bit error can also be

detected by the MCU during the Push Field. The MCU can

simultaneously monitor the MI–Bus at the time it is sending

data. A bit error is detected if the sent bit value does not

match the value which was monitored.

4) Urgent Output Disable

If the MI–Bus becomes shorted to ground, the slave

device outputs will be disabled after a period of 9ts. The MCU

itself can take advantage of this feature to “globally” disable

the outputs of all system slave devices by keeping the

MI–Bus at a logic “0” level for a duration of 9ts or more.

Normal operation is resumed when the MCU sends a

“standard” instruction over the MI–Bus.

Basic Stepper Motor Construction and Operation

Stepper motors are constructed with a permanent magnet

rotor magnetized with the same number of pole pairs as

contained in one stator coil section. Operationally, stepper

motors rotate at constant incremental angles by stepping one

step every time the current switches discretely in one stator

field coil causing the North–South stator field to rotate either

clockwise or counter–clockwise causing the permanent

magnet rotor to follow (see Figure 5). For simplicity, assume

the starting condition of the A1 to A2 stator field to be top to

bottom polarized N to S and the B1 to B2 stator field to be left

to right polarized N to S. The resulting stator field will produce

a vector which points in the direction of position 3. The rotor

will, in this case, be in the position shown in Figure 5 (pointing

to position 1). This initial condition corresponds to that of

step 1 in Figure 6. As the direction of current flow in the B1 to

B2 stator field is reversed, the field polarity of the B1 to B2

also reverses and is left to right polarized S to N. This causes

the resulting stator field vector to point in the direction of

position 4. This in turn causes the N–S rotor to follow and

rotate 90

in a clockwise direction and point in the direction of

position 2. This condition corresponds to step 2 of Figure 6.

Continued clockwise rotor steps will be experienced as the

stator field continues to be incrementally rotated as shown in

steps 3, 4, 5, etc. of Figure 6. The 90

steps in this simplistic

example constitute “full steps”. It is to be noticed that both

coils, in the foregoing full step example, were simultaneously

energized in one of two directions. It is possible to increment

the rotor in 45

“intermediate steps” or “half steps” by

alternately energizing only one stator coil at a time in the

appropriate direction while turning the other stator coil off.

The drive signals for Half Step operation are shown in

Figure 7. The Power output stages of the MC33192 consist

of two H–Bridges capable of driving two–phase bi–polar

permanent magnet motors in either half or full step

increment.

Figure 5. Permanent Magnet Stepper Motor

Figure 6. 4–Step “Full Step” Operation

Step

Coil A

(A1 to A2)

Coil B

(B1 to B2)

Stator

Field

Rotor

Position

Rotor

Direction

–

CCW

Figure 7. 8–Step “Half Step” Operation

Step

Coil A

(A1 to A2)

Coil B

(B1 to B2)

Stator

Field

Rotor

Position

Rotor

Direction

–

CCW

相關(guān)PDF資料	PDF描述
MC33193D	AUTOMOTIVE DIRECTION INDICATOR
MC33193	AUTOMOTIVE DIRECTION INDICATOR
MC33193P	AUTOMOTIVE DIRECTION INDICATOR
MC33195DW	Standard Quad Low Side Pre-driver with Diagnostic
MC33195	Standard Quad Low Side Pre-driver with Diagnostic

相關(guān)代理商/技術(shù)參數(shù)	參數(shù)描述
MC33192	制造商:SPC Multicomp 功能描述:PTC Resettable Fuse
MC33192DW	制造商:MOTOROLA 制造商全稱:Motorola, Inc 功能描述:MI-BUS INTERFACE STEPPER MOTOR CONTROLLER
MC33193	制造商:SPC Multicomp 功能描述:FUSE RESETTABLE SMD 0.75A 制造商:SPC Multicomp 功能描述:FUSE, PTC RESET, SMD, 16V, 750MA 制造商:SPC Multicomp 功能描述:RESETTABLE FUSE 60V 0.4A 制造商:SPC Multicomp 功能描述:FUSE, PTC RESET, 16V, 750mA, SMD; Holding Current:750mA; Tripping Current:1.5A; Initial Resistance Max:0.45ohm; Operating Voltage:16V; PTC Fuse Case:SMD; MSL:MSL 2A - 4 weeks; External Depth:0.65mm; Initial Resistance Min:0.11ohm ;RoHS Compliant: Yes
MC33193	制造商:SPC Multicomp 功能描述:PTC Resettable Fuse
MC33193D	制造商:MOTOROLA 制造商全稱:Motorola, Inc 功能描述:AUTOMOTIVE DIRECTION INDICATOR

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