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Principles of : AC Series motors Universal motor Stepper motor Shaded pole motor
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Page 1: Principles of Special Motors

Principles of :

AC Series motors

Universal motor

Stepper motor

Shaded pole motor

Page 2: Principles of Special Motors

A series ac motor is the same electrically as a dc series motor but construction differs slightly.

Special metals, laminations, and windings are used which reduce losses caused by eddy currents, hysteresis, and high reactance.

Dc power can be used to drive an ac series motor efficiently, but the opposite is not true.

The characteristics of a series ac motor are similar to those of a series dc motor. It is a varying-speed machine.

It has low speeds for large loads and high speeds for light loads.

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Motor that can be used with a single-phase ac source as well as a dc source of supply voltages are called universal motor.

The stator and rotor windings of the motor are connected in series through the rotor commutator.

The universal motor is also known as an AC series motor or an AC commutatormotor.

Page 5: Principles of Special Motors

MOTORS 5

Universal Motor

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Series-connected◦ Rotor and Stator are

connected in series

Operates on either ac or dc

MOTORS 6

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ECE 441 7

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ECE 441 8

Armature (Rotor)

Field Winding Field

(Stator)

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ECE 441 9

The Commutator Bar and Brushes are a switch that reverses the current in the armature coil as it rotates

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ECE 441 10

Force on conductor B is upwards, rotation is counter-clockwise (CCW)

Flux “Bunching”

+Positive Half-Cycle+

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ECE 441 11

Force on Conductor B is upwards, rotation is counter-clockwise (CCW)

Flux “Bunching”

-Negative Half-Cycle-

Page 12: Principles of Special Motors

How do you reverse the direction of rotation?◦ Reverse the direction of the current in either the field or in

the armature, but not both!

How do you control the speed of the motor?◦ Reduce the voltage applied to the motor

Use an autotransformer or SCR/Triac This reduces the armature current, reducing the torque,

reducing the speed

Applications◦ Portable power tools ◦ Small appliances

ECE 441 12

Page 13: Principles of Special Motors

A special type of synchronous motor which is designed to rotate a specific number of degrees for every electric pulse received by its control unit.

It is a motor that can rotate in both directions, move in precise angular increments, sustain a holding torque at zero speed, and be controlled with digital circuits.

It moves in accurate angular increments known as steps, in response to the application of digital pulses to the electric drive circuit.

Step motors are either bipolar, requiring two power sources or uni polar requiring only one power source.

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2 2

1

N

S

1

S

N

Stators

Rotor

Cross Section of a Stepper Motor

Page 19: Principles of Special Motors

2 2

1

1

S

N

S

N

NN

S S

1

a b

Winding number 1

2

a b

Winding number 2

One

step6 pole rotor

Page 20: Principles of Special Motors

The top electromagnet (1) is turned on, attracting the nearest teeth of a gear-shaped iron rotor. With the teeth aligned to electromagnet 1, they will be slightly offset from electromagnet 2

The top electromagnet (1) is turned off, and the right electromagnet (2) is energized, pulling the nearest teeth slightly to the right. This results in a rotation of 3.6° in this example.

Practical Stepper motor operation

Page 21: Principles of Special Motors

The bottom electromagnet (3) is energized; another 3.6° rotation occurs.

The left electromagnet (4) is enabled, rotating again by 3.6°. When the top electromagnet (1) is again enabled, the teeth in the sprocket will have rotated by one tooth position; since there are 25 teeth, it will take 100 steps to make a full rotation in this example.

Page 22: Principles of Special Motors

Stepping Motor to move read-write head

Stepper motor applications

Page 23: Principles of Special Motors

Paper feeder on printers

CNC lathes

Stepper motors

Stepper motor applications

Page 24: Principles of Special Motors

Rotor

Stator coils

CNC Stepping Motor

Page 25: Principles of Special Motors

Advantages:-

Low cost for control achieved

Ruggedness

Simplicity of construction

Can operate in an open loop control system

Low maintenance

Less likely to stall or slip

Will work in any environment

Disadvantages:-

Require a dedicated control circuit

Use more current than D.C. motors

High torque output achieved at low speeds

Advantages / Disadvantages