UNIT 6
ALTERNATING CURRENT (AC) MACHINERY (PART II)
OBJECTIVES
General Objective
To understand and compare the three phase induction motor
Specific Objectives
By the end of this unit, you would be able to:
- explain the construction of the three phase induction motor
- differentiate the construction of the three phase squirrel cage induction motor and the three phase slip ring induction motor
- compare the advantages and disadvantages between squirrel cage induction motor and the slip ring induction motor
INPUT
- CONSTRUCTION OF THE THREE PHASE INDUCTION MOTOR
nduction motor has the same physical stator as a synchronous machine. It consists of two major parts which are stator and rotor. These parts will be discussed in this unit. The rotor of the induction motor has a different rotor construction. There are two different types of induction motor rotor which can be placed inside the stator. One is called a squirrel cage rotor, while the other is called a wound rotor or slip rings rotor. Both of these types will be discussed in this sub-unit. Before that, we should know the terms of the stator and the rotor.
Figure 6.1: The stator of a typical induction motor
(Source: Electrical Machines, Drives and Power System 5th edition; Wildi Theodore)
Stator
The stator (Figure 6.1) consists of
steel frame that supports a hollow,
cylindrical core made up of stacked
laminations. A number of evenly
spaced slots, punched out of the
internal circumference of the
laminations, provide the space for
the stator winding.
- Rotor
The rotor (Figure 6.2) is also composed of punched laminations. These are carefully stacked to create a series rotor slot to provide space for the rotor winding. We used two types of rotor windings: (1) conventional three phase windings made of insulated wire, and (2) squirrel cage windings. The type of winding differentiates the to two main classes of motors: squirrel cage induction motors and slip rings rotor induction motor (also called wound rotor induction motor)
(a) Squirrel cage rotor | (b) Slip rings rotor |
Figure 6.2: The rotor of a typical induction motor
(Source: Electrical Machines, Drives and Power System 5th edition; Wildi Theodore)
Test your UNDERSTANDING before you continue to the next input
ACTIVITY 6 A
- Circle the best answer
- What are the major parts inside the induction motor
=A= squirrel cage and wound
=B= stator and rotor
=C= steel frame and cylindrical core
=D= hollow and steel frame
- Choose the best statement about stator
I steel frame used to support a hollow
II cylindrical core made up of stacked laminations
III it gives classes of induction motors
=A= I and II
=B= II and III
=C= I and III
=D= I, II, and III
(iii) Choose the best statement about stator
I the rotor is composed of punched lamination
II punched lamination provide space for the rotor winding
III it gives classes of induction motors
=A= I and II
=B= II and III
=C= I and III
=D= I, II, and III
- From these figures given, name each figure.
(i) ………………………………………….. | |
(ii) …………………………………………. | |
(iii) ………………………………………….. |
FEEDBACK TO ACTIVITY 6 A
6.1. (i) B (ii) A (iii) D
6.2. (i) Slip rings rotor (ii) stator (iii) Squirrel cage rotor
E3106/06/10
ELECTRICAL MACHINERY & CONTROL
INPUT
6.2 THE TYPES OF THE THREE PHASE INDUCTION MOTOR
Figure 6.3: Squirrel cage rotor induction motor
There are two types of induction motor which are based on its rotor construction. One is called a squirrel cage rotor, while the other is called a slip rings rotor.
- Squirrel Cage Rotor Induction Motor
Figure 6.3 shows a squirrel cage rotor induction
motor rotors. A squirrel cage induction motor
rotor consists of a series of conducting bars laid
into slots carved in the face of the rotor and
shorted at either end by large shorting rings.
This design is referred to as a squirrel cage
rotor because the conductors, if examined by
them, would be like one of the exercise wheels that squirrel or hamsters run on.
- Slip Rings Rotor Induction Motor
Slip rings rotor induction motor is also known as a wound rotor induction motor. A
wound rotor has a complete set of three-phase windings that is a mirror image of
Figure 6.4: Slip rings rotor induction motor
(Source: Electrical Machinery Fundamentals (3rd edition) Stephen J.Chapman)
windings on the stator. The three phases of the rotor windings are usually Y-connected, and the ends of the three rotor wires are tied to slip rings on the rotor’s shaft. The rotor windings are shortened through brushes riding on the slip rings.
Therefore, the wound rotor induction motors have
their rotor currents accessible at the stator brushes,
where they can be examined and where extra
resistance can be inserted into the rotor circuit.
It is possible to take advantage of this feature to
modify the torque-speed characteristic of the motor.
a complete wound rotor induction motor is shown in Figure 6.4.
The evolution of the induction motor? The motors shown in this figure are all rated at 220V and 15hp. There has been a dramatic decrease in motor size and material requirements in induction motors since the first practical ones were produced in the 1890s.
(Source: Electrical Machinery Fundamentals (3rd edition) Stephen J. Chapman)
1903
1910
1920
1940
1954
1974
Test your UNDERSTANDING before you continue to the next input
ACTIVITY 6 B
6.3
I’m consists of a series of conducting bars laid into slots carved in the face of the rotor and shortened at either end by large shorting rings. WHO AM I?
FEEDBACK TO ACTIVITY 6 B
- Squirrel cage rotor induction motor
INPUT
6.3 ADVANTAGES OF THE TYPES OF INDUCTION MOTOR.
After you have understood the previous sub unit, you should also know the advantages for both of types of induction motor. Table 6.1 present the advantages of both squirrel cage and slip ring rotor induction motor.
Table 6.1: Advantages of The Squirrel Cage and The Slip Ring Rotor
The Squirrel Cage | The Slip Ring Rotor |
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Test your UNDERSTANDING before you continue to the next input
ACTIVITY 6 C
- Listed in the table below are the advantages of squirrel cage and slip rings rotor. List out the advantages given in the right columns.
Cheap | Low starting current | robust |
Slightly higher efficiency | Speed varied depends on solid-state switching | Slightly power factor |
High starting torque |
|
|
The Squirrel Cage | The Slip Ring Rotor |
1. …………………………………………… 2. …………………………………………… 3. …………………………………………… 4. …………………………………………… |
|
FEEDBACK TO ACTIVITY 6 C
6.4
The Squirrel Cage | The Slip Ring Rotor |
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SELF-ASSESMENT
If you face any problem, discuss it with your lecturer
You are approaching success. TRY all the questions in this self-assessment section and check your answers with those given in the feedback on Self-Assessment given on the next page.
Question 6-1
A. Define stator and rotor?
Question 6-2
A. Describe the slip ring squirrel cage rotor induction motor and the slip ring rotor induction motor.
Question 6-3
A. What are the advantages of the slip ring squirrel cage rotor induction motor and the slip ring rotor induction motor?
FEEDBACK TO SELF-ASSESMENT
Question 6-1
- The stator consists of steel frame that supports a hollow, cylindrical core made up of stacked laminations. A number of evenly spaced slots, punched out of the internal circumference of the laminations, provide the space for the stator winding. The rotor is also composed of punched laminations. These are carefully stacked to create a series rotor slot to provide space for the rotor winding.
Question 6-2
A. see notes 6.1.1 and 6.1.2
Question 6-3
A. Table 6.1: Advantages of The Squirrel Cage and The Slip Ring Rotor
The Squirrel Cage | The Slip Ring Rotor |
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