1. SINGLE-PHASE INDUCTION MOTOR
CHAPTER 8
SINGLE-PHASE INDUCTION MOTOR
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2. INTRODUCTION
A single-phase induction motor is structurally similar to a three-phase induction motor; the difference is only in the stator winding arrangements. The stator windings of a single-phase induction motor are distributed, pitched and skewed to produce a sinusoidal m.m.f. in space.
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3. CONSTRUCTION
The construction of a single-phase induction motor is similar to that of a three-phase induction motor. The single-phase motor stator has a laminated iron core with two windings arranged perpendicularly – one is the main and the other is the auxiliary winding or starting winding. The motor uses a squirrel-cage rotor, which has a laminated iron core with slots in it. Single-phase induction motor is not self-starting and requires some mechanism to assist it in the starting process.
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4. DOUBLE-FIELD REVOLVING THEORY
According to this theory, a pulsating field of a single-phase motor can be resolved into two rotating field of half its amplitude rotating in opposite direction at synchronous speed.
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5. DOUBLE-FIELD REVOLVING THEORY
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6. DOUBLE-FIELD REVOLVING THEORY
The torque–slip curve is shown below
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7. CROSS FIELD THEORY
When a single-phase supply is given to the stator of a single-phase induction motor, an alternating flux is produced in the stator.
This alternating flux will produce an induced e.m.f. in the rotor windings, which is initially at standstill.
No torque will be produced in the rotor
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8. CROSS FIELD THEORY
If the rotor is rotated by giving some external force, an e.m.f. will be induced in the rotor and thus a current will flow through the rotor. This current will be displaced by 90 degree (electrical) from the stator axis.
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9. STARTING OF SINGLE-PHASE INDUCTION MOTOR
Some of the starting methods are, i) Split-phase method ii) Shaded-pole method iii) Reluctance-start method
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10. Split Phase Method
The different split-phase techniques are: i) Split-phase resistance-start motor. ii) Split-phase capacitor-start motor. iii) Capacitor-start – capacitor-run induction motor iv) Permanent single capacitor induction motor.
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11. Split-phase resistance start motor
This method of starting is mostly used in motor with low inertia load or continuous operating load.
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12. Split-phase capacitor start motor
In this type of motor, an electrolytic capacitor is connected in series with the auxiliary winding. Due to the presence of the capacitor, the auxiliary winding current will now lead the applied voltage and the main winding current will lag the applied voltage.
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13. Capacitor-start – Capacitor-run induction motor
These motors are used for such applications where large starting torque and quiet operations are required. These motors produce constant torque and have better efficiency and power factor.
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14. Shaded Pole Method
A part of each pole is wrapped with low resistance copper bands, which form a closed loop (These copper bands are called shading bands or shaded poles).
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15. Shaded Pole Method
When a single-phase AC supply is given to the stator of an induction motor, alternating flux will set up a current in the shading bands.
The flux in the shaded poles will lag the stator flux. The result is similar to a rotating field moving from un-shaded to shaded portion of the pole. This will produce the starting torque.
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16. EQUIVALENT CIRCUIT OF A SINGLE-PHASE INDUCTION MOTOR
Equivalent circuit at stand still based on double-field revolving theory
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17. EQUIVALENT CIRCUIT OF A SINGLE-PHASE INDUCTION MOTOR
Equivalent circuit at any slip
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18. Block Rotor Test
Blocked rotor test is conducted on an induction motor. It is also known as short circuit test or locked rotor test or stalled torque test. 
From this test short-circuit current at normal voltage, power factor on short-circuit, total leakage reactance, starting torque of the motor can be found.
 The test is conducted at low voltage because if the applied voltage was normal voltage then the current flowing through the stator windings were high enough to over heat the winding and damage them. 
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19. No-load Test
In this test, the rotor is made to rotate freely without any load.
Under this condition, the slip due to forward rotating field will reach zero and the slip due to backward rotating field will be 2.
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20. COMPARISON OF SINGLE-PHASE AND THREE-PHASE INDUCTION MOTOR
Single-phase induction motors are simple in construction, reliable and economical for small power rating as compared to three-phase induction motors.
The electrical power factor of single-phase induction motors is low as compared to three-phase induction motors.
For the same size, single-phase induction motors develop about 50% of the output as that of three-phase induction motors.
The starting torque is low for asynchronous motors.
The efficiency of single-phase induction motors is less as compared to that of three-phase induction motors.
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