ThreePhase AC machines Resource 6 ThreePhase Wound Rotor

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Three-Phase AC machines Resource 6 Three-Phase Wound Rotor Induction Motors

Three-Phase AC machines Resource 6 Three-Phase Wound Rotor Induction Motors

Three-Phase AC Machines Resource 6 Three-Phase Wound Rotor Induction Motors Aim • To understand

Three-Phase AC Machines Resource 6 Three-Phase Wound Rotor Induction Motors Aim • To understand the construction, operation and performance of a Three-Phase Wound Rotor Induction Motor

Three-Phase AC Machines Resource 6 Three-Phase Wound Rotor Induction Motors Objectives • • •

Three-Phase AC Machines Resource 6 Three-Phase Wound Rotor Induction Motors Objectives • • • To be able to describe the construction of a three-phase wound rotor induction motor To be able to describe the operation of a three-phase wound rotor induction motor To be able to describe the performance of a three-phase wound rotor induction motor

Motor Construction 1 Outside View 1. Terminal Box 2. Outer Casing 7 3. Mounting

Motor Construction 1 Outside View 1. Terminal Box 2. Outer Casing 7 3. Mounting Bolts 2 4. Inspection Cover 5. Air Intake Vents 6 6. End Plate 7. Rotor Shaft 5 4 3

Motor Construction 2 1 Terminal Box 1. Rotor Terminals K, L, M 2. Stator

Motor Construction 2 1 Terminal Box 1. Rotor Terminals K, L, M 2. Stator Terminals U 1, V 1, W 1 3 3. Stator Windings 4. Stator Terminals U 2, V 2, W 2 5. Rotor Windings 6. Earth Terminal 6 5 4

Motor Construction 1 The Stator 1. Motor Outer Casing 2. Stator Coils 3. Stator

Motor Construction 1 The Stator 1. Motor Outer Casing 2. Stator Coils 3. Stator Slots 6 2 4. Air Intake Vents 5. Stator Laminations 3 5 6. Slots Insulators 4

Motor Construction The Rotor 1. Rotor Coils 2. Slip Rings 3. Brushes 4. Rotor

Motor Construction The Rotor 1. Rotor Coils 2. Slip Rings 3. Brushes 4. Rotor Terminals 5. Rotor Laminations 6. Rotor Slots

Motor Construction The Rotor 1. Slip Rings 2 3 1 2. Rotor Coils 3.

Motor Construction The Rotor 1. Slip Rings 2 3 1 2. Rotor Coils 3. Cooling Fan 4. Rotor Slots 5. Bearing 4 5

Motor Construction The Brush Gear 6 1 1. Brass Brush Holders 2. Carbon Brushes

Motor Construction The Brush Gear 6 1 1. Brass Brush Holders 2. Carbon Brushes 3. Springs 5 2 4. Nylon Insulator 5. Rotor Terminals 6. External Connecting Wires 3 4

Motor Operation The Rheostat Method of Starting 1. Motor starts with 3 -gang Rheostat

Motor Operation The Rheostat Method of Starting 1. Motor starts with 3 -gang Rheostat set to highest resistance giving low starting current and slow speed. 2. The Rheostat is adjusted slowly thus reducing rotor resistance to zero. 3. This increases rotor speed up to its maximum value 4. Starting torque can be easily adjusted by initial resistance setting to suit the load.

Motor Operation Stator Connections The Contactor Method of Starting 1. Motor starts with 3

Motor Operation Stator Connections The Contactor Method of Starting 1. Motor starts with 3 resistors in each rotor circuit giving low starting current and slow speed. 2. K 3 is energised shorting out resistors R 31, R 32, R 33 giving increased speed. 3. K 2 is energised shorting out resistors R 21, R 22, R 23 giving increased speed. 4. K 1 is energised shorting out resistors R 11, R 12, R 13 giving full speed. Earth Terminal Shorting Relays K 1, K 2, K 3 Rotor Connections Rotor Resistor Bank 1 Rotor Resistor Bank 2 Rotor Resistor Bank 3

Motor Performance Torque-Speed Curve for a four pole motor Increasing Rotor Resistance 1. Does

Motor Performance Torque-Speed Curve for a four pole motor Increasing Rotor Resistance 1. Does not change synchronous speed 2. Does not change maximum torque 3. Increases Starting Torque 4. Decreases Speed in running region for given load 5. Decreases Speed where maximum torque occurs 6. Decreases Starting Current