Introduction to Modern Analysis of Electric Machines and Drives
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Introduction to Modern Analysis of Electric Machines and Drives
Krause, Paul C.; Krause, Thomas C.
John Wiley & Sons Inc
12/2022
272
Dura
Inglês
9781119908159
15 a 20 dias
538
Descrição não disponível.
Preface
CHAPTER 1 COMMON ANALYSIS TOOLS
1.1 INTRODUCTION
1.2 STEADY-STATE PHASOR CALCULATIONS
Power and Reactive Power
1.3 STATIONARY MAGNETICALLY-LINEAR SYSTEMS
Two-Winding Transformer
1.4 WINDING CONFIGURATIONS
1.5 TWO- AND THREE-PHASE STATORS
Two-Phase Stator
Three-Phase Stator
Line-to-Line Voltage
1.6 PROBLEMS
1.7 REFERENCE
CHAPTER 2 ANALYSIS OF THE SYMMETRICAL STATOR
2.1 INTRODUCTION
2.2 TESLA'S ROTATING MAGNETIC FIELD
Two-Pole Two-Phase Stator
Two-Pole Three-Phase Stator
2.3 REFERENCE FRAME THEORY
Two-Phase Transformation
Three-Phase Transformation
2.4 STATOR VOLTAGE AND FLUX LINKAGE EQUATIONS IN THE ARBITRARY REFERENCE FRAME AND THE INSTANTANEOUS PHASOR
Two-Phase Stator
Three-Phase Stator
Instantaneous and Steady-State Phasors
2.5 PROBLEMS
2.6 REFERENCES
CHAPTER 3 SYMMETRICAL INDUCTION MACHINE
3.1 INTRODUCTION
3.2 SYMMETRICAL MACHINES
3.3 SYMMETRICAL TWO-POLE ROTOR WINDINGS
Two-Phase Rotor Windings
Three-Phase Rotor Windings
3.4 SUBSTITUTE VARIABLES FOR SYMMETRICAL ROTATING CIRCUITS AND EQUIVALENT CIRCUIT
Two-Phase Machine
Three-Phase Machine
3.5 ELECTROMAGNETIC FORCE AND TORQUE
3.6 P-POLE MACHINES
3.7 FREE ACCELERATING VARIABLES VIEWED FROM DIFFERENT REFERENCE FRAMES
3.8 STEADY-STATE EQUIVALENT CIRCUIT
3.9 PROBLEMS
3.10 REFERENCES
CHAPTER 4 SYNCHRONOUS MACHINES
4.1 INTRODUCTION
4.2 ANALYSIS OF THE PERMANENT-MAGNET ac MOTOR
Torque
Unequal Direct- and Quadrature-Axis Inductances
Three-Phase Machine
4.3 WINDINGS OF THE SYNCHRONOUS MACHINE
4.4 EQUIVALENT CIRCUIT - VOLTAGE AND TORQUE EQUATIONS
Torque
Rotor Angle
4.5 DYNAMIC AND STEADY-STATE PERFORMANCES
4.6 ANALYSI OF STEADY-STATE OPERATION
4.7 TRANSIENT STABILITY
Three-Phase Fault
4.8 PROBLEMS
4.9 REFERENCE
CHAPTER 5 DIRECT CURRENT MACHINE AND DRIVE
5.1 INTRODUCTION
5.2 COMMUTATION
5.3 VOLTAGE AND TORQUE EQUATIONS
5.4 PERMANENT-MAGNET dc MACHINE
5.5 DC DRIVE
Average-Value Time-Domain Block Diagram
Torque Control
5.6 PROBLEMS
5.7 REFERENCE
CHAPTER 6 BRUSHLESS dc AND FIELD ORIENTED DRIVES
6.1 INTRODUCTION
6.2 THE BRUSHLESS dc DRIVE CONFIGURATION
6.3 COMMON MODE OF BRUSHLESS dc DRIVE OPERATION
6.4 OTHER MODES OF BRUSHLESS dc DRIVE OPERATION
Maximum-Torque Per Volt Operation of a Brushless dc Drive
Maximum-Torque Per Ampere Operation of a Brushless dc Drive
Torque Control
6.5 FIELD ORIENTED INDUCTION MOTOR DRIVE
6.6 PROBLEMS
6.7 REFERENCES
CHAPTER 7 SINGLE-PHASE INDUCTION MOTORS
7.1 INTRODUCTION
7.2 SYMMETRICAL COMPONENTS
7.3 ANALYSIS OF UNBALANCED MODES OF OPERATION
Unbalanced Stator Voltages
Unbalanced Stator Impedances
Open-Circuited Stator Phase
7.4 SINGLE-PHASE AND CAPACITOR-STATOR INDUCTION MOTORS
Single-Phase Induction Motor
Capacitor-Start Induction Motor
7.5 DYNAMIC AND STEADY-STATE PERFORMANCE OF A CAPACITOR-START SINGLE-PHASE INDUCTION MOTOR
7.6 SPLIT-PHASE INDUCTION MOTOR
7.7 PROBLEMS
7.8 REFERENCES
CHAPTER 8 STEPPER MOTORS
8.1 INTRODUCTION
8.2 BASIC CONFIGURATIONS OF MULTISTACK VARIABLE-RELUCTANCE STEPPER MOTORS
8.3 EQUATIONS FOR MULTSTACKVARIABLE-RELUCTANCE STEPPER MOTORS
8.4 OPERATING CHARACTERISTICS OF MULTISTACK VARIABLE-RELUCTANCE STEPPER MOTORS
8.5 SINGLE-STACK VARIABLE-RELUCTANCE STEPPER MOTORS
8.6 BASIC-CONFIGURATION OF PERMANENT-MAGNET STEPPER MOTORS
8.7 EQUATIONS FOR PERMANENT-MAGNET STEPPER MOTORS
8.8 PROBLEMS
8.9 REFERENCES
CHAPTER 1 COMMON ANALYSIS TOOLS
1.1 INTRODUCTION
1.2 STEADY-STATE PHASOR CALCULATIONS
Power and Reactive Power
1.3 STATIONARY MAGNETICALLY-LINEAR SYSTEMS
Two-Winding Transformer
1.4 WINDING CONFIGURATIONS
1.5 TWO- AND THREE-PHASE STATORS
Two-Phase Stator
Three-Phase Stator
Line-to-Line Voltage
1.6 PROBLEMS
1.7 REFERENCE
CHAPTER 2 ANALYSIS OF THE SYMMETRICAL STATOR
2.1 INTRODUCTION
2.2 TESLA'S ROTATING MAGNETIC FIELD
Two-Pole Two-Phase Stator
Two-Pole Three-Phase Stator
2.3 REFERENCE FRAME THEORY
Two-Phase Transformation
Three-Phase Transformation
2.4 STATOR VOLTAGE AND FLUX LINKAGE EQUATIONS IN THE ARBITRARY REFERENCE FRAME AND THE INSTANTANEOUS PHASOR
Two-Phase Stator
Three-Phase Stator
Instantaneous and Steady-State Phasors
2.5 PROBLEMS
2.6 REFERENCES
CHAPTER 3 SYMMETRICAL INDUCTION MACHINE
3.1 INTRODUCTION
3.2 SYMMETRICAL MACHINES
3.3 SYMMETRICAL TWO-POLE ROTOR WINDINGS
Two-Phase Rotor Windings
Three-Phase Rotor Windings
3.4 SUBSTITUTE VARIABLES FOR SYMMETRICAL ROTATING CIRCUITS AND EQUIVALENT CIRCUIT
Two-Phase Machine
Three-Phase Machine
3.5 ELECTROMAGNETIC FORCE AND TORQUE
3.6 P-POLE MACHINES
3.7 FREE ACCELERATING VARIABLES VIEWED FROM DIFFERENT REFERENCE FRAMES
3.8 STEADY-STATE EQUIVALENT CIRCUIT
3.9 PROBLEMS
3.10 REFERENCES
CHAPTER 4 SYNCHRONOUS MACHINES
4.1 INTRODUCTION
4.2 ANALYSIS OF THE PERMANENT-MAGNET ac MOTOR
Torque
Unequal Direct- and Quadrature-Axis Inductances
Three-Phase Machine
4.3 WINDINGS OF THE SYNCHRONOUS MACHINE
4.4 EQUIVALENT CIRCUIT - VOLTAGE AND TORQUE EQUATIONS
Torque
Rotor Angle
4.5 DYNAMIC AND STEADY-STATE PERFORMANCES
4.6 ANALYSI OF STEADY-STATE OPERATION
4.7 TRANSIENT STABILITY
Three-Phase Fault
4.8 PROBLEMS
4.9 REFERENCE
CHAPTER 5 DIRECT CURRENT MACHINE AND DRIVE
5.1 INTRODUCTION
5.2 COMMUTATION
5.3 VOLTAGE AND TORQUE EQUATIONS
5.4 PERMANENT-MAGNET dc MACHINE
5.5 DC DRIVE
Average-Value Time-Domain Block Diagram
Torque Control
5.6 PROBLEMS
5.7 REFERENCE
CHAPTER 6 BRUSHLESS dc AND FIELD ORIENTED DRIVES
6.1 INTRODUCTION
6.2 THE BRUSHLESS dc DRIVE CONFIGURATION
6.3 COMMON MODE OF BRUSHLESS dc DRIVE OPERATION
6.4 OTHER MODES OF BRUSHLESS dc DRIVE OPERATION
Maximum-Torque Per Volt Operation of a Brushless dc Drive
Maximum-Torque Per Ampere Operation of a Brushless dc Drive
Torque Control
6.5 FIELD ORIENTED INDUCTION MOTOR DRIVE
6.6 PROBLEMS
6.7 REFERENCES
CHAPTER 7 SINGLE-PHASE INDUCTION MOTORS
7.1 INTRODUCTION
7.2 SYMMETRICAL COMPONENTS
7.3 ANALYSIS OF UNBALANCED MODES OF OPERATION
Unbalanced Stator Voltages
Unbalanced Stator Impedances
Open-Circuited Stator Phase
7.4 SINGLE-PHASE AND CAPACITOR-STATOR INDUCTION MOTORS
Single-Phase Induction Motor
Capacitor-Start Induction Motor
7.5 DYNAMIC AND STEADY-STATE PERFORMANCE OF A CAPACITOR-START SINGLE-PHASE INDUCTION MOTOR
7.6 SPLIT-PHASE INDUCTION MOTOR
7.7 PROBLEMS
7.8 REFERENCES
CHAPTER 8 STEPPER MOTORS
8.1 INTRODUCTION
8.2 BASIC CONFIGURATIONS OF MULTISTACK VARIABLE-RELUCTANCE STEPPER MOTORS
8.3 EQUATIONS FOR MULTSTACKVARIABLE-RELUCTANCE STEPPER MOTORS
8.4 OPERATING CHARACTERISTICS OF MULTISTACK VARIABLE-RELUCTANCE STEPPER MOTORS
8.5 SINGLE-STACK VARIABLE-RELUCTANCE STEPPER MOTORS
8.6 BASIC-CONFIGURATION OF PERMANENT-MAGNET STEPPER MOTORS
8.7 EQUATIONS FOR PERMANENT-MAGNET STEPPER MOTORS
8.8 PROBLEMS
8.9 REFERENCES
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synchronous machines; induction machines; rotor analysis; tesla; Tesla's rotating magnetic field; power system engineering; drives engineering; electric machine textbook; machine analysis; electromagnetic force; rotor windings
Preface
CHAPTER 1 COMMON ANALYSIS TOOLS
1.1 INTRODUCTION
1.2 STEADY-STATE PHASOR CALCULATIONS
Power and Reactive Power
1.3 STATIONARY MAGNETICALLY-LINEAR SYSTEMS
Two-Winding Transformer
1.4 WINDING CONFIGURATIONS
1.5 TWO- AND THREE-PHASE STATORS
Two-Phase Stator
Three-Phase Stator
Line-to-Line Voltage
1.6 PROBLEMS
1.7 REFERENCE
CHAPTER 2 ANALYSIS OF THE SYMMETRICAL STATOR
2.1 INTRODUCTION
2.2 TESLA'S ROTATING MAGNETIC FIELD
Two-Pole Two-Phase Stator
Two-Pole Three-Phase Stator
2.3 REFERENCE FRAME THEORY
Two-Phase Transformation
Three-Phase Transformation
2.4 STATOR VOLTAGE AND FLUX LINKAGE EQUATIONS IN THE ARBITRARY REFERENCE FRAME AND THE INSTANTANEOUS PHASOR
Two-Phase Stator
Three-Phase Stator
Instantaneous and Steady-State Phasors
2.5 PROBLEMS
2.6 REFERENCES
CHAPTER 3 SYMMETRICAL INDUCTION MACHINE
3.1 INTRODUCTION
3.2 SYMMETRICAL MACHINES
3.3 SYMMETRICAL TWO-POLE ROTOR WINDINGS
Two-Phase Rotor Windings
Three-Phase Rotor Windings
3.4 SUBSTITUTE VARIABLES FOR SYMMETRICAL ROTATING CIRCUITS AND EQUIVALENT CIRCUIT
Two-Phase Machine
Three-Phase Machine
3.5 ELECTROMAGNETIC FORCE AND TORQUE
3.6 P-POLE MACHINES
3.7 FREE ACCELERATING VARIABLES VIEWED FROM DIFFERENT REFERENCE FRAMES
3.8 STEADY-STATE EQUIVALENT CIRCUIT
3.9 PROBLEMS
3.10 REFERENCES
CHAPTER 4 SYNCHRONOUS MACHINES
4.1 INTRODUCTION
4.2 ANALYSIS OF THE PERMANENT-MAGNET ac MOTOR
Torque
Unequal Direct- and Quadrature-Axis Inductances
Three-Phase Machine
4.3 WINDINGS OF THE SYNCHRONOUS MACHINE
4.4 EQUIVALENT CIRCUIT - VOLTAGE AND TORQUE EQUATIONS
Torque
Rotor Angle
4.5 DYNAMIC AND STEADY-STATE PERFORMANCES
4.6 ANALYSI OF STEADY-STATE OPERATION
4.7 TRANSIENT STABILITY
Three-Phase Fault
4.8 PROBLEMS
4.9 REFERENCE
CHAPTER 5 DIRECT CURRENT MACHINE AND DRIVE
5.1 INTRODUCTION
5.2 COMMUTATION
5.3 VOLTAGE AND TORQUE EQUATIONS
5.4 PERMANENT-MAGNET dc MACHINE
5.5 DC DRIVE
Average-Value Time-Domain Block Diagram
Torque Control
5.6 PROBLEMS
5.7 REFERENCE
CHAPTER 6 BRUSHLESS dc AND FIELD ORIENTED DRIVES
6.1 INTRODUCTION
6.2 THE BRUSHLESS dc DRIVE CONFIGURATION
6.3 COMMON MODE OF BRUSHLESS dc DRIVE OPERATION
6.4 OTHER MODES OF BRUSHLESS dc DRIVE OPERATION
Maximum-Torque Per Volt Operation of a Brushless dc Drive
Maximum-Torque Per Ampere Operation of a Brushless dc Drive
Torque Control
6.5 FIELD ORIENTED INDUCTION MOTOR DRIVE
6.6 PROBLEMS
6.7 REFERENCES
CHAPTER 7 SINGLE-PHASE INDUCTION MOTORS
7.1 INTRODUCTION
7.2 SYMMETRICAL COMPONENTS
7.3 ANALYSIS OF UNBALANCED MODES OF OPERATION
Unbalanced Stator Voltages
Unbalanced Stator Impedances
Open-Circuited Stator Phase
7.4 SINGLE-PHASE AND CAPACITOR-STATOR INDUCTION MOTORS
Single-Phase Induction Motor
Capacitor-Start Induction Motor
7.5 DYNAMIC AND STEADY-STATE PERFORMANCE OF A CAPACITOR-START SINGLE-PHASE INDUCTION MOTOR
7.6 SPLIT-PHASE INDUCTION MOTOR
7.7 PROBLEMS
7.8 REFERENCES
CHAPTER 8 STEPPER MOTORS
8.1 INTRODUCTION
8.2 BASIC CONFIGURATIONS OF MULTISTACK VARIABLE-RELUCTANCE STEPPER MOTORS
8.3 EQUATIONS FOR MULTSTACKVARIABLE-RELUCTANCE STEPPER MOTORS
8.4 OPERATING CHARACTERISTICS OF MULTISTACK VARIABLE-RELUCTANCE STEPPER MOTORS
8.5 SINGLE-STACK VARIABLE-RELUCTANCE STEPPER MOTORS
8.6 BASIC-CONFIGURATION OF PERMANENT-MAGNET STEPPER MOTORS
8.7 EQUATIONS FOR PERMANENT-MAGNET STEPPER MOTORS
8.8 PROBLEMS
8.9 REFERENCES
CHAPTER 1 COMMON ANALYSIS TOOLS
1.1 INTRODUCTION
1.2 STEADY-STATE PHASOR CALCULATIONS
Power and Reactive Power
1.3 STATIONARY MAGNETICALLY-LINEAR SYSTEMS
Two-Winding Transformer
1.4 WINDING CONFIGURATIONS
1.5 TWO- AND THREE-PHASE STATORS
Two-Phase Stator
Three-Phase Stator
Line-to-Line Voltage
1.6 PROBLEMS
1.7 REFERENCE
CHAPTER 2 ANALYSIS OF THE SYMMETRICAL STATOR
2.1 INTRODUCTION
2.2 TESLA'S ROTATING MAGNETIC FIELD
Two-Pole Two-Phase Stator
Two-Pole Three-Phase Stator
2.3 REFERENCE FRAME THEORY
Two-Phase Transformation
Three-Phase Transformation
2.4 STATOR VOLTAGE AND FLUX LINKAGE EQUATIONS IN THE ARBITRARY REFERENCE FRAME AND THE INSTANTANEOUS PHASOR
Two-Phase Stator
Three-Phase Stator
Instantaneous and Steady-State Phasors
2.5 PROBLEMS
2.6 REFERENCES
CHAPTER 3 SYMMETRICAL INDUCTION MACHINE
3.1 INTRODUCTION
3.2 SYMMETRICAL MACHINES
3.3 SYMMETRICAL TWO-POLE ROTOR WINDINGS
Two-Phase Rotor Windings
Three-Phase Rotor Windings
3.4 SUBSTITUTE VARIABLES FOR SYMMETRICAL ROTATING CIRCUITS AND EQUIVALENT CIRCUIT
Two-Phase Machine
Three-Phase Machine
3.5 ELECTROMAGNETIC FORCE AND TORQUE
3.6 P-POLE MACHINES
3.7 FREE ACCELERATING VARIABLES VIEWED FROM DIFFERENT REFERENCE FRAMES
3.8 STEADY-STATE EQUIVALENT CIRCUIT
3.9 PROBLEMS
3.10 REFERENCES
CHAPTER 4 SYNCHRONOUS MACHINES
4.1 INTRODUCTION
4.2 ANALYSIS OF THE PERMANENT-MAGNET ac MOTOR
Torque
Unequal Direct- and Quadrature-Axis Inductances
Three-Phase Machine
4.3 WINDINGS OF THE SYNCHRONOUS MACHINE
4.4 EQUIVALENT CIRCUIT - VOLTAGE AND TORQUE EQUATIONS
Torque
Rotor Angle
4.5 DYNAMIC AND STEADY-STATE PERFORMANCES
4.6 ANALYSI OF STEADY-STATE OPERATION
4.7 TRANSIENT STABILITY
Three-Phase Fault
4.8 PROBLEMS
4.9 REFERENCE
CHAPTER 5 DIRECT CURRENT MACHINE AND DRIVE
5.1 INTRODUCTION
5.2 COMMUTATION
5.3 VOLTAGE AND TORQUE EQUATIONS
5.4 PERMANENT-MAGNET dc MACHINE
5.5 DC DRIVE
Average-Value Time-Domain Block Diagram
Torque Control
5.6 PROBLEMS
5.7 REFERENCE
CHAPTER 6 BRUSHLESS dc AND FIELD ORIENTED DRIVES
6.1 INTRODUCTION
6.2 THE BRUSHLESS dc DRIVE CONFIGURATION
6.3 COMMON MODE OF BRUSHLESS dc DRIVE OPERATION
6.4 OTHER MODES OF BRUSHLESS dc DRIVE OPERATION
Maximum-Torque Per Volt Operation of a Brushless dc Drive
Maximum-Torque Per Ampere Operation of a Brushless dc Drive
Torque Control
6.5 FIELD ORIENTED INDUCTION MOTOR DRIVE
6.6 PROBLEMS
6.7 REFERENCES
CHAPTER 7 SINGLE-PHASE INDUCTION MOTORS
7.1 INTRODUCTION
7.2 SYMMETRICAL COMPONENTS
7.3 ANALYSIS OF UNBALANCED MODES OF OPERATION
Unbalanced Stator Voltages
Unbalanced Stator Impedances
Open-Circuited Stator Phase
7.4 SINGLE-PHASE AND CAPACITOR-STATOR INDUCTION MOTORS
Single-Phase Induction Motor
Capacitor-Start Induction Motor
7.5 DYNAMIC AND STEADY-STATE PERFORMANCE OF A CAPACITOR-START SINGLE-PHASE INDUCTION MOTOR
7.6 SPLIT-PHASE INDUCTION MOTOR
7.7 PROBLEMS
7.8 REFERENCES
CHAPTER 8 STEPPER MOTORS
8.1 INTRODUCTION
8.2 BASIC CONFIGURATIONS OF MULTISTACK VARIABLE-RELUCTANCE STEPPER MOTORS
8.3 EQUATIONS FOR MULTSTACKVARIABLE-RELUCTANCE STEPPER MOTORS
8.4 OPERATING CHARACTERISTICS OF MULTISTACK VARIABLE-RELUCTANCE STEPPER MOTORS
8.5 SINGLE-STACK VARIABLE-RELUCTANCE STEPPER MOTORS
8.6 BASIC-CONFIGURATION OF PERMANENT-MAGNET STEPPER MOTORS
8.7 EQUATIONS FOR PERMANENT-MAGNET STEPPER MOTORS
8.8 PROBLEMS
8.9 REFERENCES
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
