1CHAPTER 1 Introduction to Electrical Machines
567.7 Applications and Selection Criteria
21.1 Basic Principles of Electromechanical Energy Conversion
57CHAPTER 8 Special Machines
31.2 Types of Electrical Machines
588.1 Linear Machines
41.4 Safety Considerations
598.2 Reluctance Machines
51.5 Units and Nomenclature
608.3 Brushless DC (BLDC) Machines
61.6 Magnetic Circuits and Materials
618.4 Switched Reluctance Machines
7CHAPTER 2 Transformers
628.5 Axial Flux Machines
82.1 Principle of Operation
638.6 Claw Pole Machines
92.2 Construction and Components
648.7 Emerging Technologies
102.3 Ideal and Real Transformer Models
65CHAPTER 9 Motor Drives and Control
112.4 Phasor Diagrams and Equivalent Circuits
669.1 Introduction to Motor Drives
122.5 Transformer Losses and Efficiency
679.2 DC Motor Drives
132.6 Voltage Regulation
689.3 Induction Motor Drives
142.7 Autotransformers
699.4 Synchronous Motor Drives
152.8 Three-Phase Transformers
709.5 Converter Topologies and Control Techniques
16CHAPTER 3 Electromech
719.6 Pulse Width Modulation (PWM)
17anical Energy Conversion Principles
729.7 Scalar and Vector Control Strategies
183.1 Faraday’s Law of Electromagnetic Induction
73CHAPTER 10 Electrical Machine Design
193.2 Lorentz Force Equation
7410.1 Design Considerations and Objectives
203.3 Torque and Power in Rotating Machines
7510.2 Magnetic Circuit Design
213.4 Rotating Magnetic Field Theory
7610.3 Winding Design and Insulation
223.5 Armature Windings and Winding Factors
7710.4 Thermal Design and Cooling Systems
233.6 Magnetic Circuits and Air Gap Calculations
7810.5 Mechanical Design and Vibration Analysis
24CHAPTER 4 Direct Current (DC) Machines
7910.6 Computer-Aided Design (CAD) Tools
254.1 Construction and Operating Principles
8010.7 Optimization Techniques
264.2 Armature Windings and Commutation
81CHAPTER 11 Testing and Maintenance
274.3 Magnetic Circuits and Air Gap Flux Distribution
8211.1 Testing and Commissioning Procedures
284.4 Torque and Power Characteristics
8311.2 Routine Tests and Type Tests
294.5 Armature Reaction and Commutation
8411.3 Condition Monitoring and Fault Diagnosis
304.6 Speed Control Methods
8511.4 Predictive Maintenance Techniques
31CHAPTER 5 Induction Machines
8611.5 Repair and Rewinding Procedures
325.1 Construction and Operating Principles
8711.6 Safety Considerations and Standards
335.2 Rotating Magnetic Field Theory
88CHAPTER 12 Power Electronics for Electrical Machines
345.3 Equivalent Circuit Modeling
8912.1 Introduction to Power Electronics
355.4 Torque-Speed Characteristics
9012.2 Rectifiers and Converters
365.5 Starting Methods and Techniques
9112.3 Inverters and Cycloconverters
375.6 Speed Control Methods
9212.4 Pulse Width Modulation (PWM) Techniques
385.7 Induction Generator Principles
9312.5 Harmonic Analysis and Mitigation
395.8 Single-Phase Induction Motors
9412.6 Protection and Filtering Circuits
40CHAPTER 6 Synchronous Machines
95CHAPTER 13 Electrical Machine Applications
416.1 Construction and Operating Principles
9613.1 Industrial Applications
426.2 Rotating Magnetic Field Theory
9713.2 Renewable Energy Systems
436.3 Equivalent Circuit Modeling
9813.3 Traction and Transportation
446.4 Phasor Diagrams and Power Angle Characteristics
9913.4 Aerospace and Defense
456.5 Synchronization and Parallel Operation
10013.5 Household and Consumer Products
466.6 Steady-State Performance and Stability
10113.6 Emerging Applications
476.7 Salient-Pole Machines
102CHAPTER 14 Numerical Modeling and Simulation
486.8 Applications and Selection Criteria
10314.1 Introduction to Numerical Methods
49CHAPTER 7 Fractional Horsepower Motors
10414.2 Finite Element Analysis (FEA)
507.1 Introduction to Small Motors
10514.3 Computational Fluid Dynamics (CFD)
517.2 Shaded-Pole Induction Motors
10614.4 Circuit Simulation and Virtual Prototyping
527.3 Split-Phase Induction Motors
10714.5 Model Order Reduction Techniques
537.4 Capacitor-Start Induction Motors
10814.6 Optimization and Design Exploration
547.5 Permanent Magnet Motors
109Glossary
557.6 Stepper Motors
110Index
