Includes bibliographical references and index.

Preface -- 1 Introduction -- 1.1 Introduction -- 1.2 Basics of Mechanics -- 1.3 Torque Speed Curve of Typical Mechanical Loads -- 2 Basic Structure and Modeling of Electric Machines and Power Converters -- 2.1 Structure and Modeling of DC Machine -- 2.2 Analysis of Steady-State Operation -- 2.3 Analysis of Transient State of DC Machine -- 2.4 Power Electronic Circuit to Drive DC Machine -- 2.5 Rotating Magnetic Motive Force -- 2.6 Steady-State Analysis of a Synchronous Machine -- 2.7 Linear Electric Machine -- 2.8 Capability Curve of Synchronous Machine -- 2.9 Parameter Variation of Synchronous Machine -- 2.10 Steady-State Analysis of Induction Machine -- 2.11 Generator Operation of an Induction Machine -- 2.12 Variation of Parameters of an Induction Machine -- 2.13 Classification of Induction Machines According to Speed-Torque Characteristics -- 2.14 Quasi-Transient State Analysis -- 2.15 Capability Curve of an Induction Machine -- 2.16 Comparison of AC Machine and DC Machine -- 2.17 Variable-Speed Control of Induction Machine Based on Steady-State Characteristics -- 2.18 Modeling of Power Converters -- 2.19 Parameter Conversion Using Per Unit Method -- 3 Reference Frame Transformation and Transient State Analysis of Three-Phase AC Machines -- 3.1 Complex Vector -- 3.2 d-q-n Modeling of an Induction Machine Based on Complex Space Vector -- 3.3 d-q-n Modeling of a Synchronous Machine Based on Complex Space Vector -- 4 Design of Regulators for Electric Machines and Power Converters -- 4.1 Active Damping -- 4.2 Current Regulator -- 4.3 Speed Regulator -- 4.4 Position Regulator -- 4.5 Detection of Phase Angle of AC Voltage -- 4.6 Voltage Regulator -- 5 Vector Control -- 5.1 Instantaneous Torque Control -- 5.2 Vector Control of Induction Machine -- 5.3 Rotor Flux Linkage Estimator -- 5.4 Flux Weakening Control -- 6 Position/Speed Sensorless Control of AC Machines -- 6.1 Sensorless Control of Induction Machine -- 6.2 Sensorless Control of Surface-Mounted Permanent Magnet Synchronous Machine (SMPMSM).

6.3 Sensorless Control of Interior Permanent Magnet Synchronous Machine (IPMSM) -- 6.4 Sensorless Control Employing High-Frequency Signal Injection -- 7 Practical Issues -- 7.1 Output Voltage Distortion Due to Dead Time and Its Compensation -- 7.2 Measurement of Phase Current -- 7.3 Problems Due to Digital Signal Processing of Current Regulation Loop -- Appendix A Measurement and Estimation of Parameters of Electric Machinery -- A.1 Parameter Estimation -- A.2 Parameter Estimation of Electric Machines Using Regulators of Drive System -- A.3 Estimation of Mechanical Parameters -- Appendix B d-q Modeling Using Matrix Equations -- B.1 Reference Frame and Transformation Matrix -- B.2 d-q Modeling of Induction Machine Using Transformation Matrix -- B.3 d-q Modeling of Synchronous Machine Using Transformation Matrix -- Index.

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"This book is based on the author's industry experience. It contains many exercise problems that engineers would experience in their day-to-day work. The book was published in Korean at 500 pages as a textbook. The book will contain over 300 figures. The author plans to have an FTP site to provide some MATLAB programs for selected problems"-- Provided by publisher.

"This book is based on the author's industry experience. It contains many exercise problems that engineers would experience in their day-to-day work"-- Provided by publisher.

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