Analysis of Synchronous Machines, 2nd Edition

All conventional machines rely upon magnetic fields for the purpose of energy conversion. This book approaches the study of electric machines by directly dealing with the electromagnetic fields. Focusing on the terminal rather than on the internal characteristics of machines, the text characterizes the machine in term of coupled magnetic circuits rather than magnetic fields. It provides problem sets and numerical examples, addresses Park’s equations starting from winding functions, describes operation as a LCI motor drive, and presents synchronous machine transient simulation as well as voltage regulation. The author aims to provide a deeper understanding of complex electromechanical drives.

Chapter 1 : Winding Distribution in an Ideal Machine
Chapter 2 : Reference Frame Theory
Chapter 3 : The d-q Equations of a Synchronous Machine
Chapter 4 : Steady State Behavior of Synchronous Machines
Chapter 5 : Transient Analysis of Synchronous Machines
Chapter 6 : Power System Transient Stability
Chapter 7 : Excitation Systems and Dynamic Stability
Chapter 8 : Naturally Commutated Synchronous Motor Drives
Chapter 9 : Extension of d-q Theory to Unbalanced Operation
Chapter 10 : Linearization of the Synchronous Machine Equations
Chapter 11 : Computer Simulation of Synchronous Machines

Appendix 1 : Identities Useful in AC Machine Analysis
Index

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