Electric machinery : the dynamics and statics of electromechanical energy conversion /
A. E. Fitzgerald, Charles Kingsley, JR
- 2nd edition.
- New York ; Toronto ; London : McGraw-Hill, c1961
- xii, 568p. : ill. ; 24 cm.
- McGraw-hill electrical and electronic engineering series .
Contents
Part 1 Electromechanical energy conversion
chapter 1 Basic principles 1-1 survey of physical phenomena 1-2 analytical basis 1-3 energy in single exited magnetic systems, etc
chapter 2 Electromechanical-energy-conversion principles 2-1 single excited magnetic systems 2-2 reluctance torque in rotating machines 2-3 multiply excited magnetic system, etc
chapter 3 Basic rotating machines 3-1 elementary concepts 3-2 MMF of distributed windings 3-3 Torque and voltage in Nonsalient-pole machines, etc
Part II: The Idealized machine
chapter 4. Theory of ideal D-C machines 4-1 The ideal D-C machine 4-2 Dynamic equations 4-3 transfer functions and block diagrams of D-C machines, etc
chapter 5. Theory of ideal synchronous machines 5-1 The ideal synchronous machines 5-2 synchronous-machine inductances 5-3 transformation to direct and quadrature-axis variables, etc
chapter 6 Theory of ideal polyphase induction machines 6-1 The ideal inductio machine 6-2 transformations to dq variables 6-3 basic machine relations in dq variables, etc
chapter 8. D-C Machines 8-1 Flux and MMF wave in D-C machines 8-2 analytical fundamentals : electric circuit aspects 8-3 analytical fundamentals: magnetic circuit aspects, etc
chapter 9 Synchronous Machines 9-1 flux and MMF waves in synchronous machine 9-2 Synchronous-machine equvalent circuits 9-3 open circuit and short circuit characteristics, etc
chapter 10 Polyphase induction Motors 10-1 flux and MMF waves in induction machines 10-2 the equivalent circuits 10-3 Normalized Torque-slip curves, etc
chapter 11 Fractional-horsepower A-C motors 11-1 single-phase induction motors-quantitative examinations 11-2 starting and running performance of single phase induction motors 11-3 single-phase synchronous motors, etc