Description
Analysis of Synchronous Machines (2nd Ed.)
Author: Lipo T.A.
Language: EnglishSubjects for Analysis of Synchronous Machines:
Keywords
Synchronous Machine; Flux Linking; Winding Distribution in an Ideal Machine; Terminal Voltage; Reference Frame Theory; Park’s Equations; Excitation Systems and Dynamic Stability; Stator Flux Linkages; Transient Analysis of Synchronous Machines; Rotor Reference Frame; Steady-State Behavior of Synchronous Machines; Electrical Torque; synchronous machines; Root Locus Plot; electromechanical drives; Salient Pole Machine; Phase Margin; Electromagnetic Torque; Mmf; Field Current; Air Gap; Bode Plot; Equivalent Circuit; Potier Reactance; Excitation System; Winding Function; DC Link; Firing Angle; Margin Angle; Mutual Inductance; Open Circuit Characteristic; Mutual Flux Linkages
Publication date: 04-2017
· 17.8x25.4 cm · Paperback
Publication date: 07-2012
590 p. · 17.8x25.4 cm · Hardback
Description
/li>Contents
/li>Biography
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Analysis of Synchronous Machines, Second Edition is a thoroughly modern treatment of an old subject. Courses generally teach about synchronous machines by introducing the steady-state per phase equivalent circuit without a clear, thorough presentation of the source of this circuit representation, which is a crucial aspect. Taking a different approach, this book provides a deeper understanding of complex electromechanical drives.
Focusing on the terminal rather than on the internal characteristics of machines, the book begins with the general concept of winding functions, describing the placement of any practical winding in the slots of the machine. This representation enables readers to clearly understand the calculation of all relevant self- and mutual inductances of the machine. It also helps them to more easily conceptualize the machine in a rotating system of coordinates, at which point they can clearly understand the origin of this important representation of the machine.
- Provides numerical examples
- Addresses Park?s equations starting from winding functions
- Describes operation of a synchronous machine as an LCI motor drive
- Presents synchronous machine transient simulation, as well as voltage regulation
Applying his experience from more than 30 years of teaching the subject at the University of Wisconsin, author T.A. Lipo presents the solution of the circuit both in classical form using phasor representation and also by introducing an approach that applies MathCAD®, which greatly simplifies and expands the average student?s problem-solving capability. The remainder of the text describes how to deal with various types of transients?such as constant speed transients?as well as unbalanced operation and faults and small signal modeling for transient stability and dynamic stability.
Finally, the author addresses large signal modeling using MATLAB®/Simulink®, for complete solution of the non-linear equations of the salient pole synchronous machine. A valuable tool for learning, this updated edition offers thoroughly revised content, adding new detail and better-quality figures.
Winding Distribution in an Ideal Machine. Reference Frame Theory. The d–q Equations of a Synchronous Machine. Steady-State Behavior of Synchronous Machines. Transient Analysis of Synchronous Machines. Power System Transient Stability. Excitation Systems and Dynamic Stability. Naturally Commutated Synchronous Motor Drives. Extension of d–q Theory to Unbalanced Operation. Linearization of the Synchronous Machine Equations. Computer Simulation of Synchronous Machines. Appendices.
Thomas A. Lipo received his BEE and MS degrees at Marquette University and his Ph.D from the University of Wisconsin in 1968. After 10 years at the Corporate R&D Center of the General Electric Company in Schenectady. New York, he joined Purdue University as professor in 1978 and subsequently took the same position at the University of Wisconsin in 1980. He was granted the 2004 Hilldale Award, the university’s most prestigious award for scientific achievement. He has published more than 550 technical papers, secured 35 U.S. patents, and written five books in his discipline. He is a Fellow of IEEE and IET (London), and he is also a member of the National Academy of Engineering (USA) and the Royal Academy of Engineering (UK).
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