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Stephen Chapman - Electric Machinery Fundamentals-McGraw-Hill Sc....pdf
Front Cover
(Front Cover)
Back Cover
Title Page
Copyright Page
Dedication Page
About the Author
Brief
Contents
Table of Contents
Preface
CHAPTER 1 -
INTRODUCTION TO MACHINERY PRINCIPLES
1.1 -
ELECTRICAL MACHINES, TRANSFORMERS, AND DAILY LIFE
1.2 -
A NOTE ON UNITS AND NOTATION
1.3 -
ROTATIONAL MOTION, NEWTON'S LAW, AND POWER RELATIONSHIPS
1.4 -
THE MAGNETIC FIELD
1.5 -
FARADAY'S LAW- INDUCED VOLTAGE FROM A TIME-CHANGING MAGNETIC FIELD
1.6 -
PRODUCTION OF INDUCED FORCE ON A WIRE
1.7 -
INDUCED VOLTAGE ON A CONDUCTOR MOVING IN A MAGNETIC FIELD
1.8 -
THE LINEAR DC MACHINE - A SIMPLE EXAMPLE
1.9 -
REAL, REACTIVE, AND APPARENT POWER IN SINGLE-PHASE AC CIRCUITS
1.10 -
SUMMARY
QUESTIONS
PROBLEMS
REFERENCES
CHAPTER 2 -
TRANSFORMERS
2.1 -
WHY TRANSFORMERS ARE IMPORTANT TO MODERN LIFE
2.2 -
TYPES AND CONSTRUCTION OF TRANSFORMERS
2.3 -
THE IDEAL TRANSFORMER
2.4 -
THEORY OF OPERATION OF REAL-SINGLE PHASE TRANSFORMERS
2.5 -
THE EQUIVALENT CIRCUIT OF A TRANSFORMER
2.6 -
THE PER-UNIT SYSTEM OF MEASUREMENTS
2.7 -
TRANSFORMER VOLTAGE REGULATION AND EFFICIENCY
2.8 -
TRANSFORMER TAPS AND VOLTAGE REGULATION
2.9 -
THE AUTOTRANSFORMER
2.10 -
THREE-PHASE TRANSFORMERS
2.11 -
THREE-PHASE TRANSFORMATION USING TWO TRANSFORMERS
2.12 -
TRANSFORMER RATINGS AND RELATED PROBLEMS
2.13 -
INSTRUMENT TRANSFORMERS
2.14 -
SUMMARY
QUESTIONS
PROBLEMS
REFERENCES
CHAPTER 3 - AC MACHINERY FUNDAMENTALS
3.1 -
A SIMPLE LOOP IN A UNIFORM MAGNETIC FIELD
3.2 -
THE ROTATING MAGNETIC FIELD
3.3 -
MAGNETOMOTIVE FORCE AND FLUX DISTRIBUTION ON AC MACHINES
3.4 -
INDUCED VOLTAGE IN AC MACHINES
3.5 -
INDUCED TORQUE IN AN AC MACHINE
3.6 -
WINDING INSULATION IN AN AC MACHINE
3.7 -
AC MACHINE POWER FLOWS AND LOSSES
3.8 -
VOLTAGE REGULATION AND SPEED REGULATION
3.9 -
SUMMARY
QUESTIONS
PROBLEMS
REFERENCES
CHAPTER 4 -
SYNCHRONOUS GENERATORS
4.1 -
SYNCHRONOUS GENERATOR CONSTRUCTION
4.2 -
THE SPEED OF ROTATION OF A SYNCHRONOUS GENERATOR
4.3 -
THE INTERNAL GENERATED VOLTAGE OF A SYNCHRONOUS GENERATOR
4.4 -
THE EQUIVALENT CIRCUIT OF A SYNCHRONOUS GENERATOR
4.5 -
THE PHASOR DIAGRAM OF A SYNCHRONOUS GENERATOR
4.6 -
POWER AND TORQUE IN SYNCHRONOUS GENERATORS
4.7 -
MEASURING SYNCHRONOUS GENERATOR MODEL PARAMETERS
4.8 -
THE SYNCHRONOUS GENERATOR OPERATING ALONE
4.9 -
PARALLEL OPERATION OF AC GENERATORS
4.10 -
SYNCHRONOUS GENERATOR TRANSIENTS
4.11 -
SYNCHRONOUS GENERATOR RATINGS
4.12 -
SUMMARY
QUESTIONS
PROBLEMS
REFERENCES
CHAPTER 5 -
SYNCHRONOUS MOTORS
5.1 -
BASIC PRINCIPLES OF MOTOR OPERATION
5.2 -
STEADY-STATE SYNCHRONOUS MOTOR OPERATION
5.3 -
STARTING SYNCHRONOUS MOTORS
5.4 - SYNCHRONOUS GENERATORS AND SYNCHRONOUS MOTORS
5.5 -
SYNCHRONOUS MOTOR RATINGS
5.6 -
SUMMARY
QUESTIONS
PROBLEMS
REFERENCES
CHAPTER 6 -
INDUCTION MOTORS
6.1 -
INDUCTION MOTOR CONSTRUCTION
6.2 -
BASIC INDUCTION MOTOR CONCEPTS
6.3 - THE EQUIVALENT CIRCUIT
OF AN INDUCTION MOTOR
6.4 - POWER AND TORQUE IN INDUCTION MOTORS
6.5 - INDUCTION MOTOR TORQUE-SPEED
CHARACTERISTICS
6.6 - VARIATIONS IN INDUCTION MOTOR TORQUE-SPEED CHARACTERISTICS
6.7 - TRENDS IN INDUCTION
MOTOR DESIGN
6.8 - STARTING INDUCTION MOTORS
6.9 - SPEED CONTROL OF INDUCTION MOTORS
6.10 - SOLID-STATE INDUCTION MOTOR DRIVES
6.11 - DETERMINING CIRCUIT MODEL PARAMETERS
6.12 - THE INDUCTION GENERATOR
6.13 -
INDUCTION MOTOR RATINGS
6.14 -
SUMMARY
QUESTIONS
PROBLEMS
REFERENCES
CHAPTER 7 - DC MACHINERY FUNDAMENTALS
7.1 - A SIMPLE ROTATING LOOP BETWEEN CURVED POLE FACES
7.2 - COMMUTATION IN A SIMPLE FOUR-LOOP DC MACHINE
7.3 - COMMUTATION AND ARMATURE CONSTRUCTION IN REAL DC MACHINES
7.4 - PROBLEMS WITH COMMUTATION IN REAL MACHINES
7.5 - THE INTERNAL GENERATED VOLTAGE AND INDUCED TORQUE EQUATIONS OF REAL DC MACHINES
7.6 - THE CONSTRUCTION OF DC MACHINES
7.7 - POWER FLOW AND LOSSES IN DC MACHINES
7.8 - SUMMARY
QUESTIONS
PROBLEMS
REFERENCES
CHAPTER 8 - DC MOTORS AND
GENERATORS
8.1 -
INTRODUCTION TO DC MOTORS
8.2 - THE EQUIVALENT CIRCUIT OF A DC MOTOR
8.3 - THE MAGNETIZATION CURVE OF A DC MACHINE
8.4 - SEPARATELY EXCITED AND SHUNT DC MOTORS
8.5 - THE PERMANENT-MAGNET DC MOTOR
8.6 - THE SERIES DC MOTOR
8.7 - THE COMPOUNDED DC MOTOR
8.8 - DC MOTOR STARTERS
8.9 - THE WARD-LEONARD SYSTEM AND SOLID-STATE SPEED CONTROLLERS
8.10 - DC MOTOR EFFICIENCY CALCULATIONS
8.11 - INTRODUCTION TO DC GENERATORS
8.12 - THE SEPARATELY EXCITED GENERATOR
8.13 - THE SHUNT DC GENERATOR
8.14 - THE SERIES DC GENERATOR
8.15 - THE CUMULATIVELY COMPOUNDED DC GENERATOR
8.16 - THE DIFFERENTIALLY COMPOUNDED DC GENERATOR
8.17 -
SUMMARY
QUESTIONS
PROBLEMS
REFERENCES
CHAPTER 9 - SINGLE-PHASE AND SPECIAL-PURPOSE MOTORS
9.1 -
THE UNIVERSAL MOTOR
9.2 - INTRODUCTION TO SINGLE-PHASE INDUCTION MOTORS
9.3 - STARTING SINGLE-PHASE INDUCTION MOTORS
9.4 - SPEED CONTROL OF SINGLE- PHASE INDUCTION MOTORS
9.5 - THE CIRCUIT MODEL OF A SINGLE-PHASE INDUCTION MOTOR
9.6 - OTHER TYPES OF MOTORS
9.7 -
SUMMARY
QUESTIONS
PROBLEMS
REFERENCES
APPENDICES
A - THREE-PHASE CIRCUITS
A.1 - GENERATION OF THREE-PHASE VOLTAGES AND CURRENTS
A.2 - VOLTAGES AND CURRENTS IN A THREE-PHASE CIRCUIT
A.3 - POWER RELATIONSHIPS IN THREE-PHASE CIRCUITS
A.4 - ANALYSIS OF BALANCED THREE-PHASE SYSTEMS
A.5 - ONE-LINE DIAGRAMS
A.6 - USING THE POWER TRIANGLE
QUESTIONS
PROBLEMS
REFERENCE
B - COIL PITCH AND DISTRIBUTED WINDINGS
B.1 - THE EFFECT OF COIL PITCH
ON AC MACHINES
B.2 - DISTRIBUTED WINDINGS IN AC MACHINES
B.3 - SUMMARY
QUESTIONS
PROBLEMS
REFERENCES
C - SALIENT-POLE THEORY OF SYNCHRONOUS MACHINES
C.1 - DEVELOPMENT OF THE EQUIVALENT CIRCUIT OF A SALIENT-POLE SYNCHRONOUS GENERATOR
C.2 - TORQUE AND POWER EQUATIONS OF A SALIENT-POLE MACHINES
PROBLEMS
D - TABLES OF CONSTANTS AND CONVERSION FACTORS
INDEX
Errata for Electric Machinery Fundamentals 5/e
ELECTRIC
MACHINERY
FUNDAMENTALS
FIFTH EDITION
Stephen J. Chapman
BA£ Systems Australia
-~onnect
_-'" Succeed'"
Learn
The McGraw-Hili CompanIes
-~onnect
. , Succeed-
Learn
ELECfRIC MACHINERY FUNDAMENTALS, FIFTH EDlTlON
Published by McGraw-Hill, a business unit of The McGraw-Hill Companies, Inc., 1221 Avenue of
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Library of Congress CataJoging-in-PubIication Data
Chapman, Stephen 1.
Electric mac hinery fundamentals 1 Stephen 1. Chapman. -5th ed.
p. cm.
IS BN-13: 978-0-07-352954-7 (alk. paper)
ISBN-IO: 0-07-352954-0 (alk. pap")
1. Electric machinery. I. Title.
TK2000.C462012
621.31 '042-<1c22
www.m llhc.com
2010050474
FOR MY DAUGHTER SARAH RIVKAH CHAPMAN,
WHO WILL LIKELY USE THIS BOOK IN HER
STUDIES AT SWINBURNE UNIVERSITY,
MELBOURNE.
ABOUT THE AUTHOR
Stephen J. Chapman received a B.S. in Electrical Engineering from Louisiana
State University (1975) and an M.S.E. in Electrical Engineering from the Univer
sity of Central Florida ( 1979), and pursued further graduate studies at Rice
University.
From 1975 to 1980, he served as an officer in the U.S. Navy, assigned to
teach electrical engineering at the U.S. Naval Nuclear Power School in Orlando,
Florida. From 1980 to 1982, he was affiliated with the University of Houston,
where he ran the power systems program in the College of Technology.
From 1982 to 1988 and from 1991 to 1995, he served as a member of the
technical staff of the Massachusetts Institute of Technology's Lincoln Laboratory,
both at the main fac ility in Lexington, Massachusetts, and at the field site on Kwa
jalein Atoll in the Republic of the Marshall Islands. While there, he did research
in radar signal processing systems. He ultimately became the leader of four large
operational range instrumentation radars at the Kwaj alein field site (TRADEX,
ALTAIR, ALCOR, and MMW).
From 1988 to 199 1, Mr. Chapman was a research engineer for Shell Devel
opment Company in Houston, Texas, where he did seismic signal processing re
search. He was also affiliated with the University of HOListon, where he continued
to teach on a part-time basis.
Mr. Chapman is currently manager of systems modeling and operational
analysis for BAE Systems Australia, in Melbourne.
Mr. Chapman is a senior member of the Institute of Electrical and Elec
tronic Engineers (and several of its component societies) . He is also a member of
Engineers Australia.
(
(
vii
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