Principles of Electric Machines and Power Electronics, Third Edition combines the traditional areas of electric machinery with the latest in modern control and power electronics. Multi-machine systems, brushless motors, and switched reluctance motors are covered, as well as constant flux and constant current operation of induction motors. Additional material is included on new solid state devices such as Insulated Gate Bipolar Transistors and MOS-Controlled Thyristors.
Principles of Electric Machines and Power Electronics, Third Edition combines the traditional areas of electric machinery with the latest in modern control and power electronics. Multi-machine systems, brushless motors, and switched reluctance motors are covered, as well as constant flux and constant current operation of induction motors. Additional material is included on new solid state devices such as Insulated Gate Bipolar Transistors and MOS-Controlled Thyristors.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Dr. P. C. Sen is Emeritus Professor of Electrical and Computer Engineering at Queen's University, Canada. Dr. Sen received his Ph.D. degree at the University of Toronto in 1967. He has worked for industries in India and Canada and was a consultant to electrical industries in Canada. He has authored over 215 technical papers in the general area of electric motor drives and power electronics. He is the author of two internationally acclaimed textbooks: Principles of Electric Machines and Power Electronics and Thyristor DC Drives (Wiley, 1981). He has taught electric machines, power electronics, and electric drive systems for over 45 years. His fields of interest include power electronics, electric drive systems, switching power supplies, wind energy systems, digital control, fuzzy logic control, and modern control techniques for power electronics and motor drive systems.
Inhaltsangabe
CHAPTER 1: MAGNETIC CIRCUITS 1.1 MAGNETIC CIRCUITS 1.2 HYSTERESIS 1.3 RELATIONSHIP BETWEEN FLUX, EMF AND FORCE 1.4 SINUSOIDAL EXCITATION 1.5 PERMANENT MAGNET CHAPTER 2: TRANSFORMERS 2.1 IDEAL TRANSFORMER 2.2 PRACTICAL TRANSFORMER 2.3 VOLTAGE REGULATION 2.4 EFFICIENCY 2.5 TESTS ON TRANSFORMERS 2.6 AUTOTRANSFORMER 2.7 THREE-PHASE TRANSFORMERS 2.8 HARMONICS IN THREE-PHASE TRANSFORMER BANKS 2.9 THREE WINDING TRANSFORMERS 2.10 PARALLEL OPERATION AND LOAD SHARING OF SINGLE PHASE AND THREE PHASE TRANSFORMERS 2.11 TAP CHANGING TRANSFORMERS 2.12 PER-UNIT (PU) SYSTEM 2.13 HEATING AND COOLING OF TRANSFORMERS 2.14 APPLICATIONS OF TRANSFORMERS CHAPTER 3: ELECTROMECHANICAL ENERGY CONVERSION 3.1 ENERGY CONVERSION PROCESS 3.2 FIELD ENERGY 3.3 MECHANICAL FORCE IN THE ELECTROMAGNETIC SYSTEM 3.4 ROTATING MACHINES 3.5 CYLINDRICAL MACHINES CHAPTER 4: MACHINE WINDINGS, MMF DISTRIBUTION, AND MAGNETIC FIELDS 4.1 WINDING ARRANGEMENT 4.2 PULSATING AND ROTATING MAGNETIC FIELDS 4.3 SPACE HARMONICS 4.4 TIME HARMONICS CHAPTER 5: DC MACHINES 5.1 ELECTROMAGNETIC CONVERSION 5.2 DC MACHINES 5.3 DC GENERATORS 5.4 DC MOTORS 5.5 SPEED CONTROL 5.6 PERMANENT MAGNET DC (PMDC) MOTORS 5.7 BRAKING OF DC MOTORS 5.8 PRINTED CIRCUIT BOARD (PCB) MOTORS CHAPTER 6: INDUCTION (ASYNCHRONOUS) MACHINES 6.1 CONSTRUCTIONAL FEATURES 6.2 INDUCED VOLTAGES 6.3 POLYPHASE INDUCTION MACHINE 6.4 THREE MODES OF OPERATION 6.5 INVERTED INDUCTION MACHINE 6.6 EQUIVALENT CIRCUIT MODEL 6.7 NO-LOAD TEST, BLOCKED-ROTOR TEST, AND EQUIVALENT CIRCUIT PARAMETERS 6.8 PERFORMANCE CHARACTERISTICS [Separation of Iron Loss and Friction and Windage Loss of the Induction Motor] 6.9 POWER FLOW IN THREE MODES OF OPERATION 6.10 CIRCLE DIAGRAM FOR THE INDUCTION MACHINE 6.11 EFFECTS OF ROTOR RESISTANCE 6.12 CLASSES OF SQUIRREL-CAGE MOTORS 6.13 SPEED CONTROL 6.14 STARTING OF INDUCTION MOTORS 6.15 TIME AND SPACE HARMONICS 6.16 LINEAR INDUCTION MOTOR (LIM) CHAPTER 7: SYNCHRONOUS MACHINES 7.1 CONSTRUCTION OF THREE-PHASE SYNCHRONOUS MACHINES 7.2 SYNCHRONOUS GENERATORS 7.3 SYNCHRONOUS MOTORS 7.4 EQUIVALENT CIRCUIT MODEL 7.5 POWER AND TORQUE CHARACTERISTICS 7.6 CAPABILITY CURVES 7.7 POWER FACTOR CONTROL 7.8 INDEPENDENT GENERATORS 7.9 PARALLEL OPERATION AND LOAD SHARING OF GENERATORS 7.10 SALIENT POLE SYNCHRONOUS MACHINES 7.11 SPEED CONTROL OF SYNCHRONOUS MOTORS 7.12 APPLICATIONS CHAPTER 8: SINGLE-PHASE MOTORS 8.1 SINLE-PHASE INDUCTION MOTORS 8.2 STARTING WINDING DESIGN 8.3 EQUIVALENT CIRCUIT OF A CAPACITOR-RUN MOTOR 8.4 SINGLE-PHASE SERIES (UNIVERSAL) MOTORS 8.5 SINGLE-PHASE SYNCHRONOUS MOTORS 8.6 SPEED CONTROL CHAPTER 9: SPECIAL MACHINES 9.1 SERVOMOTORS 9.2 LINEAR SYNCHRONOUS MOTOR (LSM) 9.3 BRUSHLESS DC (BLDC) MOTORS 9.4 SWITCHED RELUCTANCE MOTORS (SRM) 9.5 SYNCHROS 9.6 STEPPER MOTORS APPENDIX A: BALANCED THREE-PHASE CIRCUITS APPENDIX B: UNITS AND CONSTANTS APPENDIX C: LAPLACE TRANSFORMS APPENDIX D: ANSWERS TO SELECTED PROBLEMS INDEX
CHAPTER 1: MAGNETIC CIRCUITS 1.1 MAGNETIC CIRCUITS 1.2 HYSTERESIS 1.3 RELATIONSHIP BETWEEN FLUX, EMF AND FORCE 1.4 SINUSOIDAL EXCITATION 1.5 PERMANENT MAGNET CHAPTER 2: TRANSFORMERS 2.1 IDEAL TRANSFORMER 2.2 PRACTICAL TRANSFORMER 2.3 VOLTAGE REGULATION 2.4 EFFICIENCY 2.5 TESTS ON TRANSFORMERS 2.6 AUTOTRANSFORMER 2.7 THREE-PHASE TRANSFORMERS 2.8 HARMONICS IN THREE-PHASE TRANSFORMER BANKS 2.9 THREE WINDING TRANSFORMERS 2.10 PARALLEL OPERATION AND LOAD SHARING OF SINGLE PHASE AND THREE PHASE TRANSFORMERS 2.11 TAP CHANGING TRANSFORMERS 2.12 PER-UNIT (PU) SYSTEM 2.13 HEATING AND COOLING OF TRANSFORMERS 2.14 APPLICATIONS OF TRANSFORMERS CHAPTER 3: ELECTROMECHANICAL ENERGY CONVERSION 3.1 ENERGY CONVERSION PROCESS 3.2 FIELD ENERGY 3.3 MECHANICAL FORCE IN THE ELECTROMAGNETIC SYSTEM 3.4 ROTATING MACHINES 3.5 CYLINDRICAL MACHINES CHAPTER 4: MACHINE WINDINGS, MMF DISTRIBUTION, AND MAGNETIC FIELDS 4.1 WINDING ARRANGEMENT 4.2 PULSATING AND ROTATING MAGNETIC FIELDS 4.3 SPACE HARMONICS 4.4 TIME HARMONICS CHAPTER 5: DC MACHINES 5.1 ELECTROMAGNETIC CONVERSION 5.2 DC MACHINES 5.3 DC GENERATORS 5.4 DC MOTORS 5.5 SPEED CONTROL 5.6 PERMANENT MAGNET DC (PMDC) MOTORS 5.7 BRAKING OF DC MOTORS 5.8 PRINTED CIRCUIT BOARD (PCB) MOTORS CHAPTER 6: INDUCTION (ASYNCHRONOUS) MACHINES 6.1 CONSTRUCTIONAL FEATURES 6.2 INDUCED VOLTAGES 6.3 POLYPHASE INDUCTION MACHINE 6.4 THREE MODES OF OPERATION 6.5 INVERTED INDUCTION MACHINE 6.6 EQUIVALENT CIRCUIT MODEL 6.7 NO-LOAD TEST, BLOCKED-ROTOR TEST, AND EQUIVALENT CIRCUIT PARAMETERS 6.8 PERFORMANCE CHARACTERISTICS [Separation of Iron Loss and Friction and Windage Loss of the Induction Motor] 6.9 POWER FLOW IN THREE MODES OF OPERATION 6.10 CIRCLE DIAGRAM FOR THE INDUCTION MACHINE 6.11 EFFECTS OF ROTOR RESISTANCE 6.12 CLASSES OF SQUIRREL-CAGE MOTORS 6.13 SPEED CONTROL 6.14 STARTING OF INDUCTION MOTORS 6.15 TIME AND SPACE HARMONICS 6.16 LINEAR INDUCTION MOTOR (LIM) CHAPTER 7: SYNCHRONOUS MACHINES 7.1 CONSTRUCTION OF THREE-PHASE SYNCHRONOUS MACHINES 7.2 SYNCHRONOUS GENERATORS 7.3 SYNCHRONOUS MOTORS 7.4 EQUIVALENT CIRCUIT MODEL 7.5 POWER AND TORQUE CHARACTERISTICS 7.6 CAPABILITY CURVES 7.7 POWER FACTOR CONTROL 7.8 INDEPENDENT GENERATORS 7.9 PARALLEL OPERATION AND LOAD SHARING OF GENERATORS 7.10 SALIENT POLE SYNCHRONOUS MACHINES 7.11 SPEED CONTROL OF SYNCHRONOUS MOTORS 7.12 APPLICATIONS CHAPTER 8: SINGLE-PHASE MOTORS 8.1 SINLE-PHASE INDUCTION MOTORS 8.2 STARTING WINDING DESIGN 8.3 EQUIVALENT CIRCUIT OF A CAPACITOR-RUN MOTOR 8.4 SINGLE-PHASE SERIES (UNIVERSAL) MOTORS 8.5 SINGLE-PHASE SYNCHRONOUS MOTORS 8.6 SPEED CONTROL CHAPTER 9: SPECIAL MACHINES 9.1 SERVOMOTORS 9.2 LINEAR SYNCHRONOUS MOTOR (LSM) 9.3 BRUSHLESS DC (BLDC) MOTORS 9.4 SWITCHED RELUCTANCE MOTORS (SRM) 9.5 SYNCHROS 9.6 STEPPER MOTORS APPENDIX A: BALANCED THREE-PHASE CIRCUITS APPENDIX B: UNITS AND CONSTANTS APPENDIX C: LAPLACE TRANSFORMS APPENDIX D: ANSWERS TO SELECTED PROBLEMS INDEX
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