Explore power electronics for both conventional and modern energy conversion technologies and systems This comprehensive textbook clearly explains the principles and applications of power electronics as a critical part of modern energy conversion systems. The book features theoretical and practical coverage of the power electronics and electric machines required for the dynamic and steady-state analysis of modern energy conversion systems, including renewable energy systems, motor-drives, and powertrains in electric vehicles. Written by a seasoned educator, Power Electronics in Energy…mehr
Explore power electronics for both conventional and modern energy conversion technologies and systems This comprehensive textbook clearly explains the principles and applications of power electronics as a critical part of modern energy conversion systems. The book features theoretical and practical coverage of the power electronics and electric machines required for the dynamic and steady-state analysis of modern energy conversion systems, including renewable energy systems, motor-drives, and powertrains in electric vehicles. Written by a seasoned educator, Power Electronics in Energy Conversion Systems contains topics not included in other textbooks, such as high-frequency phenomenon in motor-drives and fault-tolerant converters. Readers will get detailed discussions on steady-state and dynamics of rotating machines, switching and control of smart inverters, active rectifiers and dc-dc converters, scalar and vector control schemes in motor drives, power electronic converters as the interface between renewable energy devices and the power grid and much more. The book features hundreds of illustrations and examples.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Behrooz Mirafzal is a professor in power electronics and energy conversion systems at Kansas State University. He has many publications and patents in power engineering. Prior to joining academia, he was a research engineer in the R&D group of Rockwell Automation/Allen-Bradly in Wisconsin.
Inhaltsangabe
Preface 1 Introduction 1.1 Solid-State Switching Devices 1.2 Basics of Photovoltaic Energy Systems 1.3 Basics of Wind Energy Systems 1.4 Basics of Motor-Drives 1.5 Basics of Electric and Hybrid Vehicles 1.6 Problems 2 Fundamental Concepts in Electric Circuits 2.1 Single-Phase Electric Circuits 2.2 Solid-State Switching Circuits 2.3 Three-Phase Circuits 2.4 Instantaneous and Average Power 2.5 Problems 3 Fundamental Concepts in Magnetic Circuits 3.1 Ampere's Law 3.2 Magnetic Material Permeability 3.3 Reluctance and Magnetic Circuit 3.4 Faraday's Law 3.5 Self and Mutual Inductance 3.6 Effect of Current on Inductance 3.7 Magnetic Field Energy 3.8 Loss in Magnetic Cores Due to AC Excitation 3.9 Circuit Model of Nonideal Coils 3.10 Transformers 3.11 Problems 4 Principles of Electromechanical Systems 4.1 Developed Force and Torque in Electromechanical Systems 4.2 Three-Phase Rotating AC Machines 4.3 Basics of Switched Reluctance Motors 4.4 Problems 5 Steady-State Analysis of DC-DC Converters 5.1 Basic Gate-Drive Circuit 5.2 Buck Converter 5.3 Boost Converter 5.4 Buck-Boost Converter 5.5 Single-Ended Primary Inductance Converter (SEPIC) 5.6 Isolated Buck-Boost (Flyback) Converter 5.7 Forward Converter 5.8 Bidirectional Half- and Full-Bridge DC-DC Converters 5.9 Problems 6 Dynamics of DC-DC Converters 6.1 Dynamics of Buck Converter 6.2 Dynamics of Boost Converter 6.3 Dynamics of Buck-Boost Converter 6.4 Dynamics of SEPIC 6.5 Problems 7 Steady-State Analysis of Inverters 7.1 Single-Phase Two-Level Voltage Source Inverter 7.2 Three-Phase Two-Level Voltage Source Inverter 7.3 Six-Step Switching Pattern 7.4 Space-Vector Pulse-Width Modulation (SVPWM) 7.5 Sinusoidal Pulse-Width Modulation (SPWM) 7.6 Selective Harmonic Elimination Pulse-Width Modulation (SHE-PWM) 7.7 Hysteresis Pulse-Width Modulation (HPWM) 7.8 Multilevel Inverters 7.9 Problems 8 Steady-State Analysis and Control of Rectifiers 8.1 Single-Phase Diode Rectifier 8.2 Single-Phase Two-Stage Boost PFC Rectifier 8.3 Single-Phase PWM Rectifier 8.4 Three-Phase Diode Rectifier 8.5 Filters for Three-Phase Diode Rectifier 8.6 Three-Phase PWM Rectifier 8.7 Problems 9 Control and Dynamics of Grid-Interactive Inverters 9.1 Steady-State Operation of Grid-Following Inverters 9.2 Grid-Interactive Inverters and PQ Controller 9.3 Grid-Interactive Inverters and Voltage Support 9.4 Grid-Interactive Inverters and DC-Bus Voltage Regulation 9.5 Stability of Grid-Interactive Inverters 9.6 Phase Detection and Inverter Synchronization 9.7 Grid-Interactive Inverters and Negative-Sequence and Harmonic Compensations 9.8 Single-Phase Inverters in Solar Energy Conversion Systems 9.9 Islanding Detection Feature for Grid-Interactive Inverters 9.10 Grid-Forming and Paralleling Inverters 9.11 Problems 10 Dynamics of AC Machines 10.1 Dynamics of Squirrel-Cage Induction Motor 10.2 Dynamics of Doubly-Fed Induction Generators 10.3 Dynamics of Permanent Magnet Synchronous Machines 10.4 Problems 11 Control of Inverters in Motor-Drive Systems 11.1 Induction Motor Scalar Control 11.2 Vector Control of AC Motors 11.3 Vector Control of Induction Motors 11.4 Vector Control of Permanent Magnet Synchronous Motors 11.5 Problems 12 Inverters and High-Frequency Transients 12.1 Electromagnetic Interference and Standards 12.2 Common-Mode Voltage in Three-Phase Inverters 12.3 Electrostatic and Magnetic Couplings 12.4 Reflected Waves in Motor-Drive Systems 12.5 Problems A Trigonometric Identities B Laplace Transformation Bibliography Index
Preface 1 Introduction 1.1 Solid-State Switching Devices 1.2 Basics of Photovoltaic Energy Systems 1.3 Basics of Wind Energy Systems 1.4 Basics of Motor-Drives 1.5 Basics of Electric and Hybrid Vehicles 1.6 Problems 2 Fundamental Concepts in Electric Circuits 2.1 Single-Phase Electric Circuits 2.2 Solid-State Switching Circuits 2.3 Three-Phase Circuits 2.4 Instantaneous and Average Power 2.5 Problems 3 Fundamental Concepts in Magnetic Circuits 3.1 Ampere's Law 3.2 Magnetic Material Permeability 3.3 Reluctance and Magnetic Circuit 3.4 Faraday's Law 3.5 Self and Mutual Inductance 3.6 Effect of Current on Inductance 3.7 Magnetic Field Energy 3.8 Loss in Magnetic Cores Due to AC Excitation 3.9 Circuit Model of Nonideal Coils 3.10 Transformers 3.11 Problems 4 Principles of Electromechanical Systems 4.1 Developed Force and Torque in Electromechanical Systems 4.2 Three-Phase Rotating AC Machines 4.3 Basics of Switched Reluctance Motors 4.4 Problems 5 Steady-State Analysis of DC-DC Converters 5.1 Basic Gate-Drive Circuit 5.2 Buck Converter 5.3 Boost Converter 5.4 Buck-Boost Converter 5.5 Single-Ended Primary Inductance Converter (SEPIC) 5.6 Isolated Buck-Boost (Flyback) Converter 5.7 Forward Converter 5.8 Bidirectional Half- and Full-Bridge DC-DC Converters 5.9 Problems 6 Dynamics of DC-DC Converters 6.1 Dynamics of Buck Converter 6.2 Dynamics of Boost Converter 6.3 Dynamics of Buck-Boost Converter 6.4 Dynamics of SEPIC 6.5 Problems 7 Steady-State Analysis of Inverters 7.1 Single-Phase Two-Level Voltage Source Inverter 7.2 Three-Phase Two-Level Voltage Source Inverter 7.3 Six-Step Switching Pattern 7.4 Space-Vector Pulse-Width Modulation (SVPWM) 7.5 Sinusoidal Pulse-Width Modulation (SPWM) 7.6 Selective Harmonic Elimination Pulse-Width Modulation (SHE-PWM) 7.7 Hysteresis Pulse-Width Modulation (HPWM) 7.8 Multilevel Inverters 7.9 Problems 8 Steady-State Analysis and Control of Rectifiers 8.1 Single-Phase Diode Rectifier 8.2 Single-Phase Two-Stage Boost PFC Rectifier 8.3 Single-Phase PWM Rectifier 8.4 Three-Phase Diode Rectifier 8.5 Filters for Three-Phase Diode Rectifier 8.6 Three-Phase PWM Rectifier 8.7 Problems 9 Control and Dynamics of Grid-Interactive Inverters 9.1 Steady-State Operation of Grid-Following Inverters 9.2 Grid-Interactive Inverters and PQ Controller 9.3 Grid-Interactive Inverters and Voltage Support 9.4 Grid-Interactive Inverters and DC-Bus Voltage Regulation 9.5 Stability of Grid-Interactive Inverters 9.6 Phase Detection and Inverter Synchronization 9.7 Grid-Interactive Inverters and Negative-Sequence and Harmonic Compensations 9.8 Single-Phase Inverters in Solar Energy Conversion Systems 9.9 Islanding Detection Feature for Grid-Interactive Inverters 9.10 Grid-Forming and Paralleling Inverters 9.11 Problems 10 Dynamics of AC Machines 10.1 Dynamics of Squirrel-Cage Induction Motor 10.2 Dynamics of Doubly-Fed Induction Generators 10.3 Dynamics of Permanent Magnet Synchronous Machines 10.4 Problems 11 Control of Inverters in Motor-Drive Systems 11.1 Induction Motor Scalar Control 11.2 Vector Control of AC Motors 11.3 Vector Control of Induction Motors 11.4 Vector Control of Permanent Magnet Synchronous Motors 11.5 Problems 12 Inverters and High-Frequency Transients 12.1 Electromagnetic Interference and Standards 12.2 Common-Mode Voltage in Three-Phase Inverters 12.3 Electrostatic and Magnetic Couplings 12.4 Reflected Waves in Motor-Drive Systems 12.5 Problems A Trigonometric Identities B Laplace Transformation Bibliography Index
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