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Modern Power Electronics Technology [Editor Li Yuanyuan] 2014

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  • Data category: Electric Power
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The power of modern electronic technology: Li Yuanyuan Editor Published: 2014 Introduction "of modern power electronics technology / automation technology practice of engineering colleges and universities textbook series" focuses on the basic structure of power electronic devices, working principle and characteristics, also introduced in detail The four major types of conversion circuits in power electronics technology are DC-AC, DC-DC, AC-DC, AC-AC conversion circuits, supplemented by a series of computer simulation examples. "Modern Power Electronics Technology / General Colleges and Universities Automation Engineering Technology Practice Series" textbook has a total of 7 chapters, chapter 1 introduction, chapter 2 introduces various types of power electronic devices, and then chapters 3 ~ 6 introduce four basic categories in turn Power electronic conversion circuit, Chapter 7 introduces the working principle of switching regulated power supply and SPWM inverter through computer simulation examples, and performs waveform analysis. "Modern Power Electronics Technology / Ordinary Colleges and Universities Automation Engineering Technology Practice Series Teaching Materials" has a prominent focus and strong applicability. It is suitable for electrical engineering and its automation majors, automation majors, and other related majors. It can also be used as a graduate student for related majors. Reference books can also be used by related engineering and technical personnel engaged in power electronics conversion and control.
table of Contents
1.1 Overview of Power Electronics Technology
1.2 Methods of power conversion and control
1.3 Development History of Power Electronics Technology
1.4 Characteristics of Power Electronics Technology
1.5 Application of Power Electronics Technology Chapter 2 Power Electronics
2.1 Overview of Power Electronics
2.2 Power Diode
2.2.1 Basic Structure and Working Principle of Power Diode
2.2.2 Basic characteristics of power diodes
2.2.3 The main parameters of power diodes
2.2.4 The main types of power diodes
2.3 Power Transistor
2.3.1 Basic structure and working principle of power transistors
2.3.2 Operating characteristics of power transistors
2.3.3 Main parameters of power transistors
2.4 Thyristor
2.4.1 Basic Structure and Working Principle of Thyristors
2.4.2 Working characteristics of thyristors
2.4.3 Main parameters of thyristors
2.4.4 Main Types of Thyristors
2.5 Power MOS Field Effect Transistor
2.5.1 Basic Structure and Working Principle of Power MOSFET
2.5.2 Operating Characteristics of Power MOSFETs
2.5.3 Main parameters of power MOSFET
2.6 Insulated Gate Bipolar Transistor
2.6.1 Basic structure and working principle of IGBT
2.6.2 IGBT operating characteristics
2.6.3 IGBT hold-up effect
2.7 Other new power electronic devices
2.8 Power Electronic Device Drive and Protection Circuit
2.8.1 Trigger Driver of Thyristor SCR
2.8.2 GTO trigger driver
2.8.3 Transistor Driver
2.8.4 Drivers for MOSFETs and IGBTs
2.8.5 Buffer Circuit for Power Electronics
2.8.6 Overcurrent protection and overvoltage protection
2.9 Getting to Know Power Electronics in MATLAB Simulation Module Chapter Summary Chapter 3 Rectifier Circuit
3.1 Overview
3.2 Single-phase controllable rectifier circuit
3.2.1 Single-phase half-wave controllable rectifier circuit
3.2.2 Single-phase bridge full-control rectifier circuit
3.2.3 Single-phase bridge half-controlled rectifier circuit
3.3 Three-phase controllable rectifier circuit
3.3.1 Three-phase half-wave controllable rectifier circuit
3.3.2 Three-phase full-wave controllable rectifier circuit
3.4 Active inverter circuit
3.4.1 Relationship between Rectification and Inversion
3.4.2 Transformation of energy between power sources
3.4.3 Working Principle of Active Inverter Circuit
3.4.4 Three-phase half-wave common cathode inverter circuit
3.5 MATLAB simulation example of rectifier circuit
3.5.1 Inductive-capacitive filtering single-phase bridge type uncontrollable rectifier circuit
3.5.2 Single-phase bridge full-control rectifier circuit for inductive load
3.5.3 Three-phase full-bridge uncontrollable rectifier circuit
3.5.4 Three-phase full-bridge full-control rectifier circuit Chapter summary Chapter 4 DC chopper circuit
4.1 Overview
4.2 Working principle of DC chopper circuit
4.2.1 Basic Principles of a Chopper Circuit
4.2.2 Basic DC chopper circuit ...
Chapter 5 Inverter Circuit Chapter 6 AC Voltage Regulation and Frequency Conversion Circuit Chapter 7 Application and Training of Power Electronics Technology

现代电力电子技术[李媛媛主编] 2014年 Download Address Modern Power Electronics Technology [Editor Li Yuanyuan] 2014

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