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Control of Power Electronic Converters and Systems : Volume 2

جلد کتاب Control of Power Electronic Converters and Systems : Volume 2

معرفی کتاب «Control of Power Electronic Converters and Systems : Volume 2» نوشتهٔ Thomas Easley، Steven Horne و Frede Blaabjerg، منتشرشده توسط نشر Academic Press در سال 2018. این کتاب در فرمت pdf، زبان انگلیسی ارائه شده است.

Control of Power Electronic Converters, Volume Two gives the theory behind power electronic converter control and discusses the operation, modelling and control of basic converters. The main components of power electronics systems that produce a desired effect (energy conversion, robot motion, etc.) by controlling system variables (voltages and currents) are thoroughly covered. Both small (mobile phones, computer power supplies) and very large systems (trains, wind turbines, high voltage power lines) and their power ranges, from the Watt to the Gigawatt, are presented and explored. Users will find a focused resource on how to apply innovative control techniques for power converters and drives. Discusses different applications and their control Explains the most important controller design methods, both in analog and digital Describes different, but important, applications that can be used in future industrial products Covers voltage source converters in significant detail Demonstrates applications across a much broader context Intro Title page Table of Contents Copyright Contributors Part IV: Power System and Quality Chapter 13: Active Rectifiers and Their Control Abstract 13.1 Introduction 13.2 Harmonic Emission Standard and Measures 13.3 Application-Oriented Design 13.4 Control Strategies 13.5 Nonideal Operating Conditions 13.6 Future Prospective Chapter 14: Power Converters for Power Quality Improvement Abstract 14.1 Introduction 14.2 Control Mechanism of Parallel Active Power Filter 14.3 DC Side Capacitor Design for Active Power Filter 14.4 Filter Inductor Design [7-9] 14.5 Improved Control Strategy for Power Quality Improvement14.6 Conclusions Chapter 15: Voltage Source Converters for Large-Scale Power System Control Abstract 15.1 Introduction 15.2 Conventional Multilevel Converters 15.3 AC-DC and DC-AC Conversion Based on the Modular Multilevel Converter 15.4 DC-DC Conversion Based on the Modular Multilevel Converter 15.5 AC-AC Conversion Based on the Modular Multilevel Converter 15.6 Conclusions Chapter 16: Current Source Converters and Their Control Abstract 16.1 Introduction 16.2 Current Source Converters and Their Applications 16.3 PWM of CSC16.4 Design Example on High-Power Current Source Converters for Active Grid Harmonics Mitigation 16.5 Conclusions Chapter 17: Modular Multilevel Converter (MMC) and Its Control Abstract 17.1 Introduction 17.2 Advanced Control Schemes of the MMC 17.3 Alternative Families of MMCs and Future Trends 17.4 Conclusion Chapter 18: AC and DC Microgrid Control Abstract 18.1 Introduction 18.2 Classification of Power Converters in AC and DC MGs 18.3 AC Microgrid Control 18.4 DC Microgrid Control 18.5 Conclusion Chapter 19: Control of Smart Grid Architecture Abstract AcknowledgmentsNomenclature 19.1 Microgrid Optimization Model 19.2 Uncertainty Management 19.3 Modeling Example 19.4 Conclusions Part V: Appliances Chapter 20: Single-Phase Induction Motor and AC Drives Abstract 20.1 Introduction to the Single-Phase Induction Motor 20.2 Working Principle of the Single-Phase Induction Motor 20.3 Modeling of the Single-Phase Induction Motor 20.4 Basic Supply Methods for SPIM 20.5 Power Electronic Device-Based AC Drives Topology for Variable Speed Control Strategy 20.6 Simulation Examples 20.7 Conclusions Chapter 21: Induction Heating Abstract 21.1 Introduction21.2 Induction Heating Power Systems 21.3 Modeling and Control 21.4 Design Example 21.5 Conclusions Part VI: Mobility Chapter 22: Theory and Control of Wireless Power Transfer Systems Abstract 22.1 Introduction 22.2 Fundamentals of IPT 22.3 Control of IPT Systems 22.4 Conclusion Chapter 23: Power Electronic Systems and Control in Automobiles Abstract 23.1 Power Electronic Systems in Electrified Vehicles 23.2 Control of Traction Inverter 23.3 Control of Boost Converter and Constant Power Load 23.4 Control of LV Battery Charger APM Intro -- Title page -- Table of Contents -- Copyright -- Contributors -- Part IV: Power System and Quality -- Chapter 13: Active Rectifiers and Their Control -- Abstract -- 13.1 Introduction -- 13.2 Harmonic Emission Standard and Measures -- 13.3 Application-Oriented Design -- 13.4 Control Strategies -- 13.5 Nonideal Operating Conditions -- 13.6 Future Prospective -- Chapter 14: Power Converters for Power Quality Improvement -- Abstract -- 14.1 Introduction -- 14.2 Control Mechanism of Parallel Active Power Filter -- 14.3 DC Side Capacitor Design for Active Power Filter -- 14.4 Filter Inductor Design [7-9] -- 14.5 Improved Control Strategy for Power Quality Improvement -- 14.6 Conclusions -- Chapter 15: Voltage Source Converters for Large-Scale Power System Control -- Abstract -- 15.1 Introduction -- 15.2 Conventional Multilevel Converters -- 15.3 AC-DC and DC-AC Conversion Based on the Modular Multilevel Converter -- 15.4 DC-DC Conversion Based on the Modular Multilevel Converter -- 15.5 AC-AC Conversion Based on the Modular Multilevel Converter -- 15.6 Conclusions -- Chapter 16: Current Source Converters and Their Control -- Abstract -- 16.1 Introduction -- 16.2 Current Source Converters and Their Applications -- 16.3 PWM of CSC -- 16.4 Design Example on High-Power Current Source Converters for Active Grid Harmonics Mitigation -- 16.5 Conclusions -- Chapter 17: Modular Multilevel Converter (MMC) and Its Control -- Abstract -- 17.1 Introduction -- 17.2 Advanced Control Schemes of the MMC -- 17.3 Alternative Families of MMCs and Future Trends -- 17.4 Conclusion -- Chapter 18: AC and DC Microgrid Control -- Abstract -- 18.1 Introduction -- 18.2 Classification of Power Converters in AC and DC MGs -- 18.3 AC Microgrid Control -- 18.4 DC Microgrid Control -- 18.5 Conclusion -- Chapter 19: Control of Smart Grid Architecture -- Abstract Control of Power Electronic Converters and Systems examines the theory behind power electronic converter control, including operation, modeling and control of basic converters. The book explores how to manipulate components of power electronics converters and systems to produce a desired effect by controlling system variables. Advances in power electronics enable new applications to emerge and performance improvement in existing applications. These advances rely on control effectiveness, making it essential to apply appropriate control schemes to the converter and system to obtain the desired performance. --Publisher's website
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