Modular Multilevel Converters - IEEE Press Power and Energy Systems by Fujin Deng & Chengkai Liu & Zhe Chen Hardcover

About the Book

"This book focuses on fault detection, protection, and tolerant control of modular multilevel converters (MMCs) under two kinds of faults: internal faults (IGBT and capacitor faults), external faults (AC-side grid faults and DC-side grid faults). It begins with a description of MMCs' configuration, operation principle, modulation scheme, mathematical model, and component design. It then introduces output control, centralized capacitor voltage-balancing control, individual capacitor voltage-balancing control of MMCs. The book proceeds to explore fault detection of the MMC under IGBT faults before moving on to discuss the capacitor monitoring and control of MMCs under capacitor faults. Later chapters describe fault tolerant control of MMCs when the faulty SM is bypassed, control of MMCs under ac grid faults, and protection of MMCs under DC line short-circuit faults"--

Book Synopsis

Modular Multilevel Converters

Expert discussions of cutting-edge methods used in MMC control, protection, and fault detection

In Modular Multilevel Converters: Control, Fault Detection, and Protection, a team of distinguished researchers delivers a comprehensive discussion of fault detection, protection, and tolerant control of modular multilevel converters (MMCs) under internal and external faults. Beginning with a description of the configuration of MMCs, their operation principles, modulation schemes, mathematical models, and component design, the authors go on to explore output control, fault detection, capacitor monitoring, and other topics of central importance in the field.

The book offers summaries of centralized capacitor voltage-balancing control methods and presents several capacitor monitoring methods, like the direct and sorting-based techniques. It also describes full-bridge and half-bridge submodule-based hybrid MMC protection methods and alternative fault blocking SM-based MMCs.

Readers will also find:

• A thorough introduction to modular multilevel converters, including circuits, operation principles, modulation, mathematical models, components, and design constraints
• In-depth discussions of the control of modular multilevel converters, including output control, centralized capacitor voltage control, and individual capacitor voltage control
• Comprehensive explorations of fault detection of MMCs under IGBT faults, including short-circuit and open-circuit faults, as well as fault-tolerant control of MMCs
• Fulsome treatments of the control of MMCs under AC grid faults, including discussions of AC-side current control

Perfect for electrical engineering researchers, Modular Multilevel Converters: Control, Fault Detection, and Protection, will also earn a place in the libraries of electrical engineers working in industry, as well as undergraduate and graduate students with an interest in MMCs.

From the Back Cover

Expert discussions of cutting-edge methods used in MMC control, protection, and fault detection

In Modular Multilevel Converters: Control, Fault Detection, and Protection, a team of distinguished researchers delivers a comprehensive discussion of fault detection, protection, and tolerant control of modular multilevel converters (MMCs) under internal and external faults. Beginning with a description of the configuration of MMCs, their operation principles, modulation schemes, mathematical models, and component design, the authors go on to explore output control, fault detection, capacitor monitoring, and other topics of central importance in the field.

The book offers summaries of centralized capacitor voltage-balancing control methods and presents several capacitor monitoring methods, like the direct and sorting-based techniques. It also describes full-bridge and half-bridge submodule-based hybrid MMC protection methods and alternative fault blocking SM-based MMCs.

Readers will also find:

• A thorough introduction to modular multilevel converters, including circuits, operation principles, modulation, mathematical models, components, and design constraints
• In-depth discussions of the control of modular multilevel converters, including output control, centralized capacitor voltage control, and individual capacitor voltage control
• Comprehensive explorations of fault detection of MMCs under IGBT faults, including short-circuit and open-circuit faults, as well as fault-tolerant control of MMCs
• Fulsome treatments of the control of MMCs under AC grid faults, including discussions of AC-side current control

Perfect for electrical engineering researchers, Modular Multilevel Converters: Control, Fault Detection, and Protection, will also earn a place in the libraries of electrical engineers working in industry, as well as undergraduate and graduate students with an interest in MMCs.

About the Author

Fujin Deng, PhD, is a Professor and Head of the Department of Power Electronics at Southeast University, China. He is a Senior Member of the IEEE.

Chengkai Liu, PhD, is a PhD student who studies coordinated fault diagnosis and fault tolerant operation for flexible direct current transmission systems at Southeast University, China.

Zhe Chen, PhD, is a Professor and the leader of Wind Power System Research program at the Department of Energy Technology, Aalborg University, Denmark. He is a Fellow of IEEE, a Fellow of IET and a Chartered Engineer in the U.K.