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A comprehensive survey of advanced multilevel converter design, control, operation and grid-connected applications
Advanced Multilevel Converters and Applications in Grid Integration presents a comprehensive review of the core principles of advanced multilevel converters, which require fewer components and provide higher power conversion efficiency and output power quality. The authors - noted experts in the field - explain in detail the operation principles and control strategies and present the mathematical expressions and design procedures of their components.
The text examines the
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Produktbeschreibung
A comprehensive survey of advanced multilevel converter design, control, operation and grid-connected applications

Advanced Multilevel Converters and Applications in Grid Integration presents a comprehensive review of the core principles of advanced multilevel converters, which require fewer components and provide higher power conversion efficiency and output power quality. The authors - noted experts in the field - explain in detail the operation principles and control strategies and present the mathematical expressions and design procedures of their components.

The text examines the advantages and disadvantages compared to the classical multilevel and two level power converters. The authors also include examples of the industrial applications of the advanced multilevel converters and offer thoughtful explanations on their control strategies. Advanced Multilevel Converters and Applications in Grid Integration provides a clear understanding of the gap difference between research conducted and the current industrial needs. This important guide:
_ Puts the focus on the new challenges and topics in related areas such as modulation methods, harmonic analysis, voltage balancing and balanced current injection
_ Makes a strong link between the fundamental concepts of power converters and advances multilevel converter topologies and examines their control strategies, together with practical engineering considerations
_ Provides a valid reference for further developments in the multilevel converters design issue
_ Contains simulations files for further study

Written for university students in electrical engineering, researchers in areas of multilevel converters, high-power converters and engineers and operators in power industry, Advanced Multilevel Converters and Applications in Grid Integration offers a comprehensive review of the core principles of advanced multilevel converters, with contributions from noted experts in the field.
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Autorenporträt
EDITORS ALI I. MASWOOD, PHD, is an Associate Professor at Nanyang Technological University, Singapore. He received his first class B & M. Eng from Moscow Power Engineering Institute and Ph. D degree from Concordia University, Canada. Having taught in Canada for some time, he joined NTU, Singapore. Dr. Maswood is an Associate Editor, IET PEL, author of more than 100 journal and conference papers and a number of patents. His research interests are in unity PF converters, harmonics, multilevel converters, and modulation techniques. He is the recipient of several national and international grants that include the Qatar Foundation & Rolls Royce. HOSSEIN DEHGHANI TAFTI, PHD, received B.Sc. and M.Sc. degrees in electrical engineering and power system engineering from Amirkabir University of Technology, Iran, in 2009 and 2011, respectively, and a Ph.D. degree in electrical engineering from Nanyang Technological University, Singapore, in 2017. From February to August 2016, he was on a research exchange program with the University of New South Wales, Australia, where he was working in the control of multilevel grid-connected converters. From August to October 2017, he was a Researcher with Aalborg University, Denmark, where he was working on the constant power generation of photovoltaic power plants. Since January 2018 he has worked as a research fellow at Nanyang Technological University. His research interests include photovoltaic power plants, multilevel converters, renewable energy, and fault-ride-through capabilities of power converters.