Renewable Energy Systems
Advanced Conversion Technologies and Applications
Industrial Electronics Series

Energy conversion techniques are key in power electronics and even more so in renewable energy source systems, which require a large number of converters. Renewable Energy Systems: Advanced Conversion Technologies and Applications describes advanced conversion technologies and provides design examples of converters and inverters for renewable energy systems?including wind turbine and solar panel energy systems.

Learn Cutting-Edge Techniques for Converters and Inverters

Setting the scene, the book begins with a review of the basics of astronomy and Earth physics. It then systematically introduces more than 200 topologies of advanced converters originally developed by the authors, including 150 updated circuits on modern conversion technologies. It also discusses recently published topologies and thoroughly analyzes new converter circuits. Novel approaches include split-capacitor and split-inductor techniques that can be applied in super-lift and other converters.

Resolve Historic Problems in Conversion Technologies

Along with offering many cutting-edge techniques, the authors resolve some historic problems, such as the accurate determination of the conduction angle of single-phase rectifiers and power factor correction. They also describe a new series?laddered multilevel inverters?that uses few devices to produce more levels, overcoming the drawbacks of the pulse-width-modulation (PWM) inverter and providing great scope for industrial applications.

Tap the Knowledge of Pioneers in the Field

This book is written by pioneers in advanced conversion technology who have created a large number of converters, including the world-renowned DC/DC Luo-converters and super-lift Luo-converters. Featuring numerous examples and diagrams, it guides readers in designing advanced converters for use in renewable energy systems.

Introduction. New Energy Sources. 3G and Renewable Energies. Power Electronics. Uncontrolled AC/DC Converters. Controlled AC/DC Converters. Power Factor Correction Implementing in AC/DC Converters. Classical DC/DC Converters. Voltage Lift Converters. Super-Lift Converters and Ultra-Lift Converters. Split-Capacitor and Split-Inductor Techniques and Their Application in Positive-Output Super-Lift Luo Converters. Pulse-Width-Modulated DC/AC Inverters. Multilevel and Soft-Switching DC/AC Inverters. Advanced Multilevel DC/AC Inverters Used in Solar Panel Energy Systems. Traditional AC/AC Converters. Improved AC/AC Converters. AC/DC/AC and DC/AC/DC Converters. Designs of Solar Panel and Wind Turbine Energy Systems. Index.

Dr. Fang Lin Luo, Ph.D., is an Associate Professor with the School of Electrical and Electronic Engineering, Nanyang Technological University (NTU), Singapore. He is a fellow of the Cambridge Philosophical Society and a senior member of IEEE. He has published 12 textbooks and 308 technical papers in IEE/IET Proceedings and IEEE Transactions as well as in various international conferences. Dr. Luo is currently the associate editor of IEEE Transactions on Power Electronics and IEEE Transactions on Industrial Electronics. He is also the editor of the international journal Advanced Technology of Electrical Engineering and Energy. His research interests include power electronics and DC and AC motor drives with computerized artificial intelligent (AIC) control and digital signal processing (DSP) as well as AC/DC, DC/DC, and AC/AC converters and DC/AC inverters, renewable energy systems, and electrical vehicles.

Dr. Hong Ye, Ph.D., is a Research Fellow at Nanyang Technological University (NTU), Singapore. She is a member of the IEEE and has coauthored 12 books. Dr. Ye has published more than 80 technical papers in IEEE Transactions, IEE Proceedings, and other international journals, as well as in various international conferences. Her research interests include power electronics and conversion technologies, signal processing, operations research, and structural biology.