DC/AC inversion technology is of vital importance for industrial applications, including electrical vehicles and renewable energy systems, which require a large number of inverters. In recent years, inversion technology has developed rapidly, with new topologies improving the power factor and increasing power efficiency. Proposing many novel approaches, Advanced DC/AC Inverters: Applications in Renewable Energy describes advanced DC/AC inverters that can be used for renewable energy systems. The book introduces more than 100 topologies of advanced inverters originally developed by the authors,…mehr
DC/AC inversion technology is of vital importance for industrial applications, including electrical vehicles and renewable energy systems, which require a large number of inverters. In recent years, inversion technology has developed rapidly, with new topologies improving the power factor and increasing power efficiency. Proposing many novel approaches, Advanced DC/AC Inverters: Applications in Renewable Energy describes advanced DC/AC inverters that can be used for renewable energy systems. The book introduces more than 100 topologies of advanced inverters originally developed by the authors, including more than 50 new circuits. It also discusses recently published cutting-edge topologies. Novel PWM and Multilevel Inverters The book first covers traditional pulse-width-modulation (PWM) inverters before moving on to new quasi-impedance source inverters and soft-switching PWM inverters. It then examines multilevel DC/AC inverters, which have overcome the drawbacks of PWM inverters and provide greater scope for industrial applications. The authors propose four novel multilevel inverters: laddered multilevel inverters, super-lift modulated inverters, switched-capacitor inverters, and switched-inductor inverters. With simple structures and fewer components, these inverters are well suited for renewable energy systems. Get the Best Switching Angles for Any Multilevel Inverter A key topic for multilevel inverters is the need to manage the switching angles to obtain the lowest total harmonic distortion (THD). The authors outline four methods for finding the best switching angles and use simulation waveforms to verify the design. The optimum switching angles for multilevel DC/AC inverters are also listed in tables for quick reference. Application Examples of DC/AC Inverters in Renewable Energy Systems Highlighting the importance of inverters in improving energy saving and power-supply quality, the final chapter of the book supplies design examples for applications in wind turbine and solar panel energy systems. Written by pioneers in advanced conversion and inversion technology, this book guides readers in designing more effective DC/AC inverters for use in renewable energy systems.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Prof. Fang Lin Luo, Ph.D., is a full professor at AnHui University, China. He also has a joint appointment with Nanyang Technological University, Singapore. He is a fellow of the Cambridge Philosophical Society and a senior member of the IEEE. He has published 13 books and more than 300 technical papers in the IEEE Transactions and IEE/IET Proceedings as well as in various international conferences. Prof. Luo is currently the associate editor of the IEEE Transactions on Power Electronics and IEEE Transactions on Industrial Electronics. He is also the international editor of Advanced Technology of Electrical Engineering and Energy. He was the general Chairman of the first and third IEEE Conference on Industrial Electronics and Applications (ICIEA 2006 and ICIEA 2008). His research interests include power electronics and DC and AC motor drives with computerized artificial intelligent control (AIC) 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 in the School of Biological Sciences at Nanyang Technological University (NTU), Singapore. She is a member of the IEEE and has coauthored 13 books. Dr. Ye has published more than 80 technical papers in IEEE transactions, IEE/IET 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.
Inhaltsangabe
Introduction. Pulse Width-Modulated DC/AC Inverters. Voltage Source Inverters. Current Source Inverters. Impedance Source Inverters. Quasi-Impedance Source Inverters. Soft-Switching DC/AC Inverters. Multilevel DC/AC Inverters. Trinary Hybrid Multilevel Inverter (THMI). Laddered Multilevel DC/AC Inverters Used in Solar Panel Energy Systems. Super-Lift Converter Multilevel DC/AC Inverters Used in Solar Panel Energy Systems. Switched-Capacitor Multilevel DC/AC Inverters in Solar Panel Energy Systems. Switched Inductor Multilevel DC/AC Inverters Used in Solar Panel Energy Systems. Best Switching Angles to Obtain Lowest THD for Multilevel DC/AC Inverters. Design Examples for Wind Turbine and Solar Panel Energy Systems. Index.
Introduction. Pulse Width-Modulated DC/AC Inverters. Voltage Source Inverters. Current Source Inverters. Impedance Source Inverters. Quasi-Impedance Source Inverters. Soft-Switching DC/AC Inverters. Multilevel DC/AC Inverters. Trinary Hybrid Multilevel Inverter (THMI). Laddered Multilevel DC/AC Inverters Used in Solar Panel Energy Systems. Super-Lift Converter Multilevel DC/AC Inverters Used in Solar Panel Energy Systems. Switched-Capacitor Multilevel DC/AC Inverters in Solar Panel Energy Systems. Switched Inductor Multilevel DC/AC Inverters Used in Solar Panel Energy Systems. Best Switching Angles to Obtain Lowest THD for Multilevel DC/AC Inverters. Design Examples for Wind Turbine and Solar Panel Energy Systems. Index.
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