High Efficiency Non isolated DC Converters with Wide Voltage Gain Range for Renewable Energies

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The book focuses on the topologies of non-isolated DC-DC converters with a wide voltage gain range for renewable energy systems. The inclusion of modeling and experimental verification provides in-depth applications in fuel cell vehicles, electric vehicles with multiple sources including batteries and super-capacitors, and photovoltaic systems. The book focuses on the topologies of non-isolated DC-DC converters with a wide voltage gain range for renewable energy systems. Both principles and engineering practice have been addressed, with more weight placed on principles. Each chapter presents a family of non-isolated DC-DC converters with advanced control methods for renewable energies. Modeling and experimental verification are also included to provide in-depth applications in fuel cell vehicles, electric vehicles with multi-sources, and photovoltaic systems. The book will benefit researchers, engineers, and graduate students in the fields of electric vehicles, photovoltaic systems, as well as electrical, and electronic engineering. The book focuses on the topologies of non-isolated DC-DC converters with a wide voltage gain range for renewable energy systems. It addresses both theoretical principles and engineering practices. Each chapter introduces a family of non-isolated DC-DC converters, including advanced control methods. The inclusion of modeling and experimental verification provides in-depth applications in fuel cell vehicles, electric vehicles with multiple sources including batteries and super-capacitors, and photovoltaic systems. The book is beneficial for researchers, engineers, and graduate students in the fields of renewable energies, as well as electrical and electronic engineering.

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Pagina's: 291, Editie: 2024, Hardcover, Springer