Electric Vehicle Conductive and Wireless Charging Technologies

Power Electronics for Grid Integration

1 Edición - 1 de noviembre de 2026
Última edición
Autores: Yiming Zhang, Xingkui Mao
Idioma: Inglés

Electric Vehicle Conductive and Wireless Charging Technologies: Power Electronics for Grid Integration provides a comprehensive overview of the latest advancements and challe… Leer más

Descripción

Electric Vehicle Conductive and Wireless Charging Technologies: Power Electronics for Grid Integration provides a comprehensive overview of the latest advancements and challenges in the field of electric vehicle charging technology. The book begins by providing a clear assessment of the research history and context before proposing a set of implantation standards for both conductive and wireless charging. Each charging technology is given a detailed assessment, and the two are contrasted in a variety of case studies and scenarios. Specific challenges such as wide-voltage-gain efficient conductive charging and misalignment tolerance and interoperability in wireless charging are presented, with potential solutions.

Critically, auxiliary systems from positioning to foreign object detection are put in context, and a practical assessment of integration challenge is provided. This book equips students, researchers, and engineer with a holistic view of the challenges, cutting-edge research landscape, and integration opportunities related to EV wireless and conductive charging.

Puntos claves

Presents both theoretical and practical principles for EV conductive and wireless charging
Proposes industry standards for power electronics, implementation, and integration
Includes a variety of case studies, methods, and handy tips to support sustainable vehicle power

De interès para

Graduate and upper-level undergraduate student, researchers, and engineers working on the integration of electric vehicles into the power grid

Índice

1. Background of Electric Vehicle Charging Technology

2. Standards for Conductive and Wireless Charging

3. Conductive Charging Technology

4. Wide-Voltage-Gain Efficient Conductive Charging

5. Wireless Charging Technology

6. Misalignment Tolerance of Wireless Charging

7. Interoperability of Wireless Charging

8. Auxiliary Systems of Positioning and Foreign Object Detection

9. Integration of Conductive and Wireless Charging

10. Future Trends

Detalles del producto

Edición: 1
Última edición
Publicado: 1 de noviembre de 2026
Idioma: Inglés

Sobre los autores

Yiming Zhang

Yiming Zhang is currently a Professor at Fuzhou University, China, as well as the Vice-Director and Associate Dean of the Fujian Key Laboratory of New Energy Generation and Power Conversion, China. He specializes in power electronics technology for electric vehicles, including conductive and wireless charging technologies, and was recognized in Elsevier's World Top 2% Scientists lists in both 2022 and 2023.

Afiliaciones y experiencia

Professor, Fuzhou University, China; Vice Director, Fujian Key Laboratory of New Energy Generation and Power Conversion, China

Xingkui Mao

Xingkui Mao is a Professor at Fuzhou University, China. Prior to this he was a visiting scholar at Denmark Technical University (2016-2017). His research interests include renewable energy and energy storage, power conversion, and wireless power transfer.