A system for dynamic inductive power supply of electric vehicles on the road

A Moving Field Inductive Power Transfer (MFIPT) system for wireless inductive power supply of electric vehicles on the road is described. To minimize losses only those primary coils located below the secondary coil of a vehicle are excited. The dynamics, the power balance of the MFIPT system, and the costs for the implementation of the system are discussed.

[1]  Dirk Vallée,et al.  Elektromobilität : Grundlagen einer Zukunftstechnologie , 2013 .

[2]  Peter Russer,et al.  A moving field inductive power transfer system for electric vehicles , 2013, 2013 European Microwave Conference.

[3]  Peter Russer,et al.  A bidirectional moving field inductive power transfer system for electric vehicles , 2013, 2013 11th International Conference on Telecommunications in Modern Satellite, Cable and Broadcasting Services (TELSIKS).

[4]  W. Marsden I and J , 2012 .

[5]  Peter Russer,et al.  Rigorous network modeling of magnetic-resonant wireless power transfer , 2014 .

[6]  M.M. Hernando,et al.  An optimized DC-to-DC converter topology for high-voltage pulse-load applications , 1994, Proceedings of 1994 Power Electronics Specialist Conference - PESC'94.

[7]  Karl-Ludwig Haken Grundlagen der Kraftfahrzeugtechnik , 2011 .

[8]  Peter Russer,et al.  Design considerations for a moving field inductive power transfer system , 2013, 2013 IEEE Wireless Power Transfer (WPT).

[9]  K. T. Chau,et al.  Modern Electric Vehicle Technology , 2001 .

[10]  Hua Bai,et al.  Eliminate Reactive Power and Increase System Efficiency of Isolated Bidirectional Dual-Active-Bridge DC–DC Converters Using Novel Dual-Phase-Shift Control , 2008, IEEE Transactions on Power Electronics.

[11]  Takehiro Imura,et al.  Basic experimental study on helical antennas of wireless power transfer for Electric Vehicles by using magnetic resonant couplings , 2009, 2009 IEEE Vehicle Power and Propulsion Conference.