MODELLING, ANALYSIS AND CONTROL OPTIMIZATION OF WIRELESS BATTERY CHARGER FOR ELECTRIC VEHICLE
DOI:
https://doi.org/10.24867/02BE26SkrbicKeywords:
electric vehicle, wireless battery chargerAbstract
In this paper is processed modelling, analysis and control optimization of wireless battery charger for electric vehicle. The simulation results and conclusions are presented. Two ways of controlling the output power were analyzed, which can be applied. Finally, the part of the experiment that was done is shown.
References
[1] D. Maksimović, R.W. Erickson, “Fundamentals of Power Electronics”, 2nd Ed., Kluwer Academic Publishers, New York, 2004.
[2] T.M. Fisher, K.B. Farley, Z. Gao, H. Bai, Z. Ho Tse, “Electric vehicle wireless charging technology: a state-of-the-art review of magnetic coupling systems”, Wireless Power Transfer, Vol.1, Issue 2, Sep.2014, pp.87–96.
[3] A. Berger, M. Agostinelli, S. Vesti, J. A. Oliver, J.A. Cobos, M. Huemer, “A Wireless Charging System Applying Phase-Shiftand Amplitude Control to Maximize Efficiencyand Extractable Power”, IEEE Тrans. on Power Electronics, Vol.30, No.11, Nov. 2015, pp.6338 – 6348.
[4] A. Poullikkas, “Sustainable options for electric vehicle technologies”, Renewable and Sustainable Energy Reviews, vol. 41(C), 2015, pp.1277-1287.
[2] T.M. Fisher, K.B. Farley, Z. Gao, H. Bai, Z. Ho Tse, “Electric vehicle wireless charging technology: a state-of-the-art review of magnetic coupling systems”, Wireless Power Transfer, Vol.1, Issue 2, Sep.2014, pp.87–96.
[3] A. Berger, M. Agostinelli, S. Vesti, J. A. Oliver, J.A. Cobos, M. Huemer, “A Wireless Charging System Applying Phase-Shiftand Amplitude Control to Maximize Efficiencyand Extractable Power”, IEEE Тrans. on Power Electronics, Vol.30, No.11, Nov. 2015, pp.6338 – 6348.
[4] A. Poullikkas, “Sustainable options for electric vehicle technologies”, Renewable and Sustainable Energy Reviews, vol. 41(C), 2015, pp.1277-1287.
Downloads
Published
2019-03-09
Issue
Section
Electrotechnical and Computer Engineering
