Static In-wheel Wireless Charging Systems for Electric Vehicles
Journal: International Journal of Scientific & Technology Research (Vol.6, No. 9)Publication Date: 2017-09-15
Authors : Chirag Panchal; Junwei Lu; Sascha Stegen;
Page : 280-284
Keywords : Battery Electric Vehicles; Electromagnetic compatibility; Finite Element Method; Resonant Inductive Power Transfer; Static In Wheel Wireless Charging Systems; Wireless Charging systems; Wireless Power Transfer.;
Abstract
Wireless charging is a popular upcoming technology with uses ranging from mobile phone charging through to electric vehicle EV charging. Large air gaps found in current EV wireless charging systems WCS pose a hurdle of its success. Air gaps in WCS cause issues in regards to efficiency power transfer and electromagnetic compatibility EMC leakage issues. A static In-Wheel WCS IW-WCS is presented which significantly reduces the issues associated with large air gaps. A small scale laboratory prototype utilizing a standard 10mm steel reinforced tyre has been created and compared to a typical 30mm air gap. The IW-WCS has been investigated by experimental and finite element method FEM based electro-magnetic field simulation methods to validate performance.
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Last modified: 2017-10-22 19:57:31