A Three-Phase Overlapping Winding–Based Wireless Charging System for Transportation Applications
Samir Chowdhury, Md Tawhid Bin Tarek, Md Ehsanul Haque, Yilmaz Sozer
Abstract
This article proposes a two-layer overlapping winding–based three-phase wireless vehicle charging system with a coil span of 180°. This coil structure offers higher coupling and balance inductance matrices between the transmitter and receiver and improves system efficiency. The system performance improvement has been validated through detailed analysis and simulation results and compared with the benchmark for the same electrical parameters, air gap, and coil volume. Finite element analysis–based simulation results were presented for a 7.7-kW wireless power transfer (WPT) over a 200-mm air gap. An experimental prototype of the proposed system is developed operating at the resonant frequency of 86 kHz with a 200-mm air gap between the coils to validate the design. Both the simulation and experimental results showed a significant increase in efficiency and coupling compared to the conventional WPT systems.