A New Cross-Overlapped Decoupling Coil Structure for EV Dynamic Inductive Wireless Charging System
Jialin Yin, Saad Mekhilef, Peyman Darvish, Hazlie Mokhlis, Kok Soon Tey
Abstract
The multitransmitter and multireceiver structure has been extensively discussed in dynamic inductive wireless charging (DIWC) systems for electric vehicles (EVs). Multiple coils have already been proven successful in high-power applications. Nevertheless, challenges persist in mitigating the adverse effects of cross-coupling among adjacent multicoils and in achieving higher transfer efficiency and stable output power under dynamic conditions. Thus, this article proposes a new DIWC magnetic coupler composed of a cross-overlapped transmitter and single receiver that serves multiple purposes, including decoupling, reduced mutual inductance fluctuation, and achieving high efficiency simultaneously. Moreover, the traversal method using the finite element analysis (FEA) tool Maxwell is used to choose the optimized Rx coil turns and size, thereby further improving system performance. A 2kW laboratory prototype is developed to validate the proposed DIWC magnetic coupler. The experimental results show that the output voltage fluctuation can be controlled within ±1% and the maximum DC-DC efficiency is 92.87%. The longitudinal misalignment performance of the proposed DIWC magnetic coupler is also elaborated in this article.