Robust Wide-Area Wireless Charging of Multipath Movable Receivers: A Coupling Mechanism and Simplified Configuration Strategy

This paper introduces a novel coupling mechanism along with a simplified configuration strategy for achieving robust and wide-area dynamic wireless charging of multipath movable receivers (Rxs). The proposed coupling mechanism involves non-overlapping arrangement of multi- transmitter (Tx) coils in a two-dimensional (2D) plane, which are omnidirectionally decoupled by integrating simple planar coils, effectively expanding the charging area with flexibility. To enhance the flux harvesting capability and maximize the stable coupling area of each Tx cell, a dual-winding complementary (Cx) coil is introduced on the Rx side without Rx coupling restrictions. Leveraging this mechanism, robust and efficient charging can be achieved by activating only one Tx or two diagonally adjacent Txs, thereby reducing system configuration complexity and power loss. Additionally, a double-layered modelfree strategy based on co-measurement of the Tx and Rx sides is proposed for detecting the position and orientation of 2D omnidirectional-moving Rx, facilitating Tx configuration with reduced cost and enhanced reliability. Experimental results from a scaled-down prototype demonstrate robust performance, achieving a stable 85% overall efficiency and less than ±5% output voltage fluctuation in the 2D area, validating the effectiveness of the proposed approach. © 2024 IEEE.