A Hybrid Battery Wireless Charger for Self-Adapting Battery Charging Curve and Anti-Misalignment

• Published in: IEEE journal of emerging and selected topics in industrial electronics (Print) Vol. 4; no. 4; pp. 1 - 10
• Main Authors: Wang, Youzheng, Liu, Hongchen, Yu, Huiying, Wheeler, Patrick, Zhou, Qikun, Zhao, Shiyu
• Format: Journal Article
• Language: English
• Published: New York IEEE 01.10.2023; The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
• Subjects: anti-misalignment; Battery chargers; Charging; Circuit design; Coils; Couplers; double-solenoid quadrature coupler (DSQC); Electric potential; Hybrid battery wireless charger; inductive power transfer (IPT); Industrial electronics; Misalignment; Quadratures; Rectifiers; Reliability engineering; self-adapting charging; Solenoids; Switches; Topology; Transient analysis; Voltage; Wireless communication; Wireless power transmission
• ISSN: 2687-9735; 2687-9743
• DOI: 10.1109/JESTIE.2023.3270843

The battery is mostly adopted as the load in current wireless charge applications. The wireless charger should provide configurable constant current (CC) and constant voltage (CV) outputs for the batteries. The implementation of configurable CC and CV outputs mostly rely on the additional DC-DC converter, hybrid topology, or high-order networks, resulting in complex control and poor reliability. Moreover, the battery wireless charger should also have anti-misalignment ability. To attack the above problems, a hybrid battery wireless charger is proposed for self-adapting battery charging curve and anti-misalignment. A double-solenoid quadrature coupler (DSQC) consisting of square quadrature coil and double-solenoid coil is designed, which combines the coupler with clamp circuit to switch between the two coils automatically, ensuring that the output voltage has small fluctuation within a large lateral misalignment range and inherent CC-to-CV output. The control means is relatively simple, the output threshold is not limited by the parameters of DSQC. Eventually, an experimental prototype with 100V/4.1A output is built to verify the correctness of the proposed scheme.