A double-sided capacitor-inductor (CL) compensation topology is proposed for high-power capacitive power transfer (CPT) charging systems with a component voltage stress optimisation to alleviate the voltage stress on passive components and coupling interfaces. First, detailed analysis of the compensation topology characteristic is carried out based on fundamental harmonics approximation analysis method to yield the voltage stress functions against system's parameters. Then, a voltage stress optimisation is presented. Third, system component voltage stress can be reallocated effectively according to the desired requirement by adjusting system parameters accordingly. With the proposed voltage stress optimisation, a CPT prototype is set up to verify the proposed method performance. As per the experiment results, the efficiency of the prototype reaches 87.47% with 1494W output power from DC to DC at the 1MHz switching frequency. Besides, the maximum voltage stress is significantly reduced compared to that without optimisation.

• 出版日期2018-6-19
• 单位西南交通大学