基于三直流母线的副边旋转分段电容式电力传输系统及其低输出电压波动特性

In mechanical power transmission equipment, the power shafts are a common mechanical structure. It is not feasible to use traditional power supply methods to supply power from fixed power sources to rotating equipment. Capacitive power transfer (CPT) technology has the advantages of flexible and portable couplers and low eddy current loss, and these advantages are well suited to the power supply needs of equipment installed on rotating bodies. However, there are also some shafts with large diameters that can cause serious electromagnetic radiation and standby losses when using long receiving plates and a series of problems such as voltage drops caused by segmented couplers. Therefore, this article proposes a rotating segmented CPT system with low output voltage fluctuation based on three DC busbars; it establishes a mathematical model and equivalent circuit for the system’s multiport capacitive coupling and achieves the superposition of adjacent rectified output voltages. Experimental results confirm that the system maintains a basically constant output voltage throughout the entire rotation process. In this process, the output voltage of the system drops from 47 to 41 V, with a maximum variation rate of 12.77%. The system output power reaches 82 W, and the peak efficiency achieves 84.97%.