A free-rotating ball-shaped transmitting coil with wireless power transfer system for robot joints

摘要

Wireless power transmission (WPT) systems with moveable mechanical parts have been acquired more and more attentionduring the past decade. However, due to the moveable feature of transmitting coil and receiving coil, misalignment issue leadto extra power loss, decrease in efficiency, increase in control complexity, and unwanted performance degradation of the wholesystem. Moreover, it happened frequently than those traditional planar coils systems. The motivation for this paper is trying tohave a deep understanding of quantitative relationship between ball-shaped coils mutual inductance and misalignment.Based upon that, engineers would know more detail of the coils position and mutual inductance. So, optimized designmight be achieved. On considering that, this paper presents a WPT system with a ball-shaped coil for robot joints.A mutual inductance calculation based on filament method aimed at ball-shaped coil is proposed. Based on these, nine differentball-shaped coil solutions are calculated. Then, model with a minimized change rate of mutual inductance against theangular misalignment is chosen as the optimized design. Circuit analysis of the WPT system with the series–series resonanttopology is conducted to choose a proper working frequency and load. Finally, an experimental platform is established. Itdemonstrates the feasibility of the proposed calculation method and the feasibility of the WPT prototype.