Study on the Effect of Eddy Current for Inductive Angle Sensor with Resonant Structure

Chengyu Hu, Zaimin Zhong, Junxing Li
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Abstract

Planar inductive position sensor based on PCB has the advantage of low cost and reducing the error caused by winding manufacturing. For inductive sensor with resonant structure, the undesired eddy current caused by conductive shell influences the amplitude and carrier phase of output signals when the sensor is integrated in the motor. This change affects signal demodulation feasibility of the sensor and reduces the signal-to-noise ratio. For this problem, the influence of ferromagnetic materials and eddy current is here discussed. A modified coupling model of multiple coils considering eddy current is proposed to describe a system with modulation characteristics, and the corresponding equivalent circuit equations are established. A prototype is manufactured to verify the performance of the proposed design, and the ferrite is used to suppresses the coupling between the sensor and metallic environment. According to the experimental results, the sensor signal demodulation is achieved properly, and the linear angle estimation realized at a uniform speed.
涡流对谐振结构电感式角度传感器影响的研究
基于PCB的平面感应式位置传感器具有成本低、减少绕组制造误差的优点。对于谐振结构的电感式传感器,当传感器集成在电机中时,由导电壳产生的涡流会影响输出信号的幅值和载波相位。这种变化影响了传感器信号解调的可行性,降低了信噪比。针对这一问题,讨论了铁磁材料和涡流的影响。提出了一种考虑涡流的修正多线圈耦合模型来描述具有调制特性的系统,并建立了相应的等效电路方程。制作了一个原型来验证所提出设计的性能,并使用铁氧体来抑制传感器与金属环境之间的耦合。实验结果表明,传感器信号的解调效果良好,实现了匀速线性角度估计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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