一种新型印刷线圈线性旋转电磁感应传感器的合成

Magnetics Symposium 2014 - Celebrating 50th Anniversary of IEEE Magnetics Society (MSSC50) Pub Date : 2014-11-06 DOI:10.1109/MSSC.2014.6947687

N. Aung, C. Bi, Y. Q. Yu, Q. Jang, A. Al-Mamun, C. Lim

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引用次数: 2

摘要

编码器和解析器是运动控制应用中常用的测量轴位置的传感器。精密制造和特殊电磁或光学结构的要求使得这些传感器价格昂贵。在不降低性能的前提下降低成本是传感器设计中的一个难题。它要求探索新颖和创新的设计。本文介绍了一种利用印刷电路线圈合成的新型线性旋转电磁感应传感器。新传感器的工作原理与解析器的工作原理相适应，但新传感器的输出与轴的位置呈分段线性关系。在本工作中，描述了系统的设计过程，并制作了原型。样机的评估表明，新传感器的精度可与工业解析器的精度相媲美。

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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Synthesis of a novel linear-rotary electromagnetic induction sensor using printed circuit coils

Encoders and resolvers are the commonly used sensors to measure the shaft position in motion control applications. Requirements of precise manufacturing and special electromagnetic or optic structures make those sensors expensive. Reduction of cost without degradation of performance is a challenging problem in sensor design. It demands novel and innovative designs to be explored. This paper presents the synthesis of a novel linear-rotary electromagnetic induction sensor using printed circuit coils. The operating principle of the new sensor adapts that of a resolver but the new sensor outputs have a piece-wise linear relationship with the shaft position. In this work, systematic design procedures are described and the prototypes are fabricated. Evaluation of the prototypes shows that the new sensor achieves the accuracy comparable to the accuracy of industrial resolvers.

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Magnetics Symposium 2014 - Celebrating 50th Anniversary of IEEE Magnetics Society (MSSC50)

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