Enhanced sensitivity of temperature-compensated SAW-based current sensor using the magnetostrictive effect

Wang Wen; Jia Yana; Liu XinluLiang YongXue XufengDu Zaofu

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Enhanced sensitivity of temperature-compensated SAW-based current sensor using the magnetostrictive effect

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A temperature-compensated surface acoustic wave (SAW)-based current sensor was proposed in this contribution, composed of a sensor chip made by SAW delay line patterns on a SiO2/128 degrees YX LiNbO3 piezoelectric substrate, a magnetostrictive FeCo film deposited on the SAW propagation path, and a corresponding differential oscillation configuration. The FeCo coating produced magnetostrictive strain under the magnetic field generated by the applied current, leading to linearity changes in the SAW propagation in the form of velocity change. The corresponding differential oscillation frequency shift was used to evaluate the tested current. By solving the coupled electromechanical field equation in a layered structure while considering the magnetostrictive effect, the optimal FeCo film thickness, and sensor operation frequency yielding high current sensitivity, were determined, and then confirmed experimentally by evaluating the developed SAW current sensor system utilizing a Helmholtz coil. A high sensitivity of 16.6 KHz A(-1) (8.3 KHz m(-1) T-1), excellent linearity, and lower detection limit (similar to 0.2 mA) were achieved with our 300 MHz SAW sensor with a 500 nm FeCo coating and aspect ratio of 2:1.

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来源
《Smart Materials & Structures》 |2017年第2期|共10页
作者
Wang Wen; Jia Yana; Liu XinluLiang YongXue XufengDu Zaofu;
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作者单位

Chinese Acad Sci, Inst Acoust, State Key Lab Acoust, Beijing 100190, Peoples R China;

Cent Iron & Steel Res Inst, Res Inst Foundat Mat, Beijing 10081, Peoples R China;

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原文格式 PDF
正文语种英语
中图分类智能材料;
关键词
differential oscillation; FeCo film; magnetostrictive effect; surface acoustic wave; current sensor;

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Enhanced sensitivity of temperature-compensated SAW-based current sensor using the magnetostrictive effect

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