高q硅谐振器传感器的远程电磁激励

F. Lucklum, B. Jakoby, P. Hauptmann, N. D. de Rooij
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引用次数: 9

摘要

传统上,谐振器的激励是基于压电效应的。交替磁直接产生声波是电磁声换能器的基本工作原理。对于传感器应用,这种方法可以应用于机械谐振器,从而通过高声学q因子提高本来就很差的转导效率。该原理已在FEM和PSpice模拟中进行了理论研究,并实际应用于高q硅膜。这种非压电传感器的优点显示出强共振,其q因子高达105。传感器对质量载荷的响应表现出适合于传感目的的索伯里式行为
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Remote Electromagnetic Excitation of High-Q Silicon Resonator Sensors
The excitation of acoustic resonators is traditionally based on the piezoelectric effect. The alternative magnetic direct generation of acoustic waves is the basic operation principle of electromagnetic acoustic transducers (EMATs). For sensor applications this method can be applied to a mechanical resonator, thus enhancing the rather poor transduction efficiency by the high acoustic Q-factors. This principle has been theoretically investigated in FEM and PSpice simulations and practically applied to high-Q silicon membranes. The advantages of this non-piezoelectric sensor showing strong resonances with Q-factors up to 105 have been demonstrated. Sensor response to mass loading shows a Sauerbrey-like behavior suitable for sensing purposes
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