基于弯曲和厚度剪切模式声耦合的超高频压电石英mems磁强计

2015 28th IEEE International Conference on Micro Electro Mechanical Systems (MEMS) Pub Date : 2015-03-02 DOI:10.1109/MEMSYS.2015.7051116

Hung D. Nguyen, Joshua A. Erbland, L. Sorenson, R. Perahia, Lian X. Huang, R. Joyce, Y. Yoon, D. Kirby, Tracy J. Boden, Robert B. McElwain, D. Chang

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引用次数: 1

摘要

本文报道了基于共振模式间声学耦合的压电石英MEMS磁强计的设计、制造和表征。本文描述的磁传感器采用一种新颖的转导方案，将所需的近直流磁场信号(使用基本弯曲模式)上转换到频率高于500 MHz的原始石英厚度剪切(TS)振荡的调频(FM)边带。第一代器件分别在2.77 kHz和583.31 MHz表现出弯曲和TS共振，在交流回路电流为9.2 mA时测得磁灵敏度为63.6 V/T。这种用于电子罗盘的新型传感方法，阐明了谐振器件内低频和高频声学模式之间的相互作用。

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UHF piezoelectric quartz mems magnetometers based on acoustic coupling of flexural and thickness shear modes

This paper reports the design, fabrication, and characterization of piezoelectric quartz MEMS magnetometers based on acoustic coupling between resonance modes. The magnetic sensors described herein employ a novel transduction scheme to upconvert the desired near-DC magnetic field signal (using the fundamental flexural mode) onto frequency modulated (FM) sidebands of the primary quartz thickness shear (TS) oscillation at frequencies above 500 MHz. First-generation devices exhibit flexural and TS resonances at 2.77 kHz and at 583.31 MHz, respectively, and magnetic sensitivity of 63.6 V/T was measured with an AC loop current of 9.2 mA. This novel sensing method, intended for electronic compassing, illuminates the interactions between low and high frequency acoustic modes within resonant devices.

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2015 28th IEEE International Conference on Micro Electro Mechanical Systems (MEMS)

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