FEM Analysis of Response Mechanism for Temperature Sensors Based on Surface Acoustic Wave Resonators

机译：基于表面声波谐振器的温度传感器响应机理的有限元分析

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The response mechanism for temperature sensors based on surface acoustic wave (SAW) resonators was analyzed by using the finite element method (FEM). Modeling the periodic electrodes on a piezoelectric substrate in COMSOL, the material parameters and the thermal expansion of the periodic structure at different temperatures were considered. By using the modal analysis and the harmonic frequency response analysis, the relative frequency change of the SAW temperature sensor was deduced. The numerical results of frequency-temperature behavior for Y+33°-X quartz and Y+36°-X quartz agree well with the reported experimental results, confirming the efficiency of the proposed theoretical analysis. The FEM analysis can provide an effective guide for the application of SAW temperature sensors.

机译：通过有限元方法（FEM）分析了基于表面声波（SAW）谐振器的温度传感器的响应机制。在COMSOL中对压电基板上的周期电极进行建模，考虑了材料参数和周期结构在不同温度下的热膨胀。通过模态分析和谐波频率响应分析，推导了声表面波温度传感器的相对频率变化。 Y + 33°-X石英和Y + 36°-X石英的频率-温度行为的数值结果与报道的实验结果吻合得很好，证实了所提出的理论分析的有效性。有限元分析可以为声表面波温度传感器的应用提供有效的指导。

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《Symposium on Piezoelectricity, Acoustic Waves and Device Applications》|2019年|1-5|共5页
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Wen-chang HAO; Wei LUO; Guang-hong ZHAO; Hai-long JIAO; Yu-gang YIN;
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Surface acoustic waves; Temperature sensors; Electrodes; Resonant frequency; Temperature; Finite element analysis; Substrates;

机译：表面声波;温度传感器;电极;共振频率;温度;有限元分析;基底;

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1. A nitric oxide gas sensor based on Rayleigh surface acoustic wave resonator for room temperature operation [J] . Shih-Han Wang, Shih-Hao Kuo, Chi-Yen Shen Sensors and Actuators . 2011,第2期

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2. Response Mechanism for Surface Acoustic Wave Gas Sensors Based on Surface-Adsorption [J] . Jiansheng Liu, Yanyan Lu Sensors . 2014,第4期

机译：基于表面吸附的声表面波气体传感器响应机理
3. Study of loss mechanisms in temperature compensated surface acoustic wave devices based on finite element method analysis using hierarchical cascading technique [J] . Matsuoka Naoto, Li Xinyi, Omori Tatsuya, Japanese journal of applied physics . 2020,第SK期

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4. FEM Analysis of Response Mechanism for Temperature Sensors Based on Surface Acoustic Wave Resonators [C] . Wen-chang HAO, Wei LUO, Guang-hong ZHAO, Symposium on Piezoelectricity, Acoustic Waves, and Device Applications . 2019

机译：基于表面声波谐振器的温度传感器响应机理的有限元分析
5. Analysis of shear-horizontal vibrations of crystal plates for acoustic wave resonators and sensors. [D] . Liu, Bo. 2010

机译：分析用于声波谐振器和传感器的晶体板的水平剪切振动。
6. Response Mechanism for Surface Acoustic Wave Gas Sensors Based on Surface-Adsorption [O] . Jiansheng Liu, Yanyan Lu 2014

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7. Response Mechanism for Surface Acoustic Wave Gas Sensors Based on Surface-Adsorption [O] . Jiansheng Liu, Yanyan Lu 2014

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8. Surface Acoustic Wave Vapor Sensors Based on Resonator Devices [R] . Grate, J. W., Klusty, M. 1991

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FEM Analysis of Response Mechanism for Temperature Sensors Based on Surface Acoustic Wave Resonators

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