Influence of metallization on temperature stability of SAW devices

E. Henry, S. Ballandras, E. Bigler, G. Marianneau, G. Martin, S. Camou
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引用次数: 4

Abstract

Most Surface Acoustic Wave (SAW) devices exhibit a very small sensitivity to thermal effects. However, even on instrinsically compensated crystal cuts, the deposition of metal strips at the surface (transducers or reflectors) induces important changes in the thermoelastic properties of the device. A theoretical approach based on the Sinha-Tiersten perturbation method is proposed to model the influence of metallization on SAW properties on (ST,X) quartz, namely the temperature stability of the phase velocity of Rayleigh waves. Since this perturbation method only gives access to the first order Temperature Coefficient of Frequency (TCF), it is combined with a conventional calculation of the second order TCF to predict the evolution of the turnover temperature. The proposed calculation also requires temperature derivatives of the elastic constants of the metal which can be calculated for different materials. More classical approaches are also considered based on the calculation of surface permittivity using thermally varied elastic constants. Finally, theoretical results are compared to experimental data measured on SAW devices on (ST,X) quartz using Aluminium, Gold or Chromium gratings.
金属化对SAW器件温度稳定性的影响
大多数表面声波(SAW)器件对热效应的敏感性非常小。然而,即使在本征补偿晶体切割上,表面金属条(换能器或反射器)的沉积也会引起器件热弹性性能的重要变化。提出了一种基于Sinha-Tiersten摄动法的理论方法来模拟金属化对(ST,X)石英表面SAW性能的影响,即瑞利波相速度的温度稳定性。由于这种摄动方法只能得到一阶温度频率系数(TCF),因此可以将其与传统的二阶温度频率系数计算相结合来预测翻转温度的演变。提出的计算还需要金属弹性常数的温度导数,可以计算不同材料的弹性常数。基于热变弹性常数计算表面介电常数的更经典的方法也被考虑。最后,将理论结果与在(ST,X)石英上使用铝、金或铬光栅的SAW器件上测量的实验数据进行了比较。
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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