Surface Acoustic Wave Sensors for Temperature and Strain Measurements

Surface acoustic wave (SAW) technology has received considerable attention for harsh environment applications. The ultimate goal of our research is to develop a SAW sensor system for temperature and pressure sensing in the cryogenic environment. In this research, we performed a Finite Element (FE) analysis to simulate the temperature sensitivity of the 128o YX-cut Lithium Niobate (LiNbO3)-based SAW sensor using COMSOL Multiphysics. The fabricated SAW sensors were applied to measure the temperature from 30 degrees C to 80 degrees C and the strain at room temperature. The results have shown that the temperature coefficient of the delay (TCD) at room temperature is around 74.4 ppm/degrees C. The measured TCD of the temperature at room temperature matches the simulation result, which is 72.37 ppm/degrees C. The measured strain coefficient of delay (SCD) is 0.38ppm/mu epsilon at room temperature.