Title :
A study of surface acoustic wave pressure sensor in ZnO/quartz structure
Author :
Talbi, A. ; Elhakiki, M. ; Sarry, F. ; Elmazria, O. ; Le Brizoual, L. ; Alnot, P.
Author_Institution :
Lab. de Phys. des Milieux Ionises et Applications, CNRS, France
Abstract :
It was previously reported that a Rayleigh wave propagating on a zinc oxide film has a relatively low temperature coefficient of frequency (TCF) and a large electromechanical coupling factor (K2). In this study we investigate the performance of a SAW pressure sensor using ZnO/quartz structure. Y-cut is preferred in our study due to its positive TCF value permitting a zero TCF when combined with ZnO. ZnO thickness was determined to achieve a zero TCF and to improve the electromechanical coupling coefficient (K2=1%) seven times higher than that of quartz Y-cut X propagating direction. The development of the optimal structure to be used is presented followed by the operating frequency effect and ZnO film contribution to the pressure sensitivity.
Keywords :
II-VI semiconductors; Rayleigh waves; electromechanical effects; pressure sensors; quartz; surface acoustic wave sensors; wave propagation; zinc compounds; Rayleigh wave propagation; SAW pressure sensor; TCF; ZnO film contribution; ZnO thickness; ZnO-SiO2; ZnO/quartz structure; electromechanical coupling coefficient; electromechanical coupling factor; operating frequency; optimal structure; pressure sensitivity; quartz Y-cut X-propagating direction; surface acoustic wave pressure sensor; temperature coefficient of frequency; zinc oxide film; Acoustic sensors; Acoustic waves; Frequency; Piezoelectric films; Sputtering; Substrates; Surface acoustic wave devices; Surface acoustic waves; Temperature sensors; Zinc oxide;
Conference_Titel :
Sensors, 2004. Proceedings of IEEE
Print_ISBN :
0-7803-8692-2
DOI :
10.1109/ICSENS.2004.1426223
