Title :
Temperature compensated radio-frequency harmonic bulk acoustic resonators
Author :
Baron, T. ; Gachon, D. ; Martin, G. ; Alzuaga, Sebastien ; Hermelin, D. ; Romand, J.P. ; Ballandras, S.
Author_Institution :
Dept. Time & Freq., Univ. de Franche-Comte, Besançon, France
Abstract :
In this paper, we present a new approach for the fabrication and use of thinned single crystal films for the development of radio-frequency temperature compensated devices. We particularly focus on High-overtone bulk acoustic resonators (HBAR) for oscillator stabilization, taking advantage of the very high quality factors achievable with such devices. We obtained a good agreement between simulation and experiments. This paper shows the possibility to obtain device which is intrinsically low sensitive to thermal effects, and even allowing a second order compensation thanks to the Quartz thermal stability.
Keywords :
acoustic resonators; bulk acoustic wave devices; compensation; crystal resonators; radiofrequency oscillators; HBAR; Quartz thermal stability; high-overtone bulk acoustic resonators; oscillator stabilization; quality factors; radiofrequency harmonic bulk acoustic resonators; radiofrequency temperature compensated device; thinned single crystal films; Acoustics; Bonding; Resonant frequency; Silicon; Temperature; Temperature sensors;
Conference_Titel :
Frequency Control Symposium (FCS), 2010 IEEE International
Conference_Location :
Newport Beach, CA
Print_ISBN :
978-1-4244-6399-2
DOI :
10.1109/FREQ.2010.5556247
