Title :
New designs for resonators and filters using lithium tantalate
Author :
Détaint, J. ; Schwartzel, J. ; Carru, H. ; Lefevre, R. ; Joly, C. ; Capelle, B. ; Zheng, Y. ; Zarka, A.
Author_Institution :
CNET, Bagneux, France
Abstract :
The results of investigations made into improving the characteristics of fundamental and overtone mode resonators are presented. Using the stroboscopic topography technique, it is shown that the rather poor Q factors of the fundamental thickness shear resonators are due to non-stationary plate modes coupled to the fast shear. The use of bar shaped thickness shear resonators permits higher Q factors to be obtained. To obtain overtone resonators with a zero first order temperature coefficient, (TC) doubly rotated cuts, the compensation of the TC of the overtones of the X cut by a layer of silica, and the use of the lateral field excitation are considered. This latter type of resonator is very well adapted to lithium tantalate and permits, using the plano-convex geometry, very large Q factors for overtones with very elevated ranks to be obtained
Keywords :
Q-factor; compensation; crystal filters; crystal resonators; frequency stability; lithium compounds; LiTaO3; Q factors; SiO2 compensation layer; X cut; bar shaped thickness shear resonators; compensation; doubly rotated cuts; fundamental thickness shear resonators; lateral field excitation; non-stationary plate modes; overtone mode resonators; plano-convex geometry; stroboscopic topography; zero first order temperature coefficient; Bandwidth; Coordinate measuring machines; Crystalline materials; Frequency; Lithium compounds; Oscillators; Q factor; Resonator filters; Silicon compounds; Surfaces;
Conference_Titel :
Frequency Control, 1990., Proceedings of the 44th Annual Symposium on
Conference_Location :
Baltimore, MD
DOI :
10.1109/FREQ.1990.177516
