Title :
Lateral- and thickness-field coupling in lithium tetraborate
Author :
Ballato, A. ; Kosinski, J. ; Mizan, M. ; Lukaszek, T.
Author_Institution :
US Army Electron. Telchnol. & Devices Lab., Fort Monmouth, NJ, USA
fDate :
31 May-2 Jun 1989
Abstract :
Calculations have previously been made for rotated y-cuts, including the regions where the quasi-extensional and quasi-shear thickness modes have zero temperature coefficients of frequency. This work extends the calculations to doubly rotated bulk-wave resonators, and computes the coupling factors for the three simple-thickness modes driven by thickness (TE) and lateral (LE) quasistatic electric fields as a function of the orientation angles φ and θ, and the direction of the applied lateral field ψ. Because of the temperature coefficients of the piezoelectric coupling factors, the temperature coefficient of a resonator depend not only upon orientation, but also upon harmonic number and location of the resonator operating point on the immittance circle. These considerations are addressed
Keywords :
crystal resonators; lithium compounds; piezoelectric materials; Li2B4O7 piezoelectric crystals; doubly rotated bulk-wave resonators; harmonic number; immittance circle; lateral-field coupling; orientation; orientation angles; piezoelectric coupling factors; quasistatic electric fields; resonator operating point; simple-thickness modes; temperature coefficients; thickness-field coupling; Acoustic waves; Delay effects; Frequency; Lithium; Ocean temperature; Optical resonators; Optical surface waves; Surface acoustic waves; Tellurium; Temperature dependence;
Conference_Titel :
Frequency Control, 1989., Proceedings of the 43rd Annual Symposium on
Conference_Location :
Denver, CO
DOI :
10.1109/FREQ.1989.68917
