Experimental evidence for mode shape influence on acceleration-induced frequency shifts in quartz resonators

Author

EerNisse, Errol P. ; Ward, Roger W. ; Watts, Milton H. ; Wiggins, Robert B. ; Wood, O. Lew

Author_Institution

Quartztronics Inc., Salt Lake City, UT, USA

Volume

37

Issue

6

fYear

1990

Firstpage

566

Lastpage

570

Abstract

Experimental results are presented to support the hypothesis that the shape and location of the active region of vibration in a thickness shear mode quartz resonator are the dominant factors in determining the acceleration sensitivity of the resonator. The shape and location of the mode in a real world resonator vary sufficiently from unit to unit (due to material and processing variations) that all other considerations are overwhelmed. It is shown experimentally that the mode shape and/or location can be trimmed with energy trapping by judicious addition or subtraction of mass to produce resonators with improved acceleration sensitivity.<>

Keywords

crystal resonators; piezoelectric oscillations; sensitivity; acceleration sensitivity; acceleration-induced frequency shifts; energy trapping; mode shape influence; thickness shear mode quartz resonator; Acceleration; Communication standards; Computer aided manufacturing; Degradation; Finite element methods; Frequency; Navigation; Oscillators; Scattering parameters; Shape;

fLanguage

English

Journal_Title

Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on

Publisher

ieee

ISSN

0885-3010

Type

jour

DOI

10.1109/58.63114

Filename

63114