Title :
Drive level dependence of the resonant frequency in BAW quartz resonators and his modeling
Author_Institution :
Fac. of Mechatronics, Tech. Univ. Liberec, Halkova, Czech Republic
fDate :
7/1/1999 12:00:00 AM
Abstract :
The influence of the excitation current on the resonant frequency and its mathematical description makes necessary the introduction of a nonlinear impedance characteristic of the piezoelectric resonator. This influence was modeled by the nonlinear electrical equivalent circuit; the equivalent series resistance and equivalent motional capacitance are taken to be functions of the amplitude of the excitation current by means of the relations derived in the work. The equivalent circuit was analyzed by the method of equivalent linearization. The relationships between the amplitudes of voltage applied on the AT-cut resonator and the first current harmonics or phase-frequency dependence of the excited resonator, respectively, are derived. Amplitude jumps and dynamic temperature change phenomena are discussed.
Keywords :
bulk acoustic wave devices; crystal resonators; equivalent circuits; linearisation techniques; AT-cut resonator; BAW quartz resonators; SiO/sub 2/; amplitude jumps; amplitudes; current harmonics; drive level dependence; dynamic temperature change phenomena; equivalent linearization; equivalent motional capacitance; equivalent series resistance; excitation current; mathematical description; nonlinear electrical equivalent circuit; nonlinear impedance characteristic; phase-frequency dependence; piezoelectric resonator; resonant frequency; Capacitance; Circuit analysis; Electric resistance; Equivalent circuits; Impedance; Mathematical model; Nonlinear equations; Resonant frequency; Thermal stresses; Thermodynamics;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
