Title :
Finite element prediction of Q and equivalent electrical parameters of quartz resonators
Author :
Yong, Yook-Kong ; Tanaka, Masako ; Imai, Tsutomu
Author_Institution :
Civil & Environ. Eng. Dept., Rutgers Univ., Piscataway, NJ, USA
Abstract :
The equivalent electrical parameters C0, C1, L1 and R1 can be calculated in an eigenvalue analysis. For high Q resonators, the motional capacitance C1 and inductance L1 can be calculated from the short and open circuit resonant frequencies. The prediction of Q due to power loss via the mounting supports is demonstrated. For accurate prediction of the energy loss via the mounting supports it is important to provide an energy sink such as a large base. The Q estimated from an eigenvalue analysis can be used in a forced vibration model to calculate equivalent electrical parameters C0, C1, L1 and R1.
Keywords :
Q-factor; capacitance; crystal resonators; finite element analysis; eigenvalue analysis; electrical parameters; energy loss; energy sink; finite element prediction; forced vibration model; high Q resonators; motional capacitance; motional inductance; mounting supports; open circuit resonant frequency; power loss; quartz resonators; short circuit resonant frequency; Capacitance; Dielectric constant; Electrodes; Energy loss; Equations; Finite element methods; Inductance; RLC circuits; Resonant frequency; Shape;
Conference_Titel :
Ultrasonics, 2003 IEEE Symposium on
Print_ISBN :
0-7803-7922-5
DOI :
10.1109/ULTSYM.2003.1293360
