Title :
VHF free-free beam high-Q micromechanical resonators
Author :
Wang, Kun ; Wong, Ark-Chew ; Nguyen, Clark T C
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Michigan Univ., Ann Arbor, MI, USA
Abstract :
Free-free-beam flexural-mode micromechanical resonators utilizing nonintrusive supports to achieve measured Qs as high as 8400 at VHF frequencies from 30 to 90 MHz are demonstrated in a polysilicon surface micromachining technology. The microresonators feature torsional-mode support springs that effectively isolate the resonator beam from its anchors via quarter-wavelength impedance transformations, minimizing anchor dissipation and allowing these resonators to achieve high-Q with high stiffness in the VHF frequency range. The free-free-beam micromechanical resonators of this paper are shown to have an order of magnitude higher Q than clamped-clamped-beam versions with comparable stiffnesses.
Keywords :
Q-factor; VHF devices; micromachining; micromechanical resonators; 30 to 90 MHz; Q-factor; Si; VHF free-free-beam flexural-mode micromechanical resonator; anchor dissipation; polysilicon surface micromachining; quarter-wavelength impedance transformation; stiffness; torsional-mode support spring; Coupling circuits; Electrical resistance measurement; Electrodes; Frequency; Micromechanical devices; Permittivity measurement; Q factor; Resonator filters; VHF circuits; Voltage;
Journal_Title :
Microelectromechanical Systems, Journal of
