论文信息 - Analysis of air damping in micromachined resonators

Analysis of air damping in micromachined resonators

An approach to the modeling and simulating the air damping effect on quality factor (Q) of a square plate Lamé mode microresonator is presented in this paper. Both the squeeze film damping and slide film damping are considered in the analysis procedure. The Reynolds equation and the Stoke-flow model are used to investigate the reactions of the resonant plate with the air flows in the transduction gaps and around the resonator plate surfaces, respectively. An electrical equivalent model has been derived for a microresonator operating in air. The model is realized with resistors equivalent for the slide film damping force and frequency-dependent resistors and capacitances connected in series equivalent for the squeeze film damping force. The simulated transmission characteristics are in good agreement with the experimental results for a 4.13 MHz Lamé mode microresonator.

[1] R. Howe,et al. Viscous damping model for laterally oscillating microstructures , 1994 .

[2] Joshua E.-Y. Lee,et al. 5.4-MHz single-crystal silicon wine glass mode disk resonator with quality factor of 2 million , 2009 .

[3] Minhang Bao,et al. Squeeze film air damping in MEMS , 2007 .

[4] Joshua E.-Y. Lee,et al. Low loss HF band SOI wine glass bulk mode capacitive square-plate resonator , 2009 .

[5] A. Seshia,et al. A Single-Crystal-Silicon Bulk-Acoustic-Mode Microresonator Oscillator , 2008, IEEE Electron Device Letters.

[6] Brian H. Houston,et al. Thermoelastic damping in micromechanical resonators , 2009 .

[7] C. Nguyen. MEMS technology for timing and frequency control , 2005, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[8] S. Hutcherson. THEORETICAL AND NUMERICAL STUDIES OF THE AIR DAMPING OF MICRO-RESONATORS IN THE NON-CONTINUUM REGIME , 2004 .

[9] Quality Factor and Resonance Frequency Shift Due to Air in RF MEMS Radial Disk Resonators , 2007, TRANSDUCERS 2007 - 2007 International Solid-State Sensors, Actuators and Microsystems Conference.

[10] Tomi Mattila,et al. A 12 MHz micromechanical bulk acoustic mode oscillator , 2002 .