Title :
Equivalent circuit analysis of micromechanical resonator using comb transducer model with built-in displacement detection
Author :
Tokusaki, Hiroyuki ; Hirai, Yoshikazu ; Sugano, Koji ; Tsuchiya, Toshiyuki ; Tabata, Osamu
Author_Institution :
Dept. of Micro Eng., Kyoto Univ., Kyoto, Japan
Abstract :
This paper reports transient equivalent circuit analysis for self-induced oscillation of micromechanical resonator using a novel component model of an electrostatic comb transducer. The model with built-in displacement detection can analyze dc operating points which depends on both on electrical and mechanical biases. By using the proposed model, we analyzed the bias voltage dependency of oscillation risetime and amplitude. From comparing the analysis and measurement of start-up transient response of an SOG (silicon-on-glass) resonator, we showed the proposed comb model facilitate designing and estimate oscillator performance.
Keywords :
equivalent circuits; micromechanical resonators; oscillations; oscillators; transducers; bias voltage dependency; built-in displacement detection; comb transducer model; electrical biases; electrostatic comb transducer; mechanical biases; micromechanical resonator; oscillation risetime; self-induced oscillation; silicon-on-glass resonator; start-up transient response; transient equivalent circuit analysis; Analytical models; Electrodes; Equivalent circuits; Gain; Integrated circuit modeling; Oscillators; Transducers; comb transducer; electrical equivalent circuit; reonator; self-induced oscillation analysis; transient analysis;
Conference_Titel :
Nano/Micro Engineered and Molecular Systems (NEMS), 2011 IEEE International Conference on
Conference_Location :
Kaohsiung
Print_ISBN :
978-1-61284-775-7
DOI :
10.1109/NEMS.2011.6017582
