MEMS based oscillator incorporating a displacement sensor

Moore, Steven I.; Moheimani, S.O. Reza

Title: MEMS based oscillator incorporating a displacement sensor
Creator: Moore, Steven I.; Moheimani, S.O. Reza
Relation: 3rd Australian Control Conference (AUCC). Proceedings of the 3rd Australian Control Conference (AUCC) (Perth, W.A. 4-5 November, 2013) p. 147-151
Publisher Link: http://dx.doi.org/10.1109/AUCC.2013.6697263
Publisher: Institute of Electrical and Electronics Engineers (IEEE)
Resource Type: conference paper
Date: 2013
Description: This paper outlines the design and performance of an oscillator that incorporates a new type of MEMS resonator. The MEMS resonator is similar in design to many other electrostatically actuated MEMS resonators in the literature. However, the novel aspect of the resonator is the use of electrothermal displacement sensors to capture its motion. Due to the high resolution of these sensors compared to other sensor technologies used in MEMS, there is the potential for oscillators using this type of resonators to have good phase noise performance. However, due to the low bandwidth of the sensors, only low frequency oscillators can be fabricated with this technology. Despite the differences in dynamics between typical electrostatic or piezoelectric transduced resonators, the oscillator topology using a feedback gain was found to be robust at sustaining oscillations. This was due to the interaction between the dynamics of the capacitive feedthrough and the mechanical system in the device. The frequency of the fabricated oscillator is 8844 Hz.
Subject: gain control; micromechanical devices; resonant frequency; phase noise; resistors; transfer functions
Identifier: http://hdl.handle.net/1959.13/1342112
Identifier: uon:28893
Identifier: ISBN:9781479924974
Language: eng
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