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Ph.D. Dissertation Defense - Mojtaba Hodjat-Shamami

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TitleThin-film AlN-on-Silicon Resonant Gyroscopes: Design, Fabrication, and Eigenmode Operation

Committee:

Dr. Farrokh Ayazi, ECE, Chair , Advisor

Dr. Oliver Brand, ECE

Dr. Levent Degertekin, ECE

Dr. Peter Hesketh, ME

Dr. David Myers, BME

Abstract: Resonant MEMS gyroscopes have been rapidly adopted in various consumer, industrial, and automotive applications thanks to the significant improvements in their performance over the past decade. The current efforts in enhancing the performance of high-precision resonant gyroscopes are mainly focused on two seemingly contradictory metrics, larger bandwidth and lower noise level, to push the technology towards navigation applications. The key enabling factor for the realization of low-noise high-bandwidth resonant gyroscopes is the utilization of a strong electromechanical transducer at high frequencies. Thin-film piezoelectric-on-silicon technology provides a very efficient transduction mechanism suitable for implementation of bulk-mode resonant gyroscopes without the need for submicron capacitive gaps or large DC polarization voltages. More importantly, in-air operation of piezoelectric devices at moderate Q values allows for the implementation of mode-matched gyroscopes with a resonant bandwidth exceeding a few hundred hertz. This work presents the design, fabrication, characterization, and method of mode matching of piezoelectric-on-silicon resonant gyroscopes. The degenerate in-plane flexural vibration mode shapes of the resonating structure are demonstrated to have a strong gyroscopic coupling as well as a large piezoelectric transduction coefficient. Eigenmode operation of resonant gyroscopes is introduced as the modal alignment technique for the piezoelectric devices independently of the transduction mechanism. Controlled displacement feedback is also employed as the frequency matching technique to accomplish complete mode matching of the piezoelectric gyroscopes.

Status

  • Workflow Status:Published
  • Created By:Daniela Staiculescu
  • Created:11/19/2020
  • Modified By:Daniela Staiculescu
  • Modified:11/19/2020

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