Title :
High-Frequency AlN-on-Silicon Resonant Square Gyroscopes
Author :
Tabrizian, Roozbeh ; Hodjat-Shamami, Mojtaba ; Ayazi, Farrokh
Author_Institution :
Sch. of Electr. & Comput. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
This letter reports, for the first time, on a high-frequency resonant square micro-gyroscope using piezoelectric transduction. Degenerate pairs of orthogonal flexural resonance modes are used to provide energy exchange paths for the Coriolis-based resonant gyroscope in response to z-axis rotation. Aluminum nitride thin films have been used to provide highly efficient electromechanical transduction for drive and sense modes without requiring any dc polarization voltage for operation. A proof-of-concept design consisting of a 300 μm× 300 μm square gyro shows linear rate sensitivity of 20.38 μV/°/s when operating in its first flexural mode at ~ 11 MHz.
Keywords :
aluminium compounds; dielectric polarisation; gyroscopes; micromechanical resonators; piezoelectric transducers; semiconductor thin films; Coriolis-based resonant gyroscope; aluminum nitride thin films; dc polarization voltage; drive modes; electromechanical transduction; energy exchange paths; flexural mode; high-frequency resonant square microgyroscope; linear rate sensitivity; orthogonal flexural resonance modes; piezoelectric transduction; proof-of-concept design; resonant square gyroscopes; sense modes; z-axis rotation; Acoustics; Electrodes; Gyroscopes; Resonant frequency; Sensitivity; Sensors; Silicon; Resonant gyroscopes; high frequency gyroscope; square gyroscope; square resonator;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2013.2273031
