@article{SisLab2576,
          volume = {33},
          number = {3},
           title = {Design and Simulation of Micromachined Gyroscope based on Finite Element Method},
          author = {Van Thang Nguyen and Duc Tan Tran and Duc Trinh Chu},
            year = {2017},
         journal = {VNU Journal of Science: Mathematics - Physics},
             url = {https://eprints.uet.vnu.edu.vn/eprints/id/eprint/2576/},
        abstract = {This paper presents a design, simulation and analysis of a vibratory micromachining gyroscope. The gyroscope structure is based on the driving and sensing proof-mass configuration. The gyroscope dimensions are 1644 {\^A}?m wide, 1754 {\^A}?m long, 30{\^A}?m thickness. The suspended spring consists of two silicon cantilevers of driving-mode and sensing-mode stiffness are 400 N/m and 165 N/m, respectively. Mass of driving proof-mass (including of 0.9408{\~A}?10E-11 kg sensing proof-mass) is 0.5452{\~A}?10E-7 kg. The simulated resonance frequency is 13324 Hz. The output signals are calculated based on the simulated vibration results. The structure is investigated with several input angular signals. The sensitivity of proposed structure is 100 mV/rad/s when {\"I}? changes from 0 to 1.6 rad/s.}
}