Title :
Design and Simulation of Structurally Decoupled 4-DOF MEMS Vibratory Gyroscope
Author :
Jain, Abhishek ; Gopal, Rajeev
Author_Institution :
MEMS & Microsensors Group, CSIR-Central Electron. Eng. Res. Inst. (CEERI), Pilani, India
Abstract :
This paper presents design of a structurally decoupled 4-DOF MEMS vibratory gyroscope with increased robustness and gain. The proposed design utilizes dynamic amplification in 2-DOF drive mode oscillator and 2-DOF sense mode oscillator to achieve large gain. The device performance is verified through system level simulations in CoventorWare® ARCHITECT3D (SABER) platform, considering 10 μm thick nickel as structural layer. A wide operational bandwidth of 704 Hz is achieved. Moreover to verify the device performance under the application of angular velocity, a rate table simulation is carried out which resulted in sense mass displacement of 136.2 nm corresponding to the rotation induced Coriolis force at actuation voltage of 20 Vac and 40 Vdc with angular rotation of 35 rad/s.
Keywords :
Coriolis force; gyroscopes; micromechanical devices; oscillators; 2-DOF drive mode oscillator; 2-DOF sense mode oscillator; 4-DOF MEMS vibratory gyroscope; CoventorWare ARCHITECT3D; SABER platform; angular velocity; bandwidth 704 Hz; degees-of-freedom; dynamic amplification; mass displacement; nickel structural layer; rate table simulation; rotation induced Coriolis force; size 10 mum; structurally decoupled MEMS vibratory gyroscope; system level simulations; Dynamics; Fabrication; Force; Gyroscopes; Oscillators; Resonant frequency; Time frequency analysis; 4-DOF vibratory gyroscope; UV-LIGA; simulation;
Conference_Titel :
VLSI Design and 2013 12th International Conference on Embedded Systems (VLSID), 2013 26th International Conference on
Conference_Location :
Pune
Print_ISBN :
978-1-4673-4639-9
DOI :
10.1109/VLSID.2013.218
