Title :
New designs of micromachined vibrating rate gyroscopes with decoupled oscillation modes
Author :
Geiger, W. ; Folkmer, B. ; Sobe, U. ; Sandmaier, H. ; Lang, W.
Author_Institution :
HSG-IMIT, Villingen-Schwenningen, Germany
Abstract :
This paper reports on new vibrating comb-drive rate gyroscope designs featuring decoupling of the actuation and the detection mode. Analytical calculations as well as FEM and system simulations are carried and the main drawbacks of these sensors are investigated which are especially the frequency mismatch of the two oscillation modes, the insufficient bandwidth and the effects of levitation. Concepts and simulations of electrostatically controlling both the resonance frequency and the bandwidth are presented. Within these concepts no mechanical balancing of the devices is required and thus calibration costs are reduced. Simulations of a new quasi-rotating rate gyroscope show, that a resolution of 0.1°/s is possible at a bandwidth of 50 Hz with 6 mm3 sensor area only and that the effects of levitation are actually compensated
Keywords :
electrostatic devices; finite element analysis; gyroscopes; micromechanical resonators; microsensors; oscillations; voltage control; 50 Hz; FEM simulation; actuation mode; analytical calculations; bandwidth control; calibration cost reduction; decoupled oscillation modes; detection mode; electrostatic control; electrostatic frequency balancing; frequency mismatch; levitation effects; micromachined vibrating rate gyroscopes; quasi-rotating rate gyroscope; resonance frequency; system simulation; vibrating comb-drive rate gyroscope design; Analytical models; Bandwidth; Calibration; Costs; Electrostatic levitation; Gyroscopes; Mechanical sensors; Resonance; Resonant frequency; Sensor systems;
Conference_Titel :
Solid State Sensors and Actuators, 1997. TRANSDUCERS '97 Chicago., 1997 International Conference on
Conference_Location :
Chicago, IL
Print_ISBN :
0-7803-3829-4
DOI :
10.1109/SENSOR.1997.635401
