Title :
Interconnected resonant gyros for improved performance
Author :
Fogliatti, David W.
Author_Institution :
SPAWAR Syst. Center, San Diego, CA, USA
Abstract :
A brief review of the operation of vibratory gyroscopes and the status of commercial micromachined gyroscopes is presented in the introduction. Following the introduction, an alternative design approach employing multiple, coupled gyroscopes per angular axis is examined as a method to improve performance and redundancy in angular rate sensors. The results are from simulations and explore the effects of non-identical gyroscopes, variations in the driving frequency, and coupling on synchronization in the array. A novel operating approach is presented that requires the array of gyroscopes to be synchronized in phase and frequency to improve the detection of sense axis displacement and to utilize one amplitude demodulator for the entire array of gyroscopes.
Keywords :
angular velocity measurement; arrays; gyroscopes; microsensors; redundancy; synchronisation; amplitude demodulator; angular rate sensors; capacitive sense axis detection; driving frequency variations; gyroscope array; interconnected resonant gyros; low cost micromachined gyroscopes; micromachined inertial sensors; multiple coupled gyroscopes; nonidentical arrays; redundancy; sense axis displacement detection; surface micromachined gyroscopes; synchronization; vibratory gyroscopes; Capacitance measurement; Displacement measurement; Drives; Electrostatic measurements; Equations; Frequency synchronization; Gyroscopes; Phased arrays; Resonance; Springs;
Conference_Titel :
Circuits and Systems, 2002. ISCAS 2002. IEEE International Symposium on
Print_ISBN :
0-7803-7448-7
DOI :
10.1109/ISCAS.2002.1010447
