Title :
Symmetric gyroscope frequency separation by geometry and roughness
Author_Institution :
Draper Lab., Cambridge, MA, USA
Abstract :
Approximate closed-form solutions are developed for estimating the frequency separation caused by thickness, density, or radius azimuth variations in ring or hemispherical gyroscopes. For the nth flexural mode, frequency separation is caused by the 2n harmonic of density or thickness variation. These relations are combined with stochastic models to determine approximate closed-form solutions relating surface roughness to frequency separation. For 1-mm radius, 10-μm thick ring or sphere, with 0.5-μm 0-peak thickness variations that are 100-μm wide, the frequency separation is 0.05%.
Keywords :
approximation theory; frequency estimation; frequency measurement; geometry; gyroscopes; sensors; surface roughness; 2n harmonic of density; approximate closed-form solution; flexural mode; geometry; hemispherical gyroscope; radius azimuth variation; ring gyroscope; size 0.5 mum; size 1 mm; size 10 mum; size 100 mum; stochastic model; surface roughness; symmetric gyroscope frequency separation estimation; Azimuth; Closed-form solutions; Equations; Finite element analysis; Force; Harmonic analysis; Resonant frequency;
Conference_Titel :
Inertial Sensors and Systems (ISISS), 2014 International Symposium on
Conference_Location :
Laguna Beach, CA
DOI :
10.1109/ISISS.2014.6782502
