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Rate Integrating Gyroscope Using Independently Controlled CW and CCW Modes on Single Resonator

Takashiro Tsukamoto, Shuji Tanaka

2020Journal of Microelectromechanical Systems35 citationsDOI

Abstract

This paper reports a rate integrating gyroscope (RIG) using independently controlled clockwise (CW) and counter clockwise (CCW) modes on a single MEMS resonator. The rotation angle is read out by the phase difference between these modes. A CW/CCW mode separator was used to independently control these modes superposed on the resonator. The frequency and Q-factor mismatches were compensated by the phases and amplitudes of driving signals. A control system including the mode separator, feedback controllers, signal generators, mismatch compensators were implemented in a field programmable gate array (FPGA). Using the proposed mismatch compensation technique, the equivalent aniso-damping term became 1/100. As a result, the scale factor became constant and the non-linearity became less than 0.2% even when the slow angular rate region around 5°/s. In addition, the temperature coefficient of scale factor as small as -1.84 ± 0.62 ppm/K was achieved without any temperature correction.

Topics & Concepts

ResonatorGyroscopePhysicsCompensation (psychology)AmplitudeScale factor (cosmology)Rotation (mathematics)Control theory (sociology)Vibrating structure gyroscopeSeparator (oil production)LinearityMaterials scienceOpticsAcousticsComputer sciencePsychoanalysisMetric expansion of spaceDark energyControl (management)ThermodynamicsArtificial intelligenceCosmologyPsychologyQuantum mechanicsAdvanced MEMS and NEMS TechnologiesAcoustic Wave Resonator TechnologiesMechanical and Optical Resonators
Rate Integrating Gyroscope Using Independently Controlled CW and CCW Modes on Single Resonator | Litcius