Alexandra Efimovskaya scite author profile

We report a new type of MEMS rate integrating gyroscope. The Dual Foucault Pendulum (DFP) gyroscope consists of two dynamically equivalent, mechanically coupled proof masses, oscillating in anti-phase motion, creating a dynamically balanced resonator with x-y symmetry in frequency and damping.Phase synchronization is established by mechanical coupling of the two proof masses, whereas quadrature suppression is achieved by four differential shuttle pairs placed in-between. Dual axis tuning fork behavior provides vibration immunity and anchor loss mitigation, resulting in a Qfactor over 100,000 on both modes at a center frequency of 2.7 kHz. Whole angle mechanization is demonstrated by FPGAbased closed loop control of the gyroscope, showing a scale factor variation of 22 ppm RMS over 2 hours of measurement. We believe Dual Foucault Pendulum is the minimal realization of a dynamically balanced lumped mass whole angle (WA) gyroscope. Keywords-Rate integrating MEMS gyroscope, whole angle mechanization, closed loop control, tuning fork behaviour.I.

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Dual Foucault Pendulum gyroscope

Senkal

Efimovskaya

Shkel

2015

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Compact roll-pitch-yaw gyroscope implemented in wafer-level Epitaxial Silicon Encapsulation process

Efimovskaya

Yang

Ng³

et al. 2017

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Electrostatic compensation of structural imperfections in dynamically amplified dual-mass gyroscope

Efimovskaya

Lin

Wang

et al. 2018

Sensors and Actuators A: Physical

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