Impact of gyroscope operation above the critical bifurcation threshold on scale factor and bias instability
Micro Electro Mechanical Systems(2014)
Abstract
This paper investigates the impact of operating a vibratory rate gyro (VRG) at large oscillation amplitude where the VRG's driven axis behaves like a nonlinear oscillator, described by the Duffing equation. Although open-loop resonators operating above a critical amplitude exhibit catastrophic jump instabilities, we demonstrate that through closed-loop operation, the drive axis can be stably operated at an amplitude above this threshold without impacting drive-axis stability or bias instability, resulting in decreased Angle Random Walk (ARW).
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Key words
bifurcation,closed loop systems,gyroscopes,micromechanical resonators,open loop systems,oscillators,duffing equation,angle random walk,bias instability,catastrophic jump instabilities,closed-loop operation,critical bifurcation threshold,drive axis,gyroscope operation,large oscillation amplitude,nonlinear oscillator,open-loop resonators,vibratory rate gyro
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