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Effects of both the drive- and sense-mode circuit phase delay on MEMS gyroscope performance and real-time suppression of the residual fluctuation phase error

Haibin Wu, Xudong Zheng, Xuetong Wang, Yaojie Shen, Zhonghe Jin, Zhipeng Ma

2021Journal of Micromechanics and Microengineering18 citationsDOI

Abstract

Abstract This work analyses circuit phase delay for carrier-modulation MEMS capacitive gyroscopes. The temperature-dependent circuit phase delay is a major source of gyroscope output drift, which deteriorates the gyroscope bias instability (BI) and angle random walk (ARW). Effects of both drive-mode and sense-mode circuit phase delay on gyroscope performance when using different signal extraction architectures are analyzed in detail. The online suppression method which combines the so-called modified double sideband (MDSB) extraction architecture in the gyroscope drive mode and closed-loop force-rebalance loop in the sense mode can eliminate the impact of residual fluctuation error of circuit phase delay in real time. When drive-mode circuit phase delay equivalently varies from −20° to 20°, using MDSB decreases the fluctuation of the open-loop zero-rate output (ZRO) by 70% compared to using double sideband (DSB) and by 99.7% with respect to using single sideband (SSB). Meanwhile, improvement for the closed-loop ZRO using MDSB is 92.48% and 94% compared to cases using DSB and SSB, respectively. Furthermore, when the equivalent circuit phase delay of the sense-mode alters from −20° to 20°, ZRO variation for the gyroscope with force rebalanced sense loop and quadrature stiffness nulling loop decreases by 80% in contrast to the case with open loop, which demonstrates the effectiveness of online suppression for circuit phase delay of both the drive-mode and sense-mode. Using the online suppression method, the gyroscope has achieved a BI of 0.16° h −1 and ARW of 0.011° (√h) −1 . Furthermore, using the MDSB in the drive mode obtains the best stability compared to using the DSB and SSB as the temperature changes.

Topics & Concepts

GyroscopeControl theory (sociology)SidebandSense (electronics)Vibrating structure gyroscopeDelay-locked loopPhase (matter)Rate integrating gyroscopeElectronic engineeringPhysicsEngineeringPhase-locked loopComputer scienceElectrical engineeringRadio frequencyQuantum mechanicsControl (management)Artificial intelligenceAdvanced MEMS and NEMS TechnologiesAcoustic Wave Resonator TechnologiesMechanical and Optical Resonators