A Lateral-Axis Micromachined Tuning Fork Gyroscope With Torsional Z-Sensing And Electrostatic Force-Balanced Driving

Z. Y. Guo, Z. C. Yang,Q. C. Zhao, L. T. Lin, H. T. Ding,X. S. Liu,J. Cui,H. Xie,G. Z. Yan

JOURNAL OF MICROMECHANICS AND MICROENGINEERING(2010)

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摘要
A single-crystal silicon-based lateral-axis tuning-fork gyroscope (TFG) with electrostatic force-balanced (EFB) driving and torsional z-sensing is presented. The EFB comb drive used in this TFG can efficiently suppress the mechanical coupling in a simple manner. The TFG structure is also optimized to further reduce the coupling. Moreover, the Coriolis acceleration-induced out-of-plane rotation of the sensing mode is detected by using bending springs and differential comb fingers. This z-sensing design has relatively high Q, so this gyroscope can work at atmospheric pressure. This TFG design has been fabricated and tested. Measured in air, the device demonstrates a sensitivity of 2.9 mV/degrees/s, a full range of 800 degrees s(-1) with a 0.9% nonlinearity and the noise floor of 0.035 degrees/s/Hz(1/2). This TFG design also has very low coupling, where the measured drive-to-sense coupling and sense-to-drive coupling are -45 dB and -51 dB, respectively.
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