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双质量振动式硅微陀螺理论和实验模态分析 被引量:6

Theory and experimental modal analysis of dual-mass vibrating silicon micro-gyroscope
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摘要 考虑硅微陀螺的设计和结构优化,研究了陀螺固有频率及模态对其性能的影响。针对本课题组研制的双质量振动式硅微陀螺,利用能量法建立了固有频率的理论公式,对硅微陀螺的低阶模态进行了理论分析,并利用有限元仿真和实验对理论分析结果进行了验证。结果显示:理论分析结果与仿真结果的最大误差为8.6%,与实验结果的最大误差为10.6%。利用Allan方差分析法对陀螺进行了静态性能实验,结果显示其角度随机游走为0.0578(°)/hr12,零偏不稳定性为0.459(°)/hr。与传统的单纯依靠有限元仿真的模态定阶相比,本文建立的理论模型可以省略繁琐的结构参数调整过程,更高效地完成陀螺模态定阶,而且可用于陀螺的结构优化过程。 For designing silicon micro-gyroscopes and optimizing their structures,the effects of intrinsic frequency and modal of a silicon micro-gyroscope on its performance were researched.On the basis of energy theorem,a theoretical formula of the intrinsic frequency was established,and the lowest frequency mode of the dual-mass vibrating silicon micro-gyroscope was analyzed.Then the analytical results were validated by the Finite Element Method(FEM)simulation and the experiment.Analysis results show that the largest analytical errors with respect to simulation and experiment are 8.6%and10.6%,respectively.Moreover,the Allan Variance analysis was used to conduct a static performance experiment,and the results demonstrate that the Angle Random Walk(ARW)is 0.057 8(°)/hr12 and the measured bias instability is 0.459(°)/hr.As compared with the traditional modal ordering method depending on the FEM,the proposed theoretical model avoids complex structure parameter adjustment processing,complements modal ordering of the silicon micro-gyroscope and can be used in the structure optimization of the silicon micro-gyroscope.
作者 姜劭栋 苏岩 施芹 裘安萍
机构地区 南京理工大学机械工程学院
出处 《光学精密工程》 EI CAS CSCD 北大核心 2015年第2期467-476,共10页 Optics and Precision Engineering
基金 国家863高技术研究发展计划资助项目(No.2011AA040402) 武器装备预研基金资助项目(No.9140A09011011BQ02) 江苏省科研创新计划资助项目(No.CXZZ13-0197)
关键词 双质量振动式硅微陀螺 固有频率 能量法 模态 dual-mass vibrating silicon micro-gyroscope dynamic eigen frequency energy theorem modal
分类号 V666.123 [航空宇航科学技术]
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参考文献14

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二级参考文献26

  • 1李建利,房建成,盛蔚,董海峰.双质量块调谐输出式硅MEMS陀螺仪的理论计算及仿真[J].光学精密工程,2008,16(3):484-491. 被引量:12
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  • 3车录锋,卢云,徐志农.铰链式高冲击微加速度传感器封装的有限元模拟[J].光学精密工程,2007,15(2):199-205. 被引量:13
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光学精密工程
2015年 第2期

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