Simulation of stress effects on mode-matched MEMS gyroscope bias and scale factor

2014 IEEE/ION Position, Location and Navigation Symposium - PLANS 2014 Pub Date : 2014-05-05 DOI:10.1109/PLANS.2014.6851352
E. Tatar, T. Mukherjee, G. Fedder
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引用次数: 17

Abstract

This paper presents a system level MEMS gyroscope simulation technique analyzing the effect of stress on MEMS gyroscope zero rate output (ZRO) and scale factor (SF). A circuit simulation environment that includes the parameterized behavioral models of the MEMS devices is used for predicting the stress effects on gyroscope output. The simulations show that typical packaging stress values (2MPa) create on the order of °/hr bias shifts that can limit the gyroscope performance. Drive comb gap mismatches as a result of different stator and rotor displacements due to stress are responsible for the ZRO, and they create a Coriolis in-phase force that cannot be distinguished from the rotational rate signal.
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应力对模式匹配MEMS陀螺仪偏置和标度因子影响的仿真
本文提出了一种系统级MEMS陀螺仪仿真技术,分析了应力对MEMS陀螺仪零率输出(ZRO)和标度因子(SF)的影响。利用包含MEMS器件参数化行为模型的电路仿真环境来预测应力对陀螺仪输出的影响。仿真结果表明,典型的封装应力值(2MPa)会产生°/hr量级的偏置偏移,从而限制陀螺仪的性能。由于应力引起的不同定子和转子位移导致的驱动梳状间隙不匹配导致了ZRO,并且它们产生了无法与转速信号区分的科里奥利同相力。
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2014 IEEE/ION Position, Location and Navigation Symposium - PLANS 2014
2014 IEEE/ION Position, Location and Navigation Symposium - PLANS 2014
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