Motion nonlinearity of gimbaled MEMS micromirror in omnidirectional scanning

Katsuya Suzuki, Takashi Sasaki, Kazuhiro Hane
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Abstract

The motion nonlinearity of gimbaled micromirror is studied using the motion equations for the application to omnidirectional scanning of light detection and ranging. The numerical calculations show that the nonlinearity by the motion interaction between mirror and gimbals is dependent intricately on the moments of inertia along respective axes as well as angular velocities and damping factors. The nonlinear terms of the equations increase with the increase of the difference of the moments of inertia along the two orthogonal axes of mirror. The motion nonlinearity relatively decreases with the increase of the dumping coefficient. A gimbaled micromirror with the electrostatic comb actuators was fabricated from a silicon-on-insulator wafer and the motion was observed around the resonant frequency of 5.3 kHz. The expected circular trajectory was deformed to be elliptical. The trajectory was stable but occasionally became uncontrollable by the voltage and the frequency of the actuators. The minimization of the motion nonlinearity is discussed from the viewpoints of inertia and damping.

Abstract Image

全向扫描中万向节 MEMS 微镜的运动非线性
利用运动方程研究了万向微镜的运动非线性,并将其应用于光探测和测距的全向扫描。数值计算表明,镜子和万向节之间的运动相互作用所产生的非线性与沿各自轴线的惯性矩、角速度和阻尼系数密切相关。方程中的非线性项随着沿反射镜两个正交轴的惯性矩之差的增加而增加。运动非线性随着倾卸系数的增加而相对减小。利用静电梳状致动器在硅-绝缘体晶片上制作了万向微镜,并观察到其在 5.3 kHz 共振频率附近的运动。预期的圆形轨迹变形为椭圆形。轨迹是稳定的,但偶尔会变得不受致动器电压和频率的控制。从惯性和阻尼的角度讨论了运动非线性最小化的问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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