2D automatic alignment of optical spatial filtering system by PID control

2022 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC) Pub Date : 2022-11-09 DOI:10.1109/ROPEC55836.2022.10018654

Gregorio Alejandro Oropeza Gómez, J. O. Orozco-López, F. Casillas-Rodriguez, M. Mora-González

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Abstract

In this work, an interface that allows the automation of the alignment process in spatial filter systems is proposed. Optical spatial filtering is a method used in interferometry for the generation of regular laser illumination beams, where a pinhole aperture is focused on a convergence point of a lens. For the experimental setup, an emerging laser beam is focused to a point, where the correct position of the aperture can be found by adjusting the linear displacement with motorized devices. To obtain the position of the pinhole in an (X, Y) plane, a displacement arrangement implemented with micrometric servomotors and a CCD camera; controlled by a PID control algorithm, is used. The automatic adjustment of the position of the resulting beam intensity pattern registered in the camera is carried out by the servo motors until the optimal position coordinates are found. Process control related to positioning and subsequent estimation is executed with Python and synchronized in Lab View.

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基于PID控制的光学空间滤波系统二维自动对准

在这项工作中，提出了一个允许空间滤波系统中对准过程自动化的接口。光学空间滤波是一种在干涉测量中用于产生规则激光照明光束的方法，其中针孔孔径聚焦在透镜的会聚点上。在实验装置中，一个新兴的激光束被聚焦到一个点上，在这个点上，通过电动装置调节线性位移可以找到正确的孔径位置。为了获得针孔在(X, Y)平面上的位置，采用了一种由微伺服电机和CCD相机实现的位移布置;采用PID控制算法控制。伺服电机自动调整在相机中记录的光束强度图的位置，直到找到最佳位置坐标。与定位和后续估计相关的过程控制由Python执行，并在Lab View中同步。

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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2022 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC)

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