光纤位移传感器磁路建模与优化

O. G. Babaev, S. A. Matyunin
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摘要

本文研究了基于磁光法拉第效应的非接触式光纤位移传感器的优化设计,该传感器可用于监测控制火灾和爆炸危险物质流动的板阀状态。传感器的设计优化可以在其基础上显著改善测量系统的计量特性。然而,这种传感器的设计优化问题尚未在科学文献中得到考虑。本文介绍了阀位传感器的设计,讨论了传感器设计要素的优化方法,并给出了优化问题的求解结果。通过对磁场集中器的优化设计,可以使传感器元件的光通量提高34.4%,而优化磁光元件(MOE)的安装位置(距离光辐射插入光纤16 ~ 19 mm)可以使光通量提高7倍以上。通过优化FOSF与安装在阀板上的活动磁芯之间的间隙,可以根据FOSF变换函数的允许变化(FOSF输出信号对阀板位置的依赖)确定活动磁芯的最佳位置区域。
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Modeling and Optimization of Magnetic Circuits of a Fiber-Optic Displacement Sensor
The paper is devoted to design optimization of contactless fiber-optic displacement sensors based on the magneto-optical Faraday effect that can be used to monitor the status of plate valves controlling flows of fire and explosion hazardous substances. Design optimization of sensors allows significant improvement of metrological characteristics of measuring systems on their basis. However, issues of design optimization of such sensors have not yet been considered in scientific literature. The paper deals with the design of the valve position sensor, discusses methods of optimizing the sensor design elements and presents the results of solving optimization problems. It is established that design optimization of a magnetic field concentrator makes it possible to increase the optical flux of the sensor element by 34.4%, whereas optimizing the place of installation of a magneto-optical element (MOE) (16 … 19 mm from the point of inserting optical radiation into optical fiber) allows more than a 7-fold increase of the optical flux. Optimization of the gap between the FOSF and the movable magnetic core mounted on the valve plate allows determining the zone of optimal location of the movable magnetic core on the basis of the permissible change in the FOSF transformation function (the dependence of the FOSF output signal on the position of the valve plate).
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