Realization and characterization of fiber optic reflective sensor

Scientific Conference on Optical and Electronic Sensors Pub Date : 2016-11-10 DOI:10.1117/12.2245766

B. Guzowski, M. Łakomski, B. Słapek

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Abstract

In almost all of non-invasive techniques, fiber optic sensors may be the most promising ones because of their inherent advantages such as very small size and hard environment tolerance. Proximity sensors based on optical fiber are highly required especially in the impact area of electromagnetic fields. In this paper three different types of fiber optic reflective sensors are presented. In all three types of the sensor four multimode optical fibers (MMF) illuminate the movable surface. The difference is in the number of collecting the reflected light MMF. In the first one, 12 MMF collect the light, in the second one 20 MMF, while in the third one the number of MMF collecting reflected light is 32. Moreover, all three types of fiber optic reflective sensors were realized in two configurations. In the first one, the cleaved MMF were used to collect reflected light, while in the second configuration – the ball-lensed optical fibers were chosen. In this paper an analysis of each type of realized sensor is presented. In the last part of this paper the obtained results and the detailed discussion are given.

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光纤反射传感器的实现与特性研究

在几乎所有的非侵入性技术中，光纤传感器由于其体积小、耐恶劣环境等固有的优点，可能是最有前途的一种。特别是在电磁场影响区域，对光纤接近传感器的需求越来越大。本文介绍了三种不同类型的光纤反射传感器。在所有三种类型的传感器中，四根多模光纤(MMF)照亮可移动表面。不同之处在于收集反射光MMF的数量。第一个收集光的MMF为12个，第二个收集光的MMF为20个，第三个收集反射光的MMF为32个。此外，这三种类型的光纤反射传感器都实现了两种配置。在第一种结构中，使用切割的MMF来收集反射光，而在第二种结构中-选择球透镜光纤。本文对各种已实现的传感器进行了分析。在本文的最后一部分给出了所得结果和详细的讨论。

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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Scientific Conference on Optical and Electronic Sensors

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