Temperature dependence of optical fiber current sensor with external conversion

IF 0.5 Q4 OPTICS

Photonics Letters of Poland Pub Date : 2023-07-02 DOI:10.4302/plp.v15i2.1222

K. Barczak, J. Juraszek

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引用次数: 0

Abstract

The paper presents the research of a optical fiber current sensor with external conversion (OFCS-EC) as a function of temperature. The sensor was developed in the Department of Optoelectronics. The sensor was tested in the temperature range from 23 °C – 80 °C. For each of the temperatures, the sensitivity was determined on the basis of a sinusoidal waveform. Thus, the linearity of the transfer characteristics was checked. The main purpose of the experiment was to check the limits of sensitivity changes in changing thermal conditions and whether the sensor meets the standards used in the power industry. Full Text: PDF References M.J. Weber, "CRC Handbook of Laser Science and Technology. Supplement 2: Optical Materials", CRC Press, Boca Raton, FL, USA (1995). CrossRef S. Ju, Y. Lee, Y.T. Ryu, S.G. Kang, J. Kim, P.R. Watekar, B.H. Kim, Y. Lee, Y.H. An, C.J. Kim, W.T. Han, "Temperature Dependence of Faraday Rotation of Glass Optical Fibers Doped with Quantum Dots of CdSe and CdMnTe", Phys. Status Solidi A, 216: 1800549 (2019). CrossRef E. Lage, L. Beran, A.U. Quindeau, L. Ohnoutek, M. Kucera, R. Antos, S. R. Sani, G.F. Dionne, M. Veis, C.A. Ross; Temperature-dependent Faraday rotation and magnetization reorientation in cerium-substituted yttrium iron garnet thin films. APL Mater. 5, 036104 (2017). CrossRef S. Ju, J. Kim, K. Linganna, P.R. Watekar, S.G. Kang, B.H. Kim, S. Boo, Y. Lee, Y.H. An, C.J. Kim, et al. "Temperature and Vibration Dependence of the Faraday Effect of Gd2O3 NPs-Doped Alumino-Silicate Glass Optical Fiber". Sensors, 18, 988 (2018). CrossRef A. Jeffrey, D. and R.M. Bunch, "Temperature dependence of the Faraday rotation of Hoya FR-5 glass," Appl. Opt. 23, 633 (1984). CrossRef K. Barczak, J. Juraszek, "Optoelectronic system for detecting short-circuits in low voltage networks", Photon. Lett. Pol, 14, 37 (2022). CrossRef K. Barczak, K. Mazniewski, "Optical fiber current sensor with external conversion for measurements of low AC electric currents", Proc. SPIE, 10455 (2017). CrossRef

查看原文本刊更多论文

外转换光纤电流传感器的温度依赖性

本文介绍了一种随温度变化的外转换光纤电流传感器（OFCS-EC）的研究。该传感器由光电系开发。传感器在23°C–80°C的温度范围内进行了测试。对于每个温度，灵敏度是基于正弦波形来确定的。因此，对传输特性的线性进行了检查。实验的主要目的是检查在不断变化的热条件下灵敏度变化的极限，以及传感器是否符合电力行业使用的标准。全文：PDF参考文献M.J.Weber，“CRC激光科学与技术手册。增补2：光学材料”，CRC出版社，美国佛罗里达州博卡拉顿（1995）。CrossRef S.Ju，Y.Lee，Y.T.Ryu，S.G.Kang，J.Kim，P.R Watekar，B.H.Kim，Y.李，Y.H.安，C.J.Kim，W.T.韩，“掺杂CdSe和CdMnTe量子点的玻璃光纤的法拉第旋转的温度依赖性”，Phys。《固体状态A》，216:1800549（2019）。CrossRef E.Lage、L.Beran、A.U.Quindeau、L.Ohnoutek、M.Kucera、R.Antos、S.R.Sani、G.F.Dionne、M.Veis、C.A.Ross；铈取代钇铁石榴石薄膜中与温度相关的法拉第旋转和磁化重取向。APL材料。5036104（2017）。CrossRef S.Ju，J.Kim，K.Linganna，P.R Watekar，S.G.Kang，B.H.Kim，S.Boo，Y.Lee，Y.H.An，C.J.Kim等，“Gd2O3掺杂硅酸铝玻璃光纤法拉第效应的温度和振动依赖性”。传感器，18988（2018）。CrossRef A.Jeffrey，D.和R.M.Bunch，“Hoya FR-5玻璃法拉第旋转的温度依赖性”，Appl。选择23333（1984）。CrossRef K.Barczak，J.Juraszek，“用于检测低压网络短路的光电子系统”，Photon。Lett。波尔，14，37（2022）。CrossRef K.Barczak，K.Mazniewski，“用于测量低交流电流的带外部转换的光纤电流传感器”，Proc。斯皮，10455（2017）。CrossRef

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来源期刊

Photonics Letters of Poland OPTICS-

CiteScore

1.40

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0.00%

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