基于双光纤光栅的超磁致伸缩磁场传感器

Mingfan Li, Jinfang Zhou, Z. Xiang, Fuzai Lv
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引用次数: 19

摘要

介绍了一种基于双光纤光栅的超磁致伸缩磁场传感器。传感器头部由两个具有相同布拉格反射波长的光纤光栅组成,两个光纤光栅连接在Terfenol-D巨磁致伸缩棒上,其中一个光栅固定在两端,另一个光栅可自由伸缩。当超磁致伸缩棒根据外加磁场的作用变长时,只有固定光栅受到相应的拉伸,布拉格波长向更大的值移动,而对另一个光栅没有施加应变,导致双光栅反射光谱出现两个反射率峰。在光谱分析仪的帮助下,可以很容易地测量出与外加磁场有关的两个光栅的布拉格波长之差。温度补偿部分是由双光纤布拉格光栅结构的使用。给出了实验结果,并讨论了传感器设计的测量范围、线性度和灵敏度等特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Giant magnetostrictive magnetic fields sensor based on dual fiber Bragg gratings
A giant magnetostrictive magnetic fields sensor based on dual fiber Bragg gratings is demonstrated. The sensor head consists of two fiber Bragg gratings of identical Bragg reflection wavelengths bonded on one giant magnetostrictive rod of Terfenol-D with one grating fixed on both ends and the other grating extensible freely. As the giant magnetostrictive rod lengthens according to an external magnetic field, only the fixed grating is stretched accordingly and the Bragg wavelength shifted to a larger value, while no strain is imposed on the other grating, which resulting in two reflectivity peaks in the dual gratings' reflected spectra. With the help of an optical spectrum analyzer, the difference between the Bragg wavelengths of the two gratings which relates to the applied external magnetic filed is readily measured. Temperature compensation is accommodated partly by the use of the dual fiber Bragg gratings configuration. Experimental results are presented and the properties such as measuring range, linearity, and sensitivity of the sensor design are discussed.
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