Fiber Bragg Grating Temperature Sensor by the Wavelength Tuning Using the Temperature Dependence of VCSEL

IF 0.1 Q4 OPTICS Korean Journal of Optics and Photonics Pub Date : 2018-01-01 DOI:10.3807/KJOP.2018.29.6.241

Chung Lee, Sung-Moon Kim

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Abstract

In this paper, a low-cost optical temperature sensor is implemented, using a fiber Bragg grating (FBG) as the temperature probe and a low-cost VCSEL with temperature-dependent output wavelength as the light source. To analyze the wavelength of the reflected light from the FBG, an interrogation was applied using a method of referring to the internal temperature according to the output wavelength of the VCSEL. When the temperature of the VCSEL was adjusted from 14 to 52.2°C, the output wavelength varied from 1519.90 to 1524.25 nm. The degree of wavelength tuning according to temperature was 0.114 nm/°C. The variable wavelength repeatability error according to temperature was ±0.003 nm, and the temperature measurement error was ±0.18°C. As a result of measuring the temperatures from 22.3 to 194.2°C, the value of the internal temperature change of the light source according to the applied temperature ΔΤ was 0.146°C/ ΔΤ , the change in reflected wavelength of the temperature probe according to applied temperature ΔΤ was measured at 16.64 pm/°C. and the temperature measurement error of the sensor was ±1°C.

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利用VCSEL的温度依赖性波长调谐的光纤光栅温度传感器

本文采用光纤布拉格光栅(FBG)作为温度探头，采用具有温度相关输出波长的低成本VCSEL作为光源，实现了一种低成本的光学温度传感器。为了分析光纤光栅的反射光波长，采用了根据VCSEL的输出波长参考内部温度的方法。当VCSEL的温度从14℃调节到52.2℃时，输出波长在1519.90 ~ 1524.25 nm之间变化。波长随温度的调谐度为0.114 nm/°C。随温度变化的波长重复性误差为±0.003 nm，测温误差为±0.18℃。测量温度范围为22.3 ~ 194.2℃，测得光源内部温度随施加温度ΔΤ的变化值为0.146℃/ΔΤ，测得温度探头反射波长随施加温度ΔΤ的变化值为16.64 pm/℃。传感器测温误差为±1℃。

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Korean Journal of Optics and Photonics OPTICS-

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