基于光谱法的法珀压力传感器腔长解调方法研究
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TN25

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国家自然科学基金(51475384、31671002)项目资助


Study on cavity length demodulation of Fabry-Perot pressure sensor based on spectral method
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    摘要:

    针对白光干涉复合式光纤法珀压力传感器反射光谱复杂,其准确解调易受光源光谱不稳定与电路噪声等因素影响的问题,通过理论分析,确认了反射光谱包络信号来源于传感器对压力敏感的空气腔,其频率上的周期直接正比于腔长,提取了复合式光纤法珀压力传感器反射光谱的包络信号,通过正弦频率估计的方法,优化四参数正弦拟合为三参数正弦拟合,降低正弦拟合的计算量,并准确寻找包络信号两个峰的峰值位置,通过腔长与信号周期的关系可最终得到准确的腔长值。对该解调算法进行了详细地理论分析与数值仿真,通过实验验证了光谱法中峰值检测方法对复合式光纤法珀压力传感器80 μm空气腔静态腔长的精确解调,相对误差为0.13%。

    Abstract:

    For white light interference method of composite fiber pearl pressure sensor spectral reflectance is complex, its accurate demodulation are susceptible to light source spectrum is unstable and the influence of factors such as noise problem, by theoretical analysis, confirmed the reflection spectral envelope signal from the sensor is sensitive to pressure air chamber, the frequency of cycle is directly proportional to the cavity length,the extraction method of compound fiber pearl pressure sensor reflective spectrum envelope signal, using three parameters of sine fitting method to find the peak position of the adjacent two peak, at the same time, optimization of sinusoidal frequency estimation method reduce the computational burden of the three parameters of sine fitting, through the relationship between the cavity length and signal cycle can eventually get the exact cavity length value.In this paper, a detailed theoretical analysis and numerical simulation of the demodulation algorithm is carried out, and the experiment verifies that the peak value detection method in the spectral method can accurately demodulate the static cavity length of the 80 millimeter-air cavity with a relative error of 0.13% for the composite optical fiber fabry-perot pressure sensor.

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唐瑛,王伟,张天阳.基于光谱法的法珀压力传感器腔长解调方法研究[J].电子测量技术,2019,42(3):1-6

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  • 在线发布日期: 2021-07-20
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