设计了一种基于频谱分区的高精度光纤光栅波长解调系统。在传统的法布里-珀罗滤波器法中加入法布里-珀罗标准具动态校准滤波器的波长读取值,很好地消除了由滤波器调谐的温度漂移和蠕动引起的测量误差;同时利用标准具及放大自发辐射(ASE)光源特性进行频谱分区解调,大大降低了滤波器调谐时非线性的影响,使得解调系统具有很高的解调精度和很好的稳定性。实验结果表明,系统的稳定性为0.97 pm,分辨率达到了0.33 pm,温度解调线性度为0.9999。 A high-precision fiber grating wavelength demodulation system based on spectral partitioning is designed. The addition of the Fabry-Perot etalon to the wavelength-readout of the dynamic calibration filter in the traditional Fabry-Perot filter method eliminates well the measurement errors caused by temperature drift and peristalsis tuned by the filter At the same time, the use of etalons and amplification of spontaneous emission (ASE) light source spectral characteristics of spectral Division demodulation, greatly reducing the filter nonlinear tuning, making the demodulation system with high demodulation accuracy and good stability. The experimental results show that the stability of the system is 0.97 pm, the resolution is up to 0.33 pm, and the linearity of temperature demodulation is 0.9999.