摘要
为解决相位生成载波-反正切解调算法(PGC-Atan)的非线性失真问题,搭建了基于改进型PGC-Atan算法的非本征型法珀传感器(EFPI)解调系统。首先,理论分析了载波相位调制深度(C)偏离最优值、伴生调幅、载波相位延迟等非线性因素对经典PGC-Atan算法中参与反正切运算的正弦与余弦两路信号的影响。然后,针对外调制或伴生调幅较小的情况,提出了一种基于系数补偿的改进型PGC-Atan算法(PGC-CC-Atan)。该算法通过构造与C值和载波相位延迟有关的系数,消除反正切运算中的非线性参数。针对内调制情况,提出了一种基于椭圆拟合的改进型PGC-Atan算法(PGCEF-Atan)。该算法通过基于分块矩阵的最小二乘法拟合椭圆并提取3个椭圆参数,进而将受非线性因素影响的正弦与余弦两路信号校正为正交信号。最后,通过仿真验证了改进型算法的正确性,并采用高调制特性的垂直腔面发射激光器(VCSEL)和常规腔长的EFPI等搭建PGC解调系统,对比经典PGC-Atan算法与两种改进型算法的解调性能,证实了改进型算法非线性失真抑制的有效性。实验结果表明:一定C值范围内,两种改进型算法可在非线性因素影响下有效解调。PGC-EF-Atan算法相较于PGC-CC-Atan算法,解调信纳比提升了11.602 dB,总谐波失真降低了10.951%。两种改进型算法中,PGC-EF-Atan算法对非线性失真的抑制效果更好,且解调线性度良好,准确度高。
To address the issue of non-linear distortion in the Phase Generated Carrier-Antitangent demodulation(PGC-Atan)algorithm,we have developed an extrinsic Fabry-Perot Interferometer(EFPI)sensor demodulation system based on an improved PGC-Atan algorithm.The theoretical analysis focuses on the affect of nonlinear factors on sine and cosine signals used in arctangent operation of the PGC-Atan algorithm.Such factors include deviations from optimal values of the phase modulation depth(C),companion amplitude modulation,and carrier phase delay.As a solution,we propose an improved PGC-Atan algorithm based on a correction coefficient(PGC-CC-Atan)suitable for external modulation or the case of low companion amp-litude modulation scenarios.The PGC-CC-Atan algorithm generates a coefficient relating to C and carrier phase delay while excluding nonlinear parameters in the arctangent operation.Furthermore,an improved PGC-Atan algorithm that utilizes an elliptic fitting algorithm(PGC-EF-Atan)is proposed for internal modu-lation.The ellipse fitting technique is employed to fit the eclipse using the least squares method based on a matrix block decomposition.The pair of signals that are influenced by nonlinear factors are corrected and transformed into orthogonal signals utilizing three parameters of the ellipse.Finally,the correctness of the two improved algorithms is verified through simulations and experiments.The PGC demodulation system comprises a high dv/di VCSEL laser and a conventional cavity length F-P sensor.By comparing the demodu-lation performance of the PGC-Atan algorithm with that of the two improved algorithms,their effectiveness in suppressing nonlinear distortion is verified.Experimental results indicate that the two improved al-gorithms exhibit effective demodulation in the presence of nonlinear factors within a specific range of C val-ues.The signal-to-noise and distortion ratio(SINAD)of demodulation result obtained from PGC-EF-Atan al-gorithm surpasses that of the PGC-CC-Atan algorithm by 11.602 dB,while the Tota
作者
周朕蕊
张国强
邱宗甲
郭少朋
李群
邵剑
吴鹏
陆云才
ZHOU Zhen-rui;ZHANG Guo-qiang;QIU Zong-jia;GUO Shao-peng;LI Qun;SHAO Jian;WU Peng;LU Yun-cai(Institute of Electrical Engineering,Chinese Academic of Sciences,Beijing 100190,China;University of Chinese Academic of Sciences,Beijing 100049,China;Electric Power Research Institute of State Grid Jiangsu Electric Power Co Ltd,Nanjing 211102,China)
出处
《中国光学(中英文)》
EI
CAS
CSCD
北大核心
2024年第2期312-323,共12页
Chinese Optics
基金
国家重点研发计划(No.2022YFF0708400)。
关键词
相位生成载波解调
非线性失真
椭圆拟合
光纤法珀传感器
phase generated carrier demodulation
nonlinear distortion
elliptic fitting
fiber optic fabry-perot sensor
