马赫-曾德尔调制器任意偏置点稳定控制技术

发布时间：2018-03-11 01:39

本文选题：光学器件　切入点：马赫-曾德尔调制器　出处：《光子学报》2017年10期 　论文类型：期刊论文

【摘要】：为实现马赫-曾德尔调制器(MZM)任意偏置工作点的稳定控制,提出了一种基于平均光功率斜率值和余切值的复合控制算法,实现了利用FPGA技术的工作点稳定控制.首先分析了MZM偏置点稳定控制的必要性,然后研究了控制算法的理论基础,并在Matlab平台上进行了数学仿真验证,最后搭建了MZM偏置工作点稳定控制系统.当激光器的输出光功率为5dBm,MZM半波电压为4.2V,插入损耗3dB,输入脉冲为方波信号,1Gbps和1Mbps通信速率下,1小时内MZM输出光信号的平均功率波动小于±5%.实验结果表明,该方案实现了MZM任意偏置工作点的稳定控制,有效的提高了MZM在光通信中的可靠性.
[Abstract]:In order to realize the stable control of MZM's arbitrary bias operating point, a compound control algorithm based on the average optical power slope and the cotangent value is proposed. The working point stability control using FPGA technology is realized. Firstly, the necessity of MZM bias point stability control is analyzed, then the theoretical basis of the control algorithm is studied, and the mathematical simulation is carried out on the Matlab platform. Finally, the MZM bias operating point stability control system is built. When the output optical power of the laser is 4.2V, the half-wave voltage of MZM is 4.2 V, the insertion loss is 3 dB, and the input pulse is the square wave signal (1Gbps) and the 1Mbps communication rate (1Mbps), the output optical signal of MZM is flat within 1 hour. The average power fluctuation is less than 卤5. The experimental results show that, This scheme realizes the stability control of MZM arbitrary bias operating point, and effectively improves the reliability of MZM in optical communication.
【作者单位】：长春理工大学电子信息工程学院;光电测控与光信息传输技术教育部重点实验室;
【基金】：国家自然科学基金(No.60977052) 国家高技术研究发展计划(No.2011AA7117046)资助~~
【分类号】：TN761

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