基于半波电压自动控制的偏置控制仪实现方法
|
摘要
电光调制器的半波电压易受热积累及外界环境温度等影响发生漂移,进而影响调制信号传输质量。因此,提出通过光分路器进行电光检测的方法对半波电压的漂移进行检测,配合误差分析的方式判断、识别和控制漂移量大小的设计方案,利用模糊PID控制算法实现调制器半波电压高精度自动调节,并将自动控制系统应用于铌酸锂电光调制器,进行高传输速率调制实验。结果表明:采用半波电压自动控制技术,结合反馈控制算法,使电光调制器偏置电压始终位于调制特性曲线的中点,以保证调制信号的不失真传输,克服了半波电压漂移的问题。
The half wave voltageof electro-optic modulatoris easily affected by heat accumulation and environment temperature,and influence the transmission quality of the modulated signal.Therefore,a method for detecting the drift of half wave voltage by photoelectric detection by optical splitter is proposed.A design scheme forjudging,identifying and controlling the size of drift with the method of error analysis.High precision automatic regulation of half wave voltage by using fuzzy PID control algorithm,and it is applied to LiNbO3 modulator with high transmission rate test,the results show that:the bias voltage of modulator is always located in the middle of the linear region to guarantee undistorted modulation.The drift problem of half wave voltage is overcome.
The half wave voltageof electro-optic modulatoris easily affected by heat accumulation and environment temperature,and influence the transmission quality of the modulated signal.Therefore,a method for detecting the drift of half wave voltage by photoelectric detection by optical splitter is proposed.A design scheme forjudging,identifying and controlling the size of drift with the method of error analysis.High precision automatic regulation of half wave voltage by using fuzzy PID control algorithm,and it is applied to LiNbO3 modulator with high transmission rate test,the results show that:the bias voltage of modulator is always located in the middle of the linear region to guarantee undistorted modulation.The drift problem of half wave voltage is overcome.
引文
[1]郭明磊,韩新风,章毛连.电光调制晶体半波电压倍频测量方法的讨论[J].应用光学,2010,31(1):105-109.
[2]李莉,齐晓慧,刘秉琦,等.晶体电光调制实验模拟激光通信[J].实验室科学,2009,12(5):73-76.
[3]刘瑞鹏.集成光学电光调制干涉光谱仪的模式谱分析[J].光学技术,2012,38(4):488-492.
[4]刘红文,何彦霄,韩睿,等.LiNbO3晶体电光调制中半波电压测量方法研究[J].科学技术与工程,2016,16(14):190-194.
[5]ZHU J CH.Experimentally distinguishing electro-optic effects in silicon[J].Chinese Optics Letters,2012,10(8):082301-1-082301-5.
[6]李潮锐.电光调制通信的频谱测量[J].物理实验,2017,37(6)28-31.
[7]毕卫红,王圆圆,付广伟,等.基于石墨烯涂覆空心光纤电光调制特性的研究[J].物理学报,2016,65(4):1-8.
[8]李克武,王志斌,张瑞,等.沿光轴通光的LiNbO3的横向电光调制特性[J].光学精密工程,2015,23(5):1227-1232.
[9]刘江涛.电光调制器自动偏置控制系统及装置研究[D].长春理工大学,2008:14-15.
[10]唐雁峰,李洪祚,李锐,等.高速率电光调制器偏置电压自动控制技术[J].空军工程大学学报(自然科学版),2011,12(4):69-72.
[11]宗兆玉,许党朋,田小程,等.高精度整形激光脉冲产生技术研究[J].中国激光,2017,44(1):0105001-1-0105001-7.
[12]周幼华,顾豪爽.基于γ51的电光调制器的可行性研究[J].武汉大学学报(理学版),2011,57(1):79-82.
[13]李锐.电吸收激光调制技术的等效电路模型研究[J].科技咨询,2014,23(2):128-129.
[14]谭丰菊,张志伟.电光调制器驱动源电路研究[J].光通信技术,2011,2(7):60-63.
[15]朱文营,王辉林.晶体半波电压测量方法[J].山东理工大学学报(自然科学版),2011,25(6):101-105.
[2]李莉,齐晓慧,刘秉琦,等.晶体电光调制实验模拟激光通信[J].实验室科学,2009,12(5):73-76.
[3]刘瑞鹏.集成光学电光调制干涉光谱仪的模式谱分析[J].光学技术,2012,38(4):488-492.
[4]刘红文,何彦霄,韩睿,等.LiNbO3晶体电光调制中半波电压测量方法研究[J].科学技术与工程,2016,16(14):190-194.
[5]ZHU J CH.Experimentally distinguishing electro-optic effects in silicon[J].Chinese Optics Letters,2012,10(8):082301-1-082301-5.
[6]李潮锐.电光调制通信的频谱测量[J].物理实验,2017,37(6)28-31.
[7]毕卫红,王圆圆,付广伟,等.基于石墨烯涂覆空心光纤电光调制特性的研究[J].物理学报,2016,65(4):1-8.
[8]李克武,王志斌,张瑞,等.沿光轴通光的LiNbO3的横向电光调制特性[J].光学精密工程,2015,23(5):1227-1232.
[9]刘江涛.电光调制器自动偏置控制系统及装置研究[D].长春理工大学,2008:14-15.
[10]唐雁峰,李洪祚,李锐,等.高速率电光调制器偏置电压自动控制技术[J].空军工程大学学报(自然科学版),2011,12(4):69-72.
[11]宗兆玉,许党朋,田小程,等.高精度整形激光脉冲产生技术研究[J].中国激光,2017,44(1):0105001-1-0105001-7.
[12]周幼华,顾豪爽.基于γ51的电光调制器的可行性研究[J].武汉大学学报(理学版),2011,57(1):79-82.
[13]李锐.电吸收激光调制技术的等效电路模型研究[J].科技咨询,2014,23(2):128-129.
[14]谭丰菊,张志伟.电光调制器驱动源电路研究[J].光通信技术,2011,2(7):60-63.
[15]朱文营,王辉林.晶体半波电压测量方法[J].山东理工大学学报(自然科学版),2011,25(6):101-105.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |