一种光纤复合低压电缆故障检测与定位方法
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摘要
基于光纤复合低压电缆(OPLC)的电力光纤到户示范工程,利用电力通道资源,深度融合电网和通信网基础设施。调研发现实现OPLC光电性能参数一体化检测的研究尚处空白,利用目前较为成熟的光性能检测与电性能检测技术,研究一种实现OPLC一体化故障检测与定位的方法,依据OPLC国内相关行业标准或国家标准,研究确定装置主要检测功能包含光功率检测、光损耗检测、直流电阻检测以及耐压试验测试。由于OPLC中光单元的性能检测尤为重要,因此,文章中侧重对光功率检测模块的实现做了阐述。该装置的理论研究与样机研制将为进一步提升示范工程网络运维积累经验。
The PFTTH demonstration project based on OPLC is the a-malgamation of grid and communication network infrastructure. On base of a series of investigation and study,the research on the integration inspection to Photoelectric Performance Parameters of OPLC is still the gap. Using the detection results of optical and electrical property,a method of failure detection and location for OPLC is studied,which will beneficial to enhance the theory of Network Operation and Maintenance. According to domestic related industry standards and national standards of OPLC,study and determine the device's primary detection function contains the optical power detection,the optical loss detection,the DC resistance detection and the pressure test. As the performance of the light unit is particularly important,the paper have a detailed presentation of the realization of optical power detection module. Theoretical research and prototype development of the device will accumulate experience to further promote the network operation and maintenance of demonstration project.
The PFTTH demonstration project based on OPLC is the a-malgamation of grid and communication network infrastructure. On base of a series of investigation and study,the research on the integration inspection to Photoelectric Performance Parameters of OPLC is still the gap. Using the detection results of optical and electrical property,a method of failure detection and location for OPLC is studied,which will beneficial to enhance the theory of Network Operation and Maintenance. According to domestic related industry standards and national standards of OPLC,study and determine the device's primary detection function contains the optical power detection,the optical loss detection,the DC resistance detection and the pressure test. As the performance of the light unit is particularly important,the paper have a detailed presentation of the realization of optical power detection module. Theoretical research and prototype development of the device will accumulate experience to further promote the network operation and maintenance of demonstration project.
引文
[1]雷煜卿,戚力彦,张大华,等.一种应用于OPLC网络的故障诊断技术研究[J].计算机科学与探索,2017(11):249-252.
[2]李晓梅,罗志勇,贺新升,等.通信光纤性能检测机理及装置研究[J].机电工程,2010(3):96-99.
[3]谢书鸿.满足新一代应用需求的光纤复合电缆技术[J].现代传输,2013(4):49-53.
[4]杨家桂,钟跃明.基于对数比率放大电路的光功率测量[J].电光与控制,2006,13(1):110-112.
[5]江明珠,徐庆富,李清卉.基于智能手机的光功率检测模块[J].光通信术,2015(4):39-41.
[6]LIU Ming-bo,ZHANG Guang-shun,GAO Hongchao,et al. The Design and Implementation of Testing System for Network Equipment Configura?tion Status and Light Power[J]. Trans Tech,2014:155-159.
[7]贾明明.基于光功率值的传输干线自动检测与预警方案[J].山东通信技术,2015(1):44-46.
[8]初宁,曹立军,黄威.基于光照强度的PIN光电二极管响应时间分析[J].传感技术学报,2013,26(1):34-37.
[9]周真,杨军,秦勇.基于PIN光电二极管的光功率计[J].仪表技术与传感器,2013(6):43-45.
[10]朱红军,黄晓峰,杜晓岗. 10G PON光网络的光功率在线检测[J].自动化技术与应用,2017(1):95-97.
[11]李艳霞.关于波分系统在日常维护中光功率检测点的探讨[J].甘肃科技,2015(19):22-24.
[12]黄海燕.电线电缆检测项目研究及检测方法探讨[J].河南科技,2014(3):74.
[13]袁燕岭,李世松,董杰,等.电力电缆诊断检测技术综述[J].电测与仪表,2016(11):22-24.
[14]石磊杨,智伟.电力电缆故障检测及故障点定位方法分析[J].内蒙古电力技术,2014(1):97-100.
[15]向晋平.电缆故障原因查找及定位措施[J].低碳世界,2016(35):75-76.
[16]张仲文.电力电缆故障检测及故障点定位方法探究[J].中国高新技术企业,2016(34):34-36.
[17]肖德军.研究电力电缆故障原因和检测方法[J].通讯世界,2017(22):92-93.
[18]李俊.OTDR曲线分析技术在光纤故障诊断中的应用研究[D].保定:华北电力大学,2009.
[19]丁文辉.光纤常见故障原因及处理办法[J].科技与企业,2014(3):268-268.
[20]马天祥,程肖,杜旭浩,等.配电自动化系统中单相接地故障定位新方法[J].陕西电力,2016(8):67-70,75.
[21]郭光孟,吕剑飞,王玉荣,等.基于改进相关系数的配电网故障定位方法[J].陕西电力,2016(7):56-60.
[22]胡文斌,廖玄,康毅,等.一种不受波速影响的双端行波故障定位方法[J].陕西电力,2016(6):39-42,47.
[2]李晓梅,罗志勇,贺新升,等.通信光纤性能检测机理及装置研究[J].机电工程,2010(3):96-99.
[3]谢书鸿.满足新一代应用需求的光纤复合电缆技术[J].现代传输,2013(4):49-53.
[4]杨家桂,钟跃明.基于对数比率放大电路的光功率测量[J].电光与控制,2006,13(1):110-112.
[5]江明珠,徐庆富,李清卉.基于智能手机的光功率检测模块[J].光通信术,2015(4):39-41.
[6]LIU Ming-bo,ZHANG Guang-shun,GAO Hongchao,et al. The Design and Implementation of Testing System for Network Equipment Configura?tion Status and Light Power[J]. Trans Tech,2014:155-159.
[7]贾明明.基于光功率值的传输干线自动检测与预警方案[J].山东通信技术,2015(1):44-46.
[8]初宁,曹立军,黄威.基于光照强度的PIN光电二极管响应时间分析[J].传感技术学报,2013,26(1):34-37.
[9]周真,杨军,秦勇.基于PIN光电二极管的光功率计[J].仪表技术与传感器,2013(6):43-45.
[10]朱红军,黄晓峰,杜晓岗. 10G PON光网络的光功率在线检测[J].自动化技术与应用,2017(1):95-97.
[11]李艳霞.关于波分系统在日常维护中光功率检测点的探讨[J].甘肃科技,2015(19):22-24.
[12]黄海燕.电线电缆检测项目研究及检测方法探讨[J].河南科技,2014(3):74.
[13]袁燕岭,李世松,董杰,等.电力电缆诊断检测技术综述[J].电测与仪表,2016(11):22-24.
[14]石磊杨,智伟.电力电缆故障检测及故障点定位方法分析[J].内蒙古电力技术,2014(1):97-100.
[15]向晋平.电缆故障原因查找及定位措施[J].低碳世界,2016(35):75-76.
[16]张仲文.电力电缆故障检测及故障点定位方法探究[J].中国高新技术企业,2016(34):34-36.
[17]肖德军.研究电力电缆故障原因和检测方法[J].通讯世界,2017(22):92-93.
[18]李俊.OTDR曲线分析技术在光纤故障诊断中的应用研究[D].保定:华北电力大学,2009.
[19]丁文辉.光纤常见故障原因及处理办法[J].科技与企业,2014(3):268-268.
[20]马天祥,程肖,杜旭浩,等.配电自动化系统中单相接地故障定位新方法[J].陕西电力,2016(8):67-70,75.
[21]郭光孟,吕剑飞,王玉荣,等.基于改进相关系数的配电网故障定位方法[J].陕西电力,2016(7):56-60.
[22]胡文斌,廖玄,康毅,等.一种不受波速影响的双端行波故障定位方法[J].陕西电力,2016(6):39-42,47.