通信设备2 M光接口承载继电保护业务技术的研究与测试
|
摘要
与传统的使用2 M光电转换器的技术方案相比,采用通信设备2 M光接口直接承载继电保护业务的方式具备很多技术、经济优势。为了促进该技术推广应用,西北电力调控分中心采用目前西北电网中主用的多型继电保护装置与通信设备,搭建了试验平台以及一套在实际电网环境中的试运行系统,对该技术的可行性和可靠性进行了测试验证。介绍了测试方法和结论,分析了该技术的优势以及目前存在的制约因素,并提出改进建议,为后期该技术在电网中的大规模推广应用工作提供了参考依据。
Compared with the traditional scheme using 2 M photo-electric converter, the scheme directly carrying relay protection service through 2 M optical interface has more technical and economic advantages. In order to promote the popularization of this technology, a test platform consisting of various types of relay protection devices and a trial operation system running on site were built, and some feasibility and reliability testing and verification work have been carried out. The test methods and conclusions are introduced in this paper, the benefits of the application of this technology in power grid and some constraints that exist at present are analyzed, and some suggestions are put forward as well.This paper provides a reference for the popularization of the technology in power grid.
Compared with the traditional scheme using 2 M photo-electric converter, the scheme directly carrying relay protection service through 2 M optical interface has more technical and economic advantages. In order to promote the popularization of this technology, a test platform consisting of various types of relay protection devices and a trial operation system running on site were built, and some feasibility and reliability testing and verification work have been carried out. The test methods and conclusions are introduced in this paper, the benefits of the application of this technology in power grid and some constraints that exist at present are analyzed, and some suggestions are put forward as well.This paper provides a reference for the popularization of the technology in power grid.
引文
[1]中华人民共和国国家质量监督检验检疫总局.继电保护和安全自动装置技术规程:GB 14285-2006[S].2006.
[2]李峥峰,杨曙年,喻道远,等.继电保护中光纤通信技术应用[J].电力自动化设备,2007,27(2):75-79.LI Zhengfeng,YANG Shunian,YU Daoyuan,et al.Application of optical fiber communication in relay protection[J].Electric Power Automatin Equipment,2007,27(2):75-79.
[3]何明甫,杨鸿珍,王宇辉.提高光纤保护通道抗灾能力的研究[J].电力信息化,2013,11(6):27-30.HE Mingfu,YANG Hongzhen,WANG Yuhui.Study on improving the anti-disaster ability of power system relay protection fiber channels[J].Electric Power Information Technology,2013,11(6):27-30.
[4]苏正华.继电保护光纤通信应用技术综述[J].通信电源技术,2016,33(4):285-286.SU Zhenghua.Review on application technology of optical fiber communication in relay protection[J].Telecom Power Technologies,2016,33(4):285-286.
[5]郭子靖,马松龄.光纤通信网络传送继电保护信号传输方法研究[J].计算机仿真,2017,34(10):199-202.GUO Zijing,MA Songling.Optical fiber communication network transmitting relay protection signal transmission mode[J].Computer Simulation,2017,34(10):199-202.
[6]IEEE Power and Energy Society.IEEE standard for N times64 kbps optical fiber interfaces between teleprotection and multiplexer equipment:IEEE Std C37.94?-2017[S].2017.
[7]中国南方电网有限责任公司.南方电网光通信网络技术规范(第一卷MSTP):Q/CSG 110002-2011[S].2011.
[8]陈建宁,仲惟师.继电保护光纤通信接口技术及标准[J].电力系统通信,2008,29(4):54-58.CHEN Jianning,ZHONG Weishi.Technique and standard or relay protection interface in optical fiber communication[J].Telecommunications for Electric Power System,2008,29(4):54-58.
[9]杨俊权,王勇,利韶聪,等.继电保护装置与通信设备2 Mbit/s光接口互联技术[J].南方电网技术,2011,5(4):65-67.YANG Junquan,WANG Yong,LI Shaocong,et al.The 2Mbit/s Optic-interfaces technology for relay protection and communication devices with protection channel multiplexing[J].Southern Power System Technology,2011,5(4):65-67.
[10]卢松,张乃平,于洋.继电保护装置和光传输设备2 M光接口的实现技术研究[J].现代传输,2017(5):53-56.
[11]中华人民共和国国家质量监督检验检疫总局,中国国家标准化管理委员会.同步数字体系(SDH)光缆线路系统测试方法:GB/T 16814-2008[S].2008.
[12]丁慧霞,陈希,张畅.光纤继电保护通道的测试方法研究[J].电力系统通信,2007,28(6):1-4,8.DING Huixia,CHEN Xi,ZHANG Chang.Research on the testing method of optical fiber relay protection channel[J].Telecommunications for Electric Power System,2007,28(6):1-4,8.
[13]中华人民共和国住房和城乡建设部,中华人民共和国国家质量监督检验检疫总局.同步数字体系(SDH)光纤传输系统工程设计规范:GB/T 51242-2017[S].2017.
[14]中华人民共和国国家发展和改革委员会.电力光纤通信工程验收规范:DL/T 5344-2006[S].2006.
[15]吴新平,焦阳.SDH光纤继电保护通道的测试与应用[J].电力系统通信,2007,28(6):19-23.WU Xinping,JIAO Yang.Test and application of SDH optical fiber relay protection channel[J].Telecommunications for Electric Power System,2007,28(6):19-23.
[16]魏明海,谷明英,张雁,等.继电保护(安控)通道安全可靠性评价方法及应用[J].电力信息与通信技术,2013,11(12):54-57.WEI Minghai,GU Mingying,ZHANG Yan,et al.Reliability evaluation method for relay protection channels and its applications[J].Electric Power Information and Communication Technology,2013,11(12):54-57.
[17]丁慧霞,陈希.光纤通道传输继电保护信号误码性能研究[J].电力系统通信,2008,29(2):37-41.DING Huixia,CHEN Xi.Study on error code performance of relay protection signal over optical fiber channel[J].Telecommunications for Electric Power System,2008,29(2):37-41.
[18]国家能源局.光纤通道传输保护信息通用技术条件:DL/T364-2010[S].2010.
[19]刘志勇.光纤通道传输保护信息技术要求的研究[J].电力信息与通信技术,2013,11(9):31-34.LIU Zhiyong.Research on requirements on information technology for fibre channel transmission protection[J].Electric Power Information and Communication Technology,2013,11(9):31-34.
[20]魏勇,张合明,张敬娜,等.SDH光纤通信系统2 Mbit/s通道传输时延分析与计算[J].河北电力技术,2017,36(1):33-35.WEI Yong,ZHANG Heming,ZHANG Jingna,et al.Analysis and calculation on 2 Mbit/s channel transmission delay of SDHoptical fiber communication systems[J].Hebei Electric Power,2017,36(1):33-35.
[2]李峥峰,杨曙年,喻道远,等.继电保护中光纤通信技术应用[J].电力自动化设备,2007,27(2):75-79.LI Zhengfeng,YANG Shunian,YU Daoyuan,et al.Application of optical fiber communication in relay protection[J].Electric Power Automatin Equipment,2007,27(2):75-79.
[3]何明甫,杨鸿珍,王宇辉.提高光纤保护通道抗灾能力的研究[J].电力信息化,2013,11(6):27-30.HE Mingfu,YANG Hongzhen,WANG Yuhui.Study on improving the anti-disaster ability of power system relay protection fiber channels[J].Electric Power Information Technology,2013,11(6):27-30.
[4]苏正华.继电保护光纤通信应用技术综述[J].通信电源技术,2016,33(4):285-286.SU Zhenghua.Review on application technology of optical fiber communication in relay protection[J].Telecom Power Technologies,2016,33(4):285-286.
[5]郭子靖,马松龄.光纤通信网络传送继电保护信号传输方法研究[J].计算机仿真,2017,34(10):199-202.GUO Zijing,MA Songling.Optical fiber communication network transmitting relay protection signal transmission mode[J].Computer Simulation,2017,34(10):199-202.
[6]IEEE Power and Energy Society.IEEE standard for N times64 kbps optical fiber interfaces between teleprotection and multiplexer equipment:IEEE Std C37.94?-2017[S].2017.
[7]中国南方电网有限责任公司.南方电网光通信网络技术规范(第一卷MSTP):Q/CSG 110002-2011[S].2011.
[8]陈建宁,仲惟师.继电保护光纤通信接口技术及标准[J].电力系统通信,2008,29(4):54-58.CHEN Jianning,ZHONG Weishi.Technique and standard or relay protection interface in optical fiber communication[J].Telecommunications for Electric Power System,2008,29(4):54-58.
[9]杨俊权,王勇,利韶聪,等.继电保护装置与通信设备2 Mbit/s光接口互联技术[J].南方电网技术,2011,5(4):65-67.YANG Junquan,WANG Yong,LI Shaocong,et al.The 2Mbit/s Optic-interfaces technology for relay protection and communication devices with protection channel multiplexing[J].Southern Power System Technology,2011,5(4):65-67.
[10]卢松,张乃平,于洋.继电保护装置和光传输设备2 M光接口的实现技术研究[J].现代传输,2017(5):53-56.
[11]中华人民共和国国家质量监督检验检疫总局,中国国家标准化管理委员会.同步数字体系(SDH)光缆线路系统测试方法:GB/T 16814-2008[S].2008.
[12]丁慧霞,陈希,张畅.光纤继电保护通道的测试方法研究[J].电力系统通信,2007,28(6):1-4,8.DING Huixia,CHEN Xi,ZHANG Chang.Research on the testing method of optical fiber relay protection channel[J].Telecommunications for Electric Power System,2007,28(6):1-4,8.
[13]中华人民共和国住房和城乡建设部,中华人民共和国国家质量监督检验检疫总局.同步数字体系(SDH)光纤传输系统工程设计规范:GB/T 51242-2017[S].2017.
[14]中华人民共和国国家发展和改革委员会.电力光纤通信工程验收规范:DL/T 5344-2006[S].2006.
[15]吴新平,焦阳.SDH光纤继电保护通道的测试与应用[J].电力系统通信,2007,28(6):19-23.WU Xinping,JIAO Yang.Test and application of SDH optical fiber relay protection channel[J].Telecommunications for Electric Power System,2007,28(6):19-23.
[16]魏明海,谷明英,张雁,等.继电保护(安控)通道安全可靠性评价方法及应用[J].电力信息与通信技术,2013,11(12):54-57.WEI Minghai,GU Mingying,ZHANG Yan,et al.Reliability evaluation method for relay protection channels and its applications[J].Electric Power Information and Communication Technology,2013,11(12):54-57.
[17]丁慧霞,陈希.光纤通道传输继电保护信号误码性能研究[J].电力系统通信,2008,29(2):37-41.DING Huixia,CHEN Xi.Study on error code performance of relay protection signal over optical fiber channel[J].Telecommunications for Electric Power System,2008,29(2):37-41.
[18]国家能源局.光纤通道传输保护信息通用技术条件:DL/T364-2010[S].2010.
[19]刘志勇.光纤通道传输保护信息技术要求的研究[J].电力信息与通信技术,2013,11(9):31-34.LIU Zhiyong.Research on requirements on information technology for fibre channel transmission protection[J].Electric Power Information and Communication Technology,2013,11(9):31-34.
[20]魏勇,张合明,张敬娜,等.SDH光纤通信系统2 Mbit/s通道传输时延分析与计算[J].河北电力技术,2017,36(1):33-35.WEI Yong,ZHANG Heming,ZHANG Jingna,et al.Analysis and calculation on 2 Mbit/s channel transmission delay of SDHoptical fiber communication systems[J].Hebei Electric Power,2017,36(1):33-35.