单相智能费控光纤网络电能表的设计与应用
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摘要
泛在电力物联网建设背景下,采用先进通信技术,实现电力系统各环节的万物互联、人机交互,具备电网状态全面感知、信息高效处理与应用便捷灵活特征的目标,对电能数据采集终端提出了新的要求。文中介绍一种新型单相智能费控光纤网络电能表的组成架构、工作原理,以及基于它的用电信息采集与处理系统实现。实际测试表明,基于单相智能费控光纤网络电能表构建的用电信息采集系统,可快速、可靠地提供有效的用电信息和电力大数据支撑,具有重要的应用价值。
Under the background of ubiquitous Power Internet of Things construction,which realizes the interconnection of all things in the power system and human-computer interaction through advanced communication technology,new requirements were put forward for power data collection terminal to realize the goal of comprehensive sensing of power grid status,efficient information processing and convenient and flexible application. This paper introduces the structure,working principle of a new single-phase fee-controlled fiber-optic network smart meter (patent name-multi-function integrated meter)and the realization of electricity information acquisition and processing system. The actual testing results show that the electricity information collection system based on single-phase fee-controlled fiber-optic network smart meter can provide sufficient and effective information and data support,and become a new source of growth for power big data,which brings critical application value.
Under the background of ubiquitous Power Internet of Things construction,which realizes the interconnection of all things in the power system and human-computer interaction through advanced communication technology,new requirements were put forward for power data collection terminal to realize the goal of comprehensive sensing of power grid status,efficient information processing and convenient and flexible application. This paper introduces the structure,working principle of a new single-phase fee-controlled fiber-optic network smart meter (patent name-multi-function integrated meter)and the realization of electricity information acquisition and processing system. The actual testing results show that the electricity information collection system based on single-phase fee-controlled fiber-optic network smart meter can provide sufficient and effective information and data support,and become a new source of growth for power big data,which brings critical application value.
引文
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[10]周鹏.基于光纤通信的电力数据采集系统的设计[D].江苏:苏州大学专业学位硕士论文,2012.Zhou Peng.The Design of Power Data Collection System Based On the Optical Fiber Communication[D].Master’s Degree Thesis,2012.
[2]赵康.基于光纤到户资源的用电信息采集实现方式的研究[D].河北:华北电力大学,2016.
[3]程远,冯宝,等.基于EPON技术的用电信息采集系统分析研究[J].电力系统通信,2012,33(9):17-20.Cheng Yuan,Feng Bao,et al.Analysis and Research of Power Consumption Information Collection System Based on EPON Technology[J].Telecommunications for Electric Power System,2012,33(9):17-20.
[4]陈亮,律方成,谢庆,等.实时测量双向通信智能电表的研发[J].中国电机工程学报,2011,31(S1):94-99.Chen Liang,Lv Fangcheng,Xie Qing,et al.Research of Real-time Energy Measurement and Bidirectional Communication Smart Meter[J].Proceedings of the CSEE,2011,31(S1):94-99.
[5]孙丽莉,林大朋,武占侠.基于EPON和BPLC技术的智能家居采集接入系统研究[J].价值工程,2012,31(36):180-182.Sun Lili,Lin Dapeng,Wu Zhanxia.Smart Home Access System Research Based on EPON and BPLC Technology[J].Value Engineering,2012,31(36):180-182.
[6]林楠.全面智能电表集抄时代下的大数据分析[J].现代信息科技,2018,2(7):171-176.Lin Nan.Analysis of Big Data in the Era of Comprehensive Intelligent Electric Meters Collecting[J].Modern Information Technology,2018,2(7):171-176.
[7]周林.一种不可靠环境中的智能电表数据安全采集方案[J].上海电力学院学报,2017,33(4):346-352.Zhou Lin.An Identification and IDS Based Scheme for Smart Meter Data Acquisition[J].Journal of Shanghai University of Electric Power,2017,33(4):346-352.
[8]刘卫兵,许春香.基于物联网的智能电表实时监测系统[J].仪表技术与传感器,2017,(12):72-75.Liu Weibing,Xu Chunxiang.Real-time Monitoring System for Smart Meters Based on Internet of Things[J].Instrument Technique and Sensor,2017,(12):72-75.
[9]余中建,戴聿雯,程周育.电力光纤到表箱设计方案的研究与应用[J].电力系统通信,2011,32(12):23-27.Yu Zhongjian,Dai Yuwen,Cheng Zhouyu.Research and Application on Fiber to the Meter Box Design[J].Telecommunications for Electric Power System,2011,32(12):23-27.
[10]周鹏.基于光纤通信的电力数据采集系统的设计[D].江苏:苏州大学专业学位硕士论文,2012.Zhou Peng.The Design of Power Data Collection System Based On the Optical Fiber Communication[D].Master’s Degree Thesis,2012.