5G通信自同步配网差动保护研究与应用

高厚磊<sup>1</sup>; 徐 彬<sup>1</sup>; 向珉江<sup>2</sup>; 李立生<sup>3</sup>; 徐 群<sup>4</sup>; 张 陶<sup>4</sup>; 李 坤<sup>4</sup>; 陈 恒<sup>5</sup>; 高维良<sup>1</sup>

引用本文:	高厚磊,徐彬,向珉江,等.5G通信自同步配网差动保护研究与应用[J].电力系统保护与控制,2021,49(7):1-9.[点击复制]
	GAO Houlei,XU Bin,XIANG Minjiang,et al.Research and application of self-synchronized differential protection for distributionnetworks using 5G as the communication channel[J].Power System Protection and Control,2021,49(7):1-9[点击复制]

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5G通信自同步配网差动保护研究与应用
高厚磊¹,徐彬¹,向珉江²,李立生³,徐群⁴,张陶⁴,李坤⁴,陈恒⁵,高维良¹
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(1.山东大学电气工程学院，山东济南 250061;2.国网济南供电公司，山东济南 250012; 3.国网山东电力科学研究院，山东济南 250003;4.国网青岛供电公司，山东青岛 266002; 5.山东科汇电力自动化股份有限公司，山东淄博 255087)

摘要:

随着分布式电源的高度渗透和环网结构的逐步增多，配电网迫切需要电流差动保护应对过流保护面临的挑战。基于5G的商用化契机，研究开发一种基于5G通信的配电网分布式差动保护。该保护采用基于移动边缘计算的切片网络作为数据通道，具有超低延时和超高可靠的特点；采用基于故障时刻的自同步方法解决差动保护两端的数据同步问题，无需增加额外对时装置。在5G智能电网应用示范区，对所开发装置进行了单基站和跨基站环境下的综合测试，并投入10 kV线路试点运行。现场测试结果与试运行数据表明，差动保护性能满足配电网工程应用要求。

关键词: 5G通信网络切片 uRRLC场景配电网差动保护自同步故障时刻

DOI：DOI: 10.19783/j.cnki.pspc.210099

投稿时间：2021-02-01

基金项目:国家电网公司总部科技项目资助(5100-20205501 8A-0-0-00)；山东电力公司科技项目资助(5206011900DG)

Research and application of self-synchronized differential protection for distributionnetworks using 5G as the communication channel

GAO Houlei¹,XU Bin¹,XIANG Minjiang²,LI Lisheng³,XU Qun⁴,ZHANG Tao⁴,LI Kun⁴,CHEN Heng⁵,GAO Weiliang¹

(1. School of Electrical Engineering, Shandong University, Jinan 250061, China; 2. State Grid Jinan Power Supply Company, Jinan 250012, China; 3. State Grid Shandong Electric Power Research Institute, Jinan 250003, China; 4. State Grid Qingdao Power Supply Company, Qingdao 266002, China; 5. Shandong Kehui Power Automation Co., Ltd., Zibo 255087, China)

Abstract:

With the high penetration of distributed generation and the gradual increase of ring network structure, distribution networks urgently need current differential protection to overcome the challenges faced by over-current protection. Taking the opportunity of 5G commercialization, this paper develops a distributed differential protection for distribution networks using 5G. In this protection system, a sliced network based on mobile edge computing is deployed as a data channel. This has the feature of ultra-low latency and ultra-high reliability. The fault instant-based self-synchronization method is adopted to realize the data synchronization required by differential protection. It has no need for additional timing devices. In a demonstration of 5G application for the smart grid, the developed relays are comprehensively tested under both single and crossing base station environments. The relays have been put into use in a 10 kV feeder for test run purposes. Both field test results and test run data indicate that the performance of the proposed differential relays meet the requirements of a distribution network in engineering application. This work is supported by the Science and Technology Project of the Headquarters of State Grid Corporation of China (No. 5100-202055018A-0-0-00) and the Science and Technology Project of Shandong Electric Power Company (No. 5206011900DG).

Key words: 5G communication network slice uRRLC scene distribution network differential protection self- synchronization fault instant

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