基于时间敏感网络技术的组网采样同步方案A Networking Sampling Synchronization Solution Based on Time-Sensitive Networking
李响,李彦,张晓宇,许宗光
LI Xiang,LI Yan,ZHANG Xiaoyu,XU Zongguang
摘要(Abstract):
智能变电站中通过以太网实现模拟量采样信号的数字化传输与共享,以太网的端口冲突问题会导致网络数据传输延时不确定,因此智能变电站建设实践中依然以直采方案为主。针对现有的组网采样方案在安全性方面的不足,提出基于时间敏感网络技术的组网采样同步解决方案,通过时隙门控发送机制消除端口冲突,规划采样数据的传输延时,实现确定性传输效果。实验与推演的结果证明,该方案满足继电保护设备性能要求,适用于典型规模智能变电站网络。
The digital transmission and sharing of analog sampling signals is realized through Ethernet in intelligent substations. Ethernet port conflicts will give rise to delay uncertainty of network data transmission. Therefore,the peer-to-peer mode is still in use in constructing intelligent substations. Given the deficiency in security of the existing networking solutions,a networking sampling synchronization solution based on time-sensitive networking technology is proposed to achieve deterministic transmission by port conflict elimination and transmission delay planning of sampling data through a time-slot gated transmission mechanism. The experimental and extrapolated results prove that the solution can meet the performance requirements on relay protection equipment and applies to intelligent substation networks in typical scale.
关键词(KeyWords):
时间敏感网络;时隙门控;延时规划;采样同步
time-sensitive networking;time-slot gating;delay planning;sampling synchronization
基金项目(Foundation):
作者(Author):
李响,李彦,张晓宇,许宗光
LI Xiang,LI Yan,ZHANG Xiaoyu,XU Zongguang
DOI: 10.19585/j.zjdl.202206003
参考文献(References):
- [1]刘永欣,易永辉,陶永健,等.智能变电站过程层网络同步对时方案优化[J].电力系统自动化,2015,39(10):112-116.
- [2]周华良,郑玉平,徐建松,等.混合组网下采样值传输时延值测量的可信度评估[J].电力系统自动化,2019,43(20):162-169.
- [3]袁宇波,卜强生,高磊,等.智能变电站数字采样延时特性分析与试验[J].电力系统自动化,2013,37(24):76-80.
- [4]李博,孙建军,王朝亮,等.考虑高次谐波影响的智能配电合并单元改进采样数据同步方法[J].电力系统保护与控制,2019,47(18):20-27.
- [5]冯亚东,李彦,王松,等.IEC 61850-9-2点对点采样值传输在继电保护中的实现与应用[J].电力系统自动化,2012,36(2):82-85.
- [6]朱何荣,方佳维,陈桂友,等.智能变电站同步系统对测量设备的影响及其处理策略[J].电气工程学报,2020,15(3):143-149.
- [7]赵家庆,徐春雷,高宗和,等.基于分布式同步方法的智能变电站采样值组网技术[J].电力系统自动化,2013,37(24):60-65.
- [8]高红亮,陶文伟,刘东超,等.基于组网的智能变电站采样同步问题探讨[J].计算技术与自动化,2017,36(4):54-59.
- [9]吕航,陈军,杨贵,等.基于交换机数据传输延时测量的采样同步方案[J].电力系统自动化,2016,40(9):124-128.
- [10]周小波,汪思满,吴正学,等.环网分布式母线保护装置就地化实现探讨[J].电力系统保护与控制,2015,43(6):104-108.
- [11]张晶,代攀,吴天京,等.新一代智能电网技术标准体系架构设计及需求分析[J].电力系统自动化,2020,44(9):12-20.
- [12]陈德辉,须雷,赵希才.智能变电站自动化与保护核心IEC标准的进展与分析[J].电力系统自动化,2019,43(21):229-239.
- [13]张弛,韩丽,杨宏.时间敏感网络关键技术与标准化现状[J].自动化仪表,2020,41(3):97-101.
- [14]朱瑾瑜,段世惠,张恒升,等.时间敏感网络技术在工业互联网领域应用必要性分析[J].电信科学,2020,36(5):115-124.
- [15]IEEE Std.Virtual bridged local area networks:IEEE802.1Q-0018[S].NJ:IEEE,2018.
- [16]IEEE Std.Timing and synchronization for time-sensitive applications in bridged local area networks:IEEE 802.1AS-2011[S].NJ:IEEE,2011.
- [17]IEEE Std.Frame replication and elimination for reliability:IEEE 802.1CB-2017[S].NJ:IEEE,2017.
- [18]IEEE Std.Enhancements for scheduled traffic:IEEE802.1Qbv-20015[S].NJ:IEEE,2015.
- [19]IEEE Std.Frame preemption:IEEE 802.1Qbu-2016[S].NJ:IEEE,2016.
- [20]IEEE Std.Cyclic Queuing and forwarding:IEEE 802.1Qch-2017[S].NJ:IEEE,2017.
- [21]IEEE Std.Per-stream filtering and policing:IEEE802.1Qci-2017[S].NJ:IEEE,2017.
- [22]IEEE Std.Stream reservation protocol(SRP)enhancements and performance improvements:IEEE 802.1Qcc-2018[S].NJ:IEEE,2018.
- [23]王勇,韩少晓,尚力,等.智能变电站监控系统新型体系架构研究与实践[J].电力系统保护与控制,2019,47(8):145-151.
- [24]智能变电站继电保护技术规范:Q/GDW 441-2010[S].北京:国家电网公司,2010.
- [25]唐孝舟,刘青红,孙长兰,等.智能变电站二次系统组网结构与信息传输优化研究[J].电力大数据,2020,23(3):77-84.