SmarTS-Lab：广域监控、保护和控制系统（WAMPAC）应用开发实验室

OPAL-RT

Abstract—At the core of the development of “Smart Transmission Grids” is the design, implementation, and testing of synchronized phasor measurement data applications that can supplement Wide-Area Monitoring, Protection, and Control Systems (WAMPAC). Nevertheless, the development of new PMU
* m/ H6 n& f0 v+ Odata-based WAMPAC applications has been relatively slow. The great potential of WAMPAC systems is being limited by this, and efforts are needed so that new applications can be developed. The slow rate of development of these applications is strongly related to, among other factors, the application development approach used. This article starts by discussing the needs and approaches for developing WAMPAC applications that exploit synchronized phasor measurements, and illustrates how one of these approaches has been achieved. A preliminary work carried out to develop and implement a Smart Transmission System Laboratory (SmarTS Lab), a hardware and softwarebased system for developing and analyzing “Smart Transmission Grids” paradigms and applications for WAMPAC systems, are described. The laboratory’s conceptual architecture and hardware and software implementation are presented, and some of its components are described. Finally, the article illustrates proof of- concept examples of how PMU data-based applications can be developed.

, A; |/ ^( \8 I. X1 G# x1 u# K“智能传输电网”开发的核心是对同步向量测量数据应用的设计，实施和测试，这一数据应用可对广域监测、保护和控制系统（WAMPAC）做出补充。然而，对于新的基于向量测量单元（PMU）数据的WAMPAC应用的开发相对较慢，于是WAMPAC系统的巨大潜力就被限制了。因此，若要开发新的应用就需要一定努力。在其他因素中，开发这些应用的缓慢速度与开发这些应用所使用的方法有关。这边文章首先探讨了使用同步向量测量法开发WAMPAC的需要和方法，并演示了其中一个方法是如何实现的。初步的开发和实施智能传输系统实验室（SmarTS Lab）已经开始运行，用于开发和分析WAMPAC系统中“智能输电网”范例和应用的硬件及软件系统也得到了探讨。文中介绍了实验室的概念结构和硬件/软件实施，并且对其中某些组件做了描述。最后，文章演示了基于向量测量单元数据的应用的开发实例。
SmarTS Lab — A Laboratory for Developing Appliaction for WAMPAC Systems.rar (1.22 MB, 下载次数: 0)

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