Communication architecture for monitoring of HVDC system based on IEC 61850

2016 Electric Power Quality and Supply Reliability (PQ) Pub Date : 2016-08-01 DOI:10.1109/PQ.2016.7724123

Bizzat Hussain Zaidi, S. Hong, Daehyun Kwon

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引用次数: 2

Abstract

A typical HVDC system contains a number of devices that intercommunicate for protection, control, and measurement applications. As the number of devices increases, the network traffic load also increases. Upon reaching the point of saturation of network traffic load, the performance of the system degrades. In this paper, a communication architecture allowing these devices to communicate with each other and human machine interface (HMI) with high network traffic saturation point is introduced. The system is designed to comply with IEC 61850 and is thus divided into three levels: a) the station level, b) the bay control level, and c) the field level. The station level consists of HMI, control devices are placed in the bay control level and field level comprise of the actual measurement and protection devices. With the help of UML, we describe the functionality of the main components and the message exchange process. Using OMNET++, we developed a network simulation model and evaluated the network performance for maximum traffic load. We also discuss the effect of traffic load on the system's performance.

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基于IEC 61850的高压直流系统监控通信体系结构

一个典型的高压直流系统包含许多设备，这些设备相互通信，用于保护、控制和测量应用。随着设备数量的增加，网络流量负载也在增加。当网络流量负载达到饱和点时，系统性能会下降。本文介绍了一种允许这些设备相互通信和具有高网络流量饱和点的人机界面(HMI)的通信体系结构。该系统设计符合IEC 61850，因此分为三个级别:a)站级，b)海湾控制级和c)现场级。站级由人机界面组成，控制装置放置在舱内，控制级和现场级由实际测量和保护装置组成。在UML的帮助下，我们描述了主要组件的功能和消息交换过程。利用omnet++开发了网络仿真模型，并对最大流量负载下的网络性能进行了评估。我们还讨论了流量负载对系统性能的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2016 Electric Power Quality and Supply Reliability (PQ)

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