Synchronizing low-cost probes for IEC61850 transfer time estimation

2016 IEEE International Symposium on Precision Clock Synchronization for Measurement, Control, and Communication (ISPCS) Pub Date : 2016-09-01 DOI:10.1109/ISPCS.2016.7579499

S. Rinaldi, P. Ferrari, Matteo Loda

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引用次数: 4

Abstract

The growth of Smart Grids based on the IEC61850 standard makes the communication infrastructure a key factor of a successful application. Due to the distributed nature of the Smart Grid, the evaluation of the main performance indicators requires specialized distributed measurement system with dozens of measuring probes. Clearly, the scalability of the measurement system is tied to the cost of the single probe, and a tradeoff between cost and accuracy is needed. In this paper, the possibility of using low-cost probes for the estimation of the IEC61850 Transfer Time over Smart Grid communication infrastructure is investigated. The key feature to enable distributed measurement is the accuracy of the time synchronization that the probe (based on of-the-shelf microcomputer) can achieve. The paper presents an experimental evaluation of the measuring performance using some probe prototypes attached to an IEE1588 compliant infrastructure: the synchronization extended uncertainty is below 3 μs, and the IEC61850 Transfer Time measurement has an extended uncertainty below 15 μs.

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用于IEC61850传输时间估计的同步低成本探针

基于IEC61850标准的智能电网的发展使得通信基础设施成为成功应用的关键因素。由于智能电网的分布式特性，主要性能指标的评估需要专门的分布式测量系统，有几十个测量探头。显然，测量系统的可扩展性与单个探头的成本有关，需要在成本和精度之间进行权衡。本文研究了在智能电网通信基础设施上使用低成本探针估计IEC61850传输时间的可能性。实现分布式测量的关键特征是探头(基于现成的微型计算机)可以实现的时间同步精度。本文通过实验评估了一些附加在符合IEE1588标准的基础设施上的探针样机的测量性能:同步扩展不确定度小于3 μs, IEC61850传输时间测量的扩展不确定度小于15 μs。

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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2016 IEEE International Symposium on Precision Clock Synchronization for Measurement, Control, and Communication (ISPCS)

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