Experience of communication problems in PLC-based AMR systems in Finland

IEEE PES Innovative Smart Grid Technologies, Europe Pub Date : 2014-10-01 DOI:10.1109/ISGTEUROPE.2014.7028905

B. A. Siddiqui, P. Pakonen, P. Verho

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引用次数: 3

Abstract

According to Finnish legislation, at least 80% of the energy meters had to be remotely readable and provide hourly based data by the end of 2013. The expansion of AMR system has certainly set higher demand for the reliability of the communication link when hundreds of meters establish communication link with data concentrator. This paper discusses the architecture of different Automatic Meter Reading (AMR) systems and gives some insight to the level of conducted disturbances which may cause PLC communication problems in commonly used AMR systems. It also proposes potential solutions to overcome the PLC communication problems. On-site measurements have been carried out to study the behavior of different system in real networks with various electronic loads. The results indicate that large number of PLC links failed to operate in the field due to the high frequency noise generated by electronic loads at frequencies close to the PLC carrier frequency. The presence of high frequency disturbances in the PLC frequency range caused by customer loads obstructed the communication of AMR systems which is a matter of concern for DNOs.

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芬兰基于plc的AMR系统通信问题的经验

根据芬兰立法，到2013年底，至少80%的电表必须是远程可读的，并提供每小时的数据。当与数据集中器建立百米级通信链路时，AMR系统的扩展无疑对通信链路的可靠性提出了更高的要求。本文讨论了不同的自动抄表系统的结构，并对常用的自动抄表系统中可能导致PLC通信问题的传导干扰水平进行了一些了解。提出了克服PLC通信问题的潜在解决方案。通过现场测量，研究了不同系统在实际网络中不同电子负载的行为。结果表明，由于电子负载在PLC载波频率附近产生的高频噪声，导致大量PLC链路在现场无法运行。客户负载引起的PLC频率范围内的高频干扰阻碍了AMR系统的通信，这是dno关注的问题。

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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IEEE PES Innovative Smart Grid Technologies, Europe

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