Remote monitoring system to measure the temperature of small wind power using Power Line Communication - PLC technology

2012 9th International Conference on Remote Engineering and Virtual Instrumentation (REV) Pub Date : 2012-07-04 DOI:10.1109/REV.2012.6293147

M. Rosa, R. Marcelino, V. Gruber, L. Schaeffer, J. B. Silva

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引用次数: 1

Abstract

This article presents the development of a monitoring and supervision system using power line communication technology and the data acquisition system. This was done by research and case study at laboratories of Faculdade SATC, using a web microserver with the power line to transmit and receive data through PLC (Power Line Communication) technology as a solution for remote monitoring. The variable to be controlled will be wind turbine temperature which for laboratory purposes was simulated by heating a resistor. After the prototype was made, tests were performed comparing the PLC technology and the LAN network in two different environments: residential and industrial. The network behavior was analyzed using a network analysis software in which a few parameters were established to represent network performance in sending and receiving data from the monitoring system. The data obtained by this study showed satisfactory results of the PLC technology compared to the LAN network, confirming the possibility of using this technology in remote monitoring systems, thus allowing increased reliability and operational convenience.

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远程监测系统采用电力线通信- PLC技术来测量小型风力发电的温度

本文介绍了一种利用电力线通信技术和数据采集系统开发的监控系统。这是通过SATC学院实验室的研究和案例研究完成的，使用带有电力线的web微服务器通过PLC(电力线通信)技术传输和接收数据，作为远程监控的解决方案。要控制的变量将是风力涡轮机温度，用于实验室目的是通过加热电阻来模拟。样机制作完成后，在住宅和工业两种不同的环境下，对PLC技术和局域网网络进行了测试比较。使用网络分析软件对网络行为进行分析，在该软件中建立了几个参数来表示从监控系统发送和接收数据的网络性能。本研究获得的数据表明，与局域网网络相比，PLC技术取得了令人满意的结果，证实了在远程监控系统中使用该技术的可能性，从而提高了可靠性和操作便利性。

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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2012 9th International Conference on Remote Engineering and Virtual Instrumentation (REV)

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