Integration of wireless communications with modernized power grids: EMI impacts and considerations

2011 IEEE International Symposium on Electromagnetic Compatibility Pub Date : 2011-10-10 DOI:10.1109/ISEMC.2011.6038331

Qin Yu, R. Johnson

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引用次数: 9

Abstract

SmartGrid has spurred huge enthusiasm in investment and a frenzy to develop various elements of the SmartGrid, including sensing, monitoring, metering, communications, control and automation devices. The integration of information technologies (IT), smart devices and advanced communication technologies with power grids can lead to electromagnetic interference (EMI) issues. The communication infrastructure is the foundation for “smart” devices and will be everyplace where the SmartGrid exists. Therefore, studying the impact of deploying communications equipment in the SmartGrid and understanding the EMI radiated emissions and immunity requirements is important for reducing interference with other SmartGrid devices. This paper provides a brief overview about the electromagnetic environment in power grids and the EMI emissions requirements of international standards for wireless communication equipment to be used in SmartGrid. The impact of SmartGrid environment on the wireless communications equipment and EMI radiated emissions and immunity testing requirements are discussed. The design hardening for improving the radiated immunity performance of SmartGrid equipment is proposed.

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无线通信与现代化电网的集成:电磁干扰的影响和考虑

智能电网激发了巨大的投资热情和开发智能电网各种元素的狂热，包括传感、监测、计量、通信、控制和自动化设备。信息技术(IT)、智能设备和先进通信技术与电网的集成可能导致电磁干扰(EMI)问题。通信基础设施是“智能”设备的基础，它将出现在智能电网存在的任何地方。因此，研究在智能电网中部署通信设备的影响，了解EMI辐射发射和抗扰度要求，对于减少与其他智能电网设备的干扰非常重要。本文简要介绍了电网中的电磁环境以及国际标准对智能电网中使用的无线通信设备的EMI发射要求。讨论了智能电网环境对无线通信设备的影响以及电磁干扰辐射发射和抗扰度测试要求。提出了提高智能电网设备抗辐射性能的设计强化方法。

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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2011 IEEE International Symposium on Electromagnetic Compatibility

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