Hardware-in-the-Loop Testbed for Cyber-Physical Security of Photovoltaic Farms

2021 IEEE 12th International Symposium on Power Electronics for Distributed Generation Systems (PEDG) Pub Date : 2021-06-28 DOI:10.1109/PEDG51384.2021.9494258

Jinan Zhang, Lulu Guo, Jin Ye

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引用次数: 1

Abstract

In the last decades, modem grids with distributed energy resources, such as photovoltaic (PV) farms, are increasingly vulnerable to cyber-attacks that seriously affect the stability and performance of the power system. While cyber-physical security of smart grids is extensively studied, most of the existing work focuses on the grid level and neglects the modeling and features of device-level power electronics converters (PECs). Therefore, establishing a high-fidelity simulation testbed that can simulate harmonic frequencies of the PV farm is in urgent need. In this paper, a high-fidelity and real-time hardware-in- the-loop testbed is built to simulate the harmonics of power electronics converters for cyber-physical security of PEC-enabled PV farms. Based on this testbed, the impact of typical cyber-attacks and physical faults on the PV converter can be analyzed, thus providing a foundation for cyber-attack detection, root cause diagnosis, and resilient control to mitigate the adverse effects of cyber-attacks.

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光伏电站网络物理安全硬件在环测试平台

在过去的几十年里，具有分布式能源的现代电网，如光伏(PV)农场，越来越容易受到网络攻击，严重影响了电力系统的稳定性和性能。虽然智能电网的网络物理安全研究已经非常广泛，但现有的研究大多集中在电网层面，而忽略了设备级电力电子变流器的建模和特性。因此，迫切需要建立一个能够模拟光伏电站谐波频率的高保真仿真试验台。本文建立了一个高保真实时的硬件在环测试平台，用于模拟电力电子转换器的谐波，以确保PEC-enabled PV农场的网络物理安全。基于该试验台，可以分析典型网络攻击和物理故障对光伏变流器的影响，为网络攻击检测、根本原因诊断和弹性控制提供基础，减轻网络攻击的不利影响。

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

2021 IEEE 12th International Symposium on Power Electronics for Distributed Generation Systems (PEDG)

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