智能电网保护继电器对IEMI的脆弱性

IF 0.6 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
F. Arduini, Marian Lanzrath, S. Ghosalkar, Arash Nateghi, S. Fisahn, M. Schaarschmidt
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引用次数: 0

摘要

摘要电力行业一直在向智能电网概念转型,旨在提高电力系统的稳健性、效率和灵活性。这一转变是通过引入智能电子设备(SED)和先进的自动控制和通信系统实现的。尽管这种现代化带来了好处,但世界各地的专家和实体都非常关注安全问题。其中一个问题被称为故意电磁干扰(IEMI),即罪犯使用高功率电磁源恶意干扰或损坏电子设备。针对智能电网的IEMI攻击的可能网关之一是基于微处理器的保护继电器。一方面,这些设备的故障可能导致设备损坏,包括高压设备(如电力变压器),这是能源基础设施中成本最高的项目之一。另一方面,这些设备的可能误导性触发可能会导致电力系统各个节点的级联效应,导致大范围停电。因此,本研究介绍了作为SCADA(监控和数据采集)系统一部分的智能电网变电站中使用的典型保护继电器的IEMI暴露可能产生的反复影响。为此,使用TEM波导管和喇叭天线,将包含智能电网保护单元、监控箱和设备线束的测试装置暴露在具有高功率窄带信号的辐射IEMI威胁下。测试活动期间的影响是通过IEMI强化摄像头系统和软件来观察的,该软件是根据IEC 60870-5-105协议建立的,用于实时监控设备的光纤通信链路。结果显示,故障范围从显示偏差到各种类型的保护继电器关闭。此外,还讨论了变电站中已识别故障的后果,以纳入有关IEMI对电力基础设施威胁的风险分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Vulnerability of Smart Grid-enabled Protection Relays to IEMI
Abstract. The electricity sector has been undergoing transformations towards the smart grid concept, which aims to improve the robustness, efficiency, and flexibility of the power system. This transition has been achieved by the introduction of smart electronic devices (SEDs) and advanced automatic control and communication systems. Despite the benefits of such modernization, safety issues have emerged with significant concern by experts and entities worldwide. One of these issues is known as Intentional Electromagnetic Interference (IEMI), where offenders employ high-power electromagnetic sources to maliciously disrupt or damage electronic devices. One of the possible gateways for IEMI attacks targeting the smart grids is the microprocessor-based protection relays. On the one hand, the malfunctioning of these devices can lead to equipment damage, including high-voltage equipment (e.g., power transformers), which represent one of the most high-cost items of energy infrastructure. On the other hand, a possible misleading triggering of these devices could cause cascading effects along the various nodes of the power system, resulting in widespread blackouts. Thus, this study presents the possible recurring effects of IEMI exposure of a typical protection relay used in smart grid substations as part of the SCADA (Supervisory Control and Data Acquisition) system. For this purpose, a test setup containing a smart grid protective unit, a monitoring box, and the device's wiring harness is exposed to radiated IEMI threats with high-power narrowband signals using a TEM waveguide and horn antennas. The effects during the test campaigns are observed by means of an IEMI-hardened camera system and a software developed to real-time monitor the device's fibre optic communication link, which is established according to the IEC 60870-5-105 protocol. The results revealed failures ranging from display deviation to various types of protection relay shutdown. Moreover, the consequences of the identified failures in a power substation are discussed to feed into a risk analysis regarding the threat of IEMI to power infrastructures.
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来源期刊
Advances in Radio Science
Advances in Radio Science ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
0.90
自引率
0.00%
发文量
3
审稿时长
45 weeks
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