LC 共振电网中并网变流器的稳定性分析和有源阻尼设计

IF 5.2 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
SHIYI LIU;Heng Wu;Xiongfei Wang;Theo Bosma;Ganesh Sauba
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引用次数: 0

摘要

本文介绍了一种考虑到电网中并联交流电容器存在的电网成形(GFM)转换器小信号模型。结果表明,在 GFM 转换器中加入并联交流电容器会导致有功功率控制 (APC) 环路的环路增益中出现两个新的谐振峰,此外还有之前在文献中发现的基频谐振峰。基于考虑 P/Q 耦合的等效 APC 的进一步分析证实,交流并联电容器通过引入两个额外的谐振峰,产生了相同的失稳效应。基于这一见解,我们建议对主动阻尼控制进行调整,以有效抑制所有三个谐振峰,从而确保 GFM 转换器的稳定运行。最后,还进行了模拟和实时仿真,以证实理论结论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Stability Analysis and Active Damping Design for Grid-Forming Converters in LC Resonant Grids
In this article, a small-signal model of grid-forming (GFM) converters that takes into account the presence of ac shunt capacitors in the power grid is presented. It is revealed that the inclusion of shunt ac capacitors in GFM converters leads to the emergence of two new resonant peaks in the loop gain of the active power control (APC) loop, in addition to the fundamental-frequency resonant peak that was previously identified in literature. Further analysis based on the equivalent APC considering P/Q coupling has confirmed the same destabilization effect of ac shunt capacitors by introducing two extra resonant peaks. Based on the insight, it is suggested that the active damping control needs to be adapted to effectively dampen all three resonant peaks to ensure the stable operation of GFM converters. Finally, simulations and real-time simulations are carried out to corroborate the theoretical findings.
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来源期刊
IEEE Open Journal of the Industrial Electronics Society
IEEE Open Journal of the Industrial Electronics Society ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
10.80
自引率
2.40%
发文量
33
审稿时长
12 weeks
期刊介绍: The IEEE Open Journal of the Industrial Electronics Society is dedicated to advancing information-intensive, knowledge-based automation, and digitalization, aiming to enhance various industrial and infrastructural ecosystems including energy, mobility, health, and home/building infrastructure. Encompassing a range of techniques leveraging data and information acquisition, analysis, manipulation, and distribution, the journal strives to achieve greater flexibility, efficiency, effectiveness, reliability, and security within digitalized and networked environments. Our scope provides a platform for discourse and dissemination of the latest developments in numerous research and innovation areas. These include electrical components and systems, smart grids, industrial cyber-physical systems, motion control, robotics and mechatronics, sensors and actuators, factory and building communication and automation, industrial digitalization, flexible and reconfigurable manufacturing, assistant systems, industrial applications of artificial intelligence and data science, as well as the implementation of machine learning, artificial neural networks, and fuzzy logic. Additionally, we explore human factors in digitalized and networked ecosystems. Join us in exploring and shaping the future of industrial electronics and digitalization.
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