Arctan Power–Frequency Droop for Improved Microgrid Stability

Rowe C. N.; Summers T. J.; Betz R. E.; Cornforth D. J.; Moore T. G.

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Arctan Power–Frequency Droop for Improved Microgrid Stability

机译：Arctan Power-Frequency Droop改善了微电网的稳定性

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摘要

The term microgrid is usually reserved for a modest sized, local distributed generation network that will largely operate standalone (i.e., without a grid connection.) The most common power flow control method utilized in a standalone microgrid is a technique known as power–frequency droop. This paper introduces the concept of utilizing an arctan function for the power–frequency droop profile. The use of this arctan function improves the small signal stability of the two-inverter microgrid, provides natural frequency bounding, and is flexible in its application. SABER simulations are performed to obtain the operating points about which the system is linearized for the stability analysis. Experimental results obtained from a dSPACE-controlled, low-voltage, two-inverter hardware system are presented to verify the theoretical and simulation results.

机译：微电网一词通常用于中等规模的本地分布式发电网络，该网络将在很大程度上独立运行（即，没有电网连接。）在独立微电网中使用的最常见的潮流控制方法是一种称为工频下降的技术。。本文介绍了将反正切函数用于工频下垂曲线的概念。使用此arctan函数可改善两逆变器微电网的小信号稳定性，提供自然的频率限制，并且在其应用中具有灵活性。执行SABRE仿真以获得系统线性化以进行稳定性分析的工作点。提出了从dSPACE控制的低压两逆变器硬件系统获得的实验结果，以验证理论和仿真结果。

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来源
《Power Electronics, IEEE Transactions on》 |2013年第8期|p.3747-3759|共13页
作者
Rowe C. N.; Summers T. J.; Betz R. E.; Cornforth D. J.; Moore T. G.;
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作者单位

Christopher N. Rowe is with the School of Electrical Engineering and Computer Science University of Newcastle, Australia, 2308 (email:1rowe@ieee.org);

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Frequency control; Generators; Inverters; Power system stability; Reactive power; Stability analysis; Distributed control; distributed generation (DG); microgrids; power frequency droop; power sharing stability;

机译：频率控制;发电机;逆变器电力系统稳定性;无功功率;稳定性分析;分布式控制;分布式发电（DG）;微电网工频下降功率共享稳定性;

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1. Arctan power frequency droop for power electronics dominated microgrids [J] . CN Rowe, TJ Summers, RE Betz Australian journal of electrical and electronics engineering . 2013,第2期

机译：适用于电力电子主导的微电网的Arctan工频下降
2. MPC-Based Arctan Droop Control Strategy of the Parallel Inverter System in an Islanded AC Microgrid [J] . J. D. D. Iyakaremye, G. N. Nyakoe, C. W. Wekesa Journal of Engineering . 2021,第a期

机译：基于MPC的ARCTAN DROOP控制策略在岛立的AC微电网中的并联逆变器系统
3. Auxiliary signal-assisted droop-based secondary frequency control of inverter-based PV microgrids for improvement in power sharing and system stability [J] . Firdaus Ayesha, Mishra Sukumar Renewable Power Generation, IET . 2019,第13期

机译：基于逆变器的光伏微电网基于信号辅助下垂的次级频率控制，可改善功率共享和系统稳定性
4. Arctan power frequency droop for power electronics dominated microgrids [C] . 20th Australasian Universities Power Engineering Conference . 2010

机译：适用于电力电子主导的微电网的Arctan工频下降
5. Virtual Droop Control framework and stability analyses for microgrids with high penetration of renewables. [D] . Solanki, Ashishkumar K. 2015

机译：虚拟下垂控制框架和对高渗透率可再生能源的微电网进行稳定性分析。
6. An Interoperable Communication Framework for Grid Frequency Regulation Support from Microgrids [O] . Lilia Tightiz, Hyosik Yang, Hassan Bevrani 2021

机译：微电网的网格频率调节支持的可互操作框架
7. MPC-Based Arctan Droop Control Strategy of the Parallel Inverter System in an Islanded AC Microgrid [O] . J. D. D. Iyakaremye, G. N. Nyakoe, C. W. Wekesa 2021

机译：基于MPC的ARCTAN DROOP控制策略在岛立的AC微电网中的并联逆变器系统

Arctan Power–Frequency Droop for Improved Microgrid Stability

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