Harmonic linear time invariant modeling of grid-connected parallel inverters-based microgrids

2017 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC) Pub Date : 2017-11-01 DOI:10.1109/ROPEC.2017.8261634

J. Hernández-Ramírez, J. Segundo, F. Martínez-Cárdenas, E. Barocio

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引用次数: 2

Abstract

Modern power systems with high penetration of renewable energies, such as wind and photovoltaic (PV), commonly experiment harmonic issues and in some cases this power quality problem leads to instability. To understand and study this phenomenon, small-signal models have been proposed; however, most of these models neglect the harmonic cross-coupling and the harmonics themselves. Consequently, the harmonic interaction among controllers, network elements, loads, and power electronic converters is overlooked. This paper presents two approaches to obtain the small-signal model of a grid-connected AC microgrid constituted by multiple parallel three-phase inverters; one approach is analytical and the another is numerical. The extended harmonic domain (EHD) is used as frame of reference for the proposed small-signal models since it retains the harmonic cross-coupling among all the harmonic components, and transforms a linear periodic time-varying system into a linear time invariant (LTI) system allowing the straightforward use of LTI tools.

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并网并联逆变器微电网的谐波线性时不变建模

可再生能源(如风能和光伏)高渗透率的现代电力系统通常会出现谐波问题，在某些情况下，这种电能质量问题会导致不稳定。为了理解和研究这一现象，人们提出了小信号模型;然而，这些模型大多忽略了谐波交叉耦合和谐波本身。因此，控制器、网元、负载和电力电子变流器之间的谐波相互作用被忽略了。本文提出了两种获取由多个并联三相逆变器组成的并网交流微电网小信号模型的方法;一种方法是解析的，另一种是数值的。扩展谐波域(EHD)被用作所提出的小信号模型的参考框架，因为它保留了所有谐波分量之间的谐波交叉耦合，并将线性周期时变系统转换为线性时不变(LTI)系统，允许直接使用LTI工具。

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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2017 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC)

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