Current distortion around grid zero-volt crossing and open-loop power factor in flyback AC module with a pseudo-DC link

2015 International Conference on Smart Grid and Clean Energy Technologies (ICSGCE) Pub Date : 2015-10-01 DOI:10.1109/ICSGCE.2015.7454266

Edwin Fonkwe, J. Kirtley

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引用次数: 2

Abstract

AC modules or micro-inverters (MIC) have increasing importance in photovoltaic (PV) systems. This paper examines two issues with the flyback micro-inverter having a current-unfolding module or pseudo-dc link (FMICpseudo-dc). In one part, a theoretical analysis is proposed to explain the distortion of the grid-injected current around the grid voltage zero-crossings. It is argued that some distortion is inevitable. It is also shown that using a synchronous rectifier does not eliminate the zero-crossing distortion. However, it allows for reactive power injection. In another part an equivalent circuit and mathematical analysis are developed to predict the open loop displacement power factor of the FMICpseudo-dc operating in discontinuous conduction mode (DCM). It is shown that the power factor depends essentially on capacitor filter design while the inductor filter has little effect. To support the theoretical analysis, simulation and experimental results are provided for a digitally-controlled prototype.

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带伪直流链路的反激交流模块中电网零伏交叉电流畸变及开环功率因数

交流模块或微型逆变器(MIC)在光伏(PV)系统中越来越重要。本文研究了具有电流展开模块或伪直流链路(FMICpseudo-dc)的反激微逆变器的两个问题。第一部分对电网注入电流在电网电压过零处的畸变进行了理论分析。有人认为，一些扭曲是不可避免的。同时表明，采用同步整流器并不能消除过零失真。然而，它允许无功功率注入。在另一部分中，建立了等效电路和数学分析来预测工作在断续导通模式(DCM)下的fmic伪直流电动机的开环位移功率因数。结果表明，功率因数主要取决于电容滤波器的设计，而电感滤波器对功率因数的影响不大。为了支持理论分析，给出了数控样机的仿真和实验结果。

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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2015 International Conference on Smart Grid and Clean Energy Technologies (ICSGCE)

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