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Modeling of Coupled Harmonic Current Source for Grid-Connected Inverters

Shun Tao, Xinyi Zhu, Shaobo Xu, Yonghai Xu

2024IEEE Transactions on Power Electronics11 citationsDOI

Abstract

Power systems are entering the era of high proportions of new energy and power electronic equipment. The interaction between grid background harmonics and grid-connected inverters (GCIs) leads to frequency coupling effect, which results in additional frequency components injecting into the power networks. However, there is limited research on the modeling of harmonic sources based on the frequency coupling effects. Hence, this article, first, analyzes the harmonic response and emission mechanisms of frequency coupling effect caused by <italic xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">dq</i>-axis asymmetric control of GCIs. Then, the transmission process of harmonic components in sampling delay progress, outer loop, inner loop, phase-locked loop, signal modulation module, and filter of the inverter is deduced. Voltage-controlled coupled harmonic current source models are established considering the frequency coupling effect, suitable for harmonic/interharmonic power flow studies of public supply networks. The proposed models are verified by time-domain simulations under different single harmonic and by hardware-in-the-loop simulations under multiple harmonics. Finally, the impacts of the outer loop, inner loop, phase-locked loop and output power, and the characteristics of harmonic admittance are analyzed.

Topics & Concepts

Current (fluid)Current sourceHarmonicElectrical engineeringHarmonic analysisGridElectronic engineeringComputer sciencePhysicsEngineeringAcousticsMathematicsGeometryElectric Motor Design and AnalysisMultilevel Inverters and ConvertersHVDC Systems and Fault Protection
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