Litcius/Paper detail

Nonlinear Control and Internal Stability Analysis of Series-Connected Boost DC/DC Converters in PV Systems With Distributed MPPT

Diego R. Espinoza-Trejo, Shamsodin Taheri, José Luis Pérez Saavedra, Patricia Vázquez, Cristian H. De Angelo, José Ángel Pecina-Sánchez

2020IEEE Journal of Photovoltaics28 citationsDOI

Abstract

Distributed maximum power point tracking photovoltaic (PV) systems based on series-connected dc/dc converters are one of the most promising PV configurations for an enhanced security and efficiency in distributed generation systems. Most of the works reported so far in the literature for control and stability analysis of these configurations are based on small-signal ac models. This could be a significant limitation, as this kind of linearization produces a good approximation of the nonlinear model of series-connected dc/dc converters only at the operating point. However, PV systems must be controlled for a large set of operating points with a satisfactory performance and robustness. Moreover, stability analysis of series-connected dc/dc converters has not yet been widely discussed in previous research. Therefore, this article presents a nonlinear model of series-connected boost dc/dc converters and develops control and stability analysis to fill the gap in this emerging topic. A systematic experimental and numerical investigation is performed in order to validate the effectiveness of the proposed control approach in this study.

Topics & Concepts

ConvertersPhotovoltaic systemControl theory (sociology)Maximum power point trackingLinearizationRobustness (evolution)Computer scienceNonlinear systemOperating pointPower optimizerPower (physics)Electronic engineeringEngineeringControl (management)Electrical engineeringPhysicsArtificial intelligenceInverterQuantum mechanicsBiochemistryGeneChemistryPhotovoltaic System Optimization TechniquesAdvanced DC-DC ConvertersMicrogrid Control and Optimization