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A fully reconfigurable series-parallel photovoltaic module for higher energy yields in urban environments

Andres Calcabrini, Mirco Muttillo, Raoul Weegink, Patrizio Manganiello, Miro Zeman, Olindo Isabella

2021Renewable Energy40 citationsDOIOpen Access PDF

Abstract

Photovoltaic modules in the urban environment are very often exposed to uneven illumination conditions. The electrical interconnection between solar cells in a photovoltaic module limits the power that a solar module can generate under partial shading conditions. In this article, we introduce a PV module that is able to dynamically reconfigure the interconnection between its solar cells to minimise conduction and mismatch losses according to the irradiance distribution on its surface. Using an accurate simulation framework, it is determined that a reconfigurable PV module can generate over 12% more energy than a standard PV module with fixed topology and six bypass diodes, and as much energy as a fixed series-parallel module with six parallel strings, but at significantly lower currents. Simulation results are validated experimentally using a photovoltaic module with six reconfigurable blocks of cells controlled by a switching matrix on a high-performance solar flash simulator.

Topics & Concepts

Photovoltaic systemSeries (stratigraphy)Energy (signal processing)Computer scienceSeries and parallel circuitsEnvironmental scienceEngineering physicsElectrical engineeringEngineeringMathematicsGeologyStatisticsVoltagePaleontologyPhotovoltaic System Optimization Techniquessolar cell performance optimizationSolar Thermal and Photovoltaic Systems
A fully reconfigurable series-parallel photovoltaic module for higher energy yields in urban environments | Litcius