R. Ramaprabha scite author profile

The aim of this paper is to investigate the effects of partial shading on energy output of different Solar Photovoltaic Array (SPVA) configurations and to mitigate the losses faced in Solar Photovoltaic (SPV) systems by incorporating bypass diodes. Owing to the practical difficulty of conducting experiments on varied array sizes, a generalized MATLAB M-code has been developed for any required array size, configuration, shading patterns, and number of bypass diodes. The proposed model which also includes the insolation-dependent shunt resistance can provide sufficient degree of precision without increasing the computational effort. All the configurations have been analyzed and comparative study is made for different random shading patterns to determine the configuration less susceptible to power losses under partial shading. Inferences have been drawn by testing several shading scenarios.

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Effect of Shading on Series and Parallel Connected Solar PV Modules

Ramaprabha¹,

Mathur²

2009

MAS

106

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The aim of this study is to investigate the harmful effects of partial shading of series and parallel connected Solar PV modules and compare their performance. In order to find which connection is less susceptible to partial shading effects, a PSPICE simulation model that represents 36 cells PV module under partial shaded conditions has been used to test several shading profiles and results are presented.

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Maximum power point tracking using GA-optimized artificial neural network for Solar PV system

Ramaprabha¹,

Gothandaraman²,

Kanimozhi³

et al. 2011

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Maximum power point tracking of partially shaded solar PV system using modified Fibonacci search method with fuzzy controller

Ramaprabha¹,

Balaji²,

Mathur³

2012

International Journal of Electrical Power & Energy Systems

106

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Reconfiguration strategies to extract maximum power from photovoltaic array under partially shaded conditions

Malathy¹,

Ramaprabha²

2018

Renewable and Sustainable Energy Reviews

139

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R. Ramaprabha

A Comprehensive Review and Analysis of Solar Photovoltaic Array Configurations under Partial Shaded Conditions

Effect of Shading on Series and Parallel Connected Solar PV Modules

Maximum power point tracking using GA-optimized artificial neural network for Solar PV system

Maximum power point tracking of partially shaded solar PV system using modified Fibonacci search method with fuzzy controller

Reconfiguration strategies to extract maximum power from photovoltaic array under partially shaded conditions

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