Novel control algorithm for MPPT with Boost converters in photovoltaic systems

Author:

Ramos-Hernanz JoseanORCID,Lopez-Guede Jose Manuel,Barambones Oscar,Zulueta Ekaitz,Fernandez-Gamiz Unai

Funder

UPV/EHU

European Union Ministry of Turkey

National Agency of Turkey

Publisher

Elsevier BV

Subject

Energy Engineering and Power Technology,Condensed Matter Physics,Fuel Technology,Renewable Energy, Sustainability and the Environment

Reference34 articles.

1. Fuzzy-logic-control approach of a modified hill-climbing method for maximum power point in microgrid standalone photovoltaic system;Alajmi;IEEE Trans Power Electron,2011

2. Maximum power point tracking using fuzzy logic control;Algazar;Int J Electr Power & Energy Syst,2012

3. Self-optimization of photovoltaic system power generation based on sliding mode control;Alqahtani,2012

4. Control Borroso Multivariable Basado en Heurística. Un Caso Práctico: grúa Porta Contenedores;Andújar;Rev Iberoam Automática Inform Ind,2007

5. “Synthesis of loss-free resistors based on sliding-mode control and its applications in power processing”;Cid-Pastor;Control Eng Pract,2013

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