International Journal of Photoenergy (Jan 2016)

Sliding Mode Real-Time Control of Photovoltaic Systems Using Neural Estimators

  • J. A. Ramos-Hernanz,
  • O. Barambones,
  • J. M. Lopez-Guede,
  • I. Zamora,
  • P. Eguia,
  • M. Farhat

DOI
https://doi.org/10.1155/2016/5214061
Journal volume & issue
Vol. 2016

Abstract

Read online

The maximum power point tracking (MPPT) problem has attracted the attention of many researchers, because it is convenient to obtain the maximum power of a photovoltaic module regardless of the weather conditions and the load. In this paper, a novel control for a boost DC/DC converter has been introduced. It is based on a sliding mode controller (SMC) that takes a current signal as reference instead of a voltage, which is generated by a neuronal reference current generator. That reference current indicates the current (IMPP) at the maximum power point (MPP) for given weather conditions. In order to test the designed control system, a photovoltaic module model based on a second artificial neuronal network (ANN) has been obtained from experimental data gathered during 18 months in the Faculty of Engineering Vitoria-Gasteiz (Spain). We have analyzed the performance of such model and we found that it is very accurate (MSE = 0.062 A and R = 0.991 with test dataset). We also have tested the performance of the overall SMC design with both simulated and real tests, concluding that it guarantees that the power in the output of the converter is very close to the power of the photovoltaic module output.