Non-Linear Sliding Mode Controller for Photovoltaic Panels with Maximum Power Point Tracking

In this paper, nonlinear sliding mode control (SMC) techniques formulated for extracting maximum power from a solar photovoltaic (PV) system under variable environmental conditions employing the perturb and observe (P and O) maximum power point tracking (MPPT) technique are discussed. The PV system...

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Tipo de recurso:: Article of journal

Fecha de publicación:: 2020

Institución:: Universidad de Bogotá Jorge Tadeo Lozano

Repositorio:: Expeditio: repositorio UTadeo

Idioma:: eng

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dc.title.spa.fl_str_mv	Non-Linear Sliding Mode Controller for Photovoltaic Panels with Maximum Power Point Tracking
title	Non-Linear Sliding Mode Controller for Photovoltaic Panels with Maximum Power Point Tracking
spellingShingle	Non-Linear Sliding Mode Controller for Photovoltaic Panels with Maximum Power Point Tracking Photovoltaic panel Integer order SMC Maximum power point tracking Células solares Baterías solares Células fotovoltaicas
title_short	Non-Linear Sliding Mode Controller for Photovoltaic Panels with Maximum Power Point Tracking
title_full	Non-Linear Sliding Mode Controller for Photovoltaic Panels with Maximum Power Point Tracking
title_fullStr	Non-Linear Sliding Mode Controller for Photovoltaic Panels with Maximum Power Point Tracking
title_full_unstemmed	Non-Linear Sliding Mode Controller for Photovoltaic Panels with Maximum Power Point Tracking
title_sort	Non-Linear Sliding Mode Controller for Photovoltaic Panels with Maximum Power Point Tracking
dc.subject.spa.fl_str_mv	Photovoltaic panel Integer order SMC Maximum power point tracking
topic	Photovoltaic panel Integer order SMC Maximum power point tracking Células solares Baterías solares Células fotovoltaicas
dc.subject.lemb.spa.fl_str_mv	Células solares Baterías solares Células fotovoltaicas
description	In this paper, nonlinear sliding mode control (SMC) techniques formulated for extracting maximum power from a solar photovoltaic (PV) system under variable environmental conditions employing the perturb and observe (P and O) maximum power point tracking (MPPT) technique are discussed. The PV system is connected with load through the boost converter. A mathematical model of the boost converter is derived first, and based on the derived model, a SMC is formulated to control the gating pulses of the boost converter switch. The closed loop system stability is verified through the Lyapunov stability theorem. The presented control scheme along with the solar PV system is simulated in MATLAB (matric laboratory) (SMC controller and PWM (Pulse Width Modulation) part) and PSIM (Power electronics simulations) (solar PV and MPPT algorithm) environments using the Simcoupler tool. The simulation results of the proposed controller (SMC) are compared with the classical proportional integral derivative (PID) control scheme, keeping system parameters and environmental parameters the same.
publishDate	2020
dc.date.created.none.fl_str_mv	2020
dc.date.accessioned.none.fl_str_mv	2022-07-21T16:08:52Z
dc.date.available.none.fl_str_mv	2022-07-21T16:08:52Z
dc.type.coar.fl_str_mv	http://purl.org/coar/resource_type/c_2df8fbb1
dc.type.local.spa.fl_str_mv	Artículo
dc.type.driver.spa.fl_str_mv	info:eu-repo/semantics/article
dc.type.coar.spa.fl_str_mv	http://purl.org/coar/resource_type/c_6501
format	http://purl.org/coar/resource_type/c_6501
dc.identifier.issn.spa.fl_str_mv	2227-9717
dc.identifier.other.spa.fl_str_mv	https://www.researchgate.net/publication/338618660_Non-Linear_Sliding_Mode_Controller_for_Photovoltaic_Panels_with_Maximum_Power_Point_Tracking
dc.identifier.uri.none.fl_str_mv	http://hdl.handle.net/20.500.12010/27720
dc.identifier.repourl.spa.fl_str_mv	http://expeditiorepositorio.utadeo.edu.co
dc.identifier.doi.spa.fl_str_mv	10.3390/pr8010108
dc.identifier.orcid.spa.fl_str_mv
identifier_str_mv	2227-9717 10.3390/pr8010108
url	https://www.researchgate.net/publication/338618660_Non-Linear_Sliding_Mode_Controller_for_Photovoltaic_Panels_with_Maximum_Power_Point_Tracking http://hdl.handle.net/20.500.12010/27720 http://expeditiorepositorio.utadeo.edu.co
dc.language.iso.spa.fl_str_mv	eng
language	eng
dc.rights.coar.fl_str_mv	http://purl.org/coar/access_right/c_abf2
dc.rights.local.spa.fl_str_mv	Abierto (Texto Completo)
rights_invalid_str_mv	Abierto (Texto Completo) http://purl.org/coar/access_right/c_abf2
dc.format.extent.spa.fl_str_mv	14 páginas
dc.format.mimetype.spa.fl_str_mv	application/pdf
dc.format.rda.spa.fl_str_mv	1 recurso en línea (archivo de texto)
dc.coverage.spatial.spa.fl_str_mv	Colombia
dc.publisher.spa.fl_str_mv	Bogotá : Universidad de Bogotá Jorge Tadeo Lozano, 2020
institution	Universidad de Bogotá Jorge Tadeo Lozano
bitstream.url.fl_str_mv	https://expeditiorepositorio.utadeo.edu.co/bitstream/20.500.12010/27720/3/Captura.PNG https://expeditiorepositorio.utadeo.edu.co/bitstream/20.500.12010/27720/2/license.txt
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repository.name.fl_str_mv	Repositorio Institucional - Universidad Jorge Tadeo Lozano
repository.mail.fl_str_mv	expeditiorepositorio@utadeo.edu.co
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spelling	Colombia2022-07-21T16:08:52Z2022-07-21T16:08:52Z20202227-9717https://www.researchgate.net/publication/338618660_Non-Linear_Sliding_Mode_Controller_for_Photovoltaic_Panels_with_Maximum_Power_Point_Trackinghttp://hdl.handle.net/20.500.12010/27720http://expeditiorepositorio.utadeo.edu.co10.3390/pr8010108In this paper, nonlinear sliding mode control (SMC) techniques formulated for extracting maximum power from a solar photovoltaic (PV) system under variable environmental conditions employing the perturb and observe (P and O) maximum power point tracking (MPPT) technique are discussed. The PV system is connected with load through the boost converter. A mathematical model of the boost converter is derived first, and based on the derived model, a SMC is formulated to control the gating pulses of the boost converter switch. The closed loop system stability is verified through the Lyapunov stability theorem. The presented control scheme along with the solar PV system is simulated in MATLAB (matric laboratory) (SMC controller and PWM (Pulse Width Modulation) part) and PSIM (Power electronics simulations) (solar PV and MPPT algorithm) environments using the Simcoupler tool. The simulation results of the proposed controller (SMC) are compared with the classical proportional integral derivative (PID) control scheme, keeping system parameters and environmental parameters the same.14 páginasapplication/pdf1 recurso en línea (archivo de texto)engBogotá : Universidad de Bogotá Jorge Tadeo Lozano, 2020Photovoltaic panelInteger order SMCMaximum power point trackingCélulas solaresBaterías solaresCélulas fotovoltaicasNon-Linear Sliding Mode Controller for Photovoltaic Panels with Maximum Power Point TrackingArtículoinfo:eu-repo/semantics/articlehttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Abierto (Texto Completo)http://purl.org/coar/access_right/c_abf2Ali, Hina GoharVilanova, RamonHerrera Cuartas, Jorge AurelioTHUMBNAILCaptura.PNGCaptura.PNGImagenimage/png180944https://expeditiorepositorio.utadeo.edu.co/bitstream/20.500.12010/27720/3/Captura.PNGa3174fdb284b916f6ae4346f7a3c148cMD53open accessLICENSElicense.txtlicense.txttext/plain; charset=utf-82938https://expeditiorepositorio.utadeo.edu.co/bitstream/20.500.12010/27720/2/license.txtbaba314677a6b940f072575a13bb6906MD52open access20.500.12010/27720oai:expeditiorepositorio.utadeo.edu.co:20.500.12010/277202022-07-21 11:09:52.036metadata only accessRepositorio Institucional - Universidad Jorge Tadeo Lozanoexpeditiorepositorio@utadeo.edu.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

Non-Linear Sliding Mode Controller for Photovoltaic Panels with Maximum Power Point Tracking

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