An estimated photocurrent controlling the inductance current of DC-DC converter for rapid MPPT pursuit with less oscillations under sudden changes in the PV chain

This paper focuses on simple technique from conventional techniques for the rapid maximum power point (MPP) pursuit with a less oscillations under sudden changes. In investigations, the controllability of the conventional boost converter model shows that the converter can be controlled from the curr...

Full description

Saved in:
Bibliographic Details
Main Authors: Geoffroy Byanpambé, Philippe Djondiné, Guidkaya Golam, Alexis Paldou Yaya, Noel Djongyang
Format: Article
Language:English
Published: Elsevier 2024-11-01
Series:Heliyon
Subjects:
Online Access:http://www.sciencedirect.com/science/article/pii/S2405844024161890
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1846166969523372032
author Geoffroy Byanpambé
Philippe Djondiné
Guidkaya Golam
Alexis Paldou Yaya
Noel Djongyang
author_facet Geoffroy Byanpambé
Philippe Djondiné
Guidkaya Golam
Alexis Paldou Yaya
Noel Djongyang
author_sort Geoffroy Byanpambé
collection DOAJ
description This paper focuses on simple technique from conventional techniques for the rapid maximum power point (MPP) pursuit with a less oscillations under sudden changes. In investigations, the controllability of the conventional boost converter model shows that the converter can be controlled from the current of its inductance (inductor). To get reference current, a conventional technique known as method of short-circuit current has been transformed to clearly establish with supporting evidence an estimated photocurrent. Different test was done on MATLAB/Simulink under irradiance, temperature and load changes. Facing the P&O and short-circuit method, the proposed method presents a response time of 11.08 ms and power variations at MPP around 0.1 Watts. A test made on another converter shows that this method can be applied on DC-DC converters where the inductor current need to be controlled for proper operation.
format Article
id doaj-art-5f25b8870a9b4294ae52ac97be996ee7
institution Kabale University
issn 2405-8440
language English
publishDate 2024-11-01
publisher Elsevier
record_format Article
series Heliyon
spelling doaj-art-5f25b8870a9b4294ae52ac97be996ee72024-11-15T06:14:31ZengElsevierHeliyon2405-84402024-11-011021e40158An estimated photocurrent controlling the inductance current of DC-DC converter for rapid MPPT pursuit with less oscillations under sudden changes in the PV chainGeoffroy Byanpambé0Philippe Djondiné1Guidkaya Golam2Alexis Paldou Yaya3Noel Djongyang4Department of Physics, Faculty of Science, University of Maroua, P.O. Box 46, Maroua, Cameroon; Corresponding author.Department of Physics, Faculty of Science, University of Ngaoundere, P.O. Box 454, Ngaoundere, Cameroon; Department of Physics, Higher Teacher Training College, University of Bertoua, P.O. Box 416, Bertoua, CameroonDepartment of Physics, Faculty of Science, University of Ngaoundere, P.O. Box 454, Ngaoundere, CameroonDepartment of Physics, Faculty of Science, University of Maroua, P.O. Box 46, Maroua, Cameroon; Laboratory of Applied Physics and Engineering, Department of Materials Engineering and Natural Resources Valorization, Avanced School of Mines Processing and Energy Resources, University of Bertoua, P.O. Box 416, Bertoua, CameroonDepartment of Renewable Energy, National Advanced School of Engineering, University of Maroua, P.O. Box 46, Maroua, CameroonThis paper focuses on simple technique from conventional techniques for the rapid maximum power point (MPP) pursuit with a less oscillations under sudden changes. In investigations, the controllability of the conventional boost converter model shows that the converter can be controlled from the current of its inductance (inductor). To get reference current, a conventional technique known as method of short-circuit current has been transformed to clearly establish with supporting evidence an estimated photocurrent. Different test was done on MATLAB/Simulink under irradiance, temperature and load changes. Facing the P&O and short-circuit method, the proposed method presents a response time of 11.08 ms and power variations at MPP around 0.1 Watts. A test made on another converter shows that this method can be applied on DC-DC converters where the inductor current need to be controlled for proper operation.http://www.sciencedirect.com/science/article/pii/S2405844024161890Energy efficiencyMaximum power pointCurrent controlled voltage sourceEstimated photocurrent
spellingShingle Geoffroy Byanpambé
Philippe Djondiné
Guidkaya Golam
Alexis Paldou Yaya
Noel Djongyang
An estimated photocurrent controlling the inductance current of DC-DC converter for rapid MPPT pursuit with less oscillations under sudden changes in the PV chain
Heliyon
Energy efficiency
Maximum power point
Current controlled voltage source
Estimated photocurrent
title An estimated photocurrent controlling the inductance current of DC-DC converter for rapid MPPT pursuit with less oscillations under sudden changes in the PV chain
title_full An estimated photocurrent controlling the inductance current of DC-DC converter for rapid MPPT pursuit with less oscillations under sudden changes in the PV chain
title_fullStr An estimated photocurrent controlling the inductance current of DC-DC converter for rapid MPPT pursuit with less oscillations under sudden changes in the PV chain
title_full_unstemmed An estimated photocurrent controlling the inductance current of DC-DC converter for rapid MPPT pursuit with less oscillations under sudden changes in the PV chain
title_short An estimated photocurrent controlling the inductance current of DC-DC converter for rapid MPPT pursuit with less oscillations under sudden changes in the PV chain
title_sort estimated photocurrent controlling the inductance current of dc dc converter for rapid mppt pursuit with less oscillations under sudden changes in the pv chain
topic Energy efficiency
Maximum power point
Current controlled voltage source
Estimated photocurrent
url http://www.sciencedirect.com/science/article/pii/S2405844024161890
work_keys_str_mv AT geoffroybyanpambe anestimatedphotocurrentcontrollingtheinductancecurrentofdcdcconverterforrapidmpptpursuitwithlessoscillationsundersuddenchangesinthepvchain
AT philippedjondine anestimatedphotocurrentcontrollingtheinductancecurrentofdcdcconverterforrapidmpptpursuitwithlessoscillationsundersuddenchangesinthepvchain
AT guidkayagolam anestimatedphotocurrentcontrollingtheinductancecurrentofdcdcconverterforrapidmpptpursuitwithlessoscillationsundersuddenchangesinthepvchain
AT alexispaldouyaya anestimatedphotocurrentcontrollingtheinductancecurrentofdcdcconverterforrapidmpptpursuitwithlessoscillationsundersuddenchangesinthepvchain
AT noeldjongyang anestimatedphotocurrentcontrollingtheinductancecurrentofdcdcconverterforrapidmpptpursuitwithlessoscillationsundersuddenchangesinthepvchain
AT geoffroybyanpambe estimatedphotocurrentcontrollingtheinductancecurrentofdcdcconverterforrapidmpptpursuitwithlessoscillationsundersuddenchangesinthepvchain
AT philippedjondine estimatedphotocurrentcontrollingtheinductancecurrentofdcdcconverterforrapidmpptpursuitwithlessoscillationsundersuddenchangesinthepvchain
AT guidkayagolam estimatedphotocurrentcontrollingtheinductancecurrentofdcdcconverterforrapidmpptpursuitwithlessoscillationsundersuddenchangesinthepvchain
AT alexispaldouyaya estimatedphotocurrentcontrollingtheinductancecurrentofdcdcconverterforrapidmpptpursuitwithlessoscillationsundersuddenchangesinthepvchain
AT noeldjongyang estimatedphotocurrentcontrollingtheinductancecurrentofdcdcconverterforrapidmpptpursuitwithlessoscillationsundersuddenchangesinthepvchain