This work describes a new simple and effective method to extract the loss parameters of solar panels (solar cells) and able to accurately represent their electrical behavior. This approach allows the extraction of the parameters of the single diode model using only the information provided by the manufacturer's data sheet. The proposed method presents a computational procedure of low complexity, which makes it possible to estimate the five parameters of any photovoltaic generator. Using the complete equation of the single diode model, the number of parameters to be calculated is reduced only to two parameters by an equation exclusively connecting the series resistance and the diode current. Suitable validations on important case studies are presented; an experimental data from multicrystalline MSX120 and thin film NA-F135 solar panels were used to test the single diode model with the extracted parameters. The experimental data are first collected at the same temperature at two different irradiances levels and at low irradiance level at a fixed temperature for MSX120. In the second stage, variations in temperature are considered at different irradiance level for NA-F135. The extraction results show that the I–V curves accurately fit the entire range of the experimental data. In addition, the results of the proposed procedure are compared to the most recent proposed techniques in literature. Furthermore, the results obtained show a highly accurate; in particular, at maximum power point (MPP), the error is always less than 0.005%, which is quite far of the authorized error of 1%.
Issue Section:
Research Papers
References
1.
Laudani
, A.
, Fulginei, F.
R.
, and Salvini
, A.
, 2014
, “Identification of the One-Diode Model for Photovoltaic Modules From Datasheet Values
,” Sol. Energy
, 108
(20), pp. 432
–446
.2.
Lim
, L. H. I.
, Ye
, Z. Y. J.
, Yang
, D.
, and Du
, H.
, 2015
, “A Linear Method to Extract Diode Model Parameters of Solar Panels From a Single I–V Curve
,” Renewable Energy.
, 76
(48), pp. 135
–142
.3.
Haouari-Merbaha
, M.
, Belhamel
, M.
, Tobías
, I.
, and Ruiz, J.
M.
, 2005
, “Extraction and Analysis of Solar Cell Parameters From the Illuminated Current–Voltage Curve
,” Sol. Energy Mater. Sol. Cells
, 87
(1–4), pp. 225
–233
.4.
Ortiz-Conde
, A.
, García Sánchez, F.
J.
, and Muci
, J.
, 2006
, “New Method to Extract the Model Parameters of Solar Cells From the Explicit Analytic Solutions of Their Illuminated I–V Characteristics
,” Sol. Energy Mater. Sol. Cells
, 90
(3), pp. 352
–361
.5.
Priyanka
, M. L.
, and Singh
, S. N.
, 2007
, “A New Method of Determination of Series and Shunt Resistances of Silicon Solar Cells
,” Sol. Energy Mater. Sol. Cells
, 91
(2–3), pp. 137
–142
.6.
Ouennoughi
, Z.
, and Chegaar
, M.
, 1999
, “A Simpler Method for Extracting Solar Cell Parameters Using the Conductance Method
,” Solid-State Electron.
, 43
(11), pp. 1985
–1988
.7.
Thongpron
, J.
, Kirtikara
, K.
, and Jivacate
, C.
, 2006
, “A Method for the Determination of Dynamic Resistance of Photovoltaic Modules Under Illumination
,” Sol. Energy Mater. Sol. Cells
, 90
(18–19), pp. 3078
–3084
.8.
Araki
, K.
, and Yamaguchi
, M.
, 2003
, “Novel Equivalent Circuit Model and Statistical Analysis in Parameters Identification
,” Sol. Energy Mater. Sol. Cells
, 75
(3–4), pp. 457
–466
.9.
Chan
, D.
, Phillips
, J.
, and Phang
, J. A.
, 1986
, “Comparative Study of Extraction Methods for Solar Cell Model Parameters
,” Solid-State Electron.
, 29
(3), pp. 329
–337
.10.
Khan
, F.
, Baek
, S. H.
, and Kim
, J. H.
, 2014
, “Intensity Dependency of Photovoltaic Cell Parameters Under High Illumination Conditions: An Analysis
,” Appl. Energy
, 133
(12), pp. 356
–362
.11.
Macabebe
, E. Q. B.
, and van Dyk
, E. E.
, 2008
, “Parameter Extraction From Dark Current–Voltage Characteristics of Solar Cells
,” S. Afr. J. Sci.
, 104
(9–10), pp. 401
–404
.http://www.scielo.org.za/scielo.php?script=sci_arttext&pid=S0038-2353200800050001712.
Dib
, S.
, De La Bardonnie
, M.
, Khoury
, A.
, Pelanchon
, F.
, and Mialhe
, P.
, 2000
, “A New Method for the Extraction of Diode Parameters Using a Single Exponential Model
,” Act. Passive Electron. Compon.
, 22
(3), pp. 157
–163
.13.
Giuseppina
, C.
, Brano Valerio
, L.
, and Dio Vincenzo
, D.
, 2014
, “A Comparison of Different One-Diode Models for the Representation of I–V Characteristic of a PV Cell
,” Renewable Sustainable Energy Rev.
, 32
(21), pp. 684
–696
.14.
Khatib
, T.
, Kamaruzzaman
, S.
, and Kazem, H
, A.
, 2013
, “Actual Performance and Characteristic of a Grid Connected Photovoltaic Power System in the Tropics: A Short-Term Evaluation
,” Energy Convers. Manage.
, 71
(12), pp. 115
–119
.15.
Vishnoi
, A.
, Gopal
, R.
, Dwivedi
, R.
, and Srivastava, S
, K.
, 1993
, “Distributed Parameter Analysis of Dark I–V Characteristics of the Solar Cell Estimation of Equivalent Lumped Series Resistance and Diode Quality Factor
,” IEEE Proc. Circuits Devices Syst.
, 140
(3
), pp. 155
–164
.16.
Naci Celik
, A.
, and Acikgoz
, N.
, 2007
, “Modelling and Experimental Verification of the Operating Current of mono Crystalline Photovoltaic Modules Using Four and Five-para Meter Models
,” Appl. Energy
, 84
(1), pp. 1
–15
.17.
Akbaba
, M.
, and Alattawi
, M. A.
, 1995
, “A New Model for I–V Characteristic of Solar Cell Generators and Its Applications
,” Sol. Energy Mater. Sol. Cells
, 37
(2), pp. 123
–132
.18.
de Blas
, M. A.
, Torres
, J. L.
,, Prieto
, E.
, and Garcı´a
, A.
, 2002
, “Selecting a Suitable Model for Characterizing Photovoltaic Devices
,” Renewable Energy
, 25
(3
), pp. 371
–380
.19.
Polman
, A.
, and Van Sark
, 1986
, “A New Method for the Evaluation of Solar Cell Parameters
,” Sol. Cells
, 17
(2–3), pp. 241
–251
.20.
van Dyk
, E. E.
, and Meyer
, E. L.
, 2004
, “Analysis of the Effect of Parasitic Resistances on the Performance of Photovoltaic Modules
,” Renewable Energy
, 29
(3), pp. 333
–344
.21.
Ye
, M.
, Wang
, X.
, and Xu
, Y.
, 2009
, “Parameter Extraction of Solar Cells Using Particle Swarm Optimization
,” J. Appl. Phys.
, 105
(9), p. 094502
.22.
Sellami
, A.
, and Bouaïcha
, M.
, 2011
, “Application of the Genetic Algorithms for Identifying the Electrical Parameters of PV Solar Generators
,” Solar Cells-Silicon Wafer-Based Technologies
, InTech, Rijeka, Croatia, pp. 349
–364
.23.
Ishaque
, K.
, Salam
, Z.
, Mekhilef
, S.
, and Shamsudin
, A.
, 2012
, “Parameter Extraction of Solar Photovoltaic Modules Using Penalty-Based Differential Evolution
,” Appl. Energy
, 99
, pp. 297
–308
.24.
Xiaofang
, Y.
, and Yongzhong
, X.
, 2014
, “Parameter Extraction of Solar Cell Models Using Mutative-Scale Parallel Chaos Optimization Algorithm
,” Sol. Energy
, 108
, pp. 238
–251
.25.
Hamid
, N. F. A.
, Abd Rahim
, N.
, and Selvaraj
, J.
, 2016
, “Solar Cell Parameters Identification Using Hybrid Nelder-Mead and Modified Particle Swarm Optimization
,” Renewable Sustainable Energy
, 8
(1), p. 015502
.26.
Carrero
, C.
, Ramírez
, D.
, and Rodríguez
, J.
, 2011
, “Accurate and Fast Convergence Method for Parameter Estimation of PV Generators Based on Three Main Points of the I–V Curve
,” Renewable Energy
, 36
(11), pp. 2972
–2977
.27.
Aldo
, O.
, and Alessandra
, D. G.
, 2013
, “A Procedure to Calculate the Five-Parameter Model of Crystalline Silicon Photovoltaic Modules on the Basis of the Tabular Performance Data
,” Appl. Energy
, 102
(119), pp. 1160
–1177
.28.
Tong
, N. T.
, and Wanchalerm
, P.
, 2016
, “A Parameter Extraction Technique Exploiting Intrinsic Properties of Solar Cells
,” Appl. Energy
, 176
, pp. 104
–115
.29.
Oliva
, D.
, Abd El Aziz
, M.
, and Hassanien, A
, E.
, 2017
, “Parameter Estimation of Photovoltaic Cells Using an Improved Chaotic Whale Optimization Algorithm
,” Appl. Energy
, 200
, pp. 141
–154
.30.
Carrero
, C.
, Rodríguez
, J.
, Ramírez
, D.
, and Platero
, C.
, 2010
, “Simple Estimation of PV Modules Loss Resistances for Low Error Modeling
,” Renewable Energy
, 35
(5), pp. 1103
–1108
.31.
AlHajri
, M. F.
, El-Naggar, K
, M.
, AlRashidi, M
, R.
, and Al-Othman, A
, K.
, 2012
, “Optimal Extraction of Solar Cell Parameters Using Pattern Search
,” Renewable Energy
, 44
, pp. 238
–245
.32.
El-Naggar
, K. M.
, and AlRashidi
, M. R.
, 2012
, “Simulated Annealing Algorithm for Photovoltaic Parameters Identification
,” Sol. Energy
, 86
(1), pp. 266
–274
.33.
Nezihe
, Y.
, and Emin
, T.
, 2016
, “Identification of Photovoltaic Cell Single Diode Discrete Model Parameters Based on Datasheet Values
,” Sol. Energy
, 127
, pp. 175
–183
.34.
Humada
, A. M.
, Hojabri
, M.
, and Mekhilef
, S.
, 2016
, “Solar Cell Parameters Extraction Based on Single and Double-Diode Models: A Review
,” Renew Sustainable Energy Rev.
, 56
, pp. 494
–509
.35.
Cubas
, J.
, Pindado
, S.
, and Victoria
, M.
, 2014
, “On the Analytical Approach for Modeling Photovoltaic Systems Behavior
,” J. Power Sources
, 247
, pp. 467
–474
.36.
Easwarakhanthan
, T.
, Bottin
, J.
, and Bouhouch
, I.
, 1986
, “Nonlinear Minimization Algorithm for Determining the Solar Cell Parameters With Microcomputers
,” Int. J. Sol. Energy
, 4
(1), pp. 1
–12
.Copyright © 2018 by ASME
You do not currently have access to this content.
