Influence of Magnetic Field on Electrical Model and Electrical Parameters of a Solar Cell under Intense Multispectral Illumination

Influence of Magnetic Field on Electrical Model and Electrical Parameters of a Solar Cell under Intense Multispectral Illumination

mbodji senghane

Contact

Dr. F. Toure

Contact

M. Zoungrana

Contact

B. Zouma

Contact

S. Mbodji

Contact

S. Gueye

Contact

A. Diao

Contact

G. Sissoko

Contact

Cheikh Anta Diop University

Influence of Magnetic Field on Electrical Model and Electrical Parameters of a Solar Cell under Intense Multispectral Illumination

Article Fingerprint

ReserarchID

SFR6ZWNZ

Influence of Magnetic Field on Electrical Model and Electrical Parameters of a Solar Cell under Intense Multispectral Illumination Banner

AI TAKEAWAY

Connecting with the Eternal Ground

Abstract

In this work we present a 3D modeling of the magnetic field influence on electrical model and electrical parameters (J ph , V ph , R s , R sh , C) of a polycrystalline silicon solar cell under intense multispectral illumination. For intense light, the electric field in the base of the solar cell has to be considered; taking into account this electric field and the applied magnetic field in our model lead to two major things: Firstly, new analytical expressions of the continuity equation, the photocurrent and the photovoltage are proposed; secondly an equivalent electrical model of the solar cell under constant magnetic field is proposed and the influence of the magnetic field is pointed out on electrical parameters such as shunt and series resistances and space charge capacitance.

References

22 Cites in Article

Reference Format

Bernard Equer (1993). L'électricité solaire photovoltaïque : présent et futur.
A Rocher (1987). Origine structurale et chimique de l'activité des joints de grain dans le silicium.
Jean-Pierre Charles,Ahmed Haddi,Alain Maouad,Hazri Bakhtiar,Abdellatif Zerga,Alain Hoffmann,Pierre Mialhe (2000). La Jonction du Solaire à la Microélectronique.
B Zouma,A S Maiga,M Dieng,F Zougmoré,G Sissoko (2009). 3D approach of spectral response for a bifacial silicon solar cell under a constant magnetic field.
U Freyer (1994). Nachrichten-Uebertragungstechnik.
F Pelanchon,C Sudre,Y Moreau (1992). Solar Cells Under Intense Light Concentration: Numerical and Analytical Approaches.
B Ba,M Kane,J Sarr (2003). Modelling recombination current in polysilicon solar cell grain boundaries.
M Zoungrana,I Ly,B Zouma,F Barro,G Sissoko (2007). Effect of magnetic field and base depth on excess minority carrier generation.
S Mohammad (1987). an alternative method for the performance analysis of silicon solar cells.
Y Betser,D Ritter,G Bahir,S Cohen,J Sperling (1994). Measurement of the minority carrier mobility in the base of heterojunction bipolar 11. J. Dugas, "3D modelling of a reverse cell made with improved multicrystalline silicon wafers.
B Thuillier (2004). Partie I. Présentation et fonctionnement des cellules solaires standard en silicium massif.
J Asensi,C Voz,J Merten,J Andreu (1998). Shortcircuit resistance a-Si:HP-I-N solar cells: the link with the electronic properties of the active layer.
G Sissoko,B Dieng,A Corréa,M Adj,D Azilinon (1998). Silicon solar cell space charge region width determination by a study in modelling.
A Dieng,I Zerbo,M Wade,A Maiga,G Sissoko (2011). Three-dimensional study of a polycrystalline silicon solar cell: the influence of the applied magnetic field on the electrical parameters.
Serafettin Erel (2002). The effect of electric and magnetic fields on the operation of a photovoltaic cell.
K Kotsovos,K Misiakos (2006). Base limited carrier transport and performance of double junction rear point contact silicon solar cells.
G Sissoko,A Corréa,E Nanéma,M Diarra,A Ndiaye,M Adj (1998). Recombination parameters measurement in silicon double sided surface field solar cell.
C Garrido,D Stolik,J Rodriguez,A Morales (1999). Influence of carrier recombination in the space charge region on minority carrier lifetime in the base region of solar cells.
G Sissoko,E Nanéma,A Corréa,P Biteye,M Adj,A Ndiaye (1998). Silicon solar cell recombination parameters determination using the illuminated I-V characteristic.
S Correia,J Lossen,M Bähr (2006). Eliminating shunts from industrial silicon solar cells by spatially resolved analysis.
N Philips (1966). Practical electronics.
G Sissoko,B Dieng,A Corréa,M Adj,M Adj,D Azilinon (1998). Silicon solar cell space charge width determination by study in modelling.

Download References

Funding

No external funding was declared for this work.

Conflict of Interest

The authors declare no conflict of interest.

Ethical Approval

No ethics committee approval was required for this article type.

Data Availability

Not applicable for this article.

How to Cite This Article

mbodji senghane. 2012. \u201cInfluence of Magnetic Field on Electrical Model and Electrical Parameters of a Solar Cell under Intense Multispectral Illumination\u201d. Global Journal of Science Frontier Research - A: Physics & Space Science GJSFR-A Volume 12 (GJSFR Volume 12 Issue A6): .

More Citation Formats

Select Citation Style:

Download Citation

Download Article

GJSFR Volume 12 Issue A6
Pg. 51- 60

Explore Journals Explore Volume Read This Issue

Journal Specifications

Crossref Journal DOI 10.17406/GJSFR

Print ISSN 0975-5896

e-ISSN 2249-4626

Keywords

1-Magnetic field 2- Shunt Resistance 3- Series Résistance 4- SCR capacitance

Submission ReceivedAugust 5, 2012
Peer Review Double Blind
Handling Editor
Accepted September 1, 2012
Published September 12, 2012

Version of record

v1.2

Issue date

September 22, 2012

Language

Experiance in AR

Explore published articles in an immersive Augmented Reality environment. Our platform converts research papers into interactive 3D books, allowing readers to view and interact with content using AR and VR compatible devices.

View in VR

Read in 3D

Your published article is automatically converted into a realistic 3D book. Flip through pages and read research papers in a more engaging and interactive format.

View in 3D

Article Matrices

Total Score: 112

Country: Senegal

Subject: Global Journal of Science Frontier Research - A: Physics & Space Science

Authors: Dr. F. Toure, M. Zoungrana, B. Zouma, S. Mbodji, S. Gueye, A. Diao, G. Sissoko (PhD/Dr. count: 1)

View Count (all-time): 130

Total Views (Real + Logic): 5147

Total Downloads (simulated): 2584

Publish Date: 2012 09, Sat

Monthly Totals (Real + Logic):

Month 1: 46 views
Month 2: 25 views
Month 3: 56 views
Month 4: 29 views
Month 5: 56 views
Month 6: 41 views
Month 7: 23 views
Month 8: 43 views
Month 9: 21 views
Month 10: 41 views
Month 11: 34 views
Month 12: 38 views
Month 13: 26 views
Month 14: 18 views
Month 15: 16 views
Month 16: 34 views
Month 17: 29 views
Month 18: 17 views
Month 19: 28 views
Month 20: 38 views
Month 21: 35 views
Month 22: 36 views
Month 23: 38 views
Month 24: 34 views
Month 25: 28 views
Month 26: 22 views
Month 27: 29 views
Month 28: 47 views
Month 29: 24 views
Month 30: 27 views
Month 31: 19 views
Month 32: 28 views
Month 33: 32 views
Month 34: 39 views
Month 35: 19 views
Month 36: 14 views
Month 37: 38 views
Month 38: 23 views
Month 39: 37 views
Month 40: 25 views
Month 41: 25 views
Month 42: 24 views
Month 43: 29 views
Month 44: 23 views
Month 45: 18 views
Month 46: 49 views
Month 47: 22 views
Month 48: 24 views
Month 49: 23 views
Month 50: 30 views
Month 51: 17 views
Month 52: 36 views
Month 53: 10 views
Month 54: 27 views
Month 55: 18 views
Month 56: 26 views
Month 57: 28 views
Month 58: 37 views
Month 59: 22 views
Month 60: 26 views
Month 61: 40 views
Month 62: 28 views
Month 63: 30 views
Month 64: 32 views
Month 65: 27 views
Month 66: 40 views
Month 67: 32 views
Month 68: 36 views
Month 69: 31 views
Month 70: 43 views
Month 71: 25 views
Month 72: 26 views
Month 73: 24 views
Month 74: 35 views
Month 75: 17 views
Month 76: 30 views
Month 77: 21 views
Month 78: 30 views
Month 79: 45 views
Month 80: 17 views
Month 81: 29 views
Month 82: 22 views
Month 83: 31 views
Month 84: 34 views
Month 85: 22 views
Month 86: 29 views
Month 87: 33 views
Month 88: 27 views
Month 89: 24 views
Month 90: 32 views
Month 91: 42 views
Month 92: 18 views
Month 93: 19 views
Month 94: 30 views
Month 95: 41 views
Month 96: 11 views
Month 97: 21 views
Month 98: 18 views
Month 99: 40 views
Month 100: 38 views
Month 101: 28 views
Month 102: 27 views
Month 103: 39 views
Month 104: 20 views
Month 105: 18 views
Month 106: 28 views
Month 107: 42 views
Month 108: 34 views
Month 109: 44 views
Month 110: 43 views
Month 111: 34 views
Month 112: 41 views
Month 113: 47 views
Month 114: 29 views
Month 115: 34 views
Month 116: 42 views
Month 117: 31 views
Month 118: 25 views
Month 119: 34 views
Month 120: 48 views
Month 121: 20 views
Month 122: 27 views
Month 123: 42 views
Month 124: 36 views
Month 125: 34 views
Month 126: 26 views
Month 127: 34 views
Month 128: 37 views
Month 129: 29 views
Month 130: 17 views
Month 131: 23 views
Month 132: 33 views
Month 133: 31 views
Month 134: 32 views
Month 135: 34 views
Month 136: 26 views
Month 137: 40 views
Month 138: 39 views
Month 139: 37 views
Month 140: 31 views
Month 141: 41 views
Month 142: 43 views
Month 143: 12 views
Month 144: 29 views
Month 145: 21 views
Month 146: 35 views
Month 147: 32 views
Month 148: 36 views
Month 149: 34 views
Month 150: 40 views
Month 151: 30 views
Month 152: 42 views
Month 153: 29 views
Month 154: 41 views
Month 155: 36 views
Month 156: 33 views
Month 157: 31 views
Month 158: 42 views
Month 159: 28 views
Month 160: 27 views
Month 161: 23 views
Month 162: 34 views
Month 163: 55 views
Month 164: 32 views

Total Views: 5147

Total Downloads: 2584

2026 Trends

Published Article

Our website is actively being updated, and changes may occur frequently. Please clear your browser cache if needed. For feedback or error reporting, please email [email protected]