[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5573/JSTS.2015.15.5.577

Correlation between Reverse Voltage Characteristics and Bypass Diode Operation with Different Shading Conditions for c-Si Photovoltaic Module Package

Lim, Jong-Rok (Department of Electrical Engineering Konkuk University)
Min, YongKi (Department of Electrical Engineering Konkuk University)
Jung, Tae-Hee (Korea Institute of Energy Research (KIER))
Ahn, Jae-Hyun (Department of Electrical Engineering Konkuk University)
Ahn, Hyung-Keun (Department of Electrical Engineering Konkuk University)

Publication Information

JSTS:Journal of Semiconductor Technology and Science / v.15, no.5, 2015 , pp. 577-584 More about this Journal

Abstract

A photovoltaic (PV) system generates electricity by installing a solar energy array; therefore, the photovoltaic system can be easily exposed to external factors, which include environmental factors such as temperature, humidity, and radiation. These factors-as well as shading, in particular-lead to power degradation. When there is an output loss in the solar cell of a PV module package, the output loss is partly controlled by the bypass diode. As solar cells become highly efficient, the characteristics of series resistance and parallel resistance improve, and the characteristics of reverse voltage change. A bypass diode is connected in parallel to the string that is connected in series to the PV module. Ideally, the bypass diode operates when the voltage is -0.6[V] around. This study examines the bypass diode operating time for different types of crystalline solar cells. It compares the reverse voltage characteristics between the single solar cell and polycrystalline solar cell. Special modules were produced for the experiment. The shading rate of the solar cell in the specially made solar energy module was raised by 5% each time to confirm that the bypass diode was operating. The operation of the bypass diode is affected not only by the reverse voltage but also by the forward bias. This tendency was verified as the number of strings increased.

Keywords

Solar cell; PV module package; bypass diode; hot spot;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	Edson L. Meyer and E. Ernest van Dyk, IEEE Transactions on reliability, "Assessing the reliability and degradation of photovoltaic module performance parameters", Vol. 53, No. 1, March 2004
2	Seung-tae Kim, Chi-Hong Park, Gi-Hwan Kang, Waithiru C. K. Lawrence, Hyung-Keun Ahn, Gwon-Jong Yu, "Operation characteristics of bypass diode for PV module", KIEE, Vol, No. 1, pp. 12-27, January 2008
3	Hajime Kawamura, Kazuhito Naka, Norihiro yonekura, Sanshiro Yamanaka, Hideaki Kawamura, Hideyuki Ohno, Katsuhiko Naito "Simulation of IV characteristics of a PV module with shaded PV cells." Solar Energy Materials & Solar Cells 75 (2003) pp. 613-621 DOI ScienceOn
4	Edson L. Meyer and E. Emest van Dyk "The effect of reduced shunt resistance and shading on photovoltaic module performance." Photovoltaic Specialists conference, 2005. Conference Record of the Thirty-first IEEE pp. 1331-1334
5	S. Silvestre, A. Boronat, A.Chouder "Study of bypass diodes configuration on PV modules" Applied Energy 86 (2006) pp. 1632-1640
6	M.C. Alonso-Garcia, J.M. Ruiz, F. Chenlo "Experimental study of mismatch and shading effects in the I-V characteristic of a photovoltaic module. Solar Energy Materials & Solar Cells 90 (2006) pp. 329-340. DOI ScienceOn
7	M.C. Alonso-Garcia, J.M. Ruiz, W. Herrmann "Computer Simulation of shading effects in photovoltaic arrays." Renewable Energy 31 (2006) pp. 1986-1993 DOI ScienceOn
8	F. Martinez-Moreno, J. Munoz, E. Lorenzo "Experimental model to estimate shading losses on PV arrays" Solar Energy Mateials & Solar Cells 94 (2010) pp. 2298-2303 DOI ScienceOn
9	W.Herrmann, W. Wiesner, W. Vaaben "Hot spot investigations on PV module - New concepts for a test standard and consequences for module design with respect to bypass diode" 26th PVSC; Sept. 30_Oct.3, 1997; Anaheim, CA
10	I. Caluianu, G. Notton, Iolanda Colda, S. Caluianu and A. Damian "Photovoltaic Energy Generation under Partially Shading Conditions" Electro motion 2009-EPE chapter 'electric drives joint symposium, 1-3 July 2009, Lille, France. pp.1-6.
11	Bishop J W, "Computer simulation of the effects of electrical mismatches in photovoltaic cell interconnection circuits", Solar Cells 1998, Vol.25, pp.73-89.
12	Teresa Oh, "Study on the junction Device using the POCl3 precursor, journal of the Korean vacuum society 19(5), 2010, pp. 391-396. DOI ScienceOn
13	Hiren Patel and Vivek Agarwal, "Matlab-based modeling to study the effects of partial shading on PV array characteristics", IEEE Transactions on energy conversion, Vol. 23, No.1, March 2008, pp.302-310 DOI ScienceOn
14	S. Silvestre and A. Chouder, "Shading effects in characteristic parameters of PV module", Electron Devices, 2007 Spanish Conference, Jan. 31 2007, pp. 116-118

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