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KCIThermal cycling (TC) induces defects in solar modules. The electroluminescence technique has been used to characterize the defects of solar modules, which are represented by a rectangular dark area (RDA) on the cell. In this study, the physical meanin...
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RISS 인기검색어
https://www.riss.kr/link?id=A108580199
-
저자
Seungil Park (The State University of New York) ; Changwoon Han (The State University of New York)
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2022
-
작성언어
English
- 주제어
-
등재정보
KCI등재,SCIE,SCOPUS
-
자료형태
학술저널
-
수록면
3429-3436(8쪽)
- DOI식별코드
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
Thermal cycling (TC) induces defects in solar modules. The electroluminescence technique has been used to characterize the defects of solar modules, which are represented by a rectangular dark area (RDA) on the cell. In this study, the physical meaning of the RDA phenomenon on a solar module was investigated. It is proven that the RDA indicates cracks in the solder layer of the ribbon wire rather than broken electrode fingers in the solar module. For the proof, a test of TC was conducted on Si solar modules while monitoring the RDAs by EL during TC. Next, a failure analysis was performed on the RDAs, proving that the locations of the RDA coincided with the locations of the cracks in the solder layer between the Cu layer and Si wafer. Quantitative time analysis revealed that the RDA incidence in cells increased from 0 to 18 % on average over TC 1000. In addition, the larger RDA incidence at the ends of the ribbon wires of the cell was detected and explained based on the previous study result of the high increases in shear strains of the solder layer at all ends of the ribbon wire after TC. Finally, a structural numerical simulation was performed to show a low probability of cracking at the electrode finger during TC.
참고문헌 (Reference) 
1 Y. Du, "imaging and resistance analysis for crystalline silicon photovoltaic modules failure on thermal cycle test" 118 : 104818-, 2020
2 R. Khatri, "Study on long term reliability of photo-voltaic modules and analysis of power degradation using accelerated aging tests and electroluminescence technique" 8 : 396-401, 2011
3 D. Hinken, "Series resistance imaging of solar cells by voltage dependent electroluminescence" 91 (91): 182104-, 2007
4 Seungil Park ; Changwoon Han, "Reliability-driven design optimization of si solar module under thermal cycling" 대한기계학회 36 (36): 4099-4114, 2022
5 K. Ramspeck, "Recombination current and series resistance imaging of solar cells by combined luminescence and lock-in thermography" 90 (90): 153502-, 2007
6 S. Spataru, "Quantifying solar cell cracks in photovoltaic modules by electroluminescence imaging" 1-6, 2015
7 D. C. Jordan, "Photovoltaic failure and degradation modes" 25 (25): 318-326, 2017
8 Z. Hameiri, "Photoluminescence and electroluminescence imaging of perovskite solar cells" 23 (23): 1697-1705, 2015
9 T. Fuyuki, "Photographic surveying of minority carrier diffusion length in polycrystalline silicon solar cells by electroluminescence" 86 (86): 262108-, 2005
10 T. Fuyuki, "Photographic diagnosis of crystalline silicon solar cells utilizing electroluminescence" 96 (96): 189-196, 2009
1 Y. Du, "imaging and resistance analysis for crystalline silicon photovoltaic modules failure on thermal cycle test" 118 : 104818-, 2020
2 R. Khatri, "Study on long term reliability of photo-voltaic modules and analysis of power degradation using accelerated aging tests and electroluminescence technique" 8 : 396-401, 2011
3 D. Hinken, "Series resistance imaging of solar cells by voltage dependent electroluminescence" 91 (91): 182104-, 2007
4 Seungil Park ; Changwoon Han, "Reliability-driven design optimization of si solar module under thermal cycling" 대한기계학회 36 (36): 4099-4114, 2022
5 K. Ramspeck, "Recombination current and series resistance imaging of solar cells by combined luminescence and lock-in thermography" 90 (90): 153502-, 2007
6 S. Spataru, "Quantifying solar cell cracks in photovoltaic modules by electroluminescence imaging" 1-6, 2015
7 D. C. Jordan, "Photovoltaic failure and degradation modes" 25 (25): 318-326, 2017
8 Z. Hameiri, "Photoluminescence and electroluminescence imaging of perovskite solar cells" 23 (23): 1697-1705, 2015
9 T. Fuyuki, "Photographic surveying of minority carrier diffusion length in polycrystalline silicon solar cells by electroluminescence" 86 (86): 262108-, 2005
10 T. Fuyuki, "Photographic diagnosis of crystalline silicon solar cells utilizing electroluminescence" 96 (96): 189-196, 2009
11 "Matweb Material Property Data, Aluminum"
12 "MatWeb Material Property Data, Nano-Silver Paste"
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15 J. Jeong, "Field failure mechanism study of solder interconnection for crystalline silicon photovoltaic module" 52 (52): 2012
16 J. Schmauder, "Extended thermal cycling lifetime testing on crystalline silicon solar modules with artificially introduced defects" 2016
17 Y. Jia, "Electroluminescence imaging of laser induced defect formation in Cu (In, Ga) Se2 solar cell" 230 : 111160-, 2021
18 S. M. Shrestha, "Determination of dominant failure modes using FMECA on the field deployed c-Si modules under hot-dry desert climate" 5 (5): 174-182, 2014
19 S. Kawai, "Causes of degradation identified by the extended thermal cycling test on commercially available crystalline silicon photovoltaic modules" 7 (7): 1511-1518, 2017
20 M. W. Akram, "CNN based automatic detection of photovoltaic cell defects in electroluminescence images" 189 : 116319-, 2019
21 P. Chaturvedi, "Broken metal fingers in silicon wafer solar cells and PV modules" 108 : 78-81, 2013
22 J. Xu, "Automatic defect inspection for monocrystalline solar cell interior by electroluminescence image self-comparison method" 70 : 1-11, 2021
23 M. Fujimori, "Applicability of highly accelerated thermal cycling testing for multiple types of polycrystalline silicon photovoltaic modules" 1694-1697, 2017
24 J. Jeong, "Analysis for the degradation mechanism of photovoltaic ribbon wire under thermal cycling" 003159-003161, 2011
25 A. Gerber, "Advanced large area characterization of thinfilm solar modules by electroluminescence and thermography imaging techniques" 135 : 35-42, 2015
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