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"High efficiency"

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"High efficiency"

Analysis of Characteristics of Half-Cut Solar Cells According to the NDC Process for High-Power Modules
Guemhee Ham, Jeahyeong Lee
J Electr Electron Mater 2024;37(6):637-643.   Published online November 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.6.9
One method to increase the output of solar modules is the application of the Half-cut technique, which requires a scribing process involving direct irradiation of infrared lasers on the solar cells. During this process, the laser melts the surface of the solar cells at high temperatures, enabling mechanical division, but this can lead to output loss due to thermal degradation caused by the laser. To minimize such losses, a low-temperature and low-loss division method has been devised. In this study, we compared the electrical characteristics and leakage currents affecting output degradation between the newly devised low temperature and low-loss cell division method and the conventional laser division method. Additionally, we conducted a 3-point flexural test to evaluate the mechanical properties of both methods.
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Effect of Laser Scribing in High Efficiency Crystal Photovoltaic Cells to Produce Shingled Photovoltaic Module
Seong Eun Lee, Ji Su Park, Won Je Oh, Jae Hyeong Lee
J Electr Electron Mater 2020;33(4):291-296.   Published online July 1, 2020
DOI: https://doi.org/10.4313/JKEM.2021.33.4.8
The high power of a shingled photovoltaic module can be attributed to its low cell-to-module loss. The production of high power modules in limited area requires high efficiency solar cells. Shingled photovoltaic modules can be made by divided solar cells, which can be produced by the laser scribing process. After dividing the 21% PERC cell using laser scribing, the efficiency decreased by approximately 0.35%. However, there was no change in the efficiency of the solar cell having relatively lower efficiency, because the laser scribing process induce higher heat damages in solar cells with high efficiency. To prove this phenomena, the J0 (leakage current density) of each cell was analyzed. It was found that the J0 of 21% PERC increased about 17 times between full and divided solar cell. However, the J0 of 20.2% PERC increased only about 2.5 times between full and divided solar cell.
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Five factors are identified, which affect the performance of optical filter: 1) type of opticalglass, 2) existence of Fe, 3) photo pic coating type, 4) coating form, and 5) coating thickness. If weconsider all the levels of five factors, there are 360 possible candidates. We determined five evaluationcriteria, which can be used to evaluate possible candidates. For the performance measures we selectedwhite-state avearge voltage, black-state average voltage, and black-state error rate. And we addedeconomic criterion and quality and maintenance criterion. Through the two-step statistical analysis ofwhite-state avearge voltage, black-state average voltage, and black-state error rates, we selected finalfour candidates. Based on the five criteria we finally determined optimal optical filter using AHP.
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Energy Materials : Manufacturing and Thermal Process Optimization of Ag-paste for Fabricating High Efficiency Mono-Si Solar Call
Ji Hee Pi, Sung Jin Kim, Chang Rok Son, Soon Yong Kweon
J Electr Electron Mater 2013;26(2):144-150.   Published online February 1, 2013
A New Ag-pastes were developed for integrating the high efficiency mono-Si solar cell. The pastes were the mixture of 84 wt% Ag, 2 wt% glass frit, 11 wt% solvent of buthyl cabitol acetate, and 3 wt% additives. After fabricating the Ag-pastes by using a 3-roll mill, they were coated on a SiN_x/n+/p- stacks of a commercial mono-Si solar cell. And the post-thermal process was also optimized by varying the process conditions of peak temperature. The optimized solar cell efficiency on a 6-inch mono-Si wafer was 18.28%, which was the one of the world best performances. It meaned that the newly developed Aa-paste could be adopted to fabricate a commercial bulk Si solar cell.
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Regular Paper : Semiconductor ; A Study on Standby Power and Reduced Power Consumption Control System for High-efficiency Module
Myung Hwan Lee, Yung Teak Park, Hun Suk Chung, Ey Goo Kang
J Electr Electron Mater 2012;25(5):334-339.   Published online May 1, 2012
A study on electrical and electronic equipment will occur in the atmosphere, which is essential to cut the power to prevent the waste of power by power measurement technology development and to develop the technology to do this operation is the main core of standby power to detect and block it and return the configured for software and hardware, while the actual construction to ensure stability through field testing and debugging of problems improved accordingly, as well as ease of installation and so it could be done while the test. In addition, in terms of basic hardware switching of standby power when blocking, reducing stress and ensure stable operation and circuit design, power off and back to ensure stable operation even when a protection circuit is applied.
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The Electrical Characteristics of Spot Light Solar Cell Modules
Beum Jun Kim, Ey Goo Kang, Se Hwan Lyu
J Electr Electron Mater 2011;24(6):440-444.   Published online June 1, 2011
We have analyzed electrical characteristics of spot light solar cell modules and have completed fabrication of spot light solar cell modules. Before we test modules, we have carried about UV test of hologram. As a result of test, we have obtained 165% efficiency of hologram film. the other hand, we obtained 75% efficiency of general films. After we have fabricated solar modules and carried about field test, spot light solar cell modules with hologram have been investigated 17.3 A of Isc and 155.4 W of power.
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Optimization for High Efficiency of Point Contact Solar Cell
Byoung Sub Ahn, Ey Goo Kang
J Electr Electron Mater 2011;24(5):345-350.   Published online May 1, 2011
This paper was carried about optimization for high efficiency of point contact solar cell. We have studied on the characteristics of power converter according to each parameter for the optimization for high efficiency of point contact solar cell on this study. We have 25.1352% of convert efficiency after adapt optimal parameters as mentioned in point body and superior conclusion is drawn by comparison with general efficiency has within 20%. At this time, the value of parameter is 100 um cell pitch, 0.01 um AR coating, 0.9 um N+ FSF thickness., etc. This study will continue to go on for optimization for efficiency in future, as it looks now, the results of this study would contribute to the business of high efficiency of point contact solar cell.
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Thermal Analysis for High Efficiency of Point Contact Solar Cell
Tae Jin Nam, Ey Goo Kang
J Electr Electron Mater 2011;24(5):351-354.   Published online May 1, 2011
This paper was carried about thermal analysis for high efficiency point contact solar cell. Therefore, we carried about 2-D device and process simulator according to design and process parameters. As a result of simulations, power transfer efficiency have decreased more increasing temperature. Especially, power transfer efficiency of room temperature have been showed 25%. The other hand, power transfer efficiency of 350 K kalvin temperature have been showed 20%. Therefore, we will considered design with thermal dissipation of device.
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Design and Analysis of the 300 W Planar Transformer
Hae Yeon Lee, Hyeon Sig Kim, Jong Lyeong Kim, Yeong U O, Eun Su Kim, Evgeniy Ustinov
J Electr Electron Mater 2004;17(5):502-507.   Published online May 1, 2004
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