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"String"

Study on Shingled String Interconnection for High Power Solar Module
Juhwi Kim, Junghoon Kim, Chaehwan Jeong, Wonyoung Choi, Jaehyeong Lee
J Electr Electron Mater 2021;34(6):449-453.   Published online November 1, 2021
DOI: https://doi.org/10.4313/JKEM.2021.34.6.8
Interest and investment in renewable energy have increased worldwide, highlighting the need for renewable energy. Solar energy was the most promising energy of all renewable energy sources, and it has the highest investment value. Because photovoltaics require a certain amount of area for installation, high density and high output performance are required. Shingled module is a promising technology in that they are featured by higher density and higher output compared to the conventional modules. Shingled technology uses a laser scribing to divide solar cells that are to be bonded with electrically conductive adhesive (ECA) to produce and connect strings, which has a higher output in the same area than the conventional modules. In the process of producing solar modules, metal ribbons are used to interconnect cells, but they are also needed for string connections in shingled solar cells. Accordingly, in this study, we researched the interconnection that best suits the connector that joins the string to the string. The module outputs produced under the conditions of the string interconnection were compared and analyzed.
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Simulation of Shingled String Characteristics Depending on Cell Strips Type for High Power Photovoltaic Modules
Ji Su Park, Won Je Oh, Jae Hyeong Lee
J Electr Electron Mater 2020;33(1):10-15.   Published online January 1, 2020
DOI: https://doi.org/10.4313/JKEM.2021.33.1.3
Recently, with the increase in the use of urban solar power, solar modules are required to produce high power in limited areas. In this report, we proposed the fabrication of a high-power photovoltaic module using shingles technology, and developed accurate string characteristic simulations based on circuit modeling. By comparing the resistance components between the interconnected cells and the cell strips, the ECA resistance was determined to be 0.003 Ω. Based on the equivalent circuit of the modeled shingled string, string simulation was performed according to the type of cell strip. As a result, it was determined that the cell efficiency of the 4-cell strip was the highest at 19.66%, but the efficiency of the string simulated with the 6-cell strip was the highest at 20.48% in the string unit.
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A Study on the Cell String for High Efficiency and High Power Photovoltaic Modules
Ji Su Park, Soo Hyun Hwang, Won Je Oh, Su Ho Lee, Chae Hwan Jeong, Jae Hyeong Lee
J Electr Electron Mater 2018;31(5):295-299.   Published online July 1, 2018
In this work, we conducted a study on cell strings of high efficiency and high power solar cell modules via simulation. In contrast to the conventional module manufacturing method, the simulation was performed by connecting cutting cells divided into four parts from 6-in size using the electrically conductive adhesive (ECA). The resistance of the ECA added in series connection was extracted using an experimental method. This resistance was found to be 3 mΩ. Based on this simulation, we verified the change in efficiency of the string as a function of the number of cutting cell connections. Consequently, the cutting cell efficiency of the first 20.08% was significantly increased to 20.63% until the fifth connection; however, for further connections, it was confirmed that the efficiency was saturated to 20.8%. Connecting cutting cells using ECA improves the efficiency of the string; therefore, it is expected that it will be possible to fabricate modules with high efficiency and high power.
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Technology Education : Development and Evaluation of Multi-string Power Balancing System for Solar Streetlight
Jung Hyun Yun
J Electr Electron Mater 2012;25(12):1021-1027.   Published online December 1, 2012
In this paper, multi-string power balancing system for streetlight was developed. Accordingly, the components of the system was developed, unit converters, MPPT control unit, a bank of Li-ion battery and controls the charging and discharging. Loss by improving the efficiency of the system through the parallel operation of the unit converter output will be reduced. And by improving the efficiency of the system through the unit converter parallel operation, output losses will be reduced. Charging and discharging efficiency of the device used in a typical solar streetlight is calculated based on the maximum power input. Because of the variation of the input power has a weakness. In this paper, flexible to changes in the input, and a system was developed to minimize the cost per watt. Measure the performance of the unit module from the system, the result was more than 91%. And the charging capacity 12 V/105 Ah, module power 180 W, respectively. Should expect to be able to improve performance through continuous monitoring in the future.
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