• 제목/요약/키워드: Half-cut solar cell

검색결과 2건 처리시간 0.016초

대면적 태양전지의 분할 수에 따른 모듈 특성 모델링 (Module Characteristic Modeling in Terms of the Number of Divisions of Large-Area Solar Cells )

  • 김주휘;이재형
    • 한국전기전자재료학회논문지
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    • 제36권2호
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    • pp.136-142
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    • 2023
  • In the past, the efficiency of solar cells had been increased in order to increase the efficiency of solar modules. However, in recent years, in order to increase output in the solar industry and market, the competitiveness of solar cells based on large-area solar cells and multi-bus bar has been increasing. Multi-busbar solar module is a technology to reduce power loss by increasing the number and width of the front busbar of the solar cell and reducing the current value delivered by the busbar by half through half-cutting. In the case of the existing M2 (156.75×156.75 mm2) solar cell, even with a half-cut, power loss could be sufficiently reduced, but as the area of the solar cell is enlarged to more than M6 (166×166 mm2), the need for more divisions emerged. This affected not only solar cells but also inverters required for module array configuration. Therefore, in this study, the electrical characteristics of a large-area solar cell and after division were extracted using Griddler simulation. The output characteristics of the module were predicted by applying the solar cell parameters after division to PSPice, and a guideline for the large-area solar module design was presented according to the number of divisions of the large-area solar cell.

고출력 모듈을 위한 NDC 공정에 따른 Half-Cut 태양전지의 특성 분석 (Analysis of Characteristics of Half-Cut Solar Cells According to the NDC Process for High-Power Modules )

  • 함금희;이재형
    • 한국전기전자재료학회논문지
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    • 제37권6호
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    • pp.637-643
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    • 2024
  • 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.