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http://dx.doi.org/10.3740/MRSK.2018.28.9.528

Electrical Characteristics of c-Si Shingled Photovoltaic Module Using Conductive Paste based on SnBiAg  

Yoon, Hee-Sang (Graduate School of Energy Science & Technology, Chungnam National University)
Song, Hyung-Jun (Department of Safety Engineering, Seoul National University of Science and Technology)
Kang, Min Gu (Photovoltaic Laboratory, New & Renewable Energy Institute, Korea Institute of Energy Research)
Cho, Hyeon Soo (Photovoltaic Laboratory, New & Renewable Energy Institute, Korea Institute of Energy Research)
Go, Seok-Whan (Photovoltaic Laboratory, New & Renewable Energy Institute, Korea Institute of Energy Research)
Ju, Young-Chul (Photovoltaic Laboratory, New & Renewable Energy Institute, Korea Institute of Energy Research)
Chang, Hyo Sik (Graduate School of Energy Science & Technology, Chungnam National University)
Kang, Gi-Hwan (Photovoltaic Laboratory, New & Renewable Energy Institute, Korea Institute of Energy Research)
Publication Information
Korean Journal of Materials Research / v.28, no.9, 2018 , pp. 528-533 More about this Journal
Abstract
In recent years, solar cells based on crystalline silicon(c-Si) have accounted for much of the photovoltaic industry. The recent studies have focused on fabricating c-Si solar modules with low cost and improved efficiency. Among many suggested methods, a photovoltaic module with a shingled structure that is connected to a small cut cell in series is a recent strong candidate for low-cost, high efficiency energy harvesting systems. The shingled structure increases the efficiency compared to the module with 6 inch full cells by minimizing optical and electrical losses. In this study, we propoese a new Conductive Paste (CP) to interconnect cells in a shingled module and compare it with the Electrical Conductive Adhesives (ECA) in the conventional module. Since the CP consists of a compound of tin and bismuth, the module is more economical than the module with ECA, which contains silver. Moreover, the melting point of CP is below $150^{\circ}C$, so the cells can be integrated with decreased thermal-mechanical stress. The output of the shingled PV module connected by CP is the same as that of the module with ECA. In addition, electroluminescence (EL) analysis indicates that the introduction of CP does not provoke additional cracks. Furthermore, the CP soldering connects cells without increasing ohmic losses. Thus, this study confirms that interconnection with CP can integrate cells with reduced cost in shingled c-Si PV modules.
Keywords
crystalline silicon; shingled cells interconnection; electrically conductive adhesives; conductive paste; soldering process;
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