2021
DOI: 10.3390/cryst11060633
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Crystalline Silicon (c-Si) Solar Cell Interconnect Damage Prediction Function Based on Effect of Temperature Ramps and Dwells on Creep Damage under Field Thermal Cycling

Abstract: c-Si solar cell interconnection damages from thermal cycles emanate from cumulative damage contributions from the various load steps in a typical thermal cycle. In general, a typical thermal cycle involves five thermal load steps, namely: 1st cold dwell, ramp-up, hot dwell, ramp-down, and 2nd cold dwell. To predict the contributions of each of these load steps to creep damage in soldered interconnections, each of the respective load steps needs to be profiled to accurately fit a function capable of predicting … Show more

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“…Five different thermographic defects modes have been analysed and their statistical formation was calculated: a hotspot within a cell appeared 75.35% of total, bypass circuit overheated type recorded 10.79% in occurrence, a hotspot in the junction box recorded 6.93%, a hotspot that is positioned in the connection between the busbar and the junction box was detected for 6.84% of total and whole module overheated for 0.09%. Nyarko [6] studied the mechanisms of damage distribution of c-Si solar cell interconnects from thermal cycling loads generated by real-time outdoor weathering of PV modules, by using finite element analysis. The mechanisms of damage were assessed for two different solder formulations: a solder containing lead Pb60Sn40 and a leadfree solder that was Sn3.8Ag0.7Cu.…”
Section: Fig 1 Solar Panels Composed Of Cells Electrically Interconne...mentioning
confidence: 99%
“…Five different thermographic defects modes have been analysed and their statistical formation was calculated: a hotspot within a cell appeared 75.35% of total, bypass circuit overheated type recorded 10.79% in occurrence, a hotspot in the junction box recorded 6.93%, a hotspot that is positioned in the connection between the busbar and the junction box was detected for 6.84% of total and whole module overheated for 0.09%. Nyarko [6] studied the mechanisms of damage distribution of c-Si solar cell interconnects from thermal cycling loads generated by real-time outdoor weathering of PV modules, by using finite element analysis. The mechanisms of damage were assessed for two different solder formulations: a solder containing lead Pb60Sn40 and a leadfree solder that was Sn3.8Ag0.7Cu.…”
Section: Fig 1 Solar Panels Composed Of Cells Electrically Interconne...mentioning
confidence: 99%