![solar cell simulation using pc1d simulation solar cell simulation using pc1d simulation](https://image.slidesharecdn.com/1-190527055400/95/simulation-of-the-solar-cells-with-pc1d-application-to-cells-based-on-silicon-2-638.jpg)
These simulations suggest that rear surface efficiency is a sensitive function of minority carrier lifetime, BSF doping level, and surface recombination velocity. The efficiencies obtained from this design were 16.42 % and 14.18 % for front and back surfaces respectively. The npp+ configuration is also the simplest, most widely used solar cell, is simple to fabricate, and can be adapted for all types of solar cells. The structure of npp + was selected for all simulations due to excellent results obtained from this type of solar cell.
#Solar cell simulation using pc1d simulation software
Device modeling techniques substantially. PC1D simulation software was used additionally to simulate crystalline silicon solar cells with considered single layer ARC films on their front surface. In this study, a detailed description of npp + bifacial solar cell based on PC1D simulations has been carried out. Computer-based simulations play a critical role in the design, development, and functionality of solar cells.
![solar cell simulation using pc1d simulation solar cell simulation using pc1d simulation](https://www.researchgate.net/profile/Rajinder-Sharma-5/publication/327042306/figure/fig1/AS:659941144670211@1534353638685/Summary-of-simulation-parameters-for-PC1D-model_Q320.jpg)
In this study, bifacial solar cell devices have been modeled using actual physical device configurations. known software in the mode of the simulation of solar cells, the PC1D. Device modeling techniques substantially reduce the time and costs through optimization of process steps, choice of materials, and wafers. A way of exploiting the solar energy is to use cells photovoltaic which convert. Computer-based simulations play a critical role in the design, development, and functionality of solar cells.