The new program can be run from a command line or within a recently developed, powerful graphical user interface. By using the correct carrier statistics and the appropriate set of models it is now possible to avoid the commonly used effective models and adapted values, thus taking a large step in bringing PC1D further towards a more general, consistent and physically meaningful simulation tool for Si solar cells.
We find a good correspondence between the simulation results obtained with the different programs, with a deviation of less than 2 fA/cm 2 for the calculated emitter saturation current density using F–D statistics and less than 0.8 % relative deviation in all the main solar cell parameters under 1 sun illumination. The results obtained using cmd-PC1D 6.0 are verified against well-accepted and modern simulations tools for a range of both phosphorus- and boron-doped emitters with varying surface concentration. The aIPg types 1, 2 and 3, pC1d and pC1e are highly interconnected (Figure 7, Video 11). Several up-to-date models for crystalline Si have been implemented in the new program, including injection dependent band gap narrowing, carrier mobility and Auger recombination. Info:ofi/fmt:kev:mtx:ctx&ctx_ver=Z39.88-2004&rft_val_fmt=info:ofi/fmt:kev:mtx:journal&rft.jtitle=Energy Procedia&rft.volume=38&rft.spage=72&rft.In this work we present a modified version of the commonly used semiconductor simulation program PC1D, named cmd-PC1D 6.0, which applies Fermi–Dirac (F–D) statistics, thus improving on the existing Boltzmann approximation that is employed in the original program. Simulations can be performed in a simple and efficient manner, allowing for fast analysis and optimization of cell performance, as well as an enhanced fundamental understanding of the physics of solar cell devices.Īttribution-NonCommercial-NoDerivs 3.0 UnportedĪ Graphical User Interface for Multivariable Analysis of Silicon Solar Cells Using Scripted PC1D Simulations
#Pc1d gui professional#
The new features that have been implemented in the new program include multivariable analysis, visualization of three-dimensional data sets, extraction of relevant parameters not directly available in PC1D, utilization of optimization algorithms, fitting to experimental data and implementation of additional features like contact shading, emitter series resistance and passivated rear surfaces with local contacts. View Abhi K.’s profile on LinkedIn, the world’s largest professional community. We demonstrate the potential of this program by presenting examples of different simulations. In order to increase the accessibility of the new program, we have developed a free-for-use graphical user interface which can be run as a standalone executable.
In this work we present a modified version of PC1D which runs from a command line, thus allowing for scripted simulations using any programming language.
#Pc1d gui software#
PC1D is an open source computer program for simulation of crystalline semiconductor devices, and is the most commonly used simulation software in the solar cell community today. A Graphical User Interface for Multivariable Analysis of Silicon Solar Cells Using Scripted PC1D Simulations.
Haug, Halvard Olaisen, Birger Retterstøl Nordseth, Ørnulf Marstein, Erik Stensrud.
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