S. Eidelloth scite author profile

We describe an open-source simulation tool for the modeling of photovoltaic devices with equivalent circuit networks. Our SpiceGUI interconnects devices with known current voltage characteristics and calculates the current density-voltage curve of the combined device. The SpiceGUI is written as hybrid Octave/MATLAB code and has a flexible graphical user interface. It supports batch simulations with the SPICE tools LTspice, NGspice, and SMARTspice. The available postprocessing functions include convenient batch parameter plots and power loss analysis diagrams. We present two simulation examples. The first example simulates a solar cell with front contact fingers. It assists the reader in understanding the SpiceGUI unit tree and serves as starting point for the development of custom models. This first example also shows that the SpiceGUI yields reliable results, even for very demanding models that exceed 4 GB working memory. The second example models back-contacted thin-film silicon solar cells. We use measured J sc -V o c curves as input data for the current sources of the network. Additional resistive elements complete the network. The simulated JV curves of the combined device agree well with the measured JV curves. The distributed nature of the resistances is essential to describing the shape of the measured JV curves.

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High-Efficiency Cells From Layer Transfer: A First Step Toward Thin-Film/Wafer Hybrid Silicon Technologies

Brendel

Petermann

Zielke

et al. 2011

IEEE J. Photovoltaics

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Local rear contacts to silicon solar cells by in-line high-rate evaporation of aluminum

Mader

Müller

Eidelloth

et al. 2012

Solar Energy Materials and Solar Cells

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Aluminum Evaporation and Etching for the Front-Side Metallization of Solar Cells

Eidelloth

Heinemeyer

Münster

et al. 2013

IEEE J. Photovoltaics

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S. Eidelloth

Analytical Theory for Extracting Specific Contact Resistances of Thick Samples From the Transmission Line Method

Simulation Tool for Equivalent Circuit Modeling of Photovoltaic Devices

High-Efficiency Cells From Layer Transfer: A First Step Toward Thin-Film/Wafer Hybrid Silicon Technologies

Local rear contacts to silicon solar cells by in-line high-rate evaporation of aluminum

Aluminum Evaporation and Etching for the Front-Side Metallization of Solar Cells

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