Validation of the spectral mismatch correction factor using an LED-based solar simulator. Riedel, N., Santamaria Lancia, A., Thorsteinsson, S., & Poulsen, P. 2017. 5th international workshop on LED and Solar Applications ; Conference date: 13-09-2017 Through 14-09-2017
abstract   bibtex   
LED-based solar simulators are gaining popularity in the PV characterization field. There are several reasons for this trend, but the primary interest is often the potential of tuning the light source spectrum to a closer match to the AM 1.5G reference spectrum than traditional Xenon or metal-halide light sources provide. In this work we will use an EcoSun10L LED module tester from Ecoprogetti to perform short circuit current (ISC) measurements under various class A, B and C spectra. We will apply a spectral mismatch correction to the measured ISC under each test spectrum per IEC 60904-7. In all scenarios, a small area mono-Si cell is used the reference cell and a similar mono-Si cell is used as the PV device under test (DUT). Finally, we quantify the variation of the DUT\textquoterights measured and spectrally corrected Isc under the class A, B and C test spectra.
@conference{bbeece1952f24ce382e4a9118b8770ff,
  title    = "Validation of the spectral mismatch correction factor using an LED-based solar simulator",
  abstract = "LED-based solar simulators are gaining popularity in the PV characterization field. There are several reasons for this trend, but the primary interest is often the potential of tuning the light source spectrum to a closer match to the AM 1.5G reference spectrum than traditional Xenon or metal-halide light sources provide. In this work we will use an EcoSun10L LED module tester from Ecoprogetti to perform short circuit current (ISC) measurements under various class A, B and C spectra. We will apply a spectral mismatch correction to the measured ISC under each test spectrum per IEC 60904-7. In all scenarios, a small area mono-Si cell is used the reference cell and a similar mono-Si cell is used as the PV device under test (DUT). Finally, we quantify the variation of the DUT{\textquoteright}s measured and spectrally corrected Isc under the class A, B and C test spectra.",
  author   = "Nicholas Riedel and {Santamaria Lancia}, {Adrian Alejo} and Sune Thorsteinsson and Poulsen, {Peter Behrensdorff}",
  year     = "2017",
  language = "English",
  note     = "5th international workshop on LED and Solar Applications ; Conference date: 13-09-2017 Through 14-09-2017",
}

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