Abstract
We have developed a setup for measuring differential spectral responsivities of unifacial and bifacial solar cells under bias light conditions. The setup uses 30 high-brightness LEDs for generating a quasi-monochromatic light source covering the wavelength range 290–1300 nm. Halogen lamps are used to generate bias-lighting conditions up to the irradiance level of 1000 W/m2. The setup has been fully characterized for spectral irradiances and spatial uniformities of all light sources. Validation measurements carried out using a reference cell of 2 × 2 cm2 area from Fraunhofer ISE demonstrated an agreement better than 2% over the wavelength range of 425–940 nm, with an expanded uncertainty of 2.6%. In the UV and IR regions, the discrepancies are higher but still within estimated uncertainties. The setup is also tested in measuring spectral responsivities of large 15 × 15 cm2 bifacial solar cells. The associated problems are discussed.
Highlights
Spectral responsivity of a photovoltaic device is needed for solar cell development and cell analysis
It can be used in testing of solar cells, to correct for the spectral mismatch between the light source used in the measurement from the standardized reference spectral irradiance data
We present a measurement setup for differential spectral responsivity of solar cells based on highpower LEDs used as quasi-monochromatic sources of light for spectral measurement
Summary
Spectral responsivity of a photovoltaic device is needed for solar cell development and cell analysis It can be used in testing of solar cells, to correct for the spectral mismatch between the light source used in the measurement from the standardized reference spectral irradiance data. The solar cells need to be measured in biased conditions, resulting in differential spectral responsivity. Standard Test Conditions (STC) for measuring the performance of PV modules specify a cell temperature of 25 °C and an irradiance of 1000 W/m2 with an air mass 1.5 (AM1.5) spectrum [2]. Measurement setups for differential spectral responsivity have been presented in e.g. We present a measurement setup for differential spectral responsivity of solar cells based on highpower LEDs used as quasi-monochromatic sources of light for spectral measurement.
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