2013
DOI: 10.1063/1.4822221
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Tuning the current ratio of a CPV system to maximize the energy harvesting in a particular location

Abstract: Abstract:A method based on experimental data is proposed to optimize the energy harvesting of a silicone-on-glass Fresnel-lens based CPV system. It takes into account the spectral variations along the year in a particular location as well as the thermal and spectral sensitivities of the optics and solar cell. In addition, different alternatives to tune the top/middle subcells current ratio in a CPV module are analyzed and their capacity to maximize the annually produced energy is quantified.

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Cited by 21 publications
(17 citation statements)
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“…Even though both measurements were carried out at exactly the same irradiance B and spectral condition (fixed by SMR), most probably short circuit currents will not be equal because of its strong dependence on lens temperature [10][11][12] so the current correction included in eq. (7) would be needed.…”
Section: Indoors-outdoors V Oc Comparisonmentioning
confidence: 99%
“…Even though both measurements were carried out at exactly the same irradiance B and spectral condition (fixed by SMR), most probably short circuit currents will not be equal because of its strong dependence on lens temperature [10][11][12] so the current correction included in eq. (7) would be needed.…”
Section: Indoors-outdoors V Oc Comparisonmentioning
confidence: 99%
“…For example, the cell temperature varies daily and seasonally, as the ambient temperature, wind speed, humidity, and irradiance change. In a CPV system, optical nonidealities and tracking errors can alter the spatial and spectral distribution of irradiance, and this can change the cell efficiency . Any system‐dependent factor that introduces performance variability could motivate an additional binning dimension, or other adjustments to the binning algorithm.…”
Section: Cell Temperature and Other System‐dependent Factorsmentioning
confidence: 99%
“…In a CPV system, optical nonidealities and tracking errors can alter the spatial and spectral distribution of irradiance, and this can change the cell efficiency. [18][19][20][21] Any system-dependent factor that introduces performance variability could motivate an additional binning dimension, or other adjustments to the binning algorithm. Here, we consider the additional variability created by cell temperature variations.…”
Section: Cell Temperature and Other System-dependent Factorsmentioning
confidence: 99%
“…The results suggest that the CPV module optimization should increase top current for the four technologies and most of the sites, which can be made at the cell level or by means of the optics, as for example promoting short wavelength focusing or tuning the antireflective coating . The optimum top/mid current ratio under the reference spectrum must accomplish the following condition for a particular site.…”
Section: Global Analysis Of Spectral Influence For Several Kinds Of Tmentioning
confidence: 99%