Power rating based on two different spectroheliometers with lattice-matched (LM) and upright metamorphic (UMM) component solar cells | Zendy

César Domínguez | Zendy; Rebeca Herrero | Zendy; Rubén Núñez | Zendy; Ignacio Antón | Zendy; Gabriel Sala | Zendy; Emilio Agudo | Zendy

Open Access

Power rating based on two different spectroheliometers with lattice-matched (LM) and upright metamorphic (UMM) component solar cells

Author(s) -

César Domínguez,

Rebeca Herrero,

Rubén Núñez,

Ignacio Antón,

Gabriel Sala,

Emilio Agudo

Publication year - 2016

Publication title -

aip conference proceedings

Language(s) - English

Resource type - Conference proceedings

eISSN - 1551-7616

pISSN - 0094-243X

DOI - 10.1063/1.4962117

Subject(s) - calibration , standard deviation , spectral sensitivity , lattice (music) , spectral power distribution , matching (statistics) , remote sensing , spectral density , spectral line , sensitivity (control systems) , computational physics , optics , physics , mathematics , electronic engineering , statistics , acoustics , geology , engineering , wavelength , astronomy

Synthetic and empirical data have been used to explore the influence of spectral mismatch between MJ cell technologies on outdoor CPV module rating uncertainty. Calibration biases are attenuated by tightly filtering spectral conditions to a spectral matching ratio (SMR) of 1 ± 2.5%. The sensitivity of calibrated current to spectral deviations greatly depends on the direction and distribution of the deviations on the SMR space

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