Temperature-Dependent Spectral Mismatch Corrections

Author

Osterwald, Carl R. ; Campanelli, Mark ; Moriarty, Tom ; Emery, Keith A. ; Williams, Rafell

Author_Institution

Nat. Renewable Energy Lab., Golden, CO, USA

Volume

5

Issue

6

fYear

2015

Firstpage

1692

Lastpage

1697

Abstract

This paper develops the mathematical foundation for a translation of solar cell short-circuit current from one thermal and spectral irradiance operating condition to another without the use of ill-defined and error-prone temperature coefficients typically employed in solar cell metrology. Using the partial derivative of quantum efficiency with respect to temperature, the conventional isothermal expression for spectral mismatch corrections is modified to account for changes of current due to temperature; this modification completely eliminates the need for short-circuit-current temperature coefficients. An example calculation is provided to demonstrate use of the new translation.

Keywords

short-circuit currents; solar cells; partial derivative; quantum efficiency; solar cell short-circuit current; spectral irradiance; temperature-dependent spectral mismatch corrections; thermal irradiance; Metrology; Photovoltaic cells; Short-circuit currents; Temperature distribution; Temperature measurement; Characterization; PV modules; measurement; metrology; photovoltaic (PV) cells; short-circuit current; solar cells; spectral irradiance; temperature coefficient (TC);

fLanguage

English

Journal_Title

Photovoltaics, IEEE Journal of

Publisher

ieee

ISSN

2156-3381

Type

jour

DOI

10.1109/JPHOTOV.2015.2459914

Filename

7210143