Title :
Modeling of two-junction, series-connected tandem solar cells using top-cell and coating thicknesses as adjustable parameters
Author :
Faine, P. ; Kurtz, Sarah ; Olson, J.
Author_Institution :
Solar Energy Res. Inst., Golden, CO, USA
Abstract :
Theoretical efficiencies are calculated for two-junction, series-connected solar cells using AM1.5 global and direct irradiance spectra. For (bandgap combinations) previously limited by a low bottom-cell current, thinning of the top cell is shown to result in significant increases in the theoretical efficiencies. The increases are primarily due to increased short-circuit currents resulting from (current matching). Smaller gains are also seen in the (open-circuit voltages) of the thinner cells with low surface-recombination velocities. Some current matching can also be achieved by adjusting the antireflection coating thicknesses. This model has important implications for the design of GaInP/GaAs, AlGaAs/GaAs, and GaAs/Ge tandem cells
Keywords :
III-V semiconductors; aluminium compounds; antireflection coatings; electron-hole recombination; elemental semiconductors; gallium arsenide; gallium compounds; germanium; indium compounds; solar cells; AM 1.5 direct irradiance; AM 1.5 global irradiance; AlGaAs-GaAs; GaAs-Ge; GaInP-GaAs; antireflection coating thicknesses; low surface-recombination velocities; semiconductor; series-connected tandem solar cells; short-circuit currents; theoretical efficiencies; top cell; two junction solar cells; Absorption; Circuits; Coatings; Costs; Gallium arsenide; Photoconductivity; Photonic band gap; Photovoltaic cells; Solar energy; Voltage;
Conference_Titel :
Photovoltaic Specialists Conference, 1990., Conference Record of the Twenty First IEEE
Conference_Location :
Kissimmee, FL
DOI :
10.1109/PVSC.1990.111644
