Title :
Over 30% efficient InGaP/GaAs/GaSb cell-interconnected-circuits for line-focus concentrator arrays
Author :
Fraas, Lewis ; Daniels, Bert ; Huang, Han-Xiang ; Avery, James ; Chu, Charlie ; Iles, P. ; Piszczor, Michael
Author_Institution :
JX Crystals Inc., Issaquah, WA, USA
Abstract :
While monolithic multi-junction cells are preferred for flat plate arrays, mechanically stacked multi-junction cells have significant advantages for solar concentrator applications. Reasons for this are that the mechanical stacked configuration with high efficiency gallium antimonide cells allows utilization of a much wider range of the solar energy spectrum and the ability to use voltage matched interconnects resulting in full use of low bandgap cell currents. With the success of the 2.5 kW line-focus concentrator array on NASA´s Deep Space 1 mission, cell performance under concentration has become an important issue. Data is presented showing 30% efficiency for the InGaP/GaAs/GaSb stacked cell, and a simple two terminal voltage-matched circuit that mounts into a line-focus array is described
Keywords :
III-V semiconductors; gallium arsenide; gallium compounds; indium compounds; solar cell arrays; solar cells; solar energy concentrators; space vehicle power plants; 30 percent; InGaP-GaAs-GaSb; InGaP/GaAs/GaSb cell-interconnected-circuits; NASA Deep Space 1 mission; cell performance; high efficiency gallium antimonide cells; line-focus concentrator array; line-focus concentrator arrays; low bandgap cell currents; mechanical stacked configuration; solar energy spectrum utilisation; two terminal voltage-matched circuit; voltage matched interconnects; Circuits; Cities and towns; Crystals; Gallium arsenide; NASA; Photovoltaic systems; Solar power generation; Space missions; Sun; Voltage;
Conference_Titel :
Photovoltaic Specialists Conference, 2000. Conference Record of the Twenty-Eighth IEEE
Conference_Location :
Anchorage, AK
Print_ISBN :
0-7803-5772-8
DOI :
10.1109/PVSC.2000.916091
