Further advances in silicon solar cell technology for space applicationRecent improvements relating to the design of high efficiency cells are presented. A conceptual design using passivation techniques is discussed, which potentially increases the open circuit voltage to approximately 650 mV. This concept is supported by experimental data using only silicon passivation beneath contacts. The use of thin thermal oxides of silicon for passivation between contacts is also discussed. A number of novel structures have also been fabricated to investigate reduction in the thermal alpha of planar and sculptured cells. It is shown that this may be as low as 0.63 on glassed gridded back cells, and that the IR rejection beyond 1.1 microns may approach 100 percent if the backside is AR coated. Finally, experimental data is given to support the existence of free electron absorption in heavily doped emitters on sculptured cells.
Document ID
19870030800
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Lillington, D. R. (Spectrolab, Inc. Sylmar, CA, United States)
Kukulka, J. R. (Spectrolab, Inc. Sylmar, CA, United States)