j1111111 - nasa · figure 3: sunlight on mars qugh dust case, tau = 0.95). r the case of an optical...
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19th European Photovoltaic Solar Energy Conference, Paris France, June 7-11 2004
PHOTOVOLTAIC CELL OPERAWON ON It&-lRS
Phillip P. Jenkins and
mailstop 302-1, 21000 Brookpark Road Cleveland, OH 44135 USA
1 SOLAR CELLS ON MARS
cells on the Martian surface
Brth's surface or in
constraint on the allowed latitude of the landing site, on the amount of power available for science
s on the surface
environment in operate [l]. Major
lower solar intensity due to greater
0
the solar spectrum and redu intensity [2-5]
deposition of dust on the arrays [q low operating temperatma
se triple-junction the mission did
'J1111111 4
ation Rover (MECR) v
2 SOLARENERGY
The solar energy OR the Martian surface of dust in the atmos
ow modeled results of the total solar urface at the MER-1 Gusev Crater o different dust conditions, a low
case, the direct illumination is reduced, while the
https://ntrs.nasa.gov/search.jsp?R=20050198947 2020-05-13T23:16:15+00:00Z
Figure 3: Sunlight on Mars Qugh dust case, tau = 0.95).
r the case of an optical depth t
conditions at the MER rover sites near the landing day.
atmospheric dust settles on the changing the spectrum and also
reducing the performance as the mission duration increases
3 OPERATION OF SOLAR CELLS ON MARS
ated the first use of triple-
3.1 Laboratory measurements The solar cell performance will depend on the
of the arrays. For on the MERsolar imited by the top
g that it is primarily
length cut-off of about 650 nm (0.65
s 7 and 8 show the effect of temperature on the cell performance, showing measurements made
d Mars intensity under
Figure 6: Measured external quantum efficiency of the top sub-cell of the MER rover solar array.
Effcd of TemperaWre MI Voc
3 2 operation on M&
Figure 9: MER Solar array on Mars
Figure 10: Short circuit current during the first day on Mars
m h o n to the Martian polar regions will use a n advanced flexible solar array.
4 REFERENCES
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