In this work of leaf area measureme

In this work of leaf area measurement with solar module,
taking into consideration that the leaves to be measured
could be of various dimensions, geometric shapes, and
transparency, six different geometric shaped opaque carton
and semitransparent white papers were used to shadow the
solar module. Solar module surface area was shadowed from
10% to at most 100%, resulting in a variation of the incoming
radiation amount on the solar module’s surface.
Solar module’s short circuit current and open circuit
voltage values due to the changes in radiation were measured
for semitransparent areas and for opaque areas.The result of
thepartial shadowingon the solarmodulewhichis composed
of series connected cells revealed that the areameasurements
using these six areas with different geometric shapes had
dissimilar area-current and area-voltage relations.
On these results, incoming light amount from the PL
lamp was altered by these areas and current and voltage
measurements were made. The solar module was shadowed
by square, circle, hexagon, triangle, ellipse, and rectangular
shaped sample areas made of semitransparent and opaque
materials, and the resulting graphs of area-current and areavoltage
measurements are shown in Figures 4, 5, 6, and 7,
respectively.
For the resultingmeasured values obtained by shadowing
on the light source that are plotted in Figures 4, 5, 6 and
7, regression curves are plotted and equations are calculated
whereas a mathematical relation is obtained for area with
respect to the solar module’s short circuit current. The
equation obtained for opaque rectangle areas’ diagram is
given in (4). Using this linear equation, short circuit current