Topband: Monopole Elev Pattern w.r.t. Earth Conductivity
Richard Fry
rfry at adams.net
Tue Oct 23 09:28:26 EDT 2012
Cristi YO3FFF wrote:
>That means, the radiation pattern will be affected too because the
>electromagnetic wave will be much curved to the ground, so the
>groundwave intensity will be direct proportional with the conductivity
> Is it right?
Other things equal, the field values in the vertical plane radiation pattern
first "launched" by a monopole are a function of earth conductivity. But
the shape of the radiation pattern close to the monopole remains
essentially the same for all conductivities, as shown in the link below.
The fields in the NEC4 analysis below were calculated along a vertical
distance of 0-50 meters above the surface of the earth, at a horizontal
distance of 100 meters from the monopole. A vertical distance of 50 meters
for this chart is an elevation angle of 26.6 degrees from the monopole.
Note in the chart that the radiated fields at elevation angles below 26.6
degrees are greater than the field at 26.6 degrees. For the lowest
elevation angles, those fields are FAR greater than those shown in a NEC
"far-field" analysis, which for real earth go to zero field in the
horizontal plane.
At an elevation distance in the chart of of 15 meters (8.5 degrees), the
difference in the field shown for 1 mS/m conductivity and that for sea water
conductivity is 2.6 dB -- probably less than intuition would expect.
It is the low-angle radiation directed toward the ionosphere from the fields
at ~this electrical distance from the monopole that can produce useful
skywaves having the greatest single-hop range.
http://i62.photobucket.com/albums/h85/rfry-100/Monopole_Surf_Wv_Compare.jpg
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