Another interesting clue as to how the cone functions with RF currents can be noticed in the CST computer model I posted years back. Pay particular attention to the shape of the current node around the 1/4 wave cone. The 1/4 wave radiator always shows maximum current at its base feedpoint with the current steadily reducing over that length.
That is not at all what the computer model is showing in the 1/4 wave cone section of this antenna. Here we have a 1/4 wave radiator that manages to show maximum current right in its center at though it was a 1/2 wave!
Donald I agree with you in the part, where I made
bold type above, and especially with the word
"always." However, I'm not sure I can agree that what we see here really is as you suggest..
.that the CST model is showing us maximum current gain right in the center of the 2 x 1/4 wave radials shown as though the cone radials were 1/2 wave radiating elements. Donald there has never been enough CST information on this subject, so I don't know for sure, but I disagree.
I use to think this list of values were (A/m) amperage per meter values like it shows in the image. But, then I got to thinking that 2.37 A/m is a lot of amperage, and instead my Eznec models show the red lines as the values for gain. Understanding, that the farther away the red line is from the radiator the more gain we have and visa-versa.
Eznec calculates amperage per segment for each wire and this information is found in the Tabular Currents Table Report. It is noted in the last image of the PDF file below.
I can only replicate this current node shape in modeling when the 1/4 wave element is excited with RF from both ends... I have long suspected that this second current is folding over the top of the cone and radiating on its outside surface, in a constructive phase.
I have a vague recollection of you talking about this, but I never understood the point or the test with your two sources on a single wire.
Posted below is a model of the V4K with no loop on top of the radials.
Donald, do you have any idea why this CST model has no radial loop on the model?
I had to add 9" inches to each 106.99" inch radial to set the antenna back to resonance. When I did that, it raised the TOA 1* degree with the same 2.37 dbi gain as my
Free Space speck model with a radial loop showing maximum gain to the horizon.
Examples for these modeling ideas are in the PDF file below.
1. My model shows the currents on the radials, in red, and is similar to what you describe in your comments at the top.
2. I noted the amperage for the tip of radial #3 at segment #46 showing the least amount of current at 0.01415 (A). I also noted at the base of the antenna for wire #3 segment #1 with the most amount of current at 0.34455 (A) and that is as a 1/4 wavelength should be,
3. I posted the base of the V4K to show the wire #3 at the base of the antenna.
4, Shows the pattern with maximum TOA of 2.37 dbi @ 6* degrees above the horizon.
5. Is an image of wire #3 in the Tabular Currents Report for each of the 46 segments in that radial wire and it shows a current trend like a typical 1/4 wave element.
