Theoretically infinite. I = 0, therefore V = infinite with any power at
the tip. However the real case is very complex and depends on the
environment and therefore the actual impedance at the tip caused by
capacitive end effects, etc. I don't believe there is a simple solution.
Larry / W1DYJ
.
On 10/4/2022 11:21, Pete Smith N4ZR wrote:
I'd be interested in this. I think the answer is fairly
straightforward, depending on how far the end is (electrically) from
the feedpoint, but specifics escape me.
73, Pete N4ZR
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On 10/4/2022 11:07 AM, jim.thom jim.thom@telus.net wrote:
Ok, simple question. With 1.5 kw (measured at feedpoint) applied to
the
50 ohm input of the (full sized) dipole / yagi... what is the PEAK V at
the tips ? Assume 1:1 swr at the feedpoint.
Same question, but ant is not full size, and may have various forms of
loading schemes used. (Say 50-80%) of full size.
Ok, what about a single, full size 1/4 wave vertical ? Or a loaded
vertical ?
I can't find a straight answer anywhere.
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