In order to make measurements of impedance, etc on an antenna with any of
the various analyzers on the market, one must connect the analyzer to the
antenna
with some length of coax. And unless the antenna being measured has a
feedpoint
impedance of 50 +/- j0, the impedance as seen by the analyzer is going to
vary
continuously all along the length of the coax, a phenomenon easily seen
with the use
of a program like TLW, etc.
Question is, unless I can attach the analyzer directly to the feedpoint,
how can I
obtain a reliably accurate measurement?
I just looked at the user manual for one of the popular analyzers on the
market.
It makes no mention of this whatsoever. And I don't remember it being in
any other manual I have seen in over 50 years of being in ham radio except
for one:
I have a manual for a simple and inexpensive VNA built from a kit several
years ago, sold by a German company, that makes a big deal out of doing
what it calls an SOL compensation for
the coax and any other connectors used between the VNA and the antenna.
This
supposedly removes any of the impedance transforming effect of the test
setup from the
equation and allows for a precise measurement of the antenna under test.
So what gives? Has anybody here ever wondered about this?
Am I overthinking it or is there something to it?
Tom
K0SN
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