Another very interesting data point:
The 40m full wave is supported near the top of the tower on a short side
arm. That's the feedpoint, 1/4 wave from one end. It's like a lopsided
inverted V or sloper. There's a balun, but the feedline is isolated from
the tower, and pulled as far from it as possible. Still, there's no
doubt that some power is coupled into it when shunt feeding the tower on
I connected a dummy load and a power meter to the 40m coax, just to see
how much power came back. Initially, 5 W was coming from that antenna.
However, when "something" heated up and the shunt feed SWR rose, that
power dropped to 1.2 W. This seems to make it almost certain that it is
the 40m balun which is heating. (And that would take way more than 5 W.)
So, I think I've found the culprit.
I'm not sure what to do about it. I only use that antenna for receiving,
but it's useful. It is a bead balun, which would have pretty low
impedance on 160. One possibility would be to make a receive only balun
with very high impedance on 80 and 160. It might not survive the
initial tests, but it wouldn't cost much. Any other ideas?
On 12/10/2019 23:31, K9MA wrote:
Here's the mystery: After a long transmission on 160 at 1.5 kW, the
SWR suddenly, but smoothly, rises to 1.4:1, but rises no further. A
pause of a few seconds allows the SWR to drop back to 1:1, but it will
rise again when transmission is resumed. Retuning the gamma capacitor
will reduce the SWR, but not quite back to 1:1. Clearly something is
heating up, but I can't think of an explanation. There are some N750
doorknob capacitors in the matching box, but if one of them were
heating and drifting, why would it stabilize? Could a ferrite balun be
heating enough to reach its Curie temperature? But since the element
ends of those are already shorted to the mast or boom through shunt
chokes, why would that affect the shunt feed.
The 70 foot tower has an A3 at 50 feet, a JK Mid-Tri at 29 feet, and a
D40 at 75 feet. It is shunt fed it on 80 and 160 with separate gamma
matches, switched to a single coax with a relay. This has worked
reliably for over 25 years, with a TH7 where the Mid-Tri is now. The
TH7 had grounded elements, while the Mid-Tri does not. There are
bead-type baluns on the A3 and D40, and a toroidal balun on the
Mid-Tri. All three antennas now have shunt chokes at the feedpoints
ala N9NB/W5JAW. (None did before.) The coax shields are bonded to the
tower at its base, but not to the booms or mast at the baluns. The
feedlines all are fastened to tower legs or booms, except at the
rotator loop. There is a 40 meter full wave supported by a sidearm at
its feedpoint near the top of the tower, with a balun, but it's
feedline is NOT on the tower, but pulled away at about a 45 degree
angle. That's been like that since long before the problem appeared.
There's a photo with the TH7 at qrz.com.
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