Just an an anectode about Coax problems.
Years ago when I had a big HF System, which included
large monobanders and 80 meter vees and quads.
I was trying to work OH2BH on the short path on 75.
It had been a very cold winter up til then and I was
cranking 1500w to him so he could hear me S3. Just a
West Coast problem!!
As I was transmitting to him, I noticed drips of
water coming out of the coax switch that controlled 75
meters!! Mind you the SWR still looked good and I was
getting full output!
I am still amazed today to think that I didn't blow
anything up, more so that the impedance didn't change
and cause a SWR fluctuation that I could easily see
and look for a problem.. When I saw the Drips I ceased
my transmission. After inspecting the coax. There was
a split in the outer jacket caused by the incredible
cold weather we had gone through. Then our normal
rainfall decided on it's path down the coax.
Maybe the water caused a perfect dialectric, and
stayed away from the center conductor??? I don't know.
But having good shielding is very important, I do
--- Tom Rauch <email@example.com> wrote:
> > I'm sure I'll take some heat on this, but oh well.
> Hey, just put the heat shields up. There seem to be
> to go around.
> > First, I would consider LMR-400 to have a dual
> shield, not
> to be double
> > shielded. It has a foil shield which likely
> provides 100%
> > covered with a braided shield. Personally I
> believe this
> provides a
> > very good shield for a reasonable cost. Double
> coax such as
> > RG-214 and RG-142 have two braided shields over
> dielectric, my hunch
> > is that no braid is tight enough to ensure 100%
> so one over the
> > other pretty much gives you that while still
> > flexibility.
> I think the problem comes from the fact we confuse
> with 14MHz signals Daron. We can see through the
> shield, so
> we assume RF can leak through. Fortunately our eyes
> run at radio frequencies, and that large .005 inch
> gap looks
> pretty damn small to a wave that is 2 meters long,
> let alone
> one that is 40 meters long.
> > varying frequencies and power levels. There are
> that higher
> > power (lower loss) feedlines go to a solid shield.
> A large part of the reason, if not the largest, is
> resistance in the shield. Woven conductors even with
> a good
> lay and untarnished conductors has a few times the
> resistance of a smooth solid conductor.
> Get any moisture in the cable and the loss becomes
> worse. As a matter of fact shield corrosion is the
> bulk of
> the reason a cable gets lossy after moisture
> Current tries to stay inside the shield, and every
> time the
> lay wraps outside the current tries to migrate
> across the
> poor connection to the incoming stands.
> The braid of RG-8U cable, when pressure is removed
> lays, has about the same resistance per foot as
> #14 or
> smaller solid wire.
> If you lay smooth foil against the dielectric,
> doesn't matter nearly as much. As matter of fact, it
> almost no change at HF.
> > I think Tom's point is that you don't need to have
> shield or 100%
> > shield for many applications, and frankly spending
> extra money for
> > it may be a waste. I've had electrical engineers
> quad shield RG6
> > coax inside a grounded metallic raceway to 'reduce
> interference'. I'm
> > no PE, but what will that 5th shield catch that
> the first
> 4 don't?
> Nothing. It probably doesn't catch anything the
> first shield
> doesn't in most cases.
> > outer jacket. My experience with CATV and other
> taught me that
> > a dual shield was considerably better at keeping
> signal in
> the wire than
> > was a 90% shield, so it makes sense to me for some
> I use a dual shield too. The inner foil makes the
> perfect shield, and the light outer shield allows my
> connectors to get a "bite" on the foil. Think about
> the end
> connection problem. It is impossible to guarantee a
> connection to the foil, but the braid is easy and
> to sandwich in a crimp connection. The trusty foil
> that does
> all the shielding only lays inside the connector
> shell. The
> metal shell crimps down only on the braid, and the
> actually couples to the foil.
> I think we are mostly on the same page. If you can
> through the shield light can certainly get through.
> frequencies still have a pretty tough time.
> Save the extra shield money for something useful,
> like a
> gallon of gas.
> 73 Tom
> See: http://www.mscomputer.com for "Self Supporting
> Towers", "Wireless Weather Stations", and lot's
> more. Call Toll Free, 1-800-333-9041 with any
> questions and ask for Sherman, W2FLA.
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