Buryflex all the way to K3?

I'm doing some rewiring of my shack and the antenna runs. I'm going to order
some BuryFlex which will be used as the main runs to both of my antennas.
I'm trying to minimize the number and type of connections while doing all
this. I don't yet have any BuryFlex as my previous runs were RG213 (Wireman
CQ110) so I don't have a feel for its flexibility. RG213 is pretty stiff.

I'm wondering if I can bring two BF lines up to the back of the K3/10 or
will that be like connecting two anacondas to a church mouse?

My alternative would be to make a couple of RG8X jumpers for the last few
feet.

thanks

jim ab3cv
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Jim,

two points:

1.) We should always have an entrance bulkhead ground at the
building cable entrance that is bonded to the mains ground.
This is where 99% of the lightning protection will occur.
Why not run a small cable from there to the K3??

2.) The loss at HF and even lower VHF in barrel connectors
or connectors in general is immeasurable without very
special methods. There is some bad information on Internet
about it and some real wild myths, but the loss in a typical
moderate to good PL259-barrel-PL259 is about .05 dB or so at
30 MHz, and less on lower frequencies.

When I test connectors here at HF, I actually have to do it
thermally with a few kilowatts of power!!! The loss is
almost always too low to measure accurately on a $35k
network analyzer at HF, even on a PL259/SO-239 combination.
Unless you are on UHF or working EME on 144 MHz, there is
very little reason to avoid changing cable sizes inside the
dwelling.

73 Tom

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Thanks all for the input. I'll just run 8X jumpers from my bonding panel to
the K3. The operating point is on the first floor directly above the
basement service entrance and bonding panel with polyphasers so it will only
be 10ft.

Now to order a bunch of coax and connectors.

73

jim ab3cv
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Good choice. My first (and probably last) experience with BuryFlex is that
it should have been named SortaFlex. It's pretty stiff compared to Belden
9913F7, which is a dream to work with in comparison. (IMHO, of course. I
know some people don't like it.) At HF and 6m, though, ten feet of 8X will
be perfect.

Bill W5WVO


--------------------------------------------------
From: "Jim Miller" <[hidden email]>
Sent: Sunday, May 30, 2010 1:37 PM
To: "Elecraft Reflector" <[hidden email]>
Subject: Re: [Elecraft] Buryflex all the way to K3?

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On Sun, 30 May 2010 15:13:19 -0400, Tom W8JI wrote:

> There is some bad information on Internet
>about it and some real wild myths,

YES.

That said, some of the "misinformation and myth" is based on
the use of cheap, no-name junk connectors sold at hamfests and
on the internet, often by "respected" ham vendors.

>When I test connectors here at HF, I actually have to do it
>thermally with a few kilowatts of power!!!

Some of these junk connectors will fail the power test. I
learned that the hard way, having bought a bunch of the
junkers and put them in my station. One coax elbow overheated
with 1.5kW in the first hour of contest operation, and failed
(to the extent tht my Titan amp got very unhappy). It was VERY
hot, because the internal connection for the center conductor
was a tiny spring!

My rule, learned the hard way -- stick to first quality, name
brand connectors. Amphenol isn't cheap, but that's all I buy.
If I were a mfr with a decent lab (like Tom, or W2VJN) and
could do serious testing of other products, I might add other
mfrs to that list.  

73,

Jim Brown K9YC


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On Sun, 30 May 2010 15:37:23 -0400, Jim Miller wrote:

>Thanks all for the input. I'll just run 8X jumpers from my bonding panel to
>the K3.

One thought. If you're going to operate SO2R and run power, you should
probably use the bigger coax for the jumper, because the more robust shield
can help interstation crosstalk. I did that in my shack for that reason, and
it made a difference.

73,

Jim K9YC


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> One thought. If you're going to operate SO2R and run
> power, you should
> probably use the bigger coax for the jumper, because the
> more robust shield
> can help interstation crosstalk. I did that in my shack
> for that reason, and
> it made a difference.


I'd be very surprised if that had anything to do with
shielding Jim.

Try this experiment if you have a network analyzer and an
amplifier. take 30 feet of RG8X and wrap it tightly against
another cable, but treat the ends properly. Terminate the
amplifier end and measure cross talk signal on the other
with the opposite end terminated.

You'll measure virtually no crosstalk, certainly much less
than -80 dB, with nearly any cable. Even very crappy Radio
Shack cable that you can see through the braid is
surprisingly good.

After making dozens of measurements here, I concluded the
major problems I had were from antennas coupling to antennas
(even at 1000 foot spacing) and how connectors were mounted
on radios and amplifiers, and things like BNC and phono
connectors.

I need to expand this page, but here is some actual data
comparing coupling at 1/2 mile between antenna to ingress
through the shield of one type cable.

I think we far overestimate shield ingress. The real problem
is poor connector mounting and grounding.  (Sound familiar?)

We use RG8X no problems, but I have cleaned up the grounding
of connectors on all my RF equipment and panels.

73 Tom

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Thanks all! My K3/10 is almost always running at 5w CW.

I'm really surprised and grateful for the great ears and enormous patience
DXers have shown responding to my puny signal.

I did note that the 70ft run to my dipole via RG213 was right on spec when I
measured it at 0.5db of loss. But the 20ft of jumpers I had ate another
0.6db. I can eliminate those and will do so now that I'm aware of their
penalty.

I know it only means a fraction (pick a number...) of an S unit but when the
DX on the other side of the world has to ask for a dozen fills I'll be happy
to know I've done as much as I can to lessen their pain a bit. ;-)

Best so far is an FO in French Polynesia and VQ in Diego Garcia with 5W and
a 80ish foot wire dipole at 50ft in Maryland.

73

jim ab3cv
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On Mon, 31 May 2010 18:59:20 -0400, Tom W8JI wrote:

>After making dozens of measurements here, I concluded the
>major problems I had were from antennas coupling to antennas
>(even at 1000 foot spacing) and how connectors were mounted
>on radios and amplifiers, and things like BNC and phono
>connectors.

You're certainly not wrong about what you call "grounding" and I call pin 1
problems. :)

I do have an HP 3590D spectrum analyzer sitting in the shack, and put a
simple loop on it to look at 2nd harmonics from my Ten Tec 425 amp and 160M
vertical. It was about -44 dBc when I started, and I got it down to the rated
-50 dBc by doing nothing more than changing coax jumpers.

Now, I trust your engineering, and your measuring may be better than mine. :)

73,

Jim K9YC



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> My rule, learned the hard way -- stick to first quality, name
> brand connectors. Amphenol isn't cheap, but that's all I buy.
> If I were a mfr with a decent lab (like Tom, or W2VJN) and
> could do serious testing of other products, I might add other
> mfrs to that list.  
>  

We used Kings double-crimp coax connectors for all our products and
installations that went into the global mining industry where
reliability and ruggedness were of paramount importance.  These were
selcted after a lot of testing, though admittedly not at 1.5 kW levels.

73,

Lyle KK7P
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> I do have an HP 3590D spectrum analyzer sitting in the
> shack, and put a
> simple loop on it to look at 2nd harmonics from my Ten Tec
> 425 amp and 160M
> vertical. It was about -44 dBc when I started, and I got
> it down to the rated
> -50 dBc by doing nothing more than changing coax jumpers.

Something else was going on Jim. Not shielding.

We cannot accurately measure harmonic suppression with a
probe or loop unless the probe or loop is somehow frequency
compensated for sensitivity as frequency changes. In short,
the "antenna" used on the analyzer has increasing
sensitivity for a given flux level with frequency. As I
recall a very small loop open terminal voltage is about
8*10-6th  times F times loop effective area. So your loop
has 6dB more sensitivity as frequency doubles, although it
could in practice be much more or even somewhat less because
of other effects that might unintentionally compensate or
enhance the change.

More likely you changed the impedance presented to the tank
circuit on the second harmonic. Changing 80 meter impedance
at the 160 meter tank can radically affect harmonic
suppression. Harmonic suppression will be less with a low
impedance terminating a pi network on the harmonic, and
greater with a higher impedance on the second harmonic. Just
changing the velocity factor (electrical length) of the
cable a small amount can change the level of the harmonic
significantly.

When we want to measure something, we have to be careful to
actually measure what we think we are measuring. :-)

Case in point, I have a 2nd harmonic stub on my 160
antennas. It is in a calculated sweet spot 1/4 wavelength on
80 meters from my amplifier pi-network loading capacitor.
This makes maximum possible 80 meter Z across the load cap
on the 160 amplifier, so the loading cap looks like a more
effective short on 80. By altering nothing but distance of
the stub from the amp to 1/2 wave on 80 meters on the 160
feeder, the harmonic suppression decreases 10-15 dB. Even
the length of the cable to the matching system affects the
harmonics, and each matching system is different! Changing
cable electrical lengths will change harmonic levels
significantly, even without a harmonic suppression stub in
the system.

73, Tom












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On Mon, 31 May 2010 21:00:32 -0400, Tom W8JI wrote:

>Something else was going on Jim. Not shielding.

>In short,
>the "antenna" used on the analyzer has increasing
>sensitivity for a given flux level with frequency.

Agreed. But there's more -- my amp, a Titan 425, has an L network
output, and there's a stub about three feet of coax from the
output. Thanks to antenna switching, I can't get closer than
that. So I'm looking to see some additional harmonic suppression,
and so far I don't. That is, I don't see suppression when I add
the stub. I'm confident of the stub tuning -- it was cut in a 50
ohm system (HP generator and HP analyzer), and tweaked at the 2nd
harmonic. More on that below.

>More likely you changed the impedance presented to the tank
>circuit on the second harmonic.

The coax I was changing was between the K3 and the amp.

>Changing 80 meter impedance at the 160 meter tank can radically
>affect harmonic suppression.

Yes, and this is not generally understood. It's a general
characteristic of all passive networks.

>When we want to measure something, we have to be careful to
>actually measure what we think we are measuring. :-)

Yes.

As it happens, the primary reason that I've been working on this
is to study the effect of stub placement, with exactly these
effects in mind. :) And I fully understand exactly what you're
saying. But the source is not the only boundary condition
contributing to the impedance along the line -- the antenna does
as well. In this case, it's a vertical about 30-40 ft of RG8
away. It looks like 50 ohms at the fundamental. I haven't
measured at the 2nd harmonic, but I'd bet the Z is prtty high. :)

If you look at my website, you'll find a first draft of a
tutorial on coax and stubs that addresses this issue. Any
comments you might have would be appreciated.

http://audiosystemsgroup.com/Coax-Stubs.pdf

73,

Jim K9YC


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Jim,

You say that foam dielectric is more costly and provides no benefit at h-f.  If you are only considering dielectric loss this is true, but the lower effective dielectric constant allows (requires) a larger center conductor (for the same overall diameter) which fulfills your "big copper" idea.

On a related note, this increased center conductor diameter also requires special connectors sized for the cable.

Wes

ps. Your first draft says, "Second draft"

If you look at my website, you'll find a first draft of a
tutorial on coax and stubs that addresses this issue. Any
comments you might have would be appreciated.

http://audiosystemsgroup.com/Coax-Stubs.pdf




     
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Hi Jim,

I gotta get back to work but......

>>More likely you changed the impedance presented to the
>>tank
>>circuit on the second harmonic.
>
> The coax I was changing was between the K3 and the amp.

When we measure a change in a complex soup of interactions
and fields formed by the interactions, we might never really
know what we really changed or how we changed it. There
could be a half dozen things going on, including that the
actual harmonic never really changed in level at all.

Collins fell into this trap with the unneutralized 30L1. The
30L1 amp, because it lacks neutralization, has inherent
instability and regeneration problems. They  started playing
with coax between the amp and exciter, saw changes, and came
up with a long fairy tale about 180 degree phase inversions
in the coax between the exciter to amplifier coax.
Unfortunately the conclusion they reached can be fully
disproven in a matter of just minutes by observing the same
things they did in a different way.

Anyone thinking the coax shield has such a large effect
needs only directly measure egress or ingress through the
shield to see how little worry about the shield at HF is
actually warranted. We are in a thick soup of radiation from
our antennas, and even the worse cable shields "leak" far
less than the fields from direct radiation. Far more
important are common mode currents from poor antenna design,
poor cabinet bonding, poorly thought out groundplanes, bad
PC or wiring layouts, and poor connector mounting. Coax
shields are way down the "problem" list at HF.

73 Tom

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