Sujet : Re: Dressing RG6
De : pcdhSpamMeSenseless (at) *nospam* electrooptical.net (Phil Hobbs)
Groupes : sci.electronics.designDate : 16. May 2024, 17:41:19
Autres entêtes
Organisation : A noiseless patient Spider
Message-ID : <d928b2f4-723e-ae36-6da4-9c39c23abdfa@electrooptical.net>
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On 2024-05-15 17:25, Jeroen Belleman wrote:
On 5/15/24 16:27, John Larkin wrote:
On Wed, 15 May 2024 11:03:22 +0200, Jeroen Belleman
<jeroen@nospam.please> wrote:
>
On 5/15/24 01:33, Don wrote:
Jeroen Belleman wrote:
Phil Hobbs wrote:
John Larkin wrote:
Don wrote:
>
<snip>
>
The parasitic capacitance created between coax and its metal armor can
open a Pandora's box of potential problems.
>
Capacitance between the coax outer and the copper pipe? Proper coax
shouldn't have any external field.
>
If the whole system is really coaxial, that’s true. Leaky shields, ground
loops, and so on, will modify that.
>
Depending on the application, you may or may not care.
If the whole system is really coaxial, that’s true. Leaky shields, ground
loops, and so on, will modify that.
>
Depending on the application, you may or may not care.
>
I've been putting coax inside copper tubes or braids to measure
and/or reduce the transfer impedance (leakage). I did that to
measure small signals in a particle accelerator, which typically
has kicker magnets and RF cavities with kA currents and kV
voltages nearby.
>
A colleague developed a special low transfer impedance coax
cable for this sort of application. It had two screens with
intermediate magnetic shielding. It was unpleasant to work
with, because part of the magnetic shielding was a steel
spiral foil tape that was razor sharp. But it worked really
well.
>
Empirical observation always trumps theory for me. Did you ground [1]
the copper tubes or braids?
>
Both ends were connected to the connector shields. The point of
the exercise was to reduce transfer impedance, which at low
frequency (<1MHz) is simply proportional to screen resistance.
>
Jeroen Belleman
>
Two parallel coaxes can make an attenuator.
>
What was the coupled frequency response like?
>
Ah sorry, this message didn't seem to get sent...
At low frequency, the transfer ratio was simply the ratio
of screen resistance over characteristic impedance. At medium
frequencies, a few octaves roughly around 1MHz, there was a dip,
and above that a steady rise of about 10dB/decade.
Not all cables behaved the same. RG58 is poorly screened and
doesn't have the dip. UT141 had a very deep dip.
Details at
<https://jeroen.web.cern.ch/jeroen/coaxleakage/leakage.shtml>.
Jeroen Belleman
Very interesting results, Jeroen. Thanks for posting them.
Is the MF resonance due to the inductive and capacitive coupling cancelling each other? (They're 180 degrees out of phase, of course.)
The frequency is way too low to be a transmission line effect in a 1-m length.
Cheers
Phil Hobbs
-- Dr Philip C D HobbsPrincipal ConsultantElectroOptical Innovations LLC / Hobbs ElectroOpticsOptics, Electro-optics, Photonics, Analog ElectronicsBriarcliff Manor NY 10510
http://electrooptical.nethttp://hobbs-eo.com