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Cables
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Cable Shielding Explained |
Cable Shielding Explained
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Braided Shield
A braided shield is applied by braiding bunches
of copper strands called picks around the insulated,
electrostatically shielded center conductor. The braided shield
offers a number of advantages. Its coverage can be varied from
less than 50% to nearly 97% by changing the angle, the number of
picks and the rate at which they are applied. It is very
consistent in its coverage, and remains so as the cable is
flexed and bent. This can be crucial in shielding the signal
from interference caused by radio-frequency sources, which have
very short wavelengths that can enter very small “holes” in the
shield. This RF-shielding superiority is further enhanced by
very low inductance, causing the braid to present very low
transfer impedance to high frequencies. This is important when
the shield is supposed to be conducting interference harmlessly
to ground. Drawbacks of the braided shield include restricted
flexibility, high manufacturing costs because of the relatively
slow speed at which the shield-braiding machinery works, and the
laborious “picking and pig tailing” operations required during
termination. |
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Serve Shield
(spiral-wrapped)
A serve shield,
also know as a spiral-wrapped shield, is
applied by wrapping a flat layer of copper strands around the
center in a single direction (either clockwise or
counter-clockwise). The serve shield is very flexible, providing
very little restriction to the “bendability” of the cable.
Although its tensile strength is much less than that of a braid,
the serve’s superior flexibility often makes it more reliable in
“real-world” instrument applications. Tightly braided shields
can be literally shredded by being kinked and pulled, as often
happens in performance situations, while a spiral wrapped serve
shield will simply stretch without breaking down. Of course,
such treatment opens up gaps in the shield, which can allow
interference to enter. The inductance of the serve shield is
also a liability when RFI is a problem; because it literally is
a coil of wire, it has a transfer impedance that rises with
frequency and is not as effective in shunting interference to
ground as a braid. From a cost viewpoint, the serve shield
requires less copper, is much faster and hence cheaper to
manufacture, and is quicker and easier to terminate than a
braided shield. It also allows a smaller overall cable diameter,
as it is only composed of a single layer of very small
(typically 36 AWG) strands. These characteristics make the
copper serve shield a very common choice for audio cables such
as the Pro Co (XLR20) XLR 20. |
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Foil Shield
A foil shield is composed of a thin layer of
Mylar-backed aluminum foil in contact with a copper drain wire
used to terminate it. The foil shield/drain wire combination is
very cheap, but it severely limits flexibility and indeed breaks
down under repeated flexing. Foil’s 100% coverage advantage is
largely compromised by its high transfer impedance (aluminum
being a poorer conductor of electricity than copper), especially
at low frequencies. |
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