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Re: [Amps] World's worst coax connectors

To: amps@contesting.com
Subject: Re: [Amps] World's worst coax connectors
From: Jim Brown <jim@audiosystemsgroup.com>
Reply-to: jim@audiosystemsgroup.com
Date: Mon, 24 Apr 2023 00:59:09 -0700
List-post: <mailto:amps@contesting.com>
On 4/23/2023 11:02 PM, vk6jx@bigpond.net.au wrote:
Every shielded single pair or multi pair instrumentation cable (read
low-level signals being conveyed through the noisiest HV/LV/variable speed
AC drives environment imaginable) all over the world, has the shield
grounded only at the receiving end

Cable shields are not EARTHED, they are shields -- the late Neil Muncy correctly taught us that the earth is not a sump into which noise is poured. :) And not all large scale performances are of rock music -- when I've recorded Tony Bennett live, and mixed audience sound for him outdoors a year or two later, it was a big band with strings, toys, and a harp. 32-48 channels carrying mics several hundred feet, with the sum of noise picked up on those cables (non-coherent noise increasing by 3 dB for each doubling of the number of inputs, 6 dB if the noise is coherent), is very different from rock and roll, and even more different from instrumentation.

A study of Whitlock's 1994 AES Paper (reprinted in Jun 1995 Journal of The AES) is groundbreaking. JAES is in most engineering libraries and the Jun '95 issue got a special re-printing, because it included ground-breaking papers by both Whitlock and Muncy, as well as two other EMC papers from the same session. Many years ago, it could be ordered from the AES website for $10.

Whitlock's paper analyzed the balanced interface as a Wheatstone bridge, which led him (and us) to the recommended practice. For balanced to be achieved broadband, cable capacitance comes into the equation, and it was learned that the differing dyes used to color-code conductors caused their dielectric constant, and thus their capacitance to the shield, to vary, thus upsetting the balance with increasing frequency. That issue is solved by always terminating the shield at the sending end.

Remember -- the fundamental reason for breaking the shield at all is legacy equipment with a Pin One Problem.

 - which is usually within the E/I
Equipment Room adjacent to the area control room. This is where these low
level signals are connected into the Honeywell or whatever SCADA system
which monitors and controls the plant. There is a "clean" instrumentation
earth system installed under each control room which is entirely independent
from the power earth installation to which all the motor cable earth wires
are bonded. The drain wires of the shields of all of these instrumentation
cables are grounded only to the clean earth system. The shields at other
ends of all of these cables - out in the field connected to thousands of all
types of transmitters - is not connected to anything.

In North America, all ground electrodes (earths) in a facility must, by Code, be bonded together. Isolated ground mains wiring is used for sensitive equipment, including sound systems; ground (protective earth) is bonded to earth and neutral at the point of entry to the premises, but isolated from all other contact with grounded objects. When power transformers are added for voltage transformation or noise isolation, neutral must be bonded to building ground at its secondary, and if that transformer fed isolated ground wiring, the grounding point would be at that transformer secondary.

73, Jim K9YC

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