Rex post + 1
Just to clarify a few points.
1) you said:
Mikes stand alone structure only has sleeping and bathing so its not a residence. As such he does not need AFCI. There is no kitchen in the listening room so he does not need GFCI. Technical power 60/60 is not legal in a residence, but it can be used in non residential structures.
To be clear GFCI protection is required on a 60/120V symmetrical power system (so called 60/60V Balanced Power System) for the branch circuit wiring. I know you know that,... but it needed to be pointed out here on this thread for the DIYers.
Oh by the way my reference to AFCI branch circuit protection was just another code violation IF a hard wired 60/120V symmetrical power system was installed in a residential dwelling unit, as I am sure you know. NEC code care less if it’s an audio room.
2) You said:
Per the OP post, the grounding I did is code minimum, but applied very well.
It should be pointed out NEC only requires, as you know, a rod to soil resistance of 25 ohms or less. As you know that is way too high. IEEE the Emerald Book recommends 5 ohms or less. (For commercial/industrial facilities). Far better for lightning protection than 25 ohms. If I remember correctly in the Fremer video someone saying the grounding electrode system soil resistance was a 1/2 ohm... Outstanding! That’s probably better than a lot of industrial facilities in this country.
3) Finally This. You said:
Ground the house properly and you will shunt most noise to earth.
Here I will have to disagree. The Earth does not possess some magical mystical power that sucks nasties from an audio system.
I used to think as you do that noise can be diverted to mother earth until I was called out on it on AA many years ago. Well I had to prove I was right, correct? Good luck proving it...
I’ll leave you with this:
Grounding Myths
From Henry W. Ott’s "Electromagnetic Compatibility Engineering"
3.1.7 Grounding Myths
More myths exist relating to the field of grounding than any other area of electrical engineering. The more common of these are as follows:
1. The earth is a low-impedance path for ground current. False, the impedance of the earth is orders of magnitude greater than the impedance of a copper conductor.
2. The earth is an equipotential. False, this is clearly not true by the result of (1 above).
3. The impedance of a conductor is determined by its resistance. False, what happened to the concept of inductive reactance?
4. To operate with low noise, a circuit or system must be connected to an earth ground. False, because airplanes, satellites, cars and battery powered laptop computers all operate fine without a ground connection. As a mater of fact, an earth ground is more likely to be the cause of noise problem. More electronic system noise problems are resolved by removing (or isolating) a circuit from earth ground than by connecting it to earth ground.
5. To reduce noise, an electronic system should be connected to a separate “quiet ground” by using a separate, isolated ground rod. False, in addition to being untrue, this approach is dangerous and violates the requirements of the NEC (electrical code/rules).
6. An earth ground is unidirectional, with current only flowing into the ground. False, because current must flow in loops, any current that flows into the ground must also flow out of the ground somewhere else.
7. An isolated AC power receptacle is not grounded. False, the term “isolated” refers only to the method by which a receptacle is grounded, not if it is grounded.
8. A system designer can name ground conductors by the type of the current that they should carry (i.e., signal, power, lightning, digital, analog, quiet, noisy, etc.), and the electrons will comply and only flow in the appropriately designated conductors. Obviously false."
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