Insane ground loop; anybody wanna try?


I have a ground loop that's been killing me for weeks. I've tried several things to limited or no success. I've written to Mike Sanders at Quicksilver, but I'm a little chagrined to keep asking him questions that aren't really the fault of his gear.

Anybody want to have a go at solving this puzzle? It's driving me nuts, and I'd be grateful for any help.

Relevant equipment:
Rowland Capri preamp
Quicksilver Silver 60 mono amps (EL34)
Sunfire True Sub

Amps, preamp, and sub are all plugged into a Monster 2000, so everything shares a common wall outlet.
Plugging the amps into separate wall outlets has little effect either way.
Amps are damn near dead-quiet with no input, so it's shouldn't be the transformers or the tubes.

Amps plugged in to the preamp (shielded DH Labs RCA cables) hum, and the sub does too. Swapping cables has no effect.
Unplugging and reconnecting sources (a turntable and a Mac Mini via a Schiit DAC) has no effect.
Unplugging the sub has little effect (except it eliminates the hum in the sub, haha).

Lifting the ground on the amps reduces the hum — by about half, but definitely not completely.
A Hum-X has no (or very little) effect, whether placed on the preamp, an amp, or the sub.

For obvious reasons I don't want to lift the ground on the amps permanently.

I'm not an electrical engineer, but I'm a logical guy.

Ideas? I'm open to any with two requests: First, if you don't know something for sure, please say so. I don't want to play in electron traffic because somebody just guessed at a solution. And second, if you disagree with somebody, don't call him names, okay? There's more than enough gratuitous meanness in the world right now without insulting people over stereo equipment. Thanks.
pbraverman
The ground system in a home is not for people protection it is for fire protection. If there is current on the chassis and someone touches it the breaker is probably not going kick in time to save someone. Only a GFCI which is designed to protect people may save someone from a shock or electrocution.
No, that is not correct. A short between AC "hot" and the metal chassis of an audio component or any other electrical device having a 3-prong power plug is obviously very unlikely to materialize at the same instant someone touches the chassis. So the breaker will almost certainly have tripped some time prior to the chassis being touched, as a result of the excessive current that will be drawn by the short between AC "hot" and the safety ground conductor.

A GFCI can provide **additional** people protection under certain circumstances, such as in bathrooms or other areas where there is water.

And regarding fire protection, the main purpose of a breaker is to protect the AC wiring in the walls from overheating, as a result of an overload. In the event of an overload, the breaker will trip as a result of the excessive current passing through the "hot" conductor, which will normally be returned through the "neutral" conductor, not the safety ground conductor. So under most circumstances the safety ground conductor has no involvement in the fire protection provided by a breaker. That said, however, there are certain scenarios in which defeating the safety ground connection of an audio component could conceivably result in a fire hazard, as well as a shock hazard.

Regards,
-- Al


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Overheating conductors in walls is a major cause of house fires so you are correct but then you did prove my point. The grounding scheme in residential construction is designed to protect property not people it’s a well known fact and as I said you just backed that up.
No, I did not back that up. I said that **the breaker** protects against fires in the walls due to overheating conductors, not the grounding scheme. As I said in the last paragraph of my preceding post, "under most circumstances the safety ground conductor has no involvement in the fire protection provided by a breaker."

I also explained how the grounding scheme, specifically the safety ground connection, protects against electrical shock in the event that the AC "hot" wiring within an electrical device shorts to its metallic chassis (if it has a metallic chassis), by causing the breaker to trip before anyone has a chance to come in contact with the "hot" chassis. That is why 3-prong outlets and 3-prong power plugs (on devices that are not "double insulated"), which provide a safety ground connection, replaced 2-prong types (which don't provide a safety ground connection) many decades ago.

I agree, of course, with your statement that "GFCIs will react and kick in milliseconds not seconds and are designed to protect people." However your preceding post, to which I was responding, stated that...
If there is current on the chassis and someone touches it the breaker is probably not going kick in time to save someone. Only a GFCI which is designed to protect people may save someone from a shock or electrocution.
... which as I explained is not a correct statement.

Regards,
-- Al


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