Not really.
What I had forgotten about was a new outlet that I had put in downstream from the GFCI, so that it, a non GFCI outlet, would also be protected.
Like I said, I forgot about that, so I merily went along to replace the "defective" GFCI outlet.
Maybe I should take a moment to clarify something.
G = Ground
F = Fault
C= Circuit
I = Interruption
In other words a GFCI outlet is there to detect Ground Faults and Interrupt the Circuit to prevent fire or other damage to the system...or the user.
What happens when you remove the GFCI from the Faulty Circuit and replace it with a regular, non-GFCI outlet, (because, you know, it is cheaper)? ZZZZZZ! Flash! Puff! And you end up melting things.
Remember that outlet that I forgot I added after the GFCI? Well outlets don't work so well when both the hot and the neutral are wired to the same side! This I discovered after melting the Scamp's shore power cable.
Now the Scamp has a new hole in the side to accommodate the new shore power outlet. Lucky for me the WIFCO power controller was not burnt out.
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This situation highlights the importance of properly installing and troubleshooting electrical systems. A GFCI outlet is a crucial safety feature designed to detect ground faults and prevent electrical hazards. The initial assumption that the GFCI was defective turned out to be incorrect, as the real issue stemmed from a miswired downstream outlet. This serves as a valuable lesson: always double-check wiring configurations before replacing components. Bypassing a GFCI for convenience can lead to dangerous outcomes, including electrical fires. Careful inspection and understanding of how circuits function can prevent costly and hazardous mistakes in any electrical upgrade.
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