if the egc is bonded to the N bar in sub and the sub has gfi ocpd's, whats wrong with that. any fault onto egc would bypass the ocpd gfi ckt and trip the gfi, regardless if the feeder itself has egc or not, thus the branch ckts hanging off of the sub are still well protected, no hazard there. and in the case where feeder had no egc then the only way gfi works at the sub is if the egc is bonded to the N bar.
You must be moving too fast . . . GFCI fault detection does not require an EGC, nor ANY connection other than hot(s) and neutral.
By "works" do you mean "does not trip on normal neutral current" or "trips on any leakage outside the normal circuit conductors"?
Read Kwired's post #41 again, as he answered that.
i did read it the 1st time. what's the hazard i am asking. using the N CCC as egc is no, but you would never get there if sub had all gfi ocpd's, etc.
GFCI does not monitor the EGC, it monitors all the normal current carrying conductors of the circuit and is looking for a same current that goes out to come back on all of the conductors of the circuit. If more then 4-6 ma leaks away via some other path, could be the EGC could be any other path, even another ungrounded conductor of another circuit, it trips.any fault current onto the egc will trip gfi instantly. i dont see how this would be the same as having std ocpd's. so what hazard do you mean? if the gfi fails to do its job then perhaps an issue.
gray wire is N, etc.
"Kinda" is the key. Any GFCI protected conductor that contacts something that gives you an alternate path will trip the GFCI when current leaking the intended circuit is over 4-6 mA. Does not change the voltage drop on the neutral - which equates to voltage rise on the EGC to true ground if you use the feeder neutral for connecting to your EGC's, and such neutral to EGC bonding does not change the balance of load side of any GFCI's connected to that feeder, they work just like GFCI breakers installed in a service panel do neutral and EGC are bonded together at service panels. This all going back to my comment that any hazards are the same as a result of using the neutral for EGC beyond the service equipment/first disconnect of separately derived system whether you install GFCI's or not. Is also the same reason a rise in voltage on EGC results in shocks/electrocutions at docks and marinas even though GFCI's were on the circuits involved. The rise is not because of a fault in the branch circuit - it is simply voltage drop on a normally current carrying grounded conductor that gets bonded to EGC's.
My thought as well, has nothing to do with OP's question and GFCI at the load end of a feeder won't care if you use the grounded feeder conductor for equipment grounding, but any voltage drop on that feeder grounded conductor will result in elevated voltage to true ground on any EGC's you connect to it. It may only be a volt or two but in the right circumstances, like around a swimming pool, that is a lot.
Depends on how much voltage drop there is on the grounded conductor from the point in question to the point where the source is grounded.
what grounded conductor if all the loads are pole-to-pole 240v?
