Problem with GFCI at start of circuit with both lights and two receptaclesCan I put an AFCI receptacle on a...
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Problem with GFCI at start of circuit with both lights and two receptacles
Can I put an AFCI receptacle on a branch circuit that shares a neutral with another branch circuit?What could cause two of my receptacles to stop working?When replacing non-grounding type receptacles is a GFCI receptacle required, or can any GFCI device be used?How to restore power after tripping a surge protection device?What options are there to achieve both grounding/ground-fault and arc-fault protection on old 2-wire circuits?Two GFCI on 20A bathroom circuitTesting my 2-wire home receptacles with a Southwire model 50020S-AGFCI/AFCI Trips With No Load And New Wire110v outlet on 220v circuit with 220 GFCI to boat dockhelp me interpret the results of an outlet tester on some GFCI receptacles
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With normal receptacle at first device in circuit all works fine--all lights and both receptacles. (I inherited the circuit--didn't do it myself.)
I thought, "Why not install a GFCI as first device?" to provide protection to the two receptacles that are the 3rd and 4th devices in the circuit.
Well, neither of two NEW GFCIS even acknowledge that there is current being supplied to them. (I assure you that there is 120v there.)
A friend wasn't sure but guessed that the GFCIs are saying "I can't help you with lights; receptacles only."
I obviously didn't know that, but it makes sense. There's no way to provide GFCI protection for lights anyway (I assume).
I've Googled a fair amount and followed many links, but have yet to find someone saying "GFCI is wired to not let this situation work." Every one either "it's okay but it's against code so don't do it" or similar hedging.
Whatever, I'm going back to the normal receptacle where I was on Monday with everything working. BTW, a GFCI tester showed no red and two yellows, which means "CORRECT" for this particular tester.
My only question is: forget code for the moment--should the two GFCIs have worked?
electrical gfci
New contributor
add a comment |
With normal receptacle at first device in circuit all works fine--all lights and both receptacles. (I inherited the circuit--didn't do it myself.)
I thought, "Why not install a GFCI as first device?" to provide protection to the two receptacles that are the 3rd and 4th devices in the circuit.
Well, neither of two NEW GFCIS even acknowledge that there is current being supplied to them. (I assure you that there is 120v there.)
A friend wasn't sure but guessed that the GFCIs are saying "I can't help you with lights; receptacles only."
I obviously didn't know that, but it makes sense. There's no way to provide GFCI protection for lights anyway (I assume).
I've Googled a fair amount and followed many links, but have yet to find someone saying "GFCI is wired to not let this situation work." Every one either "it's okay but it's against code so don't do it" or similar hedging.
Whatever, I'm going back to the normal receptacle where I was on Monday with everything working. BTW, a GFCI tester showed no red and two yellows, which means "CORRECT" for this particular tester.
My only question is: forget code for the moment--should the two GFCIs have worked?
electrical gfci
New contributor
2
That's not a GFCI tester. That's an outlet tester. Some outlet testers are combination devices, containing both an outlet tester (which is 3 lights red yellow yellow) and a GFCI fault tester (a button).
– Harper
Aug 16 at 22:40
Yeah, package does NOT say "GFCI Tester" but since it has a GFCI "trip" button, I assumed it was testing the GFCI itself, which it is, but I assume that a real "GFCI Tester" would do other things, such as .... uh .... well, I can't think of any, other than what the LED combinations find wrong. (I've installed half a dozen GFCI receptacles in the past 20 years. Never had a problem until now.)
– DSlomer64
yesterday
Well, when you push the button, it tests the GFCI's one job, which is tripping for current leakage. So in that sense it's a GFCI tester. It's not an all-singing all-dancing everything tester though. And as a 3-lamp tester, the lights are fine, but the descriptions of problem conditions are tuned for new work. They will lead you on wild goose chases in old work.
– Harper
yesterday
add a comment |
With normal receptacle at first device in circuit all works fine--all lights and both receptacles. (I inherited the circuit--didn't do it myself.)
I thought, "Why not install a GFCI as first device?" to provide protection to the two receptacles that are the 3rd and 4th devices in the circuit.
Well, neither of two NEW GFCIS even acknowledge that there is current being supplied to them. (I assure you that there is 120v there.)
A friend wasn't sure but guessed that the GFCIs are saying "I can't help you with lights; receptacles only."
I obviously didn't know that, but it makes sense. There's no way to provide GFCI protection for lights anyway (I assume).
I've Googled a fair amount and followed many links, but have yet to find someone saying "GFCI is wired to not let this situation work." Every one either "it's okay but it's against code so don't do it" or similar hedging.
Whatever, I'm going back to the normal receptacle where I was on Monday with everything working. BTW, a GFCI tester showed no red and two yellows, which means "CORRECT" for this particular tester.
My only question is: forget code for the moment--should the two GFCIs have worked?
electrical gfci
New contributor
With normal receptacle at first device in circuit all works fine--all lights and both receptacles. (I inherited the circuit--didn't do it myself.)
I thought, "Why not install a GFCI as first device?" to provide protection to the two receptacles that are the 3rd and 4th devices in the circuit.
Well, neither of two NEW GFCIS even acknowledge that there is current being supplied to them. (I assure you that there is 120v there.)
A friend wasn't sure but guessed that the GFCIs are saying "I can't help you with lights; receptacles only."
I obviously didn't know that, but it makes sense. There's no way to provide GFCI protection for lights anyway (I assume).
I've Googled a fair amount and followed many links, but have yet to find someone saying "GFCI is wired to not let this situation work." Every one either "it's okay but it's against code so don't do it" or similar hedging.
Whatever, I'm going back to the normal receptacle where I was on Monday with everything working. BTW, a GFCI tester showed no red and two yellows, which means "CORRECT" for this particular tester.
My only question is: forget code for the moment--should the two GFCIs have worked?
electrical gfci
electrical gfci
New contributor
New contributor
New contributor
asked Aug 16 at 17:34
DSlomer64DSlomer64
1113 bronze badges
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2
That's not a GFCI tester. That's an outlet tester. Some outlet testers are combination devices, containing both an outlet tester (which is 3 lights red yellow yellow) and a GFCI fault tester (a button).
– Harper
Aug 16 at 22:40
Yeah, package does NOT say "GFCI Tester" but since it has a GFCI "trip" button, I assumed it was testing the GFCI itself, which it is, but I assume that a real "GFCI Tester" would do other things, such as .... uh .... well, I can't think of any, other than what the LED combinations find wrong. (I've installed half a dozen GFCI receptacles in the past 20 years. Never had a problem until now.)
– DSlomer64
yesterday
Well, when you push the button, it tests the GFCI's one job, which is tripping for current leakage. So in that sense it's a GFCI tester. It's not an all-singing all-dancing everything tester though. And as a 3-lamp tester, the lights are fine, but the descriptions of problem conditions are tuned for new work. They will lead you on wild goose chases in old work.
– Harper
yesterday
add a comment |
2
That's not a GFCI tester. That's an outlet tester. Some outlet testers are combination devices, containing both an outlet tester (which is 3 lights red yellow yellow) and a GFCI fault tester (a button).
– Harper
Aug 16 at 22:40
Yeah, package does NOT say "GFCI Tester" but since it has a GFCI "trip" button, I assumed it was testing the GFCI itself, which it is, but I assume that a real "GFCI Tester" would do other things, such as .... uh .... well, I can't think of any, other than what the LED combinations find wrong. (I've installed half a dozen GFCI receptacles in the past 20 years. Never had a problem until now.)
– DSlomer64
yesterday
Well, when you push the button, it tests the GFCI's one job, which is tripping for current leakage. So in that sense it's a GFCI tester. It's not an all-singing all-dancing everything tester though. And as a 3-lamp tester, the lights are fine, but the descriptions of problem conditions are tuned for new work. They will lead you on wild goose chases in old work.
– Harper
yesterday
2
2
That's not a GFCI tester. That's an outlet tester. Some outlet testers are combination devices, containing both an outlet tester (which is 3 lights red yellow yellow) and a GFCI fault tester (a button).
– Harper
Aug 16 at 22:40
That's not a GFCI tester. That's an outlet tester. Some outlet testers are combination devices, containing both an outlet tester (which is 3 lights red yellow yellow) and a GFCI fault tester (a button).
– Harper
Aug 16 at 22:40
Yeah, package does NOT say "GFCI Tester" but since it has a GFCI "trip" button, I assumed it was testing the GFCI itself, which it is, but I assume that a real "GFCI Tester" would do other things, such as .... uh .... well, I can't think of any, other than what the LED combinations find wrong. (I've installed half a dozen GFCI receptacles in the past 20 years. Never had a problem until now.)
– DSlomer64
yesterday
Yeah, package does NOT say "GFCI Tester" but since it has a GFCI "trip" button, I assumed it was testing the GFCI itself, which it is, but I assume that a real "GFCI Tester" would do other things, such as .... uh .... well, I can't think of any, other than what the LED combinations find wrong. (I've installed half a dozen GFCI receptacles in the past 20 years. Never had a problem until now.)
– DSlomer64
yesterday
Well, when you push the button, it tests the GFCI's one job, which is tripping for current leakage. So in that sense it's a GFCI tester. It's not an all-singing all-dancing everything tester though. And as a 3-lamp tester, the lights are fine, but the descriptions of problem conditions are tuned for new work. They will lead you on wild goose chases in old work.
– Harper
yesterday
Well, when you push the button, it tests the GFCI's one job, which is tripping for current leakage. So in that sense it's a GFCI tester. It's not an all-singing all-dancing everything tester though. And as a 3-lamp tester, the lights are fine, but the descriptions of problem conditions are tuned for new work. They will lead you on wild goose chases in old work.
– Harper
yesterday
add a comment |
3 Answers
3
active
oldest
votes
Lights?
A GFCI can protect lights. You just usually don't need to protect lights. Lights that are installed out-of-reach in the ceiling are normally not required to be protected by GFCI simply because GFCI would not help. GFCI protects against current leaking through a person. If you can't touch the light, no current can flow through you. There are some exceptions: lights above a tub or shower and some outdoor lights, especially if near a pool or other water.
However, there is nothing wrong with GFCI protecting lights. Just keep in mind that:
- If your lights & receptacles in a bathroom are on the same circuit and the lights are protected by the same GFCI that protects the receptacles, then if the GFCI trips, the lights will go out. You might be holding a hair dryer or other device that, while at that point no longer an electric shock hazard, might still not be a good situation in the dark.
- If your lights use a smart switch that relies on leaking a little current to ground, that could cause nuisance trips of a GFCI.
Line vs. Load
With a regular (non-GFCI) receptacle, you typically will have "incoming" hot/neutral and "outgoing" hot/neutral, and it doesn't matter which wires go to which screws, as long as you get "hot" vs. "neutral" correct.
With a GFCI, it matters. A lot.
- Figure out which set of wires is "incoming" - i.e., hot/neutral coming from the circuit breaker. There are a number of ways to do this if the wiring isn't obvious. I would turn off the breaker, disconnect all the wires from the receptacle, cap them for safety, turn on the breaker and check with a non-contact tester.
- Connect the "incoming" wires to the LINE side of a GFCI receptacle.
- Test the receptacle - it should work fine with normal loads. TEST/RESET should work for testing the GFCI functions, as well as a "GFCI tester". If you have problems at this point then your wiring is really messed up or you have a bad GFCI receptacle.
Now that you have the LINE side working, connect the remaining hot & neutral wires to the LOAD side of the GFCI. If it trips immediately then you have ground fault somewhere in the existing LOAD-side wiring (the lights or other receptacles). If it does not trip then use a GFCI tester to test from each of the other receptacles to make sure everything is good.
FYI, the lights on the "GFCI tester" have absolutely nothing to do with GFCI. The tester is really two functions stuck in one convenient package:
- "Magic 8-ball" (Harper's term) tester for hot vs. neutral vs. ground connections. Not 100% reliable for diagnosis of a particular problem, but very useful for basic testing.
- GFCI tester - drains a small amount of current from hot to ground to test GFCI functionality.
A curling iron might be an even better example appliance.
– chrylis
Aug 17 at 2:53
1
I would add that some outdoor lights, pool lights, deck lighting, etc should all be on a GFCI.
– technogeek1995
2 days ago
A new fact: with new GFCI wired into circuit, pressing RESET causes light immediately downstream (and no others) to flash upon releasing RESET. But multitester shows 0v. Re "If you have problems at this point then your wiring is really messed up or you have a bad GFCI receptacle.", I had nothing to do with downstream wiring except for running wire from first switch box to another in order to supply power to the rest of the circuit. Does the fact that there are receptacles along with lights in the circuit suggest "messed up" wiring? I can't believe that I got two bad new GFCIs.
– DSlomer64
yesterday
New fact: Order of devices: (0) breaker; (1) receptacle; (2) 2 switches in 1st switch box; (3) next switch box; (4) 1st receptacle, which receives power from light fixture box in (3); (5) next receptacle; (6) 3 switches in next switch box; (7) next switch box whose light is controlled by 3-way switch whose companion switch is in switch box in (3). Does wiring from light fixture ceiling box to a receptacle qualify as messed up? Wiring goes from breaker to receptacle and switches in foyer to switch in kitchen to receptacles in living room to switches in dining room to switches in kitchen.
– DSlomer64
yesterday
@DSlomer64 "Pressing RESET" tells you NOTHING. Does TEST turn off everything downstream, followed by RESET turning everything downstream back on? What number (1, 4, 5?) is the GFCI? Disconnect everything from that GFCI except one pair of wires (== one cable) on LOAD. Step by step...
– manassehkatz
yesterday
|
show 1 more comment
Your idea is fine
Using a GFCI device in the first position to protect the entire circuit is a perfectly fine idea. It will work if the device is wired correctly and the rest of the circuit is (already) wired correctly.
Lights definitely can be placed on GFCI (it just doesn't buy you much if they are also grounded).
Both sidestep accidental "Line vs Load" swap and test the downline circuit
Where this usually goes wrong is the "For Wizards Only" warning tape. It covers up the LOAD terminals (though we have seen one that covered LINE by mistake).
My trick of hooking up GFCIs is to leave the warning tape in place and connect LINE first. Cap off everything else, and power up. The GFCI socket should be able to power an appliance, test, and reset.
If more than one wire needs to go to a LINE terminal, I recommend pigtailing rather than using the GFCI as a splice. That way you can test the circuit with the GFCI omitted altogether, and test the GFCI after that all checks out. (Most GFCIs support screw-to-clamp to allow 2 wires to be back-wired under each screw; those are fine but never use backstabs as they are unreliable and not made to be used twice).
What is the point of this? Am I worried about you confusing LINE vs LOAD? No, I'm worried about the downline circuit having an issue that trips GFCI. If you hook it all up at once, you won't be able to distinguish a bad GFCI from a bad downline circuit.
Once all that checks out, everything hooked to LINE is frozen. It will not be removed from LINE. Now you tear off the tape and add any hot-neutral pairs to LOAD. Then you power up and test again. If you have any problems, you know the LINE wires were not the problem, so you focus your troubleshooting efforts on LOAD. And it can be a pre-existing defect in downline wiring, e.g. A bootlegged ground or shared/borrowed neutral.
By not hooking up all 4 wires at once, you avert the common mistake of hooking LINE wires to LOAD and vice versa. A modern GFCI will not power up in those conditions. An old one will, but TEST/RESET won't work.
But the GFCIs that didn't work were wired correctly. I removed the existing GFCI in the kitchen and tried each of the new ones. No voltage reported for either. The one with audible alarm sounded off before I connected the LOAD wires. I replaced the existing GFCI and all was well again--i.e, I know how to wire a GFCI. Were all connections solid--all nuts tight? After reinstalling the existing GFCI I found no voltage. The hot wire's white companion had pulled out of the hole it was in--easily observed. As I disconnected each new GFCI, I looked for and felt for loose connections. None. Puzzling.
– DSlomer64
yesterday
@DSlomer64 I also know how to wire a GFCI, and I use my own "LINE first and test" technique. I do it because it gives me a checkpoint. It allows me to separate defects in my work, from defects in the inherited downline circuit that prevent GFCI from operating, e.g borrowed neutrals, bootlegs etc.
– Harper
yesterday
The hot wire's white companion had pulled out of the hole it was in - Don't use the backstab connections - too hard to get them right and even if you get them right, they can come apart in the worst ways.
– manassehkatz
yesterday
1
@manassehkatz well, screw-to-clamp back wiring can also do that, first time I tried to use one, it gave me fits. But I advise pigtailing anyway, so you only have 1 wire and can use the screw old-school...
– Harper
yesterday
add a comment |
You can indeed install a GFCI as a first device, but you need to know which are the incoming "Hot" (usually black) and "Neutral" ( white).
As well and hopefully, there's a associated ground ( usually bare copper wire )
Lighting can be protected, but there would have to be a reason. And that would be " Can a person come in contact with a light fixture ". I do know in a couple cases where in very big / expensive homes I have seen enormous sized bathrooms with a table / chair and a table lamp wall outlet which was switched from a wall switch... "That" would be one scenario where lighting would be protected from a GFCI.
Anyways..
Note that on the GFCI Outlet connections are labeled "Line" and "Load".
All above being said you need to establish which wires are indeed your incoming power. Home Depot / Lowe's sells proximity / non contact testers as well as the meter types.
Always turn off the source power before you attempt any work.
New contributor
You're making me want to try another GFCI. I can't imagine that I got two bad ones. But no light fixture is within reach and the switches are in dry locations--not near the sink. Well, 5' for one, 9' for another. I'd try a third new GFCI just to see if it, too, reports no voltage to my multitester like the other two did. I just can't grasp how that's even possible. Guaranteed: incoming hot has 120v and I know how to wire GFCI. Wondering if something is amiss with downstream wiring makes me nauseous. I did modify it slightly by supplying power from first switch box to rest of circuit.
– DSlomer64
yesterday
1
Just remember.. If one wires lights from any GFCI, that is, INTENDS TO have those lights protected by a GFCI, they ALSO need to make certain the hot AND neutral both are going to that lighting circuit ( LOAD SIDE ) from the GFCI.. I seen instances where a homeowner wires the lights hot sourced from the load side of the GFCI, but wires the neutral for those lights sourced from the line side of the GFCI.... trips the GFCI every time.🤭
– Retired Electrician
yesterday
add a comment |
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3 Answers
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Lights?
A GFCI can protect lights. You just usually don't need to protect lights. Lights that are installed out-of-reach in the ceiling are normally not required to be protected by GFCI simply because GFCI would not help. GFCI protects against current leaking through a person. If you can't touch the light, no current can flow through you. There are some exceptions: lights above a tub or shower and some outdoor lights, especially if near a pool or other water.
However, there is nothing wrong with GFCI protecting lights. Just keep in mind that:
- If your lights & receptacles in a bathroom are on the same circuit and the lights are protected by the same GFCI that protects the receptacles, then if the GFCI trips, the lights will go out. You might be holding a hair dryer or other device that, while at that point no longer an electric shock hazard, might still not be a good situation in the dark.
- If your lights use a smart switch that relies on leaking a little current to ground, that could cause nuisance trips of a GFCI.
Line vs. Load
With a regular (non-GFCI) receptacle, you typically will have "incoming" hot/neutral and "outgoing" hot/neutral, and it doesn't matter which wires go to which screws, as long as you get "hot" vs. "neutral" correct.
With a GFCI, it matters. A lot.
- Figure out which set of wires is "incoming" - i.e., hot/neutral coming from the circuit breaker. There are a number of ways to do this if the wiring isn't obvious. I would turn off the breaker, disconnect all the wires from the receptacle, cap them for safety, turn on the breaker and check with a non-contact tester.
- Connect the "incoming" wires to the LINE side of a GFCI receptacle.
- Test the receptacle - it should work fine with normal loads. TEST/RESET should work for testing the GFCI functions, as well as a "GFCI tester". If you have problems at this point then your wiring is really messed up or you have a bad GFCI receptacle.
Now that you have the LINE side working, connect the remaining hot & neutral wires to the LOAD side of the GFCI. If it trips immediately then you have ground fault somewhere in the existing LOAD-side wiring (the lights or other receptacles). If it does not trip then use a GFCI tester to test from each of the other receptacles to make sure everything is good.
FYI, the lights on the "GFCI tester" have absolutely nothing to do with GFCI. The tester is really two functions stuck in one convenient package:
- "Magic 8-ball" (Harper's term) tester for hot vs. neutral vs. ground connections. Not 100% reliable for diagnosis of a particular problem, but very useful for basic testing.
- GFCI tester - drains a small amount of current from hot to ground to test GFCI functionality.
A curling iron might be an even better example appliance.
– chrylis
Aug 17 at 2:53
1
I would add that some outdoor lights, pool lights, deck lighting, etc should all be on a GFCI.
– technogeek1995
2 days ago
A new fact: with new GFCI wired into circuit, pressing RESET causes light immediately downstream (and no others) to flash upon releasing RESET. But multitester shows 0v. Re "If you have problems at this point then your wiring is really messed up or you have a bad GFCI receptacle.", I had nothing to do with downstream wiring except for running wire from first switch box to another in order to supply power to the rest of the circuit. Does the fact that there are receptacles along with lights in the circuit suggest "messed up" wiring? I can't believe that I got two bad new GFCIs.
– DSlomer64
yesterday
New fact: Order of devices: (0) breaker; (1) receptacle; (2) 2 switches in 1st switch box; (3) next switch box; (4) 1st receptacle, which receives power from light fixture box in (3); (5) next receptacle; (6) 3 switches in next switch box; (7) next switch box whose light is controlled by 3-way switch whose companion switch is in switch box in (3). Does wiring from light fixture ceiling box to a receptacle qualify as messed up? Wiring goes from breaker to receptacle and switches in foyer to switch in kitchen to receptacles in living room to switches in dining room to switches in kitchen.
– DSlomer64
yesterday
@DSlomer64 "Pressing RESET" tells you NOTHING. Does TEST turn off everything downstream, followed by RESET turning everything downstream back on? What number (1, 4, 5?) is the GFCI? Disconnect everything from that GFCI except one pair of wires (== one cable) on LOAD. Step by step...
– manassehkatz
yesterday
|
show 1 more comment
Lights?
A GFCI can protect lights. You just usually don't need to protect lights. Lights that are installed out-of-reach in the ceiling are normally not required to be protected by GFCI simply because GFCI would not help. GFCI protects against current leaking through a person. If you can't touch the light, no current can flow through you. There are some exceptions: lights above a tub or shower and some outdoor lights, especially if near a pool or other water.
However, there is nothing wrong with GFCI protecting lights. Just keep in mind that:
- If your lights & receptacles in a bathroom are on the same circuit and the lights are protected by the same GFCI that protects the receptacles, then if the GFCI trips, the lights will go out. You might be holding a hair dryer or other device that, while at that point no longer an electric shock hazard, might still not be a good situation in the dark.
- If your lights use a smart switch that relies on leaking a little current to ground, that could cause nuisance trips of a GFCI.
Line vs. Load
With a regular (non-GFCI) receptacle, you typically will have "incoming" hot/neutral and "outgoing" hot/neutral, and it doesn't matter which wires go to which screws, as long as you get "hot" vs. "neutral" correct.
With a GFCI, it matters. A lot.
- Figure out which set of wires is "incoming" - i.e., hot/neutral coming from the circuit breaker. There are a number of ways to do this if the wiring isn't obvious. I would turn off the breaker, disconnect all the wires from the receptacle, cap them for safety, turn on the breaker and check with a non-contact tester.
- Connect the "incoming" wires to the LINE side of a GFCI receptacle.
- Test the receptacle - it should work fine with normal loads. TEST/RESET should work for testing the GFCI functions, as well as a "GFCI tester". If you have problems at this point then your wiring is really messed up or you have a bad GFCI receptacle.
Now that you have the LINE side working, connect the remaining hot & neutral wires to the LOAD side of the GFCI. If it trips immediately then you have ground fault somewhere in the existing LOAD-side wiring (the lights or other receptacles). If it does not trip then use a GFCI tester to test from each of the other receptacles to make sure everything is good.
FYI, the lights on the "GFCI tester" have absolutely nothing to do with GFCI. The tester is really two functions stuck in one convenient package:
- "Magic 8-ball" (Harper's term) tester for hot vs. neutral vs. ground connections. Not 100% reliable for diagnosis of a particular problem, but very useful for basic testing.
- GFCI tester - drains a small amount of current from hot to ground to test GFCI functionality.
A curling iron might be an even better example appliance.
– chrylis
Aug 17 at 2:53
1
I would add that some outdoor lights, pool lights, deck lighting, etc should all be on a GFCI.
– technogeek1995
2 days ago
A new fact: with new GFCI wired into circuit, pressing RESET causes light immediately downstream (and no others) to flash upon releasing RESET. But multitester shows 0v. Re "If you have problems at this point then your wiring is really messed up or you have a bad GFCI receptacle.", I had nothing to do with downstream wiring except for running wire from first switch box to another in order to supply power to the rest of the circuit. Does the fact that there are receptacles along with lights in the circuit suggest "messed up" wiring? I can't believe that I got two bad new GFCIs.
– DSlomer64
yesterday
New fact: Order of devices: (0) breaker; (1) receptacle; (2) 2 switches in 1st switch box; (3) next switch box; (4) 1st receptacle, which receives power from light fixture box in (3); (5) next receptacle; (6) 3 switches in next switch box; (7) next switch box whose light is controlled by 3-way switch whose companion switch is in switch box in (3). Does wiring from light fixture ceiling box to a receptacle qualify as messed up? Wiring goes from breaker to receptacle and switches in foyer to switch in kitchen to receptacles in living room to switches in dining room to switches in kitchen.
– DSlomer64
yesterday
@DSlomer64 "Pressing RESET" tells you NOTHING. Does TEST turn off everything downstream, followed by RESET turning everything downstream back on? What number (1, 4, 5?) is the GFCI? Disconnect everything from that GFCI except one pair of wires (== one cable) on LOAD. Step by step...
– manassehkatz
yesterday
|
show 1 more comment
Lights?
A GFCI can protect lights. You just usually don't need to protect lights. Lights that are installed out-of-reach in the ceiling are normally not required to be protected by GFCI simply because GFCI would not help. GFCI protects against current leaking through a person. If you can't touch the light, no current can flow through you. There are some exceptions: lights above a tub or shower and some outdoor lights, especially if near a pool or other water.
However, there is nothing wrong with GFCI protecting lights. Just keep in mind that:
- If your lights & receptacles in a bathroom are on the same circuit and the lights are protected by the same GFCI that protects the receptacles, then if the GFCI trips, the lights will go out. You might be holding a hair dryer or other device that, while at that point no longer an electric shock hazard, might still not be a good situation in the dark.
- If your lights use a smart switch that relies on leaking a little current to ground, that could cause nuisance trips of a GFCI.
Line vs. Load
With a regular (non-GFCI) receptacle, you typically will have "incoming" hot/neutral and "outgoing" hot/neutral, and it doesn't matter which wires go to which screws, as long as you get "hot" vs. "neutral" correct.
With a GFCI, it matters. A lot.
- Figure out which set of wires is "incoming" - i.e., hot/neutral coming from the circuit breaker. There are a number of ways to do this if the wiring isn't obvious. I would turn off the breaker, disconnect all the wires from the receptacle, cap them for safety, turn on the breaker and check with a non-contact tester.
- Connect the "incoming" wires to the LINE side of a GFCI receptacle.
- Test the receptacle - it should work fine with normal loads. TEST/RESET should work for testing the GFCI functions, as well as a "GFCI tester". If you have problems at this point then your wiring is really messed up or you have a bad GFCI receptacle.
Now that you have the LINE side working, connect the remaining hot & neutral wires to the LOAD side of the GFCI. If it trips immediately then you have ground fault somewhere in the existing LOAD-side wiring (the lights or other receptacles). If it does not trip then use a GFCI tester to test from each of the other receptacles to make sure everything is good.
FYI, the lights on the "GFCI tester" have absolutely nothing to do with GFCI. The tester is really two functions stuck in one convenient package:
- "Magic 8-ball" (Harper's term) tester for hot vs. neutral vs. ground connections. Not 100% reliable for diagnosis of a particular problem, but very useful for basic testing.
- GFCI tester - drains a small amount of current from hot to ground to test GFCI functionality.
Lights?
A GFCI can protect lights. You just usually don't need to protect lights. Lights that are installed out-of-reach in the ceiling are normally not required to be protected by GFCI simply because GFCI would not help. GFCI protects against current leaking through a person. If you can't touch the light, no current can flow through you. There are some exceptions: lights above a tub or shower and some outdoor lights, especially if near a pool or other water.
However, there is nothing wrong with GFCI protecting lights. Just keep in mind that:
- If your lights & receptacles in a bathroom are on the same circuit and the lights are protected by the same GFCI that protects the receptacles, then if the GFCI trips, the lights will go out. You might be holding a hair dryer or other device that, while at that point no longer an electric shock hazard, might still not be a good situation in the dark.
- If your lights use a smart switch that relies on leaking a little current to ground, that could cause nuisance trips of a GFCI.
Line vs. Load
With a regular (non-GFCI) receptacle, you typically will have "incoming" hot/neutral and "outgoing" hot/neutral, and it doesn't matter which wires go to which screws, as long as you get "hot" vs. "neutral" correct.
With a GFCI, it matters. A lot.
- Figure out which set of wires is "incoming" - i.e., hot/neutral coming from the circuit breaker. There are a number of ways to do this if the wiring isn't obvious. I would turn off the breaker, disconnect all the wires from the receptacle, cap them for safety, turn on the breaker and check with a non-contact tester.
- Connect the "incoming" wires to the LINE side of a GFCI receptacle.
- Test the receptacle - it should work fine with normal loads. TEST/RESET should work for testing the GFCI functions, as well as a "GFCI tester". If you have problems at this point then your wiring is really messed up or you have a bad GFCI receptacle.
Now that you have the LINE side working, connect the remaining hot & neutral wires to the LOAD side of the GFCI. If it trips immediately then you have ground fault somewhere in the existing LOAD-side wiring (the lights or other receptacles). If it does not trip then use a GFCI tester to test from each of the other receptacles to make sure everything is good.
FYI, the lights on the "GFCI tester" have absolutely nothing to do with GFCI. The tester is really two functions stuck in one convenient package:
- "Magic 8-ball" (Harper's term) tester for hot vs. neutral vs. ground connections. Not 100% reliable for diagnosis of a particular problem, but very useful for basic testing.
- GFCI tester - drains a small amount of current from hot to ground to test GFCI functionality.
edited 2 days ago
answered Aug 16 at 17:48
manassehkatzmanassehkatz
16.6k1 gold badge24 silver badges53 bronze badges
16.6k1 gold badge24 silver badges53 bronze badges
A curling iron might be an even better example appliance.
– chrylis
Aug 17 at 2:53
1
I would add that some outdoor lights, pool lights, deck lighting, etc should all be on a GFCI.
– technogeek1995
2 days ago
A new fact: with new GFCI wired into circuit, pressing RESET causes light immediately downstream (and no others) to flash upon releasing RESET. But multitester shows 0v. Re "If you have problems at this point then your wiring is really messed up or you have a bad GFCI receptacle.", I had nothing to do with downstream wiring except for running wire from first switch box to another in order to supply power to the rest of the circuit. Does the fact that there are receptacles along with lights in the circuit suggest "messed up" wiring? I can't believe that I got two bad new GFCIs.
– DSlomer64
yesterday
New fact: Order of devices: (0) breaker; (1) receptacle; (2) 2 switches in 1st switch box; (3) next switch box; (4) 1st receptacle, which receives power from light fixture box in (3); (5) next receptacle; (6) 3 switches in next switch box; (7) next switch box whose light is controlled by 3-way switch whose companion switch is in switch box in (3). Does wiring from light fixture ceiling box to a receptacle qualify as messed up? Wiring goes from breaker to receptacle and switches in foyer to switch in kitchen to receptacles in living room to switches in dining room to switches in kitchen.
– DSlomer64
yesterday
@DSlomer64 "Pressing RESET" tells you NOTHING. Does TEST turn off everything downstream, followed by RESET turning everything downstream back on? What number (1, 4, 5?) is the GFCI? Disconnect everything from that GFCI except one pair of wires (== one cable) on LOAD. Step by step...
– manassehkatz
yesterday
|
show 1 more comment
A curling iron might be an even better example appliance.
– chrylis
Aug 17 at 2:53
1
I would add that some outdoor lights, pool lights, deck lighting, etc should all be on a GFCI.
– technogeek1995
2 days ago
A new fact: with new GFCI wired into circuit, pressing RESET causes light immediately downstream (and no others) to flash upon releasing RESET. But multitester shows 0v. Re "If you have problems at this point then your wiring is really messed up or you have a bad GFCI receptacle.", I had nothing to do with downstream wiring except for running wire from first switch box to another in order to supply power to the rest of the circuit. Does the fact that there are receptacles along with lights in the circuit suggest "messed up" wiring? I can't believe that I got two bad new GFCIs.
– DSlomer64
yesterday
New fact: Order of devices: (0) breaker; (1) receptacle; (2) 2 switches in 1st switch box; (3) next switch box; (4) 1st receptacle, which receives power from light fixture box in (3); (5) next receptacle; (6) 3 switches in next switch box; (7) next switch box whose light is controlled by 3-way switch whose companion switch is in switch box in (3). Does wiring from light fixture ceiling box to a receptacle qualify as messed up? Wiring goes from breaker to receptacle and switches in foyer to switch in kitchen to receptacles in living room to switches in dining room to switches in kitchen.
– DSlomer64
yesterday
@DSlomer64 "Pressing RESET" tells you NOTHING. Does TEST turn off everything downstream, followed by RESET turning everything downstream back on? What number (1, 4, 5?) is the GFCI? Disconnect everything from that GFCI except one pair of wires (== one cable) on LOAD. Step by step...
– manassehkatz
yesterday
A curling iron might be an even better example appliance.
– chrylis
Aug 17 at 2:53
A curling iron might be an even better example appliance.
– chrylis
Aug 17 at 2:53
1
1
I would add that some outdoor lights, pool lights, deck lighting, etc should all be on a GFCI.
– technogeek1995
2 days ago
I would add that some outdoor lights, pool lights, deck lighting, etc should all be on a GFCI.
– technogeek1995
2 days ago
A new fact: with new GFCI wired into circuit, pressing RESET causes light immediately downstream (and no others) to flash upon releasing RESET. But multitester shows 0v. Re "If you have problems at this point then your wiring is really messed up or you have a bad GFCI receptacle.", I had nothing to do with downstream wiring except for running wire from first switch box to another in order to supply power to the rest of the circuit. Does the fact that there are receptacles along with lights in the circuit suggest "messed up" wiring? I can't believe that I got two bad new GFCIs.
– DSlomer64
yesterday
A new fact: with new GFCI wired into circuit, pressing RESET causes light immediately downstream (and no others) to flash upon releasing RESET. But multitester shows 0v. Re "If you have problems at this point then your wiring is really messed up or you have a bad GFCI receptacle.", I had nothing to do with downstream wiring except for running wire from first switch box to another in order to supply power to the rest of the circuit. Does the fact that there are receptacles along with lights in the circuit suggest "messed up" wiring? I can't believe that I got two bad new GFCIs.
– DSlomer64
yesterday
New fact: Order of devices: (0) breaker; (1) receptacle; (2) 2 switches in 1st switch box; (3) next switch box; (4) 1st receptacle, which receives power from light fixture box in (3); (5) next receptacle; (6) 3 switches in next switch box; (7) next switch box whose light is controlled by 3-way switch whose companion switch is in switch box in (3). Does wiring from light fixture ceiling box to a receptacle qualify as messed up? Wiring goes from breaker to receptacle and switches in foyer to switch in kitchen to receptacles in living room to switches in dining room to switches in kitchen.
– DSlomer64
yesterday
New fact: Order of devices: (0) breaker; (1) receptacle; (2) 2 switches in 1st switch box; (3) next switch box; (4) 1st receptacle, which receives power from light fixture box in (3); (5) next receptacle; (6) 3 switches in next switch box; (7) next switch box whose light is controlled by 3-way switch whose companion switch is in switch box in (3). Does wiring from light fixture ceiling box to a receptacle qualify as messed up? Wiring goes from breaker to receptacle and switches in foyer to switch in kitchen to receptacles in living room to switches in dining room to switches in kitchen.
– DSlomer64
yesterday
@DSlomer64 "Pressing RESET" tells you NOTHING. Does TEST turn off everything downstream, followed by RESET turning everything downstream back on? What number (1, 4, 5?) is the GFCI? Disconnect everything from that GFCI except one pair of wires (== one cable) on LOAD. Step by step...
– manassehkatz
yesterday
@DSlomer64 "Pressing RESET" tells you NOTHING. Does TEST turn off everything downstream, followed by RESET turning everything downstream back on? What number (1, 4, 5?) is the GFCI? Disconnect everything from that GFCI except one pair of wires (== one cable) on LOAD. Step by step...
– manassehkatz
yesterday
|
show 1 more comment
Your idea is fine
Using a GFCI device in the first position to protect the entire circuit is a perfectly fine idea. It will work if the device is wired correctly and the rest of the circuit is (already) wired correctly.
Lights definitely can be placed on GFCI (it just doesn't buy you much if they are also grounded).
Both sidestep accidental "Line vs Load" swap and test the downline circuit
Where this usually goes wrong is the "For Wizards Only" warning tape. It covers up the LOAD terminals (though we have seen one that covered LINE by mistake).
My trick of hooking up GFCIs is to leave the warning tape in place and connect LINE first. Cap off everything else, and power up. The GFCI socket should be able to power an appliance, test, and reset.
If more than one wire needs to go to a LINE terminal, I recommend pigtailing rather than using the GFCI as a splice. That way you can test the circuit with the GFCI omitted altogether, and test the GFCI after that all checks out. (Most GFCIs support screw-to-clamp to allow 2 wires to be back-wired under each screw; those are fine but never use backstabs as they are unreliable and not made to be used twice).
What is the point of this? Am I worried about you confusing LINE vs LOAD? No, I'm worried about the downline circuit having an issue that trips GFCI. If you hook it all up at once, you won't be able to distinguish a bad GFCI from a bad downline circuit.
Once all that checks out, everything hooked to LINE is frozen. It will not be removed from LINE. Now you tear off the tape and add any hot-neutral pairs to LOAD. Then you power up and test again. If you have any problems, you know the LINE wires were not the problem, so you focus your troubleshooting efforts on LOAD. And it can be a pre-existing defect in downline wiring, e.g. A bootlegged ground or shared/borrowed neutral.
By not hooking up all 4 wires at once, you avert the common mistake of hooking LINE wires to LOAD and vice versa. A modern GFCI will not power up in those conditions. An old one will, but TEST/RESET won't work.
But the GFCIs that didn't work were wired correctly. I removed the existing GFCI in the kitchen and tried each of the new ones. No voltage reported for either. The one with audible alarm sounded off before I connected the LOAD wires. I replaced the existing GFCI and all was well again--i.e, I know how to wire a GFCI. Were all connections solid--all nuts tight? After reinstalling the existing GFCI I found no voltage. The hot wire's white companion had pulled out of the hole it was in--easily observed. As I disconnected each new GFCI, I looked for and felt for loose connections. None. Puzzling.
– DSlomer64
yesterday
@DSlomer64 I also know how to wire a GFCI, and I use my own "LINE first and test" technique. I do it because it gives me a checkpoint. It allows me to separate defects in my work, from defects in the inherited downline circuit that prevent GFCI from operating, e.g borrowed neutrals, bootlegs etc.
– Harper
yesterday
The hot wire's white companion had pulled out of the hole it was in - Don't use the backstab connections - too hard to get them right and even if you get them right, they can come apart in the worst ways.
– manassehkatz
yesterday
1
@manassehkatz well, screw-to-clamp back wiring can also do that, first time I tried to use one, it gave me fits. But I advise pigtailing anyway, so you only have 1 wire and can use the screw old-school...
– Harper
yesterday
add a comment |
Your idea is fine
Using a GFCI device in the first position to protect the entire circuit is a perfectly fine idea. It will work if the device is wired correctly and the rest of the circuit is (already) wired correctly.
Lights definitely can be placed on GFCI (it just doesn't buy you much if they are also grounded).
Both sidestep accidental "Line vs Load" swap and test the downline circuit
Where this usually goes wrong is the "For Wizards Only" warning tape. It covers up the LOAD terminals (though we have seen one that covered LINE by mistake).
My trick of hooking up GFCIs is to leave the warning tape in place and connect LINE first. Cap off everything else, and power up. The GFCI socket should be able to power an appliance, test, and reset.
If more than one wire needs to go to a LINE terminal, I recommend pigtailing rather than using the GFCI as a splice. That way you can test the circuit with the GFCI omitted altogether, and test the GFCI after that all checks out. (Most GFCIs support screw-to-clamp to allow 2 wires to be back-wired under each screw; those are fine but never use backstabs as they are unreliable and not made to be used twice).
What is the point of this? Am I worried about you confusing LINE vs LOAD? No, I'm worried about the downline circuit having an issue that trips GFCI. If you hook it all up at once, you won't be able to distinguish a bad GFCI from a bad downline circuit.
Once all that checks out, everything hooked to LINE is frozen. It will not be removed from LINE. Now you tear off the tape and add any hot-neutral pairs to LOAD. Then you power up and test again. If you have any problems, you know the LINE wires were not the problem, so you focus your troubleshooting efforts on LOAD. And it can be a pre-existing defect in downline wiring, e.g. A bootlegged ground or shared/borrowed neutral.
By not hooking up all 4 wires at once, you avert the common mistake of hooking LINE wires to LOAD and vice versa. A modern GFCI will not power up in those conditions. An old one will, but TEST/RESET won't work.
But the GFCIs that didn't work were wired correctly. I removed the existing GFCI in the kitchen and tried each of the new ones. No voltage reported for either. The one with audible alarm sounded off before I connected the LOAD wires. I replaced the existing GFCI and all was well again--i.e, I know how to wire a GFCI. Were all connections solid--all nuts tight? After reinstalling the existing GFCI I found no voltage. The hot wire's white companion had pulled out of the hole it was in--easily observed. As I disconnected each new GFCI, I looked for and felt for loose connections. None. Puzzling.
– DSlomer64
yesterday
@DSlomer64 I also know how to wire a GFCI, and I use my own "LINE first and test" technique. I do it because it gives me a checkpoint. It allows me to separate defects in my work, from defects in the inherited downline circuit that prevent GFCI from operating, e.g borrowed neutrals, bootlegs etc.
– Harper
yesterday
The hot wire's white companion had pulled out of the hole it was in - Don't use the backstab connections - too hard to get them right and even if you get them right, they can come apart in the worst ways.
– manassehkatz
yesterday
1
@manassehkatz well, screw-to-clamp back wiring can also do that, first time I tried to use one, it gave me fits. But I advise pigtailing anyway, so you only have 1 wire and can use the screw old-school...
– Harper
yesterday
add a comment |
Your idea is fine
Using a GFCI device in the first position to protect the entire circuit is a perfectly fine idea. It will work if the device is wired correctly and the rest of the circuit is (already) wired correctly.
Lights definitely can be placed on GFCI (it just doesn't buy you much if they are also grounded).
Both sidestep accidental "Line vs Load" swap and test the downline circuit
Where this usually goes wrong is the "For Wizards Only" warning tape. It covers up the LOAD terminals (though we have seen one that covered LINE by mistake).
My trick of hooking up GFCIs is to leave the warning tape in place and connect LINE first. Cap off everything else, and power up. The GFCI socket should be able to power an appliance, test, and reset.
If more than one wire needs to go to a LINE terminal, I recommend pigtailing rather than using the GFCI as a splice. That way you can test the circuit with the GFCI omitted altogether, and test the GFCI after that all checks out. (Most GFCIs support screw-to-clamp to allow 2 wires to be back-wired under each screw; those are fine but never use backstabs as they are unreliable and not made to be used twice).
What is the point of this? Am I worried about you confusing LINE vs LOAD? No, I'm worried about the downline circuit having an issue that trips GFCI. If you hook it all up at once, you won't be able to distinguish a bad GFCI from a bad downline circuit.
Once all that checks out, everything hooked to LINE is frozen. It will not be removed from LINE. Now you tear off the tape and add any hot-neutral pairs to LOAD. Then you power up and test again. If you have any problems, you know the LINE wires were not the problem, so you focus your troubleshooting efforts on LOAD. And it can be a pre-existing defect in downline wiring, e.g. A bootlegged ground or shared/borrowed neutral.
By not hooking up all 4 wires at once, you avert the common mistake of hooking LINE wires to LOAD and vice versa. A modern GFCI will not power up in those conditions. An old one will, but TEST/RESET won't work.
Your idea is fine
Using a GFCI device in the first position to protect the entire circuit is a perfectly fine idea. It will work if the device is wired correctly and the rest of the circuit is (already) wired correctly.
Lights definitely can be placed on GFCI (it just doesn't buy you much if they are also grounded).
Both sidestep accidental "Line vs Load" swap and test the downline circuit
Where this usually goes wrong is the "For Wizards Only" warning tape. It covers up the LOAD terminals (though we have seen one that covered LINE by mistake).
My trick of hooking up GFCIs is to leave the warning tape in place and connect LINE first. Cap off everything else, and power up. The GFCI socket should be able to power an appliance, test, and reset.
If more than one wire needs to go to a LINE terminal, I recommend pigtailing rather than using the GFCI as a splice. That way you can test the circuit with the GFCI omitted altogether, and test the GFCI after that all checks out. (Most GFCIs support screw-to-clamp to allow 2 wires to be back-wired under each screw; those are fine but never use backstabs as they are unreliable and not made to be used twice).
What is the point of this? Am I worried about you confusing LINE vs LOAD? No, I'm worried about the downline circuit having an issue that trips GFCI. If you hook it all up at once, you won't be able to distinguish a bad GFCI from a bad downline circuit.
Once all that checks out, everything hooked to LINE is frozen. It will not be removed from LINE. Now you tear off the tape and add any hot-neutral pairs to LOAD. Then you power up and test again. If you have any problems, you know the LINE wires were not the problem, so you focus your troubleshooting efforts on LOAD. And it can be a pre-existing defect in downline wiring, e.g. A bootlegged ground or shared/borrowed neutral.
By not hooking up all 4 wires at once, you avert the common mistake of hooking LINE wires to LOAD and vice versa. A modern GFCI will not power up in those conditions. An old one will, but TEST/RESET won't work.
edited yesterday
answered Aug 16 at 22:54
HarperHarper
92.8k7 gold badges67 silver badges191 bronze badges
92.8k7 gold badges67 silver badges191 bronze badges
But the GFCIs that didn't work were wired correctly. I removed the existing GFCI in the kitchen and tried each of the new ones. No voltage reported for either. The one with audible alarm sounded off before I connected the LOAD wires. I replaced the existing GFCI and all was well again--i.e, I know how to wire a GFCI. Were all connections solid--all nuts tight? After reinstalling the existing GFCI I found no voltage. The hot wire's white companion had pulled out of the hole it was in--easily observed. As I disconnected each new GFCI, I looked for and felt for loose connections. None. Puzzling.
– DSlomer64
yesterday
@DSlomer64 I also know how to wire a GFCI, and I use my own "LINE first and test" technique. I do it because it gives me a checkpoint. It allows me to separate defects in my work, from defects in the inherited downline circuit that prevent GFCI from operating, e.g borrowed neutrals, bootlegs etc.
– Harper
yesterday
The hot wire's white companion had pulled out of the hole it was in - Don't use the backstab connections - too hard to get them right and even if you get them right, they can come apart in the worst ways.
– manassehkatz
yesterday
1
@manassehkatz well, screw-to-clamp back wiring can also do that, first time I tried to use one, it gave me fits. But I advise pigtailing anyway, so you only have 1 wire and can use the screw old-school...
– Harper
yesterday
add a comment |
But the GFCIs that didn't work were wired correctly. I removed the existing GFCI in the kitchen and tried each of the new ones. No voltage reported for either. The one with audible alarm sounded off before I connected the LOAD wires. I replaced the existing GFCI and all was well again--i.e, I know how to wire a GFCI. Were all connections solid--all nuts tight? After reinstalling the existing GFCI I found no voltage. The hot wire's white companion had pulled out of the hole it was in--easily observed. As I disconnected each new GFCI, I looked for and felt for loose connections. None. Puzzling.
– DSlomer64
yesterday
@DSlomer64 I also know how to wire a GFCI, and I use my own "LINE first and test" technique. I do it because it gives me a checkpoint. It allows me to separate defects in my work, from defects in the inherited downline circuit that prevent GFCI from operating, e.g borrowed neutrals, bootlegs etc.
– Harper
yesterday
The hot wire's white companion had pulled out of the hole it was in - Don't use the backstab connections - too hard to get them right and even if you get them right, they can come apart in the worst ways.
– manassehkatz
yesterday
1
@manassehkatz well, screw-to-clamp back wiring can also do that, first time I tried to use one, it gave me fits. But I advise pigtailing anyway, so you only have 1 wire and can use the screw old-school...
– Harper
yesterday
But the GFCIs that didn't work were wired correctly. I removed the existing GFCI in the kitchen and tried each of the new ones. No voltage reported for either. The one with audible alarm sounded off before I connected the LOAD wires. I replaced the existing GFCI and all was well again--i.e, I know how to wire a GFCI. Were all connections solid--all nuts tight? After reinstalling the existing GFCI I found no voltage. The hot wire's white companion had pulled out of the hole it was in--easily observed. As I disconnected each new GFCI, I looked for and felt for loose connections. None. Puzzling.
– DSlomer64
yesterday
But the GFCIs that didn't work were wired correctly. I removed the existing GFCI in the kitchen and tried each of the new ones. No voltage reported for either. The one with audible alarm sounded off before I connected the LOAD wires. I replaced the existing GFCI and all was well again--i.e, I know how to wire a GFCI. Were all connections solid--all nuts tight? After reinstalling the existing GFCI I found no voltage. The hot wire's white companion had pulled out of the hole it was in--easily observed. As I disconnected each new GFCI, I looked for and felt for loose connections. None. Puzzling.
– DSlomer64
yesterday
@DSlomer64 I also know how to wire a GFCI, and I use my own "LINE first and test" technique. I do it because it gives me a checkpoint. It allows me to separate defects in my work, from defects in the inherited downline circuit that prevent GFCI from operating, e.g borrowed neutrals, bootlegs etc.
– Harper
yesterday
@DSlomer64 I also know how to wire a GFCI, and I use my own "LINE first and test" technique. I do it because it gives me a checkpoint. It allows me to separate defects in my work, from defects in the inherited downline circuit that prevent GFCI from operating, e.g borrowed neutrals, bootlegs etc.
– Harper
yesterday
The hot wire's white companion had pulled out of the hole it was in - Don't use the backstab connections - too hard to get them right and even if you get them right, they can come apart in the worst ways.
– manassehkatz
yesterday
The hot wire's white companion had pulled out of the hole it was in - Don't use the backstab connections - too hard to get them right and even if you get them right, they can come apart in the worst ways.
– manassehkatz
yesterday
1
1
@manassehkatz well, screw-to-clamp back wiring can also do that, first time I tried to use one, it gave me fits. But I advise pigtailing anyway, so you only have 1 wire and can use the screw old-school...
– Harper
yesterday
@manassehkatz well, screw-to-clamp back wiring can also do that, first time I tried to use one, it gave me fits. But I advise pigtailing anyway, so you only have 1 wire and can use the screw old-school...
– Harper
yesterday
add a comment |
You can indeed install a GFCI as a first device, but you need to know which are the incoming "Hot" (usually black) and "Neutral" ( white).
As well and hopefully, there's a associated ground ( usually bare copper wire )
Lighting can be protected, but there would have to be a reason. And that would be " Can a person come in contact with a light fixture ". I do know in a couple cases where in very big / expensive homes I have seen enormous sized bathrooms with a table / chair and a table lamp wall outlet which was switched from a wall switch... "That" would be one scenario where lighting would be protected from a GFCI.
Anyways..
Note that on the GFCI Outlet connections are labeled "Line" and "Load".
All above being said you need to establish which wires are indeed your incoming power. Home Depot / Lowe's sells proximity / non contact testers as well as the meter types.
Always turn off the source power before you attempt any work.
New contributor
You're making me want to try another GFCI. I can't imagine that I got two bad ones. But no light fixture is within reach and the switches are in dry locations--not near the sink. Well, 5' for one, 9' for another. I'd try a third new GFCI just to see if it, too, reports no voltage to my multitester like the other two did. I just can't grasp how that's even possible. Guaranteed: incoming hot has 120v and I know how to wire GFCI. Wondering if something is amiss with downstream wiring makes me nauseous. I did modify it slightly by supplying power from first switch box to rest of circuit.
– DSlomer64
yesterday
1
Just remember.. If one wires lights from any GFCI, that is, INTENDS TO have those lights protected by a GFCI, they ALSO need to make certain the hot AND neutral both are going to that lighting circuit ( LOAD SIDE ) from the GFCI.. I seen instances where a homeowner wires the lights hot sourced from the load side of the GFCI, but wires the neutral for those lights sourced from the line side of the GFCI.... trips the GFCI every time.🤭
– Retired Electrician
yesterday
add a comment |
You can indeed install a GFCI as a first device, but you need to know which are the incoming "Hot" (usually black) and "Neutral" ( white).
As well and hopefully, there's a associated ground ( usually bare copper wire )
Lighting can be protected, but there would have to be a reason. And that would be " Can a person come in contact with a light fixture ". I do know in a couple cases where in very big / expensive homes I have seen enormous sized bathrooms with a table / chair and a table lamp wall outlet which was switched from a wall switch... "That" would be one scenario where lighting would be protected from a GFCI.
Anyways..
Note that on the GFCI Outlet connections are labeled "Line" and "Load".
All above being said you need to establish which wires are indeed your incoming power. Home Depot / Lowe's sells proximity / non contact testers as well as the meter types.
Always turn off the source power before you attempt any work.
New contributor
You're making me want to try another GFCI. I can't imagine that I got two bad ones. But no light fixture is within reach and the switches are in dry locations--not near the sink. Well, 5' for one, 9' for another. I'd try a third new GFCI just to see if it, too, reports no voltage to my multitester like the other two did. I just can't grasp how that's even possible. Guaranteed: incoming hot has 120v and I know how to wire GFCI. Wondering if something is amiss with downstream wiring makes me nauseous. I did modify it slightly by supplying power from first switch box to rest of circuit.
– DSlomer64
yesterday
1
Just remember.. If one wires lights from any GFCI, that is, INTENDS TO have those lights protected by a GFCI, they ALSO need to make certain the hot AND neutral both are going to that lighting circuit ( LOAD SIDE ) from the GFCI.. I seen instances where a homeowner wires the lights hot sourced from the load side of the GFCI, but wires the neutral for those lights sourced from the line side of the GFCI.... trips the GFCI every time.🤭
– Retired Electrician
yesterday
add a comment |
You can indeed install a GFCI as a first device, but you need to know which are the incoming "Hot" (usually black) and "Neutral" ( white).
As well and hopefully, there's a associated ground ( usually bare copper wire )
Lighting can be protected, but there would have to be a reason. And that would be " Can a person come in contact with a light fixture ". I do know in a couple cases where in very big / expensive homes I have seen enormous sized bathrooms with a table / chair and a table lamp wall outlet which was switched from a wall switch... "That" would be one scenario where lighting would be protected from a GFCI.
Anyways..
Note that on the GFCI Outlet connections are labeled "Line" and "Load".
All above being said you need to establish which wires are indeed your incoming power. Home Depot / Lowe's sells proximity / non contact testers as well as the meter types.
Always turn off the source power before you attempt any work.
New contributor
You can indeed install a GFCI as a first device, but you need to know which are the incoming "Hot" (usually black) and "Neutral" ( white).
As well and hopefully, there's a associated ground ( usually bare copper wire )
Lighting can be protected, but there would have to be a reason. And that would be " Can a person come in contact with a light fixture ". I do know in a couple cases where in very big / expensive homes I have seen enormous sized bathrooms with a table / chair and a table lamp wall outlet which was switched from a wall switch... "That" would be one scenario where lighting would be protected from a GFCI.
Anyways..
Note that on the GFCI Outlet connections are labeled "Line" and "Load".
All above being said you need to establish which wires are indeed your incoming power. Home Depot / Lowe's sells proximity / non contact testers as well as the meter types.
Always turn off the source power before you attempt any work.
New contributor
New contributor
answered Aug 16 at 20:11
Retired ElectricianRetired Electrician
1166 bronze badges
1166 bronze badges
New contributor
New contributor
You're making me want to try another GFCI. I can't imagine that I got two bad ones. But no light fixture is within reach and the switches are in dry locations--not near the sink. Well, 5' for one, 9' for another. I'd try a third new GFCI just to see if it, too, reports no voltage to my multitester like the other two did. I just can't grasp how that's even possible. Guaranteed: incoming hot has 120v and I know how to wire GFCI. Wondering if something is amiss with downstream wiring makes me nauseous. I did modify it slightly by supplying power from first switch box to rest of circuit.
– DSlomer64
yesterday
1
Just remember.. If one wires lights from any GFCI, that is, INTENDS TO have those lights protected by a GFCI, they ALSO need to make certain the hot AND neutral both are going to that lighting circuit ( LOAD SIDE ) from the GFCI.. I seen instances where a homeowner wires the lights hot sourced from the load side of the GFCI, but wires the neutral for those lights sourced from the line side of the GFCI.... trips the GFCI every time.🤭
– Retired Electrician
yesterday
add a comment |
You're making me want to try another GFCI. I can't imagine that I got two bad ones. But no light fixture is within reach and the switches are in dry locations--not near the sink. Well, 5' for one, 9' for another. I'd try a third new GFCI just to see if it, too, reports no voltage to my multitester like the other two did. I just can't grasp how that's even possible. Guaranteed: incoming hot has 120v and I know how to wire GFCI. Wondering if something is amiss with downstream wiring makes me nauseous. I did modify it slightly by supplying power from first switch box to rest of circuit.
– DSlomer64
yesterday
1
Just remember.. If one wires lights from any GFCI, that is, INTENDS TO have those lights protected by a GFCI, they ALSO need to make certain the hot AND neutral both are going to that lighting circuit ( LOAD SIDE ) from the GFCI.. I seen instances where a homeowner wires the lights hot sourced from the load side of the GFCI, but wires the neutral for those lights sourced from the line side of the GFCI.... trips the GFCI every time.🤭
– Retired Electrician
yesterday
You're making me want to try another GFCI. I can't imagine that I got two bad ones. But no light fixture is within reach and the switches are in dry locations--not near the sink. Well, 5' for one, 9' for another. I'd try a third new GFCI just to see if it, too, reports no voltage to my multitester like the other two did. I just can't grasp how that's even possible. Guaranteed: incoming hot has 120v and I know how to wire GFCI. Wondering if something is amiss with downstream wiring makes me nauseous. I did modify it slightly by supplying power from first switch box to rest of circuit.
– DSlomer64
yesterday
You're making me want to try another GFCI. I can't imagine that I got two bad ones. But no light fixture is within reach and the switches are in dry locations--not near the sink. Well, 5' for one, 9' for another. I'd try a third new GFCI just to see if it, too, reports no voltage to my multitester like the other two did. I just can't grasp how that's even possible. Guaranteed: incoming hot has 120v and I know how to wire GFCI. Wondering if something is amiss with downstream wiring makes me nauseous. I did modify it slightly by supplying power from first switch box to rest of circuit.
– DSlomer64
yesterday
1
1
Just remember.. If one wires lights from any GFCI, that is, INTENDS TO have those lights protected by a GFCI, they ALSO need to make certain the hot AND neutral both are going to that lighting circuit ( LOAD SIDE ) from the GFCI.. I seen instances where a homeowner wires the lights hot sourced from the load side of the GFCI, but wires the neutral for those lights sourced from the line side of the GFCI.... trips the GFCI every time.🤭
– Retired Electrician
yesterday
Just remember.. If one wires lights from any GFCI, that is, INTENDS TO have those lights protected by a GFCI, they ALSO need to make certain the hot AND neutral both are going to that lighting circuit ( LOAD SIDE ) from the GFCI.. I seen instances where a homeowner wires the lights hot sourced from the load side of the GFCI, but wires the neutral for those lights sourced from the line side of the GFCI.... trips the GFCI every time.🤭
– Retired Electrician
yesterday
add a comment |
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2
That's not a GFCI tester. That's an outlet tester. Some outlet testers are combination devices, containing both an outlet tester (which is 3 lights red yellow yellow) and a GFCI fault tester (a button).
– Harper
Aug 16 at 22:40
Yeah, package does NOT say "GFCI Tester" but since it has a GFCI "trip" button, I assumed it was testing the GFCI itself, which it is, but I assume that a real "GFCI Tester" would do other things, such as .... uh .... well, I can't think of any, other than what the LED combinations find wrong. (I've installed half a dozen GFCI receptacles in the past 20 years. Never had a problem until now.)
– DSlomer64
yesterday
Well, when you push the button, it tests the GFCI's one job, which is tripping for current leakage. So in that sense it's a GFCI tester. It's not an all-singing all-dancing everything tester though. And as a 3-lamp tester, the lights are fine, but the descriptions of problem conditions are tuned for new work. They will lead you on wild goose chases in old work.
– Harper
yesterday