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In my kitchen, I want to replace a regular 120V receptacle with a GFCI-protected receptacle. The instructions describe what to do with a regular 2-wire + ground feed, with and without daisy chaining to other receptacles, but not how to do it with a 3-wire + ground feed. Please describe how I should connect the new receptacle.

Here's a diagram of how the non-GFCI receptacle is currently wired, in my best 6-year-old artistry: diagram of current receptacle connections

I think it's connected this way so that each receptacle in the kitchen has their two sockets supplied by different breakers. At the service panel the circuit is controlled by a joined pair of 15A breakers. I assume the white and black are separate 15A lines and the red is a common neutral (?).

Here are the instructions for connecting in a 2-wire scenario.

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How do I connect this? Or should I consult an electrician?


From The complete guide to home wiring

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Also relevant is the blog post Demystifying the mystifying GFCI –  BMitch Oct 4 '13 at 11:32

5 Answers 5

up vote 7 down vote accepted

The first problem is that you may be using the wrong cable and breakers. NEC calls for 2 20Amp small appliance circuits in the kitchen, to accomplish this you'll need to switch to 20Amp breakers and #12 wire.

The next problem. You'll have to pull new wire anyway, if you want to hook up GFCI receptacles. GFCI receptacles will not work properly with a shared neutral, you'll end up with nuisance tripping with a shared neutral. GFCI receptacles work by monitoring the balance between hot and neutral, so if the neutral is shared the GFCI will not work properly.

To wire up the kitchen properly, you'll have to pull 2 new 12/2 cables from the breaker to the kitchen (all #14 wire on that circuit will have to be replaced). Then install 2 20Amp breakers, to supply the kitchen. You'll install the GFCI's as the first receptacle on each circuit, which will protect all downstream receptacles.

You can share a neutral between 2 GFCI receptacles. The catch is you'll have to pigtail the neutral to the receptacles, not use the neutral from the load side of the first GFCI to feed the second.

So you should be able to do something like this...

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But not like this...

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You'll then be able to use the load side of each receptacle to feed other devices, like this.

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Or you could pull 3-rope into a junction box (shared neutral, 2 20A breakers back in the panel) and then pull 2 rope from the J box to the GFCI outlets, if that helps keep it all straight. But it's the same thing whether you do that, or pigtail the neutral through the GFCI boxes themselves: the hot and neutral legs going to each GFCI device form a new branch circuit, so the neutral on that new branch is not shared with the neutral any other sibling branches, and the current flowing on the hot and neutral should always be the same (otherwise the GFCI is supposed to trip). –  Craig Nov 29 '14 at 3:31

Most of what Gregmac has said is correct, however I have to correct a couple of small items. It is totally acceptable and often done to use a three wire circuit (black/red hot, white neutral & bare ground) like you have to "alternate" kitchen receptacles, thus giving you two circuits. It is not a code requirement to split the top and bottom of the recpts, however it is fine to do that, but it complicates the GFI functions. Splitting the top and bottom would require two GFI's upstream, one feeding each of the legs. More common would be two single pole GFI breakers in the panel.

With that said, your situation is different. I bet you will find that the the black feeds every other recpt, and likewise the red does the same thing with alternate recpts. Once you confirm that, simply install a GFI on the first powered recpt of each string (color). As a matter of fact, this is the most common way kitchens are wired and meets NEC.

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Wouldn't the first GFCI constantly trip? –  Tester101 Oct 5 '11 at 12:13
No it won't because it is looking at the difference between neutral and ground in reference to the local branch hot. Since both neutral and ground are supposed to be at the same potential throughout the house. The internal breaker is powered by the hot side on that branch only. So if the fault occurs in recpt in that branch, only that GFI will trip. –  shirlock homes Oct 5 '11 at 22:25
I finally installed my GFCI. I tried it both the way you describe, shirlock, and the way Tester101 describes. It must be done according to Tester, as your method shirlock does result in instant tripping of the GFCI protection. –  Matt Fox Nov 15 '11 at 7:19
The GFCI does not look at the difference between neutral and ground. It looks at the difference in current flowing on the hot vs neutral wires. Ground is not involved at all. –  Tom Robinson Jan 3 at 7:00

Dont over complicate this. It is very simple problem. Just leave the red wire alone. No one here knows for sure what it is used for but it doesnt matter. Every electrician/homeowners wire things a little different. It could be right or wrong but if everything works dont worry about it.

Without using the red wire you can use the diagram you provided. The only thing to figure out is what wires is the hot feed. The easiest way to find this out is to turn off the breaker and disconnect one set of black and wire wires. Then put a separate wire nut on each and turn the breaker back on. if the outlet still works then the wires connected are hot. If not then obviously the wires you took off and capped are. Now you have to decide if you want the rest of the outlets on this series to be protected by the GFI and connect your load wires up accordingly. It will be label on the back of the gfi which load connection point is protected.

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The phrasing I've used for this is "line" vs "load". Line is the power source (think of it as the power line from the utility pole) and the load is what is receiving power after that point. –  BMitch Oct 9 '11 at 0:08

Pigtail the neutral and the hot. This is the correct way to install any receptacle, GFCI or not.

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Hi. You'll notice that the other answers to this question are a lot more detailed about what to do in this situation. –  ChrisF Dec 7 '11 at 21:18
Also, the brevity of "pigtail the neutral and the hot" sounds at first blush as if you're saying pigtail the hot and the neutral together. Yes, I realize you mean pigtail the neutral, and then also pigtail the hot, separately, so that you actually create new little branch circuits. Really, though, you'd only need to pigtail the neutral, and you can't GFCI-protect regular downstream receptacles if you pigtail the hot. You have to feed them through the GFCI, using the "load" terminals. FWIW. –  Craig Jan 3 at 0:13

white, black, red wires/GFI receptacle

white carries unused power back. Black n Red carry power in (to power your crap) But be careful ( if black wire is attached to a breaker at the electrical panel that is labeled an even number and the Red is attached to an odd number (hard to notice stamped numbering on cover beside breakers) Odd to odd OK Odd to even Not ok = 240 boom! So if Black X and red Y then proceed with: black to Line holes on gfi (crap hooked up to Load) Red wire dont hook up, twist together to pass to next location. Next location hook red to LINE on gfi and dont connect black. just don't land black and red on same location, red gfi = microwave black gfi = fridge red gfi = blender black gfi = coffee maker White wire should go directly to each gfi without detour. don't use white from load or line off gfi but twist a bunch so 1 white hits black gfi 1 one white hits red gfi 2, back gfi 2, red gfi 2 ....etc.

regular non-gfi rules

you can share the white wire coming from any receptacle with the same color as long as the same colored wire and it's brother white wire are hooked up to a known even or odd label (stamped next to breakers) odd to even cross 120+120=240 even to even 120+120=0 since its the same Phase (odds are phase 1 separated from power on phase 2 evens) odds are all virtually the same 120 evens are virtually common with each other at 120. red and black make 240, red and red make 120 did i miss anything?

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Extremely difficult to understand what you're trying to say, the existing answer with photos does a much better job. You're also failing to describe the problem of using load side of the GFCI when there's a shared neutral. –  BMitch Sep 26 '13 at 12:04
"White carries unused power back"? ;-) –  Craig Nov 29 '14 at 3:33

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