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why common trip breakers for 120V circuits?
I'm looking at a subpanel that was installed for an addition to my
house about 20 years ago (well before I bought it). I'm mapping out the circuits which were never labeled. I've found that four 120V circuits are tied to two common trip dual- pole breakers. There are no 240V devices or outlets on these circuits. I can see the wires tied to them and they are all black and run into separate runs of 12/2 that lead to the addition. Why would this have been done this way? And is there any reason I shouldn't swap them with single pole breakers? Also, one of those common trip breakers is rated at 30A. I've never seen a 30A breaker used for a 120V circuit and that seems wrong to me since the 12 gauge conductor isn't rated for 30A. |
why common trip breakers for 120V circuits?
Find first, what each cable is feeding, then it may make sense. Post back
wrote in message ... I'm looking at a subpanel that was installed for an addition to my house about 20 years ago (well before I bought it). I'm mapping out the circuits which were never labeled. I've found that four 120V circuits are tied to two common trip dual- pole breakers. There are no 240V devices or outlets on these circuits. I can see the wires tied to them and they are all black and run into separate runs of 12/2 that lead to the addition. Why would this have been done this way? And is there any reason I shouldn't swap them with single pole breakers? Also, one of those common trip breakers is rated at 30A. I've never seen a 30A breaker used for a 120V circuit and that seems wrong to me since the 12 gauge conductor isn't rated for 30A. |
why common trip breakers for 120V circuits?
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why common trip breakers for 120V circuits?
Find first, what each cable is feeding, then it may make sense. Post back I don't think it helps. The breaker feeds only overhead lights and 120V outlets. Specifically, I count: 5 overhead lights 1 outdoor flood light 14 120V outlets Two of those outlets are on the ceiling in a shop area and power 120V fluorescent lights. Two others power the two garage door openers. Also, you should have 4 white wires you haven't mentioned. You have 4-12/2 circuits leaving the panel. Right? 4 12/2 cables tied to the two double-pole breakers. Each cable's neutral goes to the neutral bar, and their grounds go to the ground (which are separate since this is a subpanel). Here's a part I didn't mention yet, but the more I look the more this seems like the answer. What is leading me to investigate these is I see that at some point previously the central A/C installers tied the a/c power onto these breakers by sticking their wires under the terminals with the existing ones (big no-no). Of course these devices are 240V so they need a 2-pole breaker. I already know that these a/c installers were utterly incompetent crooks, so I'm now thinking that they went to the trouble of replacing the single pole breakers with 2- pole so that they could feed the 240V, but of course didn't find breaker space for what they needed and instead double-tapped the breaker. This might account for the 30A rating on that breaker as well, although other A/C units are tied to 20A breakers, so who knows. I could see these guys just putting in a breaker until it didn't trip it and saying that was good enough. The reason I'm investigating all of this is so that I can fix it all -- move the a/c's to their own 2-pole breakers, consolidate other circuits as needed. I wanted to ask about whether there was a realistic need for a 2-pole breakers on individual 120V circuits and given your answers, I think my guess above is probably what led to this fiasco. Now I need to find out what the proper amperage rating is for the a/c units and fix all of this. |
why common trip breakers for 120V circuits?
Sounds like you've got it under control. You would use a double pole breaker
if you had two 120 volt circuits feeding the same outlet, which would be split top and bottom wrote in message ... Find first, what each cable is feeding, then it may make sense. Post back I don't think it helps. The breaker feeds only overhead lights and 120V outlets. Specifically, I count: 5 overhead lights 1 outdoor flood light 14 120V outlets Two of those outlets are on the ceiling in a shop area and power 120V fluorescent lights. Two others power the two garage door openers. Also, you should have 4 white wires you haven't mentioned. You have 4-12/2 circuits leaving the panel. Right? 4 12/2 cables tied to the two double-pole breakers. Each cable's neutral goes to the neutral bar, and their grounds go to the ground (which are separate since this is a subpanel). Here's a part I didn't mention yet, but the more I look the more this seems like the answer. What is leading me to investigate these is I see that at some point previously the central A/C installers tied the a/c power onto these breakers by sticking their wires under the terminals with the existing ones (big no-no). Of course these devices are 240V so they need a 2-pole breaker. I already know that these a/c installers were utterly incompetent crooks, so I'm now thinking that they went to the trouble of replacing the single pole breakers with 2- pole so that they could feed the 240V, but of course didn't find breaker space for what they needed and instead double-tapped the breaker. This might account for the 30A rating on that breaker as well, although other A/C units are tied to 20A breakers, so who knows. I could see these guys just putting in a breaker until it didn't trip it and saying that was good enough. The reason I'm investigating all of this is so that I can fix it all -- move the a/c's to their own 2-pole breakers, consolidate other circuits as needed. I wanted to ask about whether there was a realistic need for a 2-pole breakers on individual 120V circuits and given your answers, I think my guess above is probably what led to this fiasco. Now I need to find out what the proper amperage rating is for the a/c units and fix all of this. |
why common trip breakers for 120V circuits?
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why common trip breakers for 120V circuits?
wrote in message Here's a part I didn't mention yet, but the more I look the more this seems like the answer. Then why did you post without it? If you want answers, give compete information the first time. We can't see what you have, we can't discern what is hiding unless you give ALL the information pertaining to the subject. You wasted the time of a lot of people with your negligence. |
why common trip breakers for 120V circuits?
I wanted to ask about whether there was a realistic need for a 2-pole breakers on individual 120V circuits and given your answers, I think my guess above is probably what led to this fiasco. �Now I need to find out what the proper amperage rating is for the a/c units and fix all of this. well lets say some circuits are in the same boxes. its done but not common and can be unsafe unless you tie the 2 breakers together. when one trips or is turned off so is the other......... its another explnation to why someone did it this way..... |
why common trip breakers for 120V circuits?
wrote:
I'm looking at a subpanel that was installed for an addition to my house about 20 years ago (well before I bought it). I'm mapping out the circuits which were never labeled. I've found that four 120V circuits are tied to two common trip dual- pole breakers. There are no 240V devices or outlets on these circuits. I can see the wires tied to them and they are all black and run into separate runs of 12/2 that lead to the addition. Why would this have been done this way? And is there any reason I shouldn't swap them with single pole breakers? Also, one of those common trip breakers is rated at 30A. I've never seen a 30A breaker used for a 120V circuit and that seems wrong to me since the 12 gauge conductor isn't rated for 30A. I'm guessing it may have been done with Edison circuits (common neutral) as that would require common trip or 240V style breakers. Are half the hot wires red in color? I don't know why you have a 30A breaker in there, either if the wire leaving is 12AWG. that sounds wrong to me. nate -- replace "roosters" with "cox" to reply. http://members.cox.net/njnagel |
why common trip breakers for 120V circuits?
Edwin Pawlowski wrote:
wrote in message Here's a part I didn't mention yet, but the more I look the more this seems like the answer. Then why did you post without it? If you want answers, give compete information the first time. We can't see what you have, we can't discern what is hiding unless you give ALL the information pertaining to the subject. You wasted the time of a lot of people with your negligence. I didn't see you offering help after the first post. a |
why common trip breakers for 120V circuits?
"a" wrote in message news:dSDpj.7531$C61.1033@edtnps89... Edwin Pawlowski wrote: wrote in message Here's a part I didn't mention yet, but the more I look the more this seems like the answer. Then why did you post without it? If you want answers, give compete information the first time. We can't see what you have, we can't discern what is hiding unless you give ALL the information pertaining to the subject. You wasted the time of a lot of people with your negligence. I didn't see you offering help after the first post. a Because I was smart enough to read down and see he already had the answer. If you expect people to help you, it is imperative to give all the information available. If you go to the doctor and just tell him "I don't feel good", chances are you won't get as good of help than if you accurately describe the symptoms. |
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