0 members (),
560
guests, and
20
robots. |
Key:
Admin,
Global Mod,
Mod
|
|
|
Joined: Jan 2004
Posts: 1,507
OP
Member
|
Interesting question came my way and I'd like to share it with all: How many general purpose receptacles can we install on a 120v. 20a. circuit in an office suite? Need code references please.
George Little
|
|
|
|
Joined: Jul 2004
Posts: 9,931 Likes: 34
Member
|
220.14(K) gives you two choices
(1) is you kick back to 214.14(I) "receptacle outlets shall be calculated at not less than 180 volt-amperes for each single or for each multiple receptacle on one yoke." (the good old "commercial" rule)
*or*
(2)11 volt-amperes/m2 or 1 volt-ampere/ft2 (similar to the dwelling rule where there is no limit)
I would want them to put a note on the plan about which option they used. Whether you want to reject on that is probably how busy you are Assuming you run the numbers, if neither option worked out it would go back.
Greg Fretwell
|
|
|
|
Joined: Jan 2004
Posts: 1,507
OP
Member
|
Let me rephrase that Greg, How many duplex receptacles can I put on a 20a. 120v. circuit in other than a residential occupancy?
George Little
|
|
|
|
Joined: Nov 2007
Posts: 764
Member
|
Greg already mentioned the other part that is needed to calculate this for banks and office buildings. 220.14[K], says we are supposed to use the larger of the two for the branch circuit load calcs.
But for the first part, according to 220.14[I], shouldn’t it go by the yoke and not the actual type or number of receptacles? A single, duplex or even an old Despard type triplex receptacle that is all on the same yoke should normally count as one receptacle at 180VA or 180W each. So, in that case 20A X 120V = 2400W and 2400W/180VA = 13.3 then using the standard of less than 5 round down, 13 single, duplex or triplex receptacles on a 20A branch circuit. Is this not how others would calculate this portion?
|
|
|
|
Joined: Jan 2004
Posts: 1,507
OP
Member
|
KJay, I agree with your part about the 13 receptacles 100%. I think 220.14(K) is used for calculating load on a feeder or service but 220.14(I) is used when talking about or calculating the load on a branch circuit. That seems to be the issue here and I'm wondering what the rest of the gang thinks.
George Little
|
|
|
|
Joined: Nov 2007
Posts: 764
Member
|
I’m not sure I understand, but both 220.14[I] and 220.14[K] are located in Part II of Art. 220, "Branch-Circuit Load Calculation". At least they are in the 2011 NEC, but then again, that’s the only one I have access to these days.
|
|
|
|
Joined: Jul 2004
Posts: 9,931 Likes: 34
Member
|
KJay, I agree with your part about the 13 receptacles 100%. I think 220.14(K) is used for calculating load on a feeder or service but 220.14(I) is used when talking about or calculating the load on a branch circuit. That seems to be the issue here and I'm wondering what the rest of the gang thinks. 220.14 is included in part II, "Branch Circuit Calculations". I don't see where is says "feeder"
Greg Fretwell
|
|
|
|
Joined: Jan 2004
Posts: 1,507
OP
Member
|
Greg— I respectfully don't agree with the assumption that one can put as many receptacles as they want to on a 20a. 120v. circuit. I think you are limited to 13 receptacles on said circuit. After all they are required to be calculated as 180va. each yoke per (I). Also look at 220.44. This is a valid issue when you make a plan review or an inspection.
George Little
|
|
|
|
Joined: Jul 2004
Posts: 9,931 Likes: 34
Member
|
I agree, I missed the "larger of" or simply misunderstood what they were trying to say.
(2) will actually cause more receptacle circuits, not allow more receptacles on one.
My bad.
Greg Fretwell
|
|
|
Posts: 61
Joined: August 2007
|
|
|
|