I understand this, I was trying to give validity to the manuals 15 amp claim.
The motor itself is an AO smith........
It list 15.0 Amps, so based off of the manuals information 15 amp breaker, you tell me is it 15 amps the maximum current, or is that with the 125% already figured in?
Notice the HP.........SPL, what does that mean?
That 15.0 amp figure *should* be the max. running current. Min. wire would be #12. Am guessing the required breaker size would be 20 amps but you should refer to the NEC for sizing. You never want the wire undersized. But a smaller than NEC size breaker can often work and the worst that will happen is a tripped breaker.
However... That current rating at 15.0 amps is suspect tho. being exactly "15.0". Usually for a motor that has a 208/240 rating, current at both 208 and 240 volts is on the nameplate. At 208 volts, current is higher. Maybe the 15.0 is "worst case" at 208 volts? If it is, current at 240 would be 208/240 x 15.0 = 13.0 amps - still indicating #12 wire. But I would expect this is a DIYer/homeowner compressor and the voltage would normally be 240 volts.
The nameplate lists the LRA current (locked rotor amps) which is the inrush current at startup. Typically 6 times running current. Working back, the max. running current would be 81.0/6 = 13.5 amps. That would still indicate min. #12 wire size. But is the LRA at 208 or 240 volts?
SPL is a contrived inflated HP rating and the actual HP rating is less than what is indicated on the compressor. Here is a good discussion on the Mike Holt electrical forum about someone want to size wire & breaker for an SPL 3.5 HP compressor.
http://forums.mikeholt.com/showthread.php?t=97782 One poster mentions AO Smith as one manufacturer who does this. Have not gone back and reread this thread and not sure what the consensus was. Very confusing even to all the electrical experts there!!
Based on the motor's nameplate, I would say that the wire is okay at #14, but I would really suggest #12 Will reduce voltage drop if you have a long run to the panel and/or if the voltage at the main panel drops much below 120V sometimes. You could simply try a 15 amp breaker and see if it holds okay on startup, if not, move up to a 20 amp. Does the compressor have a 15 amp rated cord and plug on it?
If and when you find that the big 3.7 HP compressor isn't enough, #12 wire would allow a somewhat larger compressor. Perhaps installing #10 now might be wise if there's a chance of upgrading down the road.
It would be interesting to take a clamp-on ammeter reading (cheap at HF).
Great fun...
