A.C. Motor Current Draw
A.C. Motor Current Draw
(OP)
Can't seem to get a consistent answer on what I believe is a basic question, and would appreciate some feedback. It concerns a used A.C. induction motor of the type used for boat lifts, and drives a v-belt. This motor operates in a sea air environment, and is used infrequently. For an unknown time, it was operated at sub-standard voltage and at times would trip a 20A thermal-type breaker but only after starting and running for a couple minutes under load. The voltage deficiency was an electric utility fault and was repaired. I'm trying to determine to what extent, if any, the motor may have been compromised.
The motor can be wired for either 115V or 230V. It's 3/4 HP, 1725 RPM, capacitor start, 115V@10.8 Amps/230V@5.4 Amps, 60Hz, reversible, SF=?.
On a no-load bench test @115V, the motor draws approx 11AMPS, essentially the labeled rating. Two motor shop guys assert that modern motors draw close to their rated Amps no-load and that doesn't change much under load if the motor is good. The motor in question does draw around the same Amps, load or no-load, with no more than a 1Amp difference. Another motor shop guy asserts that this motor should draw at most 6-7Amps, no-load, and feels the motor is bad. In other words, he says the labeled Amp draw is under-load, while the no-load Amp draw should be much lower.
Who's right?
The motor can be wired for either 115V or 230V. It's 3/4 HP, 1725 RPM, capacitor start, 115V@10.8 Amps/230V@5.4 Amps, 60Hz, reversible, SF=?.
On a no-load bench test @115V, the motor draws approx 11AMPS, essentially the labeled rating. Two motor shop guys assert that modern motors draw close to their rated Amps no-load and that doesn't change much under load if the motor is good. The motor in question does draw around the same Amps, load or no-load, with no more than a 1Amp difference. Another motor shop guy asserts that this motor should draw at most 6-7Amps, no-load, and feels the motor is bad. In other words, he says the labeled Amp draw is under-load, while the no-load Amp draw should be much lower.
Who's right?





RE: A.C. Motor Current Draw
RE: A.C. Motor Current Draw
As to the likelihood of your getting a definitive answer on whether or not the motor is "compromised", I highly doubt it. Running a motor at low voltage does increase the heat and excess heat in the windings cuts the motor life because the insulation will break down prematurely. But how much life has been lost is impossible to determine, especially if you have no idea as to the voltage level, run time, duty cycle etc. etc. etc.
RE: A.C. Motor Current Draw
I wasn't hoping for a definitive answer on the motor's condition. However, the contradictory information I mentioned in my original posting indicates that the motor's likely to be either good or bad.
Even answers I received so far in this forum have the same contradiction. Only one is correct. Jraef's appears the one, but I hope others will confirm.
RE: A.C. Motor Current Draw
The only easy answer for you is to reinstall it and run it under load!
If it stays at nameplate amps... Just keep using it!
RE: A.C. Motor Current Draw
As to whether the motor has been compromised: If the motor has been damaged to the point that the no-load amps have doubled, total failure may be expected within an hour or so. Leave it running no-load for several hours and see if it survives.
Alternatively try it on the winch on a calm day. In the event of failure you don't want your boat stuck halfway with the waves picking up.
respectfully
RE: A.C. Motor Current Draw
If so either your motor had incorrect nameplate or it may be wired for wrong voltage or it may indeed be bad.
On small motors they draw signinfican currnet close to full load current on no-load but it is mostly reactive current. So when its loaded the net current does not "Appear" to be much different but its power factor is lot higher.
Try to find the right answers based on the facts and not what you want to hear. I get a feeling that you want to hear what you think is right.
RE: A.C. Motor Current Draw
RE: A.C. Motor Current Draw
RE: A.C. Motor Current Draw
One note on "high temperature", Do not trust your fingers. I have had customers with motors running for years at a given surface temperature and one person questioning the heat and all convince each other that the motor is running hotter than normal.
RE: A.C. Motor Current Draw
And, Corkey, your attitude is not very productive. We are not an institution. We do as good as we can (and that is quite good, actually), but there's no law saying that we shall give you a perfectly valid answer that also suits you and your purposes.
Gunnar Englund
www.gke.org
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100 % recycled posting: Electrons, ideas, finger-tips have been used over and over again...
RE: A.C. Motor Current Draw
Gunnar expressed my views much more effciently. Hopefully you get the point.
More to the point you said motor draws 11 Amps and the diff between load and no load is 1 amp. So max amp may be 12A. So why does a 20A breaker trip on 12A?
If the motor draws about 12A when listed for 10.8A, it may just be fine. Your voltage may not be exactly 115V.
RE: A.C. Motor Current Draw
"The motor in question does draw around the same Amps, load or no-load, with no more than a 1Amp difference."
If load current is 12 amps, why is your 20 amps breaker tripping ? Either you measured the load current wrong or your breaker is not working properly. Check both.
If the load current is more than 20 amps (causing the breaker to trip), then the motor winding is wrongly configured.
*Nothing exists except atoms and empty space; everything else is just an opinion*
RE: A.C. Motor Current Draw
If you will read my original posting, I just asked a question. Then it was suggested I have motives -- which is totally ridiculous. I don't think your attitude is productive either, and I see you didn't venture to offer an answer. I don't care a wit whether you think the motor should be scrapped -- completely irrelevant.
Rbulsara:
Now, on to further clarification. The 20A intermittant breaker trip no longer happens. It stopped after the electric utility company linemen repaired badly corroded street connections that were causing sub-standard line voltage. It appears that the low supplied voltage drove up the amps drawn by the motor enough to trip that breaker. This no longer happens. As you might guess, before the utility problem was determined, a faulty motor was initially suspected. This led to bench testing the motor. It does function now that it gets the proper voltage, but I'm concerned that it could fail at an inopportune time. The reason for the concern is the no-load amp draw. It's a lot of work to change this motor because of its location on a piling out in the water.
In sum, the load and no-load current draw are essentially the same, at approx 11A -- the label rating is 10.8A. Based on that, some say there's no indication of a problem, as that's normal. Others say, the no-load amps should be much less (6-7A), which tells me the motor is on its way out. All I'm trying to understand is which is normal for this motor.
Thanks to all.
RE: A.C. Motor Current Draw
Yes, I did read your first question. And I read the answers to it. Quite carefully.
The reason is that you were complaining about contradicting answers. And that is after having read two members' answers (more people hadn't answered at that time).
And, when you started flame-throwing at one member after he said what I was thinking already, although he said it in a somewhat milder way. I felt i had to say it my way.
Now to the motor and the question. Induction motors have a rather strange behaviour. No-load current can actually be higher than full load current. This is because of the power factor being very low when idling and closer to one when loaded. This is described by the Ossanna diagram aka circle diagram. See thread237-126286: Motor Current-Horsepower(kW) Relation for a similar discussion. There are also links to such a diagram.
In conclusion. We pride ourself to be knowledgable, gentle and understanding in these fora. And we mostly are. But we expect others to be at least two of those things, too. In your case, it is only natural that you do not know about the innards of an electric motor. But then, it would have been better if you had shown some of the two other qualities.
I hope that you understand. And you are welcome back with more questions. Any time.
Gunnar Englund
www.gke.org
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100 % recycled posting: Electrons, ideas, finger-tips have been used over and over again...
RE: A.C. Motor Current Draw
A couple of points.
1) You should work on your attitude. You don't like an answer just shut up about it. Continue to ask questions, work for a clarification of your answer until you're satisfied. Don't waste your time sniping back.
2) Why do you wait until your fourth post to tell a large part the story?
3) You should be getting the point that a bunch of experienced professionals can't clearly come to a solid consensus on the specific current(I) situation with the motor. Hence, you are not going to be convincing a power company to replace it. If it smoked during the wiring problem you'd have a pretty good case. Now? It still runs? Never!
4) Your last part of the story is really key. These motors only cost about 200 bucks. If you spend more than that on it you're on the losing end. If it takes a crane, and hazardous effort, a crazy ladder, a perfect tide, etc. ,you get the point. Just replace it.
Good luck.
Keith Cress
Flamin Systems, Inc.- http://www.flaminsystems.com
RE: A.C. Motor Current Draw
But it wasn't more work than you thought that it was worth taking it down for a bench test? "On a no-load bench test @115V, the motor draws approx 11AMPS, essentially the labeled rating."
And put it back again?
Gunnar Englund
www.gke.org
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100 % recycled posting: Electrons, ideas, finger-tips have been used over and over again...
RE: A.C. Motor Current Draw
You stated "Induction motors have a rather strange behaviour. No-load current can actually be higher than full load current. This is because of the power factor being very low when idling and closer to one when loaded." That I think answers my question, along with Rbulsara's reply. Thank you.
As noted in my original posting, two out of three motor techs agreed with you, and that's partly why I didn't replace the motor. At that time, the low voltage utility problem was undiscovered. Not to make the story too complicated, but there are two such motors in the system and it's advisable to replace the pair. And wiring may need to be replaced or spliced in an underwater conduit to use the preferred replacement motor. There's also radio controlled remote control for the system that enters the picture.
Counting all votes at this point, I think the answer is rather clear. I thought I asked a simple question that had an answer that was not a matter of opinion. I guess not, and I got flamed to boot.
RE: A.C. Motor Current Draw
Gunnar Englund
www.gke.org
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100 % recycled posting: Electrons, ideas, finger-tips have been used over and over again...
RE: A.C. Motor Current Draw
I think that there have been some misunderstandings and some regretable overreactions by more than one party in this thread.
Welcome back any time.
RE: A.C. Motor Current Draw
Firstly, you are welcome here.
There is no set formula for no-load current of induction motor. For small motor it’s even worse and it’s all over the place, so what appear like different opinions were in fact the experience of various people. There is no one answer to your question and that is why you did not get one answer. Plus you had non-coherent statements in your original post, which were only clarified when questioned, several posts later. We only read what you write; we have no way of knowing other circumstances of the matter.
At end of it all, I would bet there is nothing wrong with your motor. But if you still doubt it, replace it. There is no medicine for suspicion.
No hard feelings here, but onus here was on you to be respectful of the opinions you were getting (even if they were to be wrong, which they were not). Only that the answers were just not what you were hoping for. No opinion was wrong; you just failed to comprehend that. After all, it was you that came in here for assistance and all of who responded only tried to help to best of their ability and they were all good. Do not forget that all of this was for free!!!
RE: A.C. Motor Current Draw
Please believe that I certainly do appreciate the advice and respect the hospitality. It started out well before posting here with what I saw as contradictory information. Obviously my experience nil compared to the others here.
For the first time just now you state "There is no set formula for no-load current of induction motor. For small motor it’s even worse and it’s all over the place. . ." That is new news to me. And interesting too that it's all over the place. But why?
For instance, does that mean if I tested two brand new identical motors, at identical voltage, I might get two very different readings for their no-load amp draw? What would explain that?
RE: A.C. Motor Current Draw
RE: A.C. Motor Current Draw
I've not seen no-load amps stated for any particular manufacturer's specifc motor of this type. Do you know where I can find that kind of information?
RE: A.C. Motor Current Draw
At no point in the above was any mention of no load current. No load current values on a given design is often related to limiting inrush. Manufacturers know what these values are and can provide them but there is no specific mention of them and no cataloging of them and no contrasting them against one another. Motors of a specific, off the shelf design will have no load currents very close to the motors manufactured with the same stampings, rotor and design specifications so you will not normally see wide variations in motors of the identical design. However, you can see large differences between different manufacturers offering products that do the same WORK. It is a machine designed to do work and there is not a lot of attention paid to the unit when it is not producing work.
This subject is most often discussed in motors which have been misapplied, have had problems after installation, had the load (pump, fan) repaired improperly. The other scenario is where a blown motor comes into a repair facility, is repaired and on final test, it is noted that the current is higher than expected. At that point, no load current is often the subject of discussion as it might divulge a screw up in the repair. That is the reason that rules of thumb such as 30 to 50 percent of FLA come into play. I have seen motors with unloaded currents between 15% and 120% which performed normally and there is seldom a mention on the motor specification sheet.
RE: A.C. Motor Current Draw
That said, it would seem to me that a shop would not be justified in judging whether a motor is good or bad based solely on the observed no-load amps. I presented the motor and told them of the intermittent breaker trips, that's it. It was bench run no load, and showed 100% of FLA. One guy said that's normal and the motor was good, the other chap said that's much too high and concluded motor was going bad.
RE: A.C. Motor Current Draw
RE: A.C. Motor Current Draw
As a rewinder of small and large motors, I have seen wide variation in no-load currents even with the motors from the same manufacturer. I agree with oftenlost that often the clients come with a notion of 1/3rd no-load current and it falls on me to explain them about no-load current.
In single phase motors, the rule seems to be anything goes.
*Why does a man think he outrun a chasing dog when it has twice as many legs ?*
RE: A.C. Motor Current Draw
You brought your unit in for an opinion which, I would guess, was willingly given and possibly free. You got what you paid for.
RE: A.C. Motor Current Draw
I belive davidbeach and others have adequately answered your last query.