gar
Senior Member
- Location
- Ann Arbor, Michigan
- Occupation
- EE
211213-2334 EST
I might know input horsepower, but I may not know the output HP.
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I might know input horsepower, but I may not know the output HP.
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Monitoring VFD Power
- Thread starter ptonsparky
- Start date
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petersonra
Senior Member
- Location
- Northern illinois
- Occupation
- engineer
gar
Senior Member
- Location
- Ann Arbor, Michigan
- Occupation
- EE
211214-0850 EST
Output HP = output Torque ( in #-ft ) * RPM ( in rev per minute ) / 5252
Is torque proportional to input current? Possibly roughly. Sometimes fairly close, and in other configurations grossly in error.
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Output HP = output Torque ( in #-ft ) * RPM ( in rev per minute ) / 5252
Is torque proportional to input current? Possibly roughly. Sometimes fairly close, and in other configurations grossly in error.
.
petersonra
Senior Member
- Location
- Northern illinois
- Occupation
- engineer
winnie
Senior Member
- Location
- Springfield, MA, USA
- Occupation
- Electric motor research
Since the drive is in sensorless vector mode, buried in its algorithms should be a motor equivalent circuit model that is estimating the actual motor torque.
It appears that AO1 can be assigned to report this estimated torque.
You are already going to have a complex enough problem figuring out the relationship between drag speed, product feed rate, and drive torque to determine if there is a problem. I wouldn't add trying to estimate motor torque based on drive current (or worse motor torque based on power and frequency) on top of this.
The VFD is _already_ doing this calculation.
-Jon
It appears that AO1 can be assigned to report this estimated torque.
You are already going to have a complex enough problem figuring out the relationship between drag speed, product feed rate, and drive torque to determine if there is a problem. I wouldn't add trying to estimate motor torque based on drive current (or worse motor torque based on power and frequency) on top of this.
The VFD is _already_ doing this calculation.
-Jon
It depends. Many of the applications for us were DC shunt motors and, for those, the current and torque varied linearly. For other motors like cage induction motors the power factor was typically 07 or 0.8 but the efficiency was 95% including the variable speed system. That said, my expertise is just in the industrial field.
ptonsparky
Tom
- Occupation
- EC - retired
I set the VFD to give me a 4-20 ma output for power. A couple test truck loads of 14 %+ moisture corn showed 88% power. Todays lower moisture of 13% ran us up to 110% power. Slowed up the grain to +90 power and torque monitor showed in the +90 % as well.
I don't know how well the power and torque will relate at lower speeds
I don't know how well the power and torque will relate at lower speeds
It depends on the application. Many of ours were cube load for pumping stations. Typically the loads were 70% - 100%.
ptonsparky
Tom
- Occupation
- EC - retired
Augers. Constant torque.
Ah, OK. A lot of the paper mills we did were constant torque - some of the time............
There were typically 10 or 15 sections (rolls). Now and again the sections got water logged. and needed a lot of torque to get them started. Big industrial stuff.
ptonsparky
Tom
- Occupation
- EC - retired
Tried explaining why I'm monitoring power and not amps to manager. Because I want to wasn't good enough.
winnie
Senior Member
- Location
- Springfield, MA, USA
- Occupation
- Electric motor research
I'm still curious why power rather than torque?
Jon
Jon
ptonsparky
Tom
- Occupation
- EC - retired
I was looking amp vs power earlier and set it up for power. I really don't know which would be better. I do know no load amps was about 12 with Power about 25. I didnt check torque.
ptonsparky
Tom
- Occupation
- EC - retired
It would only take a Vfd parameter change to monitor whatever but it takes 7 minutes to unload a truck and no one knows when one will show up.
I'll try to read all three next time i happen to be onsite and lucky.
I'll try to read all three next time i happen to be onsite and lucky.
Torque times power is speed ( RPM. ) At standstill torque is zero speed.
winnie
Senior Member
- Location
- Springfield, MA, USA
- Occupation
- Electric motor research
Agreed.
ptonsparky is monitoring a variable speed auger to catch an abnormal condition.
My guess is that an overload will best be seen in the torque. In the extreme case you cited, power is zero at zero speed. So if something is jammed on starting you wouldn't see much increase in power consumption but torque would be high without rotation.
Jon
For fixed speed it would. For variable speed it would be limited.
ptonsparky
Tom
- Occupation
- EC - retired
In my OP,
I did ask what power is at locked rotor. Obviously if gets that far along, I'm SOL.
Power seems to be very responsive and I've already set it up to drop out at feed xxx% which solves the one condition we were concerned with.
The operator came up with a simple one after I was almost done. Restrict access to the truck drivers under that one condition. (I had asked about all access.)
I did ask what power is at locked rotor. Obviously if gets that far along, I'm SOL.
Power seems to be very responsive and I've already set it up to drop out at feed xxx% which solves the one condition we were concerned with.
The operator came up with a simple one after I was almost done. Restrict access to the truck drivers under that one condition. (I had asked about all access.)
gar
Senior Member
- Location
- Ann Arbor, Michigan
- Occupation
- EE
211217-2924 EST
ptonsparky:
We have previously discussed this. For constant supply voltage and frequency output torque, power, and current are approximately proportional to each other. The current curve does not go to zero at 0 load. Current is still a vastly better indicator of load than power input on an AC induction motor.
I don't readily have any plots that show how current and power vary as a function of frequency, or supply voltage.
My sample current curve comes from Alternating-Current Machinery, by Bailey and Gault, McGraw-Hill.
I really want a torque transducer on the output shaft, not the input to a gear reducer. If you mount a motor and its reducer on a platform with a pivot and a force transducer you can determine output torque, or just use an output torque transducer.
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ptonsparky:
We have previously discussed this. For constant supply voltage and frequency output torque, power, and current are approximately proportional to each other. The current curve does not go to zero at 0 load. Current is still a vastly better indicator of load than power input on an AC induction motor.
I don't readily have any plots that show how current and power vary as a function of frequency, or supply voltage.
My sample current curve comes from Alternating-Current Machinery, by Bailey and Gault, McGraw-Hill.
I really want a torque transducer on the output shaft, not the input to a gear reducer. If you mount a motor and its reducer on a platform with a pivot and a force transducer you can determine output torque, or just use an output torque transducer.
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