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Ether 14-11-2010 19:05

CIM quiz
 
1 Attachment(s)
A CIM motor is attached to a small dynamometer which exerts a fixed constant load torque of 100 oz-in on the motor shaft. The CIM is directly attached to a 12VDC source (assume no internal resistance) with heavy gauge wire and connectors (assume no resistance). Assume the CIM's specs are exactly as specified in the attached screenshot.

Questions:

1) What is the CIM's speed?

2) What is the CIM's current?

3) How much power (watts) is being input to the CIM?

4) How much power (watts) is the CIM delivering into the load (dynamometer)?

5) How do you account for the difference between #4 and #3 above?




PAR_WIG1350 14-11-2010 20:08

Re: CIM quiz
 
Spoiler for Maybe:
Spoiler for ???:

~3763.7 RPM
~40.64 Amperes
487.68 Watts in
~256 Watts out
The inefficiencies of the motor (mostly friction) prevent power from being transfered without loss

Ether 14-11-2010 20:45

Re: CIM quiz
 
Quote:

Originally Posted by PAR_WIG1350 (Post 980802)
.

Re-check your output power calculation.

Ponder your answer to #5 a bit more.




sanddrag 14-11-2010 23:47

Re: CIM quiz
 
Quote:

Originally Posted by Ether (Post 980801)
3) How much power (watts) is being input to the CIM?

4) How much power (watts) is the CIM delivering into the load (dynamometer)?

4. 278.4 Watts

davidthefat 15-11-2010 00:23

Re: CIM quiz
 
Quote:

Originally Posted by Ether (Post 980806)
Re-check your output power calculation.

Ponder your answer to #5 a bit more.



Heat

AustinSchuh 15-11-2010 00:54

Re: CIM quiz
 
Quote:

Originally Posted by davidthefat (Post 980830)
Heat

Elaborate a bit more. Heat due to what?

Al Skierkiewicz 15-11-2010 08:55

Re: CIM quiz
 
1) What is the CIM's speed?
If free speed is 5310 RPM and stall torque is 343.4 and the calculated speed is the free speed - reduction in speed due to load then speed = free speed - (rated torque * (free speed/max torque)) or
5310 - (100 oz.in. * (5310/343.4)) = 3763.69 RPM

2) What is the CIM's current?
If stall torque is 343.4 oz. in. and stall current is 133, then the current constant is .3873A/oz.in. therefore current at 3763.69 RPM is the constant * RPM + I min
I= (3763.69RPM * .3873A/oz.in.) + 2.7A = 38.73 + 2.7A = 41.43A

3) How much power (watts) is being input to the CIM?
P IN = I * V = 41.43A * 12V = 497.16 W

4) How much power (watts) is the CIM delivering into the load (dynamometer)?
The conversion factor for oz. in and speed is 0.00074 and Pout = Torque * RPM * conversion factor,
Therefore P out = 100 oz. in. * 3763.69 * 0.00074 = 278.51W

5) How do you account for the difference between #4 and #3 above?
As the lost electrical power is the current squared * motor winding resistance, and R motor is 12V/133A (stall current) = .0902 ohms, then electrical power loss is 41.43A^2 * .0902ohms = 154.87W.
If the input power is 497.16W and electrical loss is 154.87 and power out is 278.51W then all other losses amount to 497.16-154.87-278.51=63.78W
These losses are attributable to bearing friction, brush friction, back EMF, friction of armature with the air, etc.

Ether 15-11-2010 11:37

Re: CIM quiz
 
Quote:

A CIM motor is attached to a small dynamometer which exerts a fixed constant load torque of 100 oz-in on the motor shaft. The CIM is directly attached to a 12VDC source (assume no internal resistance). Assume the CIM's specs are exactly as specified here.

Questions:

Quote:

1) What is the CIM's speed?
Solution: Assume that the speed vs torque curve is linear, and use the given load torque (100 oz-in) to interpolate the rpm:

rpm = 5310*(1-100/343.4) = 3763.7 rpm


Quote:

2) What is the CIM's current?
Solution: Assume that the current vs torque curve is linear, and use the given load torque (100 oz-in) to interpolate the current:

amps = 2.7 + (100/343.4)*(133-2.7) = 40.64 amps


Quote:

3) How much power (watts) is being input to the CIM?
Solution: watts = volts*amps = 12*40.64 = 487.7 watts


Quote:

4) How much power (watts) is the CIM delivering into the load (dynamometer)?
Solution: watts = oz_in*rpm/1352.3 = 100*3763.7/1352.3 = 278.3 watts


Quote:

5) How do you account for the difference between #4 and #3 above?
Solution: The total power loss is 487.7-278.3 = 209 watts. Most of this loss is due to I^2R heat loss in the motor windings. The motor winding resistance is 12/133 = 0.09023 ohms, so the I^2R loss is (40.64)^2*(0.09023) = 149 watts. The remaining loss (60 watts) is due to a combination of motor bearing friction, windage, and motor core losses (hysteresis losses and induced eddy currents).



Now, suppose I open the circuit and insert a 0.1 ohm resistor in series with the motor. Assume that the load torque remains the same, at 100 oz-in, and that the resistor is large enough that it does not overheat.

Questions:

1) What is the CIM's speed?

2) What is the CIM's current?

3) How much power (watts) is being input to the CIM?

4) How much power (watts) is the CIM delivering into the load (dynamometer)?

5) Explain any assumptions you had to make to get the answers.




PAR_WIG1350 15-11-2010 17:00

Re: CIM quiz
 
I didn't calculate the output current, I drew a picture of the curve and guessed. That would be why I got it wrong. We haven't learned (much) about angular motion in physics yet

AdamHeard 15-11-2010 17:02

Re: CIM quiz
 
Quote:

Originally Posted by PAR_WIG1350 (Post 980929)
I didn't calculate the output current, I drew a picture of the curve and guessed. That would be why I got it wrong. We haven't learned (much) about angular motion in physics yet

Do you mean output power?

That can be calculated from torque x speed, give it a shot!

theprgramerdude 15-11-2010 19:45

Re: CIM quiz
 
Well, lets see.... Assuming the motor is mostly linear in performance, The No-Load Current is 2.7 amps, the constant (lets use this) D determining the ratio of current to torque is (64-0)/(27-2.7)= 2.633 oz-in per amp, the no-load 12v speed is 5310 rpm, with it losing (5310-4320)/(64) rpm per oz-in, or 5310-4320/27-2.7 per amp.
Oh, and 5310 RPM per 12 volts equates to 442.5 RPM's per volt.
Based on this:
5310 RPM no load
2.7 amps no load
2.633 oz-in per amp of torque
-15.46 rpm per oz-in torque, or 40.74 rpm per amp
442.5 RPM per volt, no load.

So, lets answer number two first. In order for there to be 100 oz-in of torque, the current applied (which in turn causes the force) must be the same, and I'm hoping this math was done correct before, 40.64 amps.


Which in turn brings us back to #1. The voltage loss across a .1 ohm resistor at 40.64 amps would be equal to V=IR, or .1*40.64= 4.064 volts (can't believe I used my TI-89 on that.)
12-4.064 volts = 7.936 volts left for the CIM motor.
A no load speed would be 3511.68 rpm. Subtracting the torque losses would result in an actual speed of -15.46 * 100 + 3511.68 = 1965.68 RPM.


Number 3: Power input to the CIM = VI= 7.936 V * 40.64 amps = 322.5 watts.

Numbah 4: Power output, mechanical: Speed * Force. 1966 RPM * 100 oz-in ~ using a random converter = 100 oz *.278N per oz* (32.76 revs * 2 pi inches * .0254m/in) per sec = OMG = 145.3 ? Watts.

Number 5: I believe I had to answer the second question first. You don't have to, but it eliminates a few extra steps of variable making.

Ether 15-11-2010 21:00

Re: CIM quiz
 
Quote:

Originally Posted by theprgramerdude (Post 980956)
Well, lets see....

Nicely done :)


Now some food for further thought.

In the first scenario, the motor is generating 100 oz-in of net torque (against the external load) plus torque losses at 3764 rpm (due to friction and windage).

In the second scenario, the motor is generating 100 oz-in of net torque (against the external load) plus torque losses at 1965 rpm (due to friction and windage).

In the second scenario the torque losses are less (due to the lower rpm). Therefore the total torque is less than the first scenario, and the current required should be slightly less. How much less ?




joek 19-11-2010 21:42

Re: CIM quiz
 
the mechanical subteam's answer:

speed: go faster!
heat: it makes to much of this
torque: enough to work on accessories, and great for pulling or driving stuff if you put a 12.75:1 gearbox on
current: work with the battery, when run through the tan device

AdamHeard 19-11-2010 21:57

Re: CIM quiz
 
Quote:

Originally Posted by joek (Post 981358)
the mechanical subteam's answer:

speed: go faster!
heat: it makes to much of this
torque: enough to work on accessories, and great for pulling or driving stuff if you put a 12.75:1 gearbox on
current: work with the battery, when run through the tan device

I would expect more out of a mechanical subteam.

joek 21-11-2010 16:01

Re: CIM quiz
 
me too


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