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#16
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Re: FP ok to stall?
I can attest to friction driving FPs to prevent stalls. While not yet used in this configuration, I would give it a try if you could.
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#17
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Re: FP ok to stall?
Quote:
That said, we're using an FP to hold up a ramp this year. We've currently settled on 25% speed as a semi-safe value. We tried 30%, but after a long session of unintentional idling in the pits, the motor was producing some distressing odors. In the interests of my sanity, the students backed it down to 25% and promised to not leave it idling in the pits. |
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#18
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Re: FP ok to stall?
We learned this the hard way this year.
We tried to use a FP to run a centrifigal fan out of a dewalt vaccuum. It functioned o.k. 1:1 but didn't give us the speed we needed. We geared it up 1:2 and after running 30 seconds wide opened the Fish smoked a bit and thermal-tripped. We thought we had a bad motor since there wasn't that much load on it (it was spinning at a REALLY good clip) so we wired up another and prompty toasted that. That's how we learned that you don't run an FP at 100% of rated power if you can help it - even if it is not stalled and is still turning pretty darn fast. |
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#19
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Re: FP ok to stall?
Quote:
Quote:
I love data. Nice. From the above two posts we learn:
What I intended say is that the FP motors are easily the top motor in the KOPs based on both power per unit volume and power per unit weight measurements. Regards, Joe J. |
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#20
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Re: FP ok to stall?
Getting back to the original design point, of using a motor to spin roller fast, but possibly allowing it to stall.
In one iteration of 'ball magnet" roller development, we used a polycord loop around a grooved hub on the roller running under light/no tension. We provided a tensioner, but also lubricated the polycord with lithium grease. This allowed us to "tune" the slipping of the polycord on the hub, and allowed stalling the roller without stalling the motor, although the motor would still be "loaded". That part worked great, but we found other ball control approaches that worked better than stalling the roller on the ball. It does allow you to spin the roller fast, but allow it to stall and then recover roller speed quickly. I think some teams also use pool noodle on PVC tube, taking advantage of the slipping of the noodle on the PVC to keep from stalling the motor, while stalling the roller. Last edited by MCahoon : 09-03-2010 at 10:05. |
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#21
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Re: FP ok to stall?
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But yes, even factoring in a 4:1 gearbox to get down to similar speeds, the FP blows the CIM out of the water in power density. Important discovery pertinent to this discussion: Our Snap Action breakers are only guaranteed to trip at 135% of rated current. This means if you're protecting a FP with a 40 amp breaker, it may be happily pulling 54 amps indefinitely. Even at 200% overload, the trip time is between 1.5 and 3.9 seconds. And I have a feeling our nice air conditioned environments will trend us toward longer trip times. As such, it's likely much much wiser to use a 30 amp breaker on FPs instead of the usual 40 amp. With a 30 amp, your FP can only pull 45 amps for up to 3.9 seconds, which should do a much better job of keeping it safe. |
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#22
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Re: FP ok to stall?
We ran the roller last night at 30% and it performed beautifully. As soon as the ball touched the roller, it got pulled in and the motor stalled. We were able to drive forward and reverse at 20% speed keeping the ball with us. The FP thermal never tripped.
This isn't ideal but it'll work for this weekend. Later, we will be building a new gear box for it that will have "too much" torque "too much" being a theoretical threshold that is never truly reached |
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#23
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Re: FP ok to stall?
Quote:
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#24
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Re: FP ok to stall?
We went with a dual roller that grabbed the ball below the CG and gave it backspin. While it wasn't perfect, it worked very well, and we are very happy with our decision.
It is driven by a FP motor -- that never stalls, because nothing ever gets stuck! |
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#25
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Re: FP ok to stall?
On a sidenote:
Our team scrapped our roller, but before doing so, found some amazing stuff to create traction on the ball. http://www.mcmaster.com/#high-performance-tape/=65eqsn Go to non-stick surface-gripping tape. Buy some of the rayon cloth stuff. It isn't cheap, but it provided so much friction that our fp would suck the ball under our test chassis with two people sitting on it. |
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#26
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Re: FP ok to stall?
In '08 we winched our catapult down with two FPs. Of course it would stall when we were winched until we hit the fire button. In initial testing, the kids would often keep it tensioned for long periods of time (10 seconds I would guess). Eventually, they smoked a FP and upon looking at it we saw that the plastic fan blades inside the motor housing were actually melted from the heat!
Our solution was to put heat sinks on them from an RC hobby shop (designed to fit around motors that size), and also to mount fans (like the ones on the Victors) that blew continuously over those heatsinks. That kept our FP motors cool even with long stalls and we never blew one the rest of the year through probably 100 matches. Limiting the current helps a ton too. The combination should do the trick. Pick up a non-contact temp probe from Harbor Freight and check your motor temps with various cooling and current systems and you won't have to guess if you're okay or not. |
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#27
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Re: FP ok to stall?
Heatsinks like Mr. Crombe was saying work really well with FP motors. This year we're using them in our applications and 1323 even used them in their drivetrain. They're the blue heatsinks in this pic. I'll try to get a link to them, they're about 14 bucks IIRC. Edit: http://www3.towerhobbies.com/cgi-bin...&I=LXJHA7&P=FR
Last edited by Akash Rastogi : 11-03-2010 at 01:08. Reason: linkage |
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#28
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Re: FP ok to stall?
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http://www.rcplanet.com/Motor_Heatsink_s/1247.htm Unfortunately all the fan designed ones appear to use a fan a little smaller than the one in the kit so they probably can't be easily replaced, but the non-fan ones at the bottom of the page are almost half the price of the ones from Tower Hobbies |
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#29
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Re: FP ok to stall?
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In other words, adjust the PWM to the unloaded FP to produce a speed of 25% of the rated 12V no-load speed, then - while keeping the same PWM - add load to stall the motor; and it is OK ? ~ |
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#30
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Re: FP ok to stall?
As a general rule of thumb, unless the datasheet or other documentation says otherwise, most DC motors are designed for continuous operation at about 20% of rated stall torque (aka 20% rated stall current). Operation at higher torques (currents) is allowed, but only intermittently. Ambient temperature, heat sinking, and forced airflow affects the allowable length of the intermittent period.
~ |
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