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Limitless Potentiometers
Hi,
I've been experimenting with limitless potentiometers....and have found them to be a little unreliable. Has anyone else used infinite rotation potentiometers?? If so, what kind and were they reliable? We are just trying to find another sensor other than a 10 rotation potentiometer for rotation measurement. This is because we had something like 8 potentiometers break on us last year, mainly because they get locked inside due to load on the shaft . We were also thinking of encoders but are afraid of using too many interrupts and messing with the interrupts already used by sensors like the camera and gyros. Any advise? Thanks |
Re: Limitless Potentiometers
maybe try finding one of those 20 circular switches and then use some converters to so it doesnt take 20 I/O pins
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Re: Limitless Potentiometers
There are magnetic field sensors that can replace pots and encoders. Check out this device.
http://www.gmw.com/magnetic_sensors/ametes/360ASMC.html With a simple A to D you can Know the exact position of a shaft. There is no dead band as with some continous rotation pots. |
Re: Limitless Potentiometers
Breaking Pots? A few years back we came up with a solution in 2005, we engineered a POT Holder and custom spring idea. Basically what happens is if you over turn the pot instead of the pot breaking if it is directly connected to the shaft and special spring will slip instead to protect the pot(the spring is connected to the pot shaft and the other end to the actual shaft). The spring is wound on a wooden cork and allows no slippage during regular use, so you don't lose any precision in your pot readings, it only activated AKA slips when the pot reaches its limit. I have posted a link below to a picture of what it looks like. In the picture look for the white color HDPE holder with a pot at the bottom of it. You can kind of see the wooden piece to the spring, but if you want more details just ask and i will try to get more pictures for you.
http://http://aceshigh176.org/drupal/index.php/v/2007/Scrimmage/100_0143_001.JPG.html?q=gallery |
Re: Limitless Potentiometers
Just this past year team 1024 used a pair of MA2 Absolute Rotary Encoders from US Digital on our drivetrain.
Seriously, I know everyone hears analog and thinks totally noise immune. Really, with a tiny bit of smart EMF design it wasnt a problem. However, I know personally I'd rather use a digital optical shaft encoder, but unfortunately our robot this past year was really fast and to get any kind of resolution out of the encoders the frequencies got rediculous at the top end, so much so it was impossible to track without losing counts. So, hence the move the the MA2. The driver took just one evening to write, and works like a charm. Instead of having an interrupt in the multiples of KHz, we only had to sample the encoder at 100Hz. Best of all, you get the ability to handle a high top-end RPM without sacrificing low-end RPM positioning accuracy (our robot last year could position +/-0.05 inches at the frame). Again, as long as you can do a decent EMF design to keep the analog signals from the encoders safe, they work like a charm. Definitely worth your time to at least research. Questions? Post. -q |
Re: Limitless Potentiometers
Have you considered how you mount your pots? It seems that if you are having mechanical problems with the pot due to load on the shaft, you need to think about how to mount it to have less load. For example, if you are using it to calibrate an arm, it is tempting to tie it directly to the axis of rotation. However, you could put a gear on the pot arm and a gear on the arm axis and use a chain (belt?) to turn the pot.
It is a bit more complex mechanically, but you decouple the sensor from the load bearing mechanicals, and you can adjust the amount of play you need from your pot by adjusting the gearing between the pot and the motion you want to measure. I think we did that last year with our robot. We had a multi-turn pot to measure the movement of the tube lifting rack. It was mounted parallel to the top of the rack with a gear that transferred the motion of the rack to the pot. I think we lost a pot due to a collision, but never due to rack loading. |
Re: Limitless Potentiometers
A few years back I experimented with continuous turn (No Mechanical Stop) Potentiometers. For my application however, the rollover from 0-1023 was too fast for the code to work with to recognize and adjust accurately for the rollover.
These are the ones I used. I found them to be reliable, and consistent. At that I time I had obtained them from Newark-In-One. I can't say if they still stock them or not. Here's a link to the data sheet. http://www.vishay.com/product?docid=...odel%20357 |
Re: Limitless Potentiometers
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Re: Limitless Potentiometers
We have been playing with a Vishay/Spectrol position sensor P/N 601-1045-000 (Part No 594-601-1045 from Mouser). It outputs a smooth 0 to 5 volts in 360 degrees and is very sturdy mechanically. Only downsides are the abrupt jump from 5 volts to 0 volts at the 360/0 degree position, and the cost (about $60).
Don |
Re: Limitless Potentiometers
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Thanks. |
Re: Limitless Potentiometers
I found the best method is simply to use a POT that has more turns than is required. For both joints of our arm this year, the arm would hit the frame or the ground before the shaft would break. Now, we obviously has limits so this wouldn't happen, but we never had to worry about a POT breaking.
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Re: Limitless Potentiometers
Encoders don't need to be hooked directly to the RC. A little custom circuit using a PIC microcontroller (or other device... consider a VEX RC) can decode several encoder signals.
This means that while you might still use interrupts on the RC to count the rotations, they need not be as frequent as with a direct connection, nor do you need to worry about tracking the timing to determine direction using the RC. Heck, you could even have the custom circuit send a serial data pack of shaft position and velocity to the RC upon request if you really wanted to get creative. We had a circuit set up like this for the gear tooth encoders a couple years back in the event we needed to use it, and used a similar... although simpler board from banebots with the encoders for the 56mm gearboxes this past year. Using the banebots boards we had no... well... almost no... problems reading inputs from four encoders. For joints with less than about 270 or 300 degrees rotation, pots work great. (And sliding pots work great, too for linear applications of a few inches or so.... although now that I think of it... why couldn't a long length of nichrome serve as a very long linear pot...?) But in any case for continuous rotation, making an encoder work will be more than worth your time. Jason |
Re: Limitless Potentiometers
Sorry for the hijack, but...
Have you ever looked into using WPILib? I know you said you wanted to stay away from encoders, but WPILib makes all the interrupts you mentioned painfully easy and very hard to screw up. Our team has been using pots for the last few years, but after beginning to use WPILib, we switched to encoders with relatively few problems. |
Re: Limitless Potentiometers
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We used continuous turn pots for our drive last year very successfully. We followed the directions in this white paper: http://www.chiefdelphi.com/media/papers/1743 |
Re: Limitless Potentiometers
There are a couple of different ways to approach rotation sensing, and one you might not have thought about is a light sensor combined with a state machine. A couple of pictures of this are in the 2006 FIRST design book.
Take a light sensor that's not mounted on the rotation and have it reflect off a plate that is mounted on the rotation (or vice versa). Where you want the rotation to stop, mark it with a black sharpie. It's literally that simple, but at the same time it's not as robust as other sensing methods. Another way to do this, if you're trying to measure drive train ticks, is to put a mark parallel to the axle shaft on a shiny part of one of your rotational pieces. This will give you only one interrupt per rotation. If you want it to be more accurate, put 2 marks to give you 2 interrupts per rotation. The other thing you could do is ask for pictures of how others mounted their potentiometers. We only had 1 pot on our bot in 2007, but it never broke. It was mounted to the inside of 1/4 the length of a hinge, so the hinge bolt itself took most of the load. |
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