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Testing Motors, Jags, Batteries
My team has some CIMS, Jags, and batteries from previous years that we had left over and we are wondering how to test them to see if they are working at 100%. Any suggestions on a quick benchmark test?
Any help is appreciated, Thanks! |
Re: Testing Motors, Jags, Batteries
There are battery testers available comercially to test the old robot batteries.
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Do you have any motors, Jags, or batteries that are new, or that you trust enough to use for comparison? If so, you might get some idea of how good the unknown ones perform by doing a simple side by side comparison. Set up your old robot with only one CIM motor and one Jaguar on each side. The known good ones on one side, and the ones you want to test on the other. Then drive the robot straight forward and backwards several times. If the robot tracks reasonably straight each time, the Jags and CIMs are probably working correctly at least to a first level approximation. If the robot will not track straight you will need to find out the real cause. It could be just mechanical binding or poor alignment. Look for excess friction and also try switching sides with the motors and controllers. Also swap the motors between the controllers so that you discover if the behavior is due to the Jag or the CIM. Doing enough side by side comparisons should eventually give you some amount of confidence that there is nothing seriously wrong with these components, or help to pinpoint the damaged ones. Testing the battery without a real battery tester is not complicated, it just takes a while. Completely charge the batteries you want to test. Then select a load to use to drain the battery. Something like a car headlight might work. Connect a volt meter across the battery and add the load. Have a student monitor the voltage once every five minutes. You might want to take readings more often if you have a higher current load. When the voltage starts to dip below some voltage (say 10 volts) stop and plot the results. It might take quite a while to drain the battery with a low current load, but it should produce good results. The area under the curve should be approximately proportional to battery capacity. This is not really true, because you were measuring voltage and not current, but it is close enough to get a comparison between batteries if you use the same load for each test. If you collect this information for a new battery, you will have something to compare against in the future. Not the fastest or most accurate way to test a battery, but it does not require a dedicated tester. |
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Here is something that may give you a better idea of what Ether was asking: Do you have a voltmeter? Oscilloscope? Extra wire? Spare sensors? The only thing you've told us that you have is motors, Jaguars, and batteries. |
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Well, we're an average FRC team, and we have a battery tester. |
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Here is a better test setup that any FRC team can do with items from the KoP: Hook up a motor to a Jaguar, and into a gear box. On the other side, hook up the output shaft on something that will produce a moderate load on the motor (for example, have it lift a bucket of sand, or a concrete block) and a rotary encoder from the KoP. Control it all through the cRio. You need a moderate load on there to ensure the motor is actually working - without a load, it's a lot easier for the motor to actually do its job, and a lot harder to tell if something isn't right. Your program should be pretty simple - spin the motor for x seconds, and record the revolutions from the encoder. Repeat a few times so you can have some consistent readings. Swap in a different motor, and do it all over again. You'll have to record the voltage during the test and recharge the battery often - you'll see as it wears down that the characteristics of your output change, even if the motor/Jaguar stays the same. If done right, this type of test can help provide your team with valuable insight into how all of these components work, and how they may deteriorate with time. |
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Ether, I'm unsure, but if Mike Copioli is online/when he gets online, he'll surely chime in! -RC |
Re: Testing Motors, Jags, Batteries
Avan,
Consider using your cRio, a couple spikes, and perhaps some 100 watt lightbulbs to create your own battery tester. If you draw down the power quickly enough, the power consumption of the cRio and spikes will be fairly inconsequential. That would be a very neat project to consider. Perhaps you could do it and release the source code etc. Remember, the voltage is already recorded and sent to the driver station, so the capability to measure voltage and map it is already there! |
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