Here's a sample of results of a stock motor on a test voltage of 2.4V....
............but I got a question for the board about a critical aspect of the motor test...test voltage.
I can apply any voltage to the motor between 0 and 12V, however I would think that the voltage applied to the motor during a test run should be in the range of voltages experienced when running in a typical mini-z setup.
So I ask you, what voltage would be ideal in your opinion?
I am debating on 4.8V (ie. typical 4-cell rechargeables),
5.0V (just a rounded off whole integer voltage),
2.4V (midway between 0 and full scale 4.8V)
2.5V (midway between 0 and 5V)
I'm leaning towards 4.8V, so as to get a baseline peak during full-throttle, but what do you guys think?
When the nimhs come off the charger they are closer to 6 volt but the amperage is like .7 so that is a factor. When I run my motors to break them in i do it at like 3.5 volts because at 3.5 volts with 3 amps seems nearlybas fast as the 8.4 from the lipo. Could just be me though.
When the nimhs come off the charger they are closer to 6 volt but the amperage is like .7 so that is a factor. When I run my motors to break them in i do it at like 3.5 volts because at 3.5 volts with 3 amps seems nearlybas fast as the 8.4 from the lipo. Could just be me though.
Thanks for that feedback. I'm finding that at higher test voltages, the motor initially pulls so much current that the actual voltage dropped on the motor dips down. From a test standpoint, that isn't good. That effect isn't as dramatic at lower voltages. I'm looking into adding in closed-loop feedback so the controller will ramp up/down the voltage in an effort to maintain a constant voltage at the motor from start to finish. Without that, test results that state a constant test voltage are not valid.
I will eventually make the 'test voltage' variable so-as to have a comparison at different voltage levels, but I would like a good baseline to start with as I work out bugs and validate results. I still have a lot of work to do finalizing the mechanical end of it too, but I have a working model that gives me nice pulses from the photo-interrupter and that's all I need for now.
I developed the dynamometer enough to be able to present it as my senior design project to meet the requirements for graduating with a Bachelors of Science in Electrical Engineering. Below is a short video which demonstrates how it picks up the difference between the mini-z stock motor and the PN Racing complement to the same armature (70-turn).
The PN Racing motor was consistently putting out higher torque for the same current draw, which I'm assuming is due to higher flux in the magnets. The result was in increase in efficiency with the PN Racing Stock vs. Mini-Z Stock. The current draw and dampening factor for both motors registered virtually the same, which is quite promising from an instrumental point of view. With the motors having the same type of bearing and armature turns, they should be about the same in that respect. I'm guessing that this comes as no surprise to experience mini-z'ers on the boards, but from an engineering standpoint it is quite satisfying to see the actual numbers.
I did the video as part of the senior design presentation, because I didn't want to waste time switching the motors. I only got 15 minutes for a detailed explanation of the design, and 5 minutes for questions and answers. The mechanical aspect of the design is still quite lacking with regards to ease of motor installation, and as you can see in the video, it could still use some work in the visual appeal of the results, but to meet the deadline for presenting I went with the bare minimum by using MATLAB to extract the data from the data acquisition and control module and calculate and graph the results. As I get free time I will keep picking at it, making it more robust from an end-users perspective. Perhaps something with either Visual Studio or Labview...
Anyway, not to brag, but.... well ok, to brag...
The design won first place for the Electrical Engineering division, AND best overall design for the entire College of Engineering and Technology
So, I got the BSEE degree...had the commencement ceremony on Sunday, December 14th, and on Monday, December 15th I started my first day of work as an Electrical Test Engineer for Danfoss, designing test solutions for low, medium, and high power industrial motor drives. Cheers!
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