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Someone might want to go down the road of "supply batteries" while stuff is being gathered:
I had originally thought that perhaps users might send me packs in the off season. I've bought a number of used lipos, but you never know what you're going to get so any comparisons are skewed. The shipping twice also runs the cost up to high. A fair way might be to have the vendor/assembler send you a pack and if cycles or other tricks/tips make the performace better then so be it. Have them send the pack at whichever point they think is best knowing you may do a half dozen tests or so. This gets rid of any discrepency for cycle life and cycle currents. I've found that a brand new pack always performs best and continues to degrade at every cycle. If they believe that 20 cycles is the best point then so be it, they send you one with 18 cycles on it. Just trying to think ahead. |
Well, despite all the less-than-ideal factors in my design, I went ahead and got 220 50w 3ohm resistors. Retail price would have been almost $400 + shipping, and I got them for ~$80 shipped. More than I wanted to spend really, but I could always use extras for various power projects.
Once they come in, I'll size up some cheap PC surplus heatsinks from BGMicro or AllElectronics to cool them. To test 2s up to 150A, I'll be using 60 resistors in parallel :oh:. Which is nice because I'll make banks of 5-6 on each CPU heatsink and just add them in the circuit depending on the max current I want to test at (and use the ESC to go from 0A up to the max value). I'll probably use some 8-10GA car audio wire for the cabling. So, the process moves on... slowly but surely. |
Great to hear an update! Keep us informed and remember what a thread is useless without... :whip:
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OK, I'll bite; what are the pitchers for?
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lol, ok, I get it. "Pitchers" = "Pichers" = "Pictures". It was late last night. That's my excuse anyway. :oops:
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or maybe you had one too many pictures of beer last night?
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lol, I rarely drink, so that's not it.
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Cool Brian, I'm looking forward to seeing how it turns out. :)
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A few resistors anyone? The CRT.5 in the background is for size reference. And don't mind the duct-taped body - I never said I was a good driver. :oops:
http://scriptasylum.com/forumpics/resistors_3r0.jpg So, stage 1 complete (getting the resistors). Now for the expensive stuff (Eagletree, MMM ESC, etc)... |
Keep us updated! That's awesome!
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Funny how minds work alike. Here is Castle's version:
http://i37.photobucket.com/albums/e9...t/IMG_0289.jpg We are using the new datalogging ESC (Phoenix-ICE 200) to store data from the battery discharge. 9 x 400 watt resistors, 18 x 33,000 uF capacitors and 6 x common mode chokes to keep the battery load as DC-like as possible. |
Very nice PD :)
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Quote:
Looks like I'm gonna have to get some caps as well. I assume by the size of yours and the value of yours that they aren't low-ESR? I suppose it's not needed with that amount of capacitance. Maybe a 0.5-1F car-audio cap would work (and probably cheaper). I imagine the hook-up spark is VERY substantial though - or are you using a no-spark resisitor? My design didn't include chokes - maybe I should look into that as well. I could probably pick up a large toroid (or unwind a spare large transformer I have laying around) and wind one myself. What is the total inductance value of your setup? What are you using for the throttle control signal; an actual radio, a seperate circuit (like I planned), or using some computer driven control signal? I would LOVE to have a computer-driven control signal so that I can program test runs and have it be consistent for all battery tests. So, if your setup uses a computer-driven setup, PLEASE let me know! :yes: Thanks for your input Patrick. At least I know I'm on the right track; if it's good enough for CC, then it's good enough for me! :smile: |
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