Jay,
I will be there & looking foward to meeting up with you. Flying out the 17th & crashing on Etards work shop floor.
I been rewinding the motors & running from 12cells thru 20cells. Max amps & continuous amps are all relitive to the voltages. there is no magic set up.
After fighting with dual sensored controllers for the toucon race, I opted for the tried & true CC Hv160's. In the heat of battle, I whiskey throttled coming off the line & let the controllers go into 200amp range for too long.(& ended my night a bit early) That set up would deliver huge amps for seconds at a time....If i beleive the data logger form Castle, I could pull 19680 watts out of the batteries at max load.(200+ amps on the data logger)Once at top speed & unloaded, the twin motors were consuming 3784 watts (51mph & right on where the gearing was calculated)
I was running a 12s7p 35ah battery in touscon. Motor temps after a friday 10 lap session in touscon was a dangerous 200f (neo magnets fail at 180f but they are cooled when spinning & i was not feeling any power loss due to heat)
Since the enemy is heat. & heat is a function of amperage x voltage & motor resistance & loading. Your mileage will vary. All my testing is holding to that 4-5kw power inputs as the border line of survivability. volts are irrelivent.
Once I got a sensored controller working well, I found amp limiting to around 55 on 18cells was a good compromise between motor smoking heat generation & decent acceleration on a bike geared for 45mph top speed. The math works that right at 4158 watts
My 12fet controllers get fussy when I push them into the 5kw range so I need time to test with the 18fet unit a little more...but I really think the motors are going to be the fail point driving them above 5kw for very long.
a 24fet should be plenty of power to find the breaking point.
Right now those are my staring points for reliability & spirited performance on a single motor build...
Double your motors, double your fun. (triple your build complexity!
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