Quote:
Originally Posted by ta_man
Limiting throttle doesn't have as much effect on peak RPMs, especially unloaded RPMs, as you might expect.
Quite some time ago I did some tests where I gradually turned down my throttle endpoint and measured the top speed of the car at each step. At 70% throttle, I was still at 90+% of top speed.
I was doing this to test the effect of "throttle driving" (a racer term few bashers would understand or comprehend) in a spec class with limited battery. Knowing how to do this got me many wins because I always had battery left over at the end of the race when others were on the verge of dumping because they were pulling full throttle down the straights all the time.
This was a long time ago, but the principle still applies.
Remember, if you turn your EPA down 10%, the ESC is applying full power 90% of the time and you are coasting the other 10% (admittedly in very small increments). But that 100% power, even if only for 90% of the time, is going to get you pretty close to the top speed at 100% EPA.
|
Boiling that down means - you will have similar top speed and slightly less grunt on take off due to drawing less amps.
I beleive the fet's would suffer if you had it overgeared and used the epa to 'tune' the car but what has been suggested sounds reasonable to me. The fet's are most efficient at full throttle but if the lesser epa reduces amp draw (which is likely to be high on take off with this motor) then I don't see why it wouldn't benefit?? I guess you could use the punch control feature to the same affect?
Shonen do you give it full throttle in the air? If it's just a speed run then wouldn't drag play some part in keeping rev's down?
8s * 1600kv = 47360 revs
fully charged 8s * 1600kv = 53760 revs (but not likely for various losses)