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I think i finally may have a handle on all of this...Please let me know if i am wrong on any of it...
Motor KV Rating 1800KV
Example 1 : 14.8v = 4S , 14.8 x 1800 = 26,640 = prop speed ( RPM )
Example 2 : 18.5v = 5S , 18.5 x 1800 = 33,300 = prop speed ( RPM )
Battery Formula
4S2P 5000 mah 40c = 14.8v 10,000 mah 40C, so 10.0 ah x 40C = 400 amps
400. x .80 = 320 so in theory my CC240LV ESC is good to go,correct ?
5S2P 5000 mah 40C = 18.5V 10,000 mah 40C, so 10.0 ah X 40C = 400 amps( still )
400. x .80 = 320
So if i have all of this correct
KV rating and Battery voltage = approx. prop speed ( RPM vs motor RPM capacity )
Mah = approx run time
C Rating = discharge rate
Now what is still confusing me is the 320 amp draw on a 240 esc, i am sure someone has the math for that to help my country a$$ get my head around it..
Thanks for being patient with a noob.
Giz.
Motor KV Rating 1800KV
Example 1 : 14.8v = 4S , 14.8 x 1800 = 26,640 = prop speed ( RPM )
Example 2 : 18.5v = 5S , 18.5 x 1800 = 33,300 = prop speed ( RPM )
Battery Formula
4S2P 5000 mah 40c = 14.8v 10,000 mah 40C, so 10.0 ah x 40C = 400 amps
400. x .80 = 320 so in theory my CC240LV ESC is good to go,correct ?
5S2P 5000 mah 40C = 18.5V 10,000 mah 40C, so 10.0 ah X 40C = 400 amps( still )
400. x .80 = 320
So if i have all of this correct
KV rating and Battery voltage = approx. prop speed ( RPM vs motor RPM capacity )
Mah = approx run time
C Rating = discharge rate
Now what is still confusing me is the 320 amp draw on a 240 esc, i am sure someone has the math for that to help my country a$$ get my head around it..
Thanks for being patient with a noob.
Giz.
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