@min2oly 160mA @ 12V is the average draw, the incandescent lamp was rated for 5v, 115mA ... The drive circuit thrives on high RPM, which friction/imbalance/vibration prevented. The more inductive discharges per second, the more capacitive discharges(joules) delivered per second. The capacitive discharge of the previous cycle is superimposed over the Source currents at the leading edge of the next cycle(they share the same switch, made possible by throwing the recovery across a Neutral plane.)
is that an incandescent bulb you are lighting using only 16mA?
Awesome!
Also, is that the Bedini Cole bipolar ckt or one of your own design?
Thanks,
Patrick
min2oly 10 months ago
@min2oly 160mA @ 12V is the average draw, the incandescent lamp was rated for 5v, 115mA ... The drive circuit thrives on high RPM, which friction/imbalance/vibration prevented. The more inductive discharges per second, the more capacitive discharges(joules) delivered per second. The capacitive discharge of the previous cycle is superimposed over the Source currents at the leading edge of the next cycle(they share the same switch, made possible by throwing the recovery across a Neutral plane.)
Shanjaq 10 months ago