Rewinding of the original motor to collect back spikes
@ Turion: On your 3rd point you do mention about recovery from the motor to the primary. 1: You could rewind your motor with 2 wires instead of 1 wire. 2: You could pulse the positive of the primary to the positive of the motor. 3: Take the 2nd winding and put a diode for recovery. But there is a big problem: Its very difficult to recover the primary with this technique because of the motor. There is a swiching in polarity inside for the torque. It's alternating poles, north/south/north/south. You could take a charging battery and connect it with the 2nd winding. It will work great this way. Or you could simply pulse the positive of the motor without changing anything in the motor. Then, make a magneto all NORTH POLES OUT with 1 thick wire and big cores. Put all the current coils in series. Make ajustements for the LC circuit to be resonnant (currents coils= inductance=L/variable capacitor in parallel with the coils= capacitance=C). Finally, pulse the magneto (+ of the cap to the primary) OUT OF PHASE with the motor pulses. I think the magic number is 23 degree after the top dead center of the cores.
@ Turion: On your 3rd point you do mention about recovery from the motor to the primary. 1: You could rewind your motor with 2 wires instead of 1 wire. 2: You could pulse the positive of the primary to the positive of the motor. 3: Take the 2nd winding and put a diode for recovery. But there is a big problem: Its very difficult to recover the primary with this technique because of the motor. There is a swiching in polarity inside for the torque. It's alternating poles, north/south/north/south. You could take a charging battery and connect it with the 2nd winding. It will work great this way. Or you could simply pulse the positive of the motor without changing anything in the motor. Then, make a magneto all NORTH POLES OUT with 1 thick wire and big cores. Put all the current coils in series. Make ajustements for the LC circuit to be resonnant (currents coils= inductance=L/variable capacitor in parallel with the coils= capacitance=C). Finally, pulse the magneto (+ of the cap to the primary) OUT OF PHASE with the motor pulses. I think the magic number is 23 degree after the top dead center of the cores.
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