it looks like that somebody got back the holy fire
thats the way i feel Steve, its being a while since this fire was sleeping inside me =D
I have study more and more bro and i found the following situation... there is two ways of getting the pulse powerful
T1
L1= 30t 12awg or 4 18awg in parallel
L2=90t 18awg
L3= 90t (coil after the diode in series connecting to anode) 18awg
T2
Choke parallel = 90t (not on same core single coil) (connected between after the diode before the L3 and to the other side of the secondary coil and cell cathode) 18awg
in this system the amps of the discharge is the same as charging...
a second circuit involves a second transformation or voltage doubling that extends the voltage and turns out clear how to proceed with the matching of the impedance to get the most energy into the cell
T1
L1=30t 12awg or 4 x 18awg in parallel
L2=90t 18awg
L3=180t 22awg (coil after the diode in series connecting to anode)
T2
Choke 1 parallel = 90t (connected in parallel with the secondary after the diode and before the L3) 18awg
Choke 2 Series=90t (connected between the choke parallel connection with secondary and cathode) 22awg
like if it was not clear the choke 1 one charges up with current while the other forces the applied voltage to cell up during pulse on and during pulse off they sum for discharge in series with the cell therefor there is a voltage doubling and the amps become half of it was thats why the L2 is now 180 turns! because choke 1 +2 form 180 too
all the dots are summing always (one direction only)
a L4 can be added with maybe higher turns to get the ionization voltage (connected thru a diode having the arrow in the direction of the cell but with the dot pointing to ground) a capacitor can be added in parallel with this diode to limit dv/dt rise
what do you think about this circuit man?
did you agree on this way of using the coils?
for getting a higher voltage out it will be required for us to develop the multiple open switch with si tyristors just like the nanopulse patent...