New idea

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Lets say I wanna mix both "anti-voltage" and voltage somehow , this is tricky to do if you think about it , you cant really add chokes in the circuit , cant have any switching mechanism installed @ such high voltages .

So what If I just wanted to send quick DC signal to the cell and not energize the green choke wich cancels out my red choke , I gotta zap that cell without going throught the positive red choke in the VIC .

So that first zap from my outside red choke is going throught my green choke , green choke induces current in red choke and current/voltage gets blocked by blocking diode . Did I just mix both without too much negative effects but a hot diode ?

Lets make a nice big choke with an I core , some solid as hell diodes good quality shit . Both "channels" can have their own frequency or w/e ...

It seems like it would reverse the fields a bit also , wich is good .

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You're going to blow something up..

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Everything in the green and blue is a transformer.  Everthing in the red is a choke. 

When you apply your pulse to the transformer - all parts of that system will act as a transfomer - the magnetic field lines of flux will produce a voltage potential in the blue and green colored areas.

The red, choke in the lower right corner, is what is used to reduce the current flow. 

My 2 cents.

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Everything in the green and blue is a transformer.  Everthing in the red is a choke. 

When you apply your pulse to the transformer - all parts of that system will act as a transfomer - the magnetic field lines of flux will produce a voltage potential in the blue and green colored areas.

The red, choke in the lower right corner, is what is used to reduce the current flow. 

My 2 cents.

Lets just call the lower right red choke the "yellow" choke .

Well ok , lets say new yellow choke  induced a current into our blue secondary , this gets blocked and is grounded , the red choke is blocked also . The primary might get a little kick back from this but I'll just put a diode , it will be stepped down and very minor since the coupling will be very weak .

This wont break anything @ all .  I just wanna introduce a gradient across the cell . When conected this way , the VIC without the yellow choke never has a gradient since the chokes are mirrors of eachother and in-phase , meaning their voltage collides and cancels out . So lets say I wanted to  apply a gradient without inducing current into the green choke , somehow ...

But I wonder if on off pulse a gradient is created with the lone VIC connected Meyers bifilar style , will have to check this .

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You're going to blow something up..

lol

i like the abstract thought dankie.. can you give me your insight of gradient? im not sure if i quiet understand.

i had an idea that keeps coming back up in my thoughts  current flow lags by 90 degrees .. there is only one spot where there is technicaly current and thats the primary.. so the secondary is lagging to keep up with primary........... lag-to fail to maintain a desired pace or to keep up...    the way stan says to wind the primary i could interpret it as a longitudinal wrap  is perpendicular to secondary and the stainless chokes... it could also be considered bidirectional since it travels back and forth if wound like that..   to wind it in that manner would be tuff? but i think its straight runs instead of winds will allow a better signal propagation to the core? then also realize that it will in all only make one loop around the core.. so its like your getting your wire inductance in one wind.. so it would make since that it would create such high voltage like that... maybe he used somthing like a flexable thin sheet of insulator.. cut it to the circumference and width of primary bobbin  to where you can cuff the bobbin with it....then take a the primary wire and wind it on  the sheet.. drill a little hole at begining and end corners.. it would be a flat 2-d wound sheet  then cuffed around where primary wind goes... what you think fellas.. sound like you can get some electrical torque that way? i can kinda see it maybe as a leverage aspect? idk let me know what yall think  and let me hear how you see gradient..