Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[Magluvin]

What surprises me is that the charge in the cap. is a function of the speed of the 'make' and 'break' of points 'A' and 'B'. The faster the greater charge. I just tested the circuit again. Switching by hand I was getting 200 volts. A few times I just grazed the the points ever so slightly and rapidly and was hitting 290 volts. So the faster you switch with very little contact the higher the voltage to the cap. Also is there a way to judge how high you can get the voltage?

Respectfully,

Core

Well judging the voltage, or lets say regulating what you want at regular inervals will require specific timing of the switch on/off and the cap, the smaller the more voltage you will get, and the inductor, yours is high, so the freq(switching) you want to use it at can be low, but as it gets higher, beyond its 3db cutoff freq, the output will go down.
How is your coil made? Wire, turns, Core? ;]

Mags

[Herger]

  Been working on perfecting a 'discharge' circuit for my coil. This circuit I believe is more like a Disruptive charging then Disruptive discharge. I am utilizing an inductor to increase the charge on a capacitor. What has me surprised a bit is how much additional charge over input voltage can be added to the capacitor. In the below wiring diagram points 'A' and 'B' are my rapid break points. Depending how fast you break the points negotiates the amount of charge sent to the cap. The faster, the greater the charge.

  At power up the capacitor is charged to 150 volts, depending how fast I short points A and B I can raise the charge to 220 volts. One question I have is 'Why does the sudden disruption across the cap. raise the voltage so much higher?' I'm guessing it has to do with the rapid creation then collapsing of the magnetic field in the inductor. Another question is 'Why does the speed of disruption between points 'A' and 'B' vary the voltage widely'?

  As far as controlling the circuit can anyone recommend a Transistor or Mosfet that can handle the power switching. I also build a mechanical break with a DC motor. Unfortunately the points I used where not 'beefy' enough and disintegrated within thirty seconds or so. Any advice on how to make and break the points electronically would be appreciated. I know some transistors have some 'bleed through'. To get maximum voltage rise there can not be any bleed through it must be solid 'on' and 'off' very disruptive.

  In the mean time I an designing a new mechanical fast switching break. Any idea's?

Respectfully,

Core

Try a small HV supply.  Like the flyback type that put out a few KV at a few mA's.   TK's green box gap looks like the current is pretty low.

Several Tesla Builder sites have plans for rotary gaps, or use some sort of HV switch.

[Herger]

Maybe when you have one of those "ah ha moments", you should start your own thread called "Look everybody - I wrapped some speaker wire on a sewer pipe".

This thread is about Kapanadzi, not your first coil made using the wrong wire, a form that is too thick and some idea that has nothing to do with Kapanadzi.

LOL!  This idiot can't even spell Kapanadze with it posted all over the page!  Yet, he has the nerve to talk smack!

[Herger]

   What does this mean exactly? What is this myth of "Cold" electricity again?

I was just commenting on an interesting post.  Whether or not cold current exists and what it is, is anyone's guess.

[Magluvin]

I would like to try a rotary gap.  From what I have tried so far, the spark gets the job done best beyond actual contact switching.   I suppose the key would be to get the discharge cap to a specific voltage very fast, as in faster than the rotor makes n breaks.
probably best to have the cap at full or desired voltage before the switch connects, as in, we dont want the voltage to be climbing in the cap and then switch, because the faster the switching, the lower the charge will be. Just something to consider.

Same as with a spark gap, the shorter the gap, then the cap must have only charged to the lower breakover voltage, and the timing will be shorter, the shorter the gap.

Mags