Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[xenomorphlabs]

The WVT wire that is thicker is the ignition module sensor wire (prewired from the factory)
and it is NOT coaxial and is not part of the coil.The wire in your pic IS the sensor wire. The standard 75 ohm coax is wound on the coil and appears to be caduceus wound and is thinner.

Good point, the HV module's cable is indeed thinner than the coax.
So obviously the coax isolation is sufficient.

[dllabarre]

Isn't that the kid that claimed that a single magic resistor across the output transformer primary  miraculously changes a high frequency signal to a stable 50 Hz clean sine powering laptops and 10 kW household ? 
Still no video of that wonder machine obviously after all this time and then dares to come over here and play the overbearing "People don't get it"-guru hoping that someone here will buy into magic resistors with all the confusing schematics getting completely changed around from day to day
Just what this thread needs

Yes - same person.

Don't need that here.

[wattsup]

Good point, the HV module's cable is indeed thinner than the coax.
So obviously the coax isolation is sufficient.

Yes but again, in the WVT video sending HV into the shielded side of that cable wire is really weird because the shielding wire is not insulated wire. Seems to me it will be creating all sorts of internal sparks or could that be an intended effect, instead of producing one big spark you produce millions of micro-sparks. But that wire should have been melting with all that internal sparking. Just don't know. Maybe someone can try sending HV into the shield of a cable wire to see what can happen.

wattsup

[dllabarre]

T-1000

Regarding the Flyback transformer in the image attached.

There is a coil and capacitor on the right side that is connected to the HV coil and also connected down to the circuit near the Bulb.  What is the purpose of this coil/capacitor?  Why is the capacitor center tapped to the coil?

What is the specifications of this coil/capacitor?
How many windings?
Size of cap?
What frequency?

Also what voltage & frequency is the input square wave to the FlyBack?

Sorry for so many questions but I really want to understand this circuit as I replicate it.

Thank you
DonL

[T-1000]

T-1000

Regarding the Flyback transformer in the image attached.

There is a coil and capacitor on the right side that is connected to the HV coil and also connected down to the circuit near the Bulb.  What is the purpose of this coil/capacitor?  Why is the capacitor center tapped to the coil?

Also what voltage & frequency is the input square wave to the FlyBack?

Flyback transformer is pumped with sine wave (1 step up, 9 steps down, see drawing in picture) in resonance (to tune resonant frequency put two winds of insulated wire on ferrite core the attach oscilloscope). You can feed in sawtooth wave for better performance (like in TV set) but you must get HV sine wave out in resonance. The "hot" flyback coil end goes to AV diode plug, the "cold" end goes to the centre between 2 secondary coils. This makes coils to act as inductive capacitor between primary and secondaries (the capacitance between coils is few picofarads when checked straight on multimeter). This type of circuit allows to isolate secondary coil load from flyback transformer so flyback is not affected by load.
The capacitor in flyback transformer makes LC circuit  with resonant frequency on ferrite core what is connected between "cold" HV wire and secondary TT coil.
The AV plug can work even with one wire but the flyback transformer performance is lower then.

What is the specifications of this coil/capacitor?
How many windings?
Size of cap?
What frequency?


Sorry for so many questions but I really want to understand this circuit as I replicate it.

Thank you
DonL

The primary coil - http://www.youtube.com/watch?v=PmJg1Kmbgk4
The tube diameter is 6 cm, length 30 cm
5x1 meter of 2mm diameter wire (50+50cm in caduceus winding)
The 2 secondary coils: 5 meters 2 mm diameter wire each
(the mass of each secondary coil match mass of primary for electrostatic resonance). The left hand + right hand winding.
The variable cap is 25kV up to 500pF capacitor for tuning.
Can't say frequency there due to high voltages for oscilloscope. See video for it and oscilloscope probe shorted and inside of TT where light bulb is shown lighted up.

Good luck!