Kapanadze Cousin - DALLY FREE ENERGY

[NickZ]

  The transistors getting hot, or not, is a strange thing sometimes. Because I've had the transistor working fine, and stone cold, lighting bulbs, then at other times, so hot you could not touch them. I still have not figured this out. But, I have seen that they can be working well, and still not over heat, at times.
  When the yoke or ferrite yoke cores make a lot of transformer noise, that is when the transistors are drawing a lot of current, and also getting hotter. Each transistor or mosfet works different, so it's good to test different ones, even of the same kind. Right now the transistor that I'm using will not light a 50 watt incandescent bulb, through my Ringer circuit, like the TIP 3055 transistor can, but it will light a 40 watt bulb, ok. I've burnt out many many transistors...
Finding the right transistor is very important. Sometimes only trial and error will work to find the best one that is most compatible, same thing with finding the right capacitors for finding the resonance.
It takes a lot of patience, and most people will never take the needed time.

[T-1000]

  When the yoke or ferrite yoke cores make a lot of transformer noise, that is when the transistors are drawing a lot of current, and also getting hotter.

Hi,

I spent some time on reverse engineering of akula0083 video (even if he probably won't enjoy this) and came out to test circuit for you to check. Even it seems is incomplete (may be missing connections) but still worth to try out and tune.
Video: http://www.youtube.com/watch?feature=player_embedded&v=_e3RpsEZE14

Hopefully I am not missleading people..

[NickZ]

  T-1000:
   Thank you for taking the time to study and make the diagram. I know how difficult and time consuming this must be.
    Your diagram is showing the rectified 220v DC voltage after the inverter is going direct to the center tap of the yoke, and then to the two Mos-Fets . This is not how the video is showing it. Nor is the white coil wire on the yoke going to the air coil as is shown in the diagram. As the input is coming from the rectifier to the right side of the yoke white wire coil, and the other (opposite end) of that white coil wire is connected to a yellow wire that is going to the driver circuit, not to the big air coil as shown in the diagram. Or not? As the big air core coil (white wire) is only connected to the ground at the bottom end, and to the bulbs, at the upper end, then possibly back to ground, but not sure if this circuit is closed, or not.
  There are several other connections that I don't know or am uncertain about. But, lets start with the above observations. let me know what you think.
Main thing is, will the two Fets handle 220 volts DC direct from the inverter/rectifier, or not?

[T-1000]

  T-1000:
   Thank you for taking the time to study and make the diagram. I know how difficult and time consuming this must be.
    Your diagram is showing the rectified 220v DC voltage after the inverter is going direct to the center tap of the yoke, and then to the two Mos-Fets . This is not how the video is showing it. Nor is the white coil wire on the yoke going to the air coil as is shown in the diagram. As the input is coming from the rectifier to the right side of the yoke white wire coil, and the other (opposite end) of that white coil wire is connected to a yellow wire that is going to the driver circuit, not to the big air coil as shown in the diagram. Or not?

The +220 is coming to generator board and akula said "from inverter it is coming to transistors" so I can assume the generator board itself has connection between center tap and rectified DC. Also the separate DC 12 volts are coming to generator board and I calculcated 3 wires going into it (I might missed 4th).
The tuning steps would be as following: first give +220DC from inverter to center tap for flip-flop then tune TR1 to frequency what makes resonance on series for L3C1L5 so you will have lots of amps on capacitor then try to modulate another coil in TR1 with choke L8(akula said it is output choke inside of magnetic field) closing TR2 transformer L7 circuit over 25T coil in TR1 which goes to AC 220 from inverter (another end is over "-" in diodes) - that will  give you another 50Hz modulation where induction on transformers are directly from same magnetic fields inside of transformers. The coils polarities need to be checked in connections.
The results will be seen after on what is happening if you give a try...

Also FETs can handle it but you will need fast high power and high voltage ones. The resonant frequency for induction cooker effect range might be 20-50 kHz.

[NickZ]

  Ok, first of all, I don't have 220 volt from the grid, or any other source. Only 110 volts. 
   My question remains, will the two transistors or mosfet handle 220v (or even 110V) direct current, or not?  I don't want to burn them.
  Look at how the center tap is connected to the Driver Board, and NOT to the rectifier. This was a picture from a previous Akula video, but still shows the connection that I'm concerned about. If I connect the input direct I think that I would instantly burn out the transistors.  The driver board has a voltage drop down capacitor (brown cap on second picture) that reduces the input that is coming from the rectifier to the driver board.