Kapanadze Cousin - DALLY FREE ENERGY

[NickZ]

  Well, I'm a bit confused as well. About the Kacher's input, as Ruslan is showing running the Kacher on 24v input from batteries, or power supply. But, the schematic is showing a rectified voltage of 310v, to the kacher circuit. In any case he's getting a nice hefty spark, from what ever the source is.
  When I used non-uf series diodes (IN5408) to make a diode bridge at the output of the bigger grenade coil, they melted their solder points in less than a minute running time. I have not obtained more of the UF series diodes, yet,  to see if they will stand up the overheating issue.
  You'll notice that Ruslan is using 4 of the mosfet looking type of diodes for his bridge, and are also on a heat sink. Those are probably the ones that are overheating when 4000w is being drawn. Probably need more like 4.000 watt rectifier diodes.
  Those red (0.47uf) WIMA caps that Ruslan is using several of, cost $15 each, so, they're not cheap either.

[starcruiser]

I'm guessing the IR2153 circuit boosts voltage to somewhere between 100 and 200 volts, which is triggered across the primary. 

This is the MOSFet driver Ckt using the driver IC is what is used for SSTC designs, my current driver uses this chip as well as its complement for its H bridge. This chip is coupled to the Gates via a small ferrite cored xformer to decouple the HV from the LV side of the circuit. The Fets use a DC supply and a capacitor to drive the primary coil. My initial tests will use this along with a variac to drive the DC side via a FWB and Cap at various voltages.

[starcruiser]

  Well, I'm a bit confused as well. About the Kacher's input, as Ruslan is showing running the Kacher on 24v input from batteries, or power supply. But, the schematic is showing a rectified voltage of 310v, to the kacher circuit. In any case he's getting a nice hefty spark, from what ever the source is.
  When I used non-uf series diodes (IN5408) to make a diode bridge at the output of the bigger grenade coil, they melted their solder points in less than a minute running time. I have not obtained more of the UF series diodes, yet,  to see if they will stand up the overheating issue.
  You'll notice that Ruslan is using 4 of the mosfet looking type of diodes for his bridge, and are also on a heat sink. Those are probably the ones that are overheating when 4000w is being drawn. Probably need more like 4.000 watt rectifier diodes.
  Those red (0.47uf) WIMA caps that Ruslan is using several of, cost $15 each, so, they're not cheap either.

Those are UF diodes most likely and are only rated at 10 to 20 amps, he can increase their current handling if he places a few in parallel to each other, if more voltage handling is required then in series. I was looking at them and they have them from 600V to 1500 volt ratings but they are not cheap.

[Bat1Robin2]

 Dog one,
"Understanding why Ruslan would want to phase lock at the zero crossing"

During experimentation and tuning you will have waveform similar to the one shown below called waveform output example may 7th. The 4046 even with a zero crossing detection circuit will have trouble locking onto that signal. That was my only point in saying the sine wave is not smooth i should have said symmetrical.

A good generator seems better for experimenting. once over unity is accomplished (which will be a long time if ever) then put in your fancy automatic stuff.
The circuit is obviously wish full thinking design due to the s1 wiring being dead wrong. Anyone who builds it like i did will see my point.

The uf diodes have no over heating issues on output with the smaller FETs. (IRF3710)
The Bemf feedback resistor is main overheating issue. ( just use a 7 watt resistor and be done with any overheating issue)
The Bemf is dumped right back onto the 24 volt line. so only the resistor itself is the loss on the bemf harvest. At only 7 watts its not a big factor in the overall efficiency. So no amount of improved bemf capture would help significantly.
Anyone want to buy a slightly used one owner of a over unity device operating at 72% just need a little tweaking and your own your way to no more electric bills.
Only my opinions of my build experience anyone is allowed to there own opinion.

[NickZ]

  Starcruiser:
  The UF4007-- UF4008 are 1000v ultra fast rectifier diodes, but are limited to only 1amp.  The UF series that I'm using, the UF306 diodes, I had thought were higher than that, 3 amps, or so, but I don't think that they are more than an amp. I have to check again.  As I'm probably drawing about 10 to 15 amps, or so, on my set up.  The more I tune for higher output, the hotter the fets get. You can't touch them after only one minute running. Heat-sinks and fans helps, but not enough.  I can't imagine drawing 4000 watts.  T-1000 says that the fets don't draw that much current, if things are working right.
I hope that he's right.

  Here's another image of Ruslan's newest drivers boards (below). As it was taken by my cell phone, from his very blurry video, so, it comes out blurry. When I turned the original image clockwise, it lost even more resolution. Some one can probably get a much clearer shot, but, as the video was blurry, you still won't be able to read the component values.  I don't think, but a much clearer image is doable.
BTW: Oleg, or whatever his name is, has done a nice clean job, fitting all the boards tightly into one junction box.  Great work! 
I can further imagine all three boards, all built onto a single mother board.    Nice!   How much?    Hey, just kidding...