Kapanadze Cousin - DALLY FREE ENERGY

[NickZ]

Nick,

In my knowledge i only can find the 0.47uF / 2000V rated WIMA's..
Other capacitance values are not ordinairy available on the market in WIMA..

This brings me to the second maybe important observation,.. Ruslan or Akula do use these 0,47uF / 2000V WIMA type...this would suggest that there is a fixed (almost) inductor frequenty..... if they do use the length and/ winding order of the inductor.

So or the inductor freq. is not critical...  or other coils are adjusted on the fact that it is reasonable that the 0,47Uf type is used.


This last option does rise the question ......  does the resonance frequenty of the grenade has to be adjusted to the "fixed" inductorloop frequenty?
Or is it so narrow...  that only by adjustment of the inductor wirelength there is enough range to get it "hit the fan"?

Seems to me some nice subject to discuss here?

Greetings

   apecore:  I would agree about the use of the 0.47uf 2000v wima caps.  However,  I do have and use the smaller 0.1uf 1000v wima cap on the grenade output coil, before the rectifier. I really needed the 2000v one, like Ruslan used, 0.15uf wima cap on his grenade output. So now I'm adding one more 0.1uf cap to the wima 0.1 cap, as that is as close as I could get to 0.15. 
  These cap values mentioned are critical in seeing a higher output. The inductor LC circuit is running at about the SAME frequency as the grenade output coil. But, I can't get a scope reading after the full bridge rectifier, or at the bulbs, for some reason. If I connect the scope to the 0.47uf wima cap, the scope's negative probe will affect and partially ground out the HV signal from the Kacher that's running through that WIMA cap.

  Every video that I've seen is using a different inductor size. Some guys are using the inductors bifilar coil made up of two, and some use the three 24 turn bifilar.  Or better said, the 1/2 grenade's 37.5m size, (so 18.75m inductor), or the 1/4 size inductor at 9.4 meters long. I've tried both, and probably should stick with the 1/2 size inductor, at 18.75m long. for higher output into the feed back circuit. As that is a determining factor, if all this is more than just an inefficient inverter, or not.

[AlienGrey]

AG,

Just let Nick get the OU out of his setup...  nobody knows how to do it...  and Nick is the only one with a operational setup on his kitchen table.

We all will be surprised when he hits the fan


Greetings



Nick,... There are different theories about what will be the best sub harmonic to be used in the inductor loop.
In normal electronics you would asume that the one which hits the grenade at best at the kacher frequentie would be preferable...  but until now no proof for that either.

Regarding the series cap...  it would be very usefull to have a variable cap from 300 - 800nf so you can tune in a large range at every inductorloop frequenty.
The bad thing with this kind of caps they are hard to get..   because of the high voltage ratings...  and current what is flowing trough.
Personal..  i have the idea to make my own plate capacitor,..   adding or removing plates will vary the capacitance ..


Greetings

You want a variable cap 01. down to 10 pf  make a switch box with mica caps (expensive) , and not any old res will do your looking for peek resonance and not sure Nick is doing it correctly high end is too low and you only need constant running to set up 'tune' freq' then pulse it. Try changing your mains Voltage Amps Phase shift and see what happens running a resistive bulb.

[apecore]

You want a variable cap 01. down to 10 pf  make a switch box with mica caps (expensive) , and not any old res will do your looking for peek resonance and not sure Nick is doing it correctly high end is too low and you only need constant running to set up 'tune' freq' then pulse it. Try changing your mains Voltage Amps Phase shift and see what happens running a resistive bulb.

No... it has to be  in the range between 300- 1000nF... 
I have steel plates 30cm (l) x 30cm(w) X  0.14mm (thick) and construct a plate capacitor... and make the amount of plates variable.

The other rated WIMA 1000V will burn as they are all parallel connected..... Nick will find that out..
Don t forget the voltage across the series cap is between 400- 700VAC

But in general i d like more to discuss the observation how it can that the Ruslan working device has a 0.47uF series cap only,....  so it looks there is no cap tuning needed.


Greetings

[Hoppy]

   .... But, I can't get a scope reading after the full bridge rectifier, or at the bulbs, for some reason. If I connect the scope to the 0.47uf wima cap, the scope's negative probe will affect and partially ground out the HV signal from the Kacher that's running through that WIMA cap.

Nick,

What type of waveform are you expecting to see after the FWBR and at the bulbs, given that the voltage being scoped is now DC?

[Hoppy]

No... it has to be  in the range between 300- 1000nF... 
I have steel plates 30cm (l) x 30cm(w) X  0.14mm (thick) and construct a plate capacitor... and make the amount of plates variable.

The other rated WIMA 1000V will burn as they are all parallel connected..... Nick will find that out..
Don t forget the voltage across the series cap is between 400- 700VAC

But in general i d like more to discuss the observation how it can that the Ruslan working device has a 0.47uF series cap only,....  so it looks there is no cap tuning needed.


Greetings

You will need a lot of plates for that sized cap!

Good observation questioning the need for ultra fine cap tuning. If the secret was primarily dependant on fine tuning, then by now I'm sure someone would have had a eureka moment. IMO its much more about disrupting the grenade waveform by the HV / HF Kacher waveform at a precise point and in a precise way. That' s not to say that harmonic resonant tuning is not required, rather that a combination of both is likely needed to show desired effect.