Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[grizli]

We are making progress LOL

WE managed to create good flyback driver hahaha

[LtBolo]

Obviously the material matters. Is it Magic? No.

No offense to Ganzha, but from the time I have spent in former Soviet Bloc countries, it was pretty obvious that the 'magic' of most of their stuff is that it is decades old technology. In the 50s and 60s, television yoke cores were primarily made of Mn-Zn ferrites, but over time moved to Ni-Zn due to ringing problems with the Mn-Zn. The resistivity of Mn-Zn is quite low...they are basically conductive. In reading T-1000's discussion about the resistivity of the core, I first thought he was saying that it wasn't conductive, but actually he said it showed no resistance. That points to Mn-Zn, and that would be consistent with what I would expect to be used in Soviet era tech. I guess it is possible that it is some other material completely, something that wasn't used in the west.

If they have a sample of one of the exploded ferrites that exhibited the behavior, it could be analyzed in a lab with a mass spectrometer. Not sure what the cost would be, but given that the material matters greatly, if we are unable to find other readily available sources it would probably be worth the cost whatever it is. If it wasn't ridiculously expensive, I would be happy to pursue the testing...I just need a small sample.

[verpies]

@itsu,

Nicely made video.

The problem of the 274kHZ not riding on the crests of the 50Hz is exactly what Grizli and Baroutologos had been griping at. 
See their quotes below:

I just made some experiments and 50 hz is TOTALLY USELESS
its short circuit for such coil ,,.
and it is impossible to get waveform on the output coil like they got...

I have mentioned before, a signal generator with a p-p some 10 or 20volts output, being connected at that 15turns coil to any type of ferrite, without any other addition or effect will give at best milivolts p-p scope shots at its ends.

The very effect that a coil like this in 50 Hz (agree with verpies) can have a voltage rise (simulating resonance) as Aidas shown around 130Volts p-p, demands a new physics book on its own.

Indeed the above should not happen according to conventional physics even if we account for the resonant rise phenomenon.

Also, note that the Russians wrongly write "LF carries HF" instead of "HF rides on LF".
This is a grievous mistake in English language because the former expression is reserved for AM modulation that involves multiplication of two frequencies (the carrier and a signal) and the latter expression denotes waveform addition (which is what is visible on STAAAR's oscillograms).

I would venture that the HF will not start riding on top of the LF untill you enable the 1t Transverse Winding, either by:
1) energizing it from an external source, or
2) adding a parallel capacitance to it, or
3) increasing the surface areas of the copper strips (which accomplishes the same result as pt.2)

...as a side note, in order to maximize the capacitance in pt.3, the distance between the surfaces should be minimized. This means thin plastic tape layer and flexible strips that will "hug" the core closely....

Going out on a limb even further I speculate that the 1t Transverse Winding should resonate on one of the harmonics of the 50t Winding and be 90deg. out of phase to it, because that arrangement will certainly create a rotating magnetic field and possibly spin the magnetic domains in the ferrite. I hypothesize that spinning magnetic domains will increase the effective permeability of the ferrite and this will cause increase of the inductance of the 15t winding and the resulting increase of impedance at ~50Hz. 
More impedance means less current in the 15t winding circuit (e.g. light bulbs get dimmer).

PRACTICAL ISSUES:
Please remind us what kind of air gaps (paper gaps) you have now and whether you are using stranded or solid wire  (with skin effect).

Changing to a lower resistance bulb (or adding more of them in parallel) in series with the 50Hz transformer and 15t winding, would not hurt performance as long as the transformer does not overheat.

If you ever see that light bulb/bulbs getting dim, then you you'll know that you are getting closer

[wattsup]

@all

Last night (late) is was pulsing the 15t with a transistor directly from the frequency generator and via my power supply, giving it 4vdc at about 1 amp through the transistor, I got up to 700 volts. I let this role for a while, then changed something, then when I decided to go and do the same tests again, since I kept the settings on paper, I cannot do it. As it the core is not responding. I guess this is the reason @T-1000 said they have to figure out how to degauss the core. I will tr it again tonight when I get back home.

Also, as you know a few days ago I was pulsing the flyback and the HV ruined one of my volt meters as well as the diode on my capacitor and the LED bank I was using. So I made a new led bank that uses higher volts. So only my FG on the Load Group, at 7kHz is were I get the brightest and most output which is 7vdc. So technically, if the Load Group reads anything above 7vdc, I should start looking closely at the reasons why and/or how.

This is a great way to see how efficient the half core to half core transfer is. Well on the 15t, I managed to produce 6.75 vdc off the secondary, so this is very close to my 7vdc threshold. This indicates to me that the cores are rather efficient.

I don't think core yoke material has anything to do with it. Old or new cores, the final result of the core/coil relation is to produce the same effect over the cathode as it did in the past and as is does in the present. There could be material formulation differences to use less materials but the final act has to stay the same. You might have more mass in old ones but the efficiency may be less, hence the more mass. You may have less mass in the new ones hence the efficiency with less new mass is the same as the efficiency with more old mass. This goes to the old saying "You can't teach an old cathode tube, new tricks".

wattsup

[verpies]

So only my FG on the Load Group, at 7kHz is were I get the brightest and most output which is 7vdc. So technically, if the Load Group reads anything above 7vdc, I should start looking closely at the reasons why and/or how.

I remind you that the voltage developed across the diode+capacitor "Load Group' is not proportional to the power delivered to that "Load Group".