Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[verpies]

At any rate it appears synchronization of some sort

I heard that, too, but there is a problem: namely these USB signal generators do not have any inputs, that would allow for phase synchronization between them.

After reviewing some of the former notes on the setup and tuning, I think I will set this project aside now due to their
being too many 'unclears'.

I've been trying to clear up these points for years now.  See here and here.

[Void]

I heard that, too, but there is a problem: namely these USB signal generators do not have any inputs, that would allow for phase synchronization between them.
I've been trying to clear up these points for years now.  See here and here.

Hi Verpies Ok on that. In the first two old posts from T-1000 I linked to in my previous post,
T-1000 said they were using modified horizontal/vertical sync circuit boards from CRT TV's for each
signal generator to set the signals to some special synchronization. T-1000 also mentioned adding capacitors
to the two primary windings to tune them for resonance on some particular frequency.

Although many of the details of the exact circuit setup that was used to tune and the exact circuit setup they
were using when lighting up the 150W bulb may be unclear, I do at least have the overview of the
setup, so that is potentially useful anyway. I do see parallels to what Akula has done in his high power circuits,
so that is interesting.

[verpies]

Hi Verpies Ok on that. In the first two old posts from T-1000 I linked to in my previous post,
T-1000 said they were using modified horizontal/vertical sync circuit boards from CRT TV's for each
signal generator to set the signals to some special synchronization.

You realize that an unmodified TV synchronization circuits max out at 15-20kHz.
In the Yoke device the frequencies are 20x higher.

[Void]

You realize that an unmodified TV synchronization circuits max out at 15-20kHz.
In the Yoke device the frequencies are 20x higher.

Hi Verpies.  I was just pointing out what T-1000 stated they did back in 2011. 
T-1000 did not appear to provide any further details of how that was utilized.

In my own testing with my own OC-90 yoke core, I noticed that 50Hz is well below
the useable bandwidth of my ferrite yoke core, so unless their ferrite core material was quite different
than mine, if they were getting a large 'carrier' sine wave at 50Hz on the secondary, it seems it wasn't through
magnetic induction through the core from the primary to the secondary windings. I get almost no output at
all on my secondary winding at such a low frequency when I tested in that low frequency range.

Another issue I had is that I have several local AM broadcast stations in the medium wave frequency band, which
where showing as large peaks on my spectrum analyzer. I tried placing the yoke core in a shoebox completely covered
in aluminum foil to try to reduce picking up the radio signals from the AM broadcast band, but this made no difference.
Grounding the outside aluminum foil covering seemed to make no difference as well.
The cables going into the shoebox were a coaxial cable from the signal generator and a coaxial cable for my scope
which was set to spectrum analysis mode. If there was any peaks coming from the ferrite that were close to a local
AM broadcast station frequency, I wouldn't be able to see them. The only prominent peaks I saw seemed to be the AM
broadcast radio stations. I also tried feeding with the white noise signal to check the resulting spectrum up to
a little above 45 MHz and saw nothing in the higher frequencies showing up. Most of the peaks were in the low MHz
and below.

At any rate, as I mentioned I think at this point I will leave it at that.

[verpies]

In my own testing with my own OC-90 yoke core, I noticed that 50Hz is well below the useable bandwidth of my ferrite yoke core, so unless their ferrite core material was quite different than mine, if they were getting a large 'carrier' sine wave at 50Hz on the secondary, it seems it wasn't through magnetic induction through the core from the primary to the secondary windings. 

Yes, there is a huge impedance mismatch at 50Hz that limits the classical transformer induction.

However you have not discovered yet, that the permeability of the ferrite used by the STAAR team is strongly influenced by the electric field at 400Hz to 20Hz at potentials as low as 600V/m.  This is a rare but known ferrite phenomenon documented by Konrad and Brudny in an article titled "An Improved Method for Virtual Air Gap Length Computation" in IEEE Transactions on Magnetics, Vol. 41, No. 10 from October 2005.

I also tried feeding with the white noise signal to check the resulting spectrum up to a little above 45 MHz

Did you get to 45.5MHz ?