Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[dole]

Apologies for slightly nonrelated link but I found it dreamily fearless and at least entertaining, I hope
http://www.youtube.com/watch?v=FeO11z_gzLs&feature=BFa&list=PLF2ABF78C4A94E576&lf=plpp_video
d.

[verpies]

Thanks for your informative reply. You are the only one who has shown my the path to success. I am very much determined to make my STAAAR device replication to work.

Please remember that I am not the inventor of the Yoke device.
Despite living only several hours drive away from Lithuania, I never had my hands on a working unit.  (I would eat my hat an pay $1000 for a chance to connect my scopes to a working unit     )
I have analyzed it and tried to clear up the information necessary for successful replication of this device. That's all.

I have understood the schematic and the procedure. F2 is the key frequency to be found after a long procedure which has to be placed in such a fashion with 50 Hz F3 that we get Resonance. (NMR) But one thing which I was totally not in picture was a phrase in their Lithuanian site. I really didn't understand it.
" Each generator has feedback with 1 turn on coil and keeps own frequency no matter what changes inside of coil . This is where you get synchronization."

You are not the only one.  Start reading from Reply #8034 and you will see that many other have asked this question.
I can tell you that much:  The Velleman PCGU1000 signal generators that the STAAAR team was using do not have any inputs, besides the DC power supply input.
Also it is not clear what is supposed to be synchronized: frequency or phase ?

I understand reactance and current voltage leading or lagging.   This is the same point about which u talked in your last reply to me.

That's good. The phase relationships between the windings might be important in this device.

I have been connecting the BNC connectors directly to two ends of each coil (15 T and 50 T) with +/- 1 V square wave so far. 
Coz there is no schematic on their website pertaining to How freq gens are connected with the two coils. Can u send me this portion of the schematic.

I would if I had them.
Like I wrote - I am not the inventor of this device and I never received any additional info from the STAAAR team than that which is in this thread and on their site at http://freeenergylt.narod2.ru/aidas

So that I can make 1 T orthogonal coils and place them accordingly between freq gens and 15 T and 50 T coils and how. Do I have to use only one port of my freq gen which gives waveform output or I have to incorporate control or sync output ports also.

The STAAAR team's Yoke device uses only one 1-turn winding.  If you make two 1-turn windings then it will not be an exact replication anymore.
When I wrote about the perpendicular (orthogonal) windings in reference to the Yoke device, I had in mind that the 1-turn winding is perpendicular to the 15T winding (1T winding is also perpendicular to the 50T winding and the 150T bifilar winding).
For clarity's sake, it is worth stating, that the 15T, 50T and 150T bifilar winding are all parallel to each other.  The 1T winding is perpendicular to the rest.
The 1T winding has more capacitance than inductance. The 50T winding has more inductance than capacitance. Therefore if they are fed from the same AC voltage source, then there should be a large current phase difference between them.
Large phase difference between currents in two perpendicular windings inevitably causes a rotating magnetic field. (similar to the Lorentz Fan).

At high frequencies the lumped element analysis is inadequate (e.g. the f=1/2pi(LC)^0.5 resonance frequency), and transmission line theory must be used instead. See:
http://www.teslatechnologyresearch.com/corum/

My freq gens are Hantek DDS-3X25.

Those are good signal generators but their 3.5V outpus are inadequate to drive the gates of power MOSFET bridges without intermediate drivers with "dead time" control (e.g. the TPS2833 Power MOSFET driver).
The "dead time" feature of the MOSFET drivers is important because in Half-Bridge configuration one transistor "pushes up" and a second transistor "pulls down" the voltage.  If both of them get open at the same time, they short-circuit and kill each other (immediately or slowly by overheating).
However, 3.5V is sufficient, to drive the bases of bipolar junction transistors.

[wattsup]

@verpies

I am still waiting for those parts to arrive. There was one item (HV caps) back ordered so they held back shipping out what they had on hand. What a piss off. So I have to wait and wait, but meanwhile I am trying with the standard circuit that is just going no where.

But geez, there has to be a way to pulse a mosfet with the FG on the gate and the feed supply through the drain/source without having to use such mosfet drivers. I mean why is there not a way with a few resistors and a diode somewhere. Maybe using a dual coil toroidal 1:1 transformer between the FG and the gate. I don,t know but you would think since so many years guys would have figured it out by now.

I want to take out my  yoke again and re-do some of my previous experiments with some changes. I had one great effect that I would like to catch on video.

Anyways, I can only see great success for all in this pivotal year of 2012, in a just and perfect manner.

wattsup

[Hope]

@verpies

I am still waiting for those parts to arrive. There was one item (HV caps) back ordered so they held back shipping out what they had on hand. What a piss off. So I have to wait and wait, but meanwhile I am trying with the standard circuit that is just going no where.

But geez, there has to be a way to pulse a mosfet with the FG on the gate and the feed supply through the drain/source without having to use such mosfet drivers. I mean why is there not a way with a few resistors and a diode somewhere. Maybe using a dual coil toroidal 1:1 transformer between the FG and the gate. I don,t know but you would think since so many years guys would have figured it out by now.

I want to take out my  yoke again and re-do some of my previous experiments with some changes. I had one great effect that I would like to catch on video.

Anyways, I can only see great success for all in this pivotal year of 2012, in a just and perfect manner.

wattsup

@Verpies and Wattsup   a CRT can be used as a very large HV cap can it not?  I would caution you to use the one hand rule and keep all solder points well rounded.  Aquadag paint areas that may form carbon traces.  I do not understand why people don't use old CRT's for their HV mega caps,  they are made perfect and already mounted in a safe chassis.  What is your take on them?

[verpies]

The problem with the CRT as a HV capacitor is it low capacitance to volume ratio, because there  are no conductive parallel plates close to each other inside.  The ESR is not terrific either.
The breakdown voltage is high due to the vacuum but capacitance is low.  It could be used if it's sufficient and the user puts up with the sheer bulk of it.