Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[ronotte]

Here are some other pics I did on the device and the schematic.
Roberto

[baroutologos]

I was experimenting with my Kacher setup and noticed an oddity, to me at least.
I regarded Kachers were run by their LC component that is the coil and stray capacitance or any added capacitance. I know they also formulate a standing wave, that correspond to the running frequency thus determining wavelength etc

A couple of days ago, a noticed (i say it with some reserve though) that this is not necessarily so. A kacher can be run also at a frequency determined by the... voltage nodes? i explain...

...
When i assembled my Kacher with a coil (24awg, 180mm length, 50mm diam, 1.43 mH) and i left (coil) open ended, it oscillates about 1.72 MHz freely. By forcing an antinode to the hot lead, (applying a resistor say 10K and connecting it to emitter or ground or even short it to emmiter) the Kacher starts oscillating at 2.8 MHz (more or less), nothing suggesting that exists any LC component for dictating such oscillation. Also, no matter if i add any capacitance anywhere, this frequency does not change much. (if at all)

By inserting a ferrite rod inside the coil, the frequency alters or lowers to some 2.2 Mhz and by observing coil's standing voltage with a screw driver, the voltage antinodes stays more or less the same, both ends are not hot, (especially if emmiter is really grounded) but this time the "standing voltage wave" is skewed. Of course a lower frequency has a larger wavelength, but since both HV coil's ends (i.e. base and emmiter) are almost same voltage assume a skewness to exist.

utube video: http://www.youtube.com/watch?v=Jxp6wrh2Pqo

I would enjoy some comments

[baroutologos]

double post

[energia9]

I was experimenting with my Kacher setup and noticed an oddity, to me at least.
I regarded Kachers were run by their LC component that is the coil and stray capacitance or any added capacitance. I know they also formulate a standing wave, that correspond to the running frequency thus determining wavelength etc

A couple of days ago, a noticed (i say it with some reserve though) that this is not necessarily so. A kacher can be run also at a frequency determined by the... voltage nodes? i explain...

...
When i assembled my Kacher with a coil (24awg, 180mm length, 50mm diam, 1.43 mH) and i left (coil) open ended, it oscillates about 1.72 MHz freely. By forcing an antinode to the hot lead, (applying a resistor say 10K and connecting it to emitter or ground or even short it emmiter) the Kacher starts oscillating at 2.8 MHz (more or less), nothing suggesting that exists any LC component for dictating such oscillation. Also, no matter if i add any capacitance anywhere, this frequency does not change much. (if at all)

By inserting a ferrite rod inside the coil, the frequency alters or lowers to some 2.2 Mhz and by observing coil's standing voltage with a screw driver, the voltage antinode stays more or less the same, both ends are not hot, (especially if emmiter is really grounded) but this time the wave is a bit skewed. Of course a lower frequency has a larger wavelength, but since both HV coil's ends (i.e. base and emmiter) are almost same voltage, i assume a skewness to exist.

utube video: http://www.youtube.com/watch?v=Jxp6wrh2Pqo

I would enjoy some comments

nice experiment.
thank you

[xenomorphlabs]

I was experimenting with my Kacher setup and noticed an oddity, to me at least.
I regarded Kachers were run by their LC component that is the coil and stray capacitance or any added capacitance. I know they also formulate a standing wave, that correspond to the running frequency thus determining wavelength etc

A couple of days ago, a noticed (i say it with some reserve though) that this is not necessarily so. A kacher can be run also at a frequency determined by the... voltage nodes? i explain...

...
When i assembled my Kacher with a coil (24awg, 180mm length, 50mm diam, 1.43 mH) and i left (coil) open ended, it oscillates about 1.72 MHz freely. By forcing an antinode to the hot lead, (applying a resistor say 10K and connecting it to emitter or ground or even short it to emmiter) the Kacher starts oscillating at 2.8 MHz (more or less), nothing suggesting that exists any LC component for dictating such oscillation. Also, no matter if i add any capacitance anywhere, this frequency does not change much. (if at all)

By inserting a ferrite rod inside the coil, the frequency alters or lowers to some 2.2 Mhz and by observing coil's standing voltage with a screw driver, the voltage antinodes stays more or less the same, both ends are not hot, (especially if emmiter is really grounded) but this time the "standing voltage wave" is skewed. Of course a lower frequency has a larger wavelength, but since both HV coil's ends (i.e. base and emmiter) are almost same voltage assume a skewness to exist.

utube video: http://www.youtube.com/watch?v=Jxp6wrh2Pqo

I would enjoy some comments

Could be that the standing wave is not skewed but rather clipped. The ferrite at the ends increases
the field in the area but does maybe not increase the maxima that existed already in the middle.

I have come to the conclusion that Delamorto's output was a consequence of being just in the right
ballpark between primary and secondary inductance/capacitance to set up the right resonance
frequency to either shake loose electrons from the copper pipe or some other effect.
I am out of ideas what to do to get from  feeble lamp brightness to what he showed since there
are not so much variables involved in this actually.
Last thing would be to force a frequency on the Kacher with a MOSFET driver circuit and then
sweep for some sweet spots, but without frequency control this whole thing is like a lottery.