Kapanadze, Stepanov, Barbosa-Leal and the Secret of Free Energy

[SolarLab]

Thank you Fin


For the purpose of the devices being discussed here, the expanded view
Is overly unnecessary, but good information for people to have.
In order to utilize the higher harmonics (lower sets would be pointless)
we would need significantly more circuitry than what we see.


And if this is to be done, we should first consider the other interferences
in those bandwidths from modern human activity.

F.Y.I.

In general, my intent is simply to caution against all the mindless hand waving and otherwise
foolish sounding, unfounded, unverified, brain dead speculation - try another approach or you'll
be at this OU/FE/CE development for another 10 years, or more, ending with the same results:

Nothing but thousands upon thousands of pages of crap with a very few "value-added" bits
hidden within and being very difficult, if not impossible, to find.  The goal "must" be unraveling
the mysteries; not post counts and silly hero member titles, or masquerading as a pseudo expert
- this is not facebook nor twitter!

Don't wreck it - this can be a valuable resource!

smOky2:

Let me briefly explain further - my previous references are not meant to
present an "expanded view" of signals and such; but rather some fundamental
techniques of how EM signals are manipulated; primarily for analysis and design.

Understanding the Time and Frequency domains are key to gaining a clear conceptual
appreciation of all electromagnetic signals, and thus, their manipulation to further
develop a scheme. A Fourier transform takes a signal in the time domain (as seen on
an oscilloscope, for example) and represents that signal in the frequency domain (as
seen on a spectrum analyzer, for example).

Slightly off topic a bit, but also worth considering:
A complex representation of a signal is achieved by way of Vector Analysis (includes
amplitude and phase) or Scalar Analysis (includes amplitude information only). These are
time versus amplitude (and phase) at a given frequency (much like a radio receiver).

Now, by sweeping a device, or system of devices, with a known frequency while considering
the output signal amplitude and phase information, a matrix is created which
forms what are known as Scattering Parameters, or simply, S-Parameters. Quite valuable
information, in fact, since a complete "picture" - the amplitude, phase, and frequency
response of the circuit (black box) - is now known. Caveat - this generally holds true if
the black box is linear (generally small signal) - but it's a very good place to start a circuit
design or the analysis. Note: A Smith Chart is an inexpensive valuable graphical tool (old but
proven) that can be used to provide a huge amount of information. Check it out!

Also note that saturating (over driving) a system will generally create non-linearities causing,
amongst other things; harmonics, inefficiencies, and so forth. Sometimes this non-linear
effect is good - mixers, overunity, etc. and sometimes this is bad - audio distortion, radio
interference's, etc..  Only scratching the surface here...

FIN

[AlienGrey]

in video kapanadze 2004, the mystery of the two resistors and the white capacitor is in doubling the frequency .... the rest remains to be discovered......

Hi all just had a walk through your thread and was beginning to wonder why all your schismatics had fallen of the
page 
I'm not one for large SA's, I tend to get bored. However this little circuit interested me as well as its drawbacks like
heating up the room  and it's none standard output transformer (lamination's)

What i was interested in has any one tested this device ?
I ask as it might be just as easy with a FET / IGBT to accelerate the frequency into the Mhz region just as easy
with a minimum of components.

AG

[wattsup]

@all

Here is an observation of Kapanadze device mainly the Green Box using some basic logic, despite my firm belief that the bearded guy held the input power, I am neglecting this to provide an angle of research for some of the better EE/OUers.

The green  box had a spark gap so this means high voltage proportional to the gap aperture. So there is a source of high voltage. The green box also used two toggle switches to get it going. WHYYYYYYYY??? And why two?

Well, let's say you produced high voltage AC. So you have a sine wave rising and falling but always changing with time, unlike DC that stays the same in time. So you have a 60Hz AC of let's say 4800 volts peak to peak, but all you want is 120 volts output. So you send that high voltage through a mosfet where each interruption of the HV output equals a rise time to produce 120 volts. If you did that, you would need one toggle switch to start the pulsing absolutely first before you activate the other toggle switch that starts the high voltage. So you have a HV circuit and a voltage extrusion circuit. Something like a hot dog making machine with a constant hot dog feeding a timed cutting wheel.

The one or two mosfets would start getting hot so the heat sinks on the green box are shown.

SO WHO IS SMART ENOUGH TO TAKE THIS INFORMATION AND BUILD ON IT?

Such a system would relegate the TK Coil itself to be a dud, a discussion piece, a distraction and that would fall in perfectly with the fact the such a TK Coil winding for coupling purposes is totally useless and just equal to a straight piece of wire. If you can produce high voltage at a low consumption rate, then cut that high voltage into more manageable slices that once layered on top of each other increase the output amperage, that is the place to start.

wattsup

[forest]

what is required to generate voltage?
what is required to generate amperage ?
combine both
simple

[Hoppy]

Such a system would relegate the TK Coil itself to be a dud, a discussion piece, a distraction and that would fall in perfectly with the fact the such a TK Coil winding for coupling purposes is totally useless and just equal to a straight piece of wire. If you can produce high voltage at a low consumption rate, then cut that high voltage into more manageable slices that once layered on top of each other increase the output amperage, that is the place to start.

wattsup

A fresh approach to the mystery maybe.

Yes agreed, the TK coil winding is very likely eye candy.

Yes agreed, the output is probably pulsed.

A MOT is perhaps the easiest and cheapest means (scrap yard build) of producing the HV.

However, what is the source of energy? If its from the grid, then we have a place to start. If so, do we assume that the grid current is supplied from a remote location to the device? If not, what is the source of energy local / within the device?

Could TK have sent the HV over very thin cable from a remote location?

To minimise energy consumption whilst producing highest lumen bulb output levels, do we need the HV to ionise the gas in the bulbs?? Has anyone experimented with pulsed HV transformed from the grid, directly applied to incandescent lamps at various pulse rates?