Kapanadze Cousin - DALLY FREE ENERGY

[verpies]

Using Spectrum Analyzer of mine under "Auto Correlation" setting on kapanadze winding which was assembled months back.
The waveform which was taken at reading at around 746.8x khz which i can't fully understand.

This a mathematical tool used by your analyzer to identify repeating patterns, periodic signals obscured by noise, or missing fundamental frequency in a signal implied by its harmonic frequencies.

It works by multiplying the analyzed signal with a time shifted version of itself.  Of course the magnitude of that time shift can be varied and that is what you see your scope doing.

[magpwr]

This a mathematical tool used by your analyzer to identify repeating patterns, periodic signals obscured by noise, or missing fundamental frequency in a signal implied by its harmonic frequencies.

It works by multiplying the analyzed signal with a time shifted version of itself.  Of course the magnitude of that time shift can be varied and that is what you see your scope doing.

hi verpies,

Thanks for the reply.

To be honest i was trying hard to search for presence of longitudinal wave like compression and refraction.

This was released by stivep related to the experiment conducted in Lithuania related to the yoke core.There was a video shown on how to observe for longitudinal wave.

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Just stared experiment this afternoon with usual 2x0.47uf Wima capacitor in parallel from 3 turns.The output of multi-layer/kapanadze  coil with 0.1uf 2000volts capacitor in parallel with 60watt bulb.
4 layers total around 90turns which give 320uH and Kapanadze coil base on spec which many of us are using is exactly 160uH.

As usual this was reverse engineered from one of Akula video after observing the height(4 layers) which the same height as the multi-layer coil.
Take note indutance reading is 2:1 320/160 for my case.

But this times 28turns from toroid is untouched and insulated since i am running PWM generator at 250VDC (12 to 220volts pocket inverter).

The resonance remains same at 14.4khz but i am doing 28.8khz which then needs 35watt from 12volts battery.

Once the transponder circuit is powered up later the bulb would light like URFA setup/effect.After which the power drawn should remains constant regardless bulb or no bulb connected.If it goes according to plan.

My old PCB circuit uses more power because i was using IGBT which got higher switching lost compared to Silicon Carbide Mosfet of the same voltage rating 1.2kv.

[starcruiser]

Hi Star,

as mentioned above, i did use "normalize" and now added a 10dB attenuator in the TG lead to compensate for any impedance mismatches.

The first screenshot show a 0Hz - 5Mhz (really 9KHz - 5MHz) spectrum width  and the second one a 0Hz - 50KHz (really 9Khz - 50KHz) spectrum width.
I had to reduce the bandwidth (RBW) for the 2th situation from 30KHz to 1Khz to have some decend response.
Notice also that the 2th screenshot is very close to the spectrum analyzer start limit (9KHz), so these fluctuating lines at the start are not stable and are really fluctuating.

Itsu

Notice the attenuation as the frequency increases, the yoke core is optimized in its composition to provide a better response to the lower frequency spectrum as I suspected. as the frequency increases, the Tesla or nano pulse the cores response curve is reduced thus reducing the influence it has on it, a natural filter of sorts to reduce a back feed into the fets.

This reinforces my idea that the ferrite core used must be chosen carefully to only be responsive to the drive frequency and not the source mixing frequency (nano pulse or Tesla coil operating frequency). The point I am making is to not use any old core but be aware of its designed response curve.

[justawatt]

hi everyone
check out this circuit and see the video link
maybe this could be the last thing we can try to get free energy.
the video does not belong to me.
But i have made circuit based on the video ,i would like some one to try this circuit.

https://www.youtube.com/watch?v=5K3HrhH5Qrs

https://www.youtube.com/watch?v=RUF7eJAOjF4

[Void]

This reinforces my idea that the ferrite core used must be chosen carefully to only be responsive to the drive frequency and not the source mixing frequency (nano pulse or Tesla coil operating frequency). The point I am making is to not use any old core but be aware of its designed response curve.

Hi starcruiser. I tested a while back, and the Russian ferrite TV yoke core that I have gave its best performance
in the frequency range of about 15 kHz to 30 Khz or so. That type of ferrite does seem to be designed for use
right in that particular frequency range.