Kapanadze Cousin - DALLY FREE ENERGY

[starcruiser]

Hi Starcruiser,

i am not sure where you get these 3300pF and 1K values from as i presently have 330pF (C5) and 4.7K (R8), but i guess you mean that as an example.

Anyway, i have measured on the 4046 pin 4 output (triggered on) with the purple probe and measured pin 3 (delay) with the blue probe, first with the present 330pF cap in,
see first screenshot, then with a 3nF cap in, see second screenshot.
The max delay went up from 1.28us to 13.1us as can be seen in the screenshots.

But in both cases when turning the 4.7K pot (from 0 delay) to a something bigger delay, the output signal (Voltage / current) on the inductor coil drops and we fall out of lock soon.
I have made a video of this which can be seen here: https://www.youtube.com/watch?v=TEBCqigIdjs&feature=youtu.be

In this video, again voltage (yellow) and current (green) over and through the inductor/bifilar coil, purple is the gate signal to the kacher MOSFET.

So allthough the delay can be increased with the 3.3nF cap, i cannot use it as the PLL quits.

Regards Itsu

Itsu sorry I think we are talking about the delay line for the kacher circuit right? Not the PLL cap and pot (C5 & R8).

I'm starting to wonder if this resistor cap config might need to be modified too in the diagram below, much like the signal source switch you changed. move the resistor to prior to the capacitor instead of after it.

[Tomtech29]

I have a question.

Ruslan's work is based on the Akula's work. Many pages back Nick was posting one of the Akulas movies explaining the principal work of this device.
The funny thing is - Akula consider the inductor (the ferrite bar) between the Tesla secondary and its antenna as a very important element of the device. And why? As he says- it change the sinusoidal wave from the secondary to the wave with sharp front edge .If I good understood  Akula is getting peaks of over 36KV there.  He says this is like a hammer.  Have you got anybody this effect yet?? I am trying to get it myself for two days and still nothing like that. In fact it is hard to believe it can work like that. What is your opinion about it?

Gentlemen, I watched a very interesting video, and I have to admit that the "Hammer" must be something in the melody 36kV in such a form, see picture No.2
you have to take into account that the voltage 130V.~/230V It serves as the input signal pulse at the output of the Tesla coil will be very high
The person who tries to explain how to achieve such an impulse:
https://www.youtube.com/watch?v=VGuw3QvoseI
I have not seen this before
Thank you for the clarification and sharing.

[Dog-One]

I have not seen this before
Thank you for the clarification and sharing.

I have not seen it before either.

The proper pulse width and frequency creates unipolar pulses.  Something I need to test for sure.

From what I can tell in that video, Itsu's pulse width is way too large which is why he doesn't see the unipolar pulses.  The pulse width should be exactly one cycle length of the sinusoidal frequency that is in resonance.  Think I have that correct...

[itsu]

That block diagram helps.

Are the pulses coming out of the CD4046 block driving the Yoke and pulses driving the "Kacher" in phase ?  Are they the same pulses ?

Are the pulse widths driving the Yoke, constant or dynamically varied in response to some feedback signal (as in the classical TL494 application) ?

How are you preventing the "Kacher's" RF burst from reaching the CD4046's feedback path ?


RANT:
A) The MOSFET Divers/Yoke form a switchable AC voltage source.
B) The "Grenade" inductor forms an LC circuit with some capacitance.

In order for A to drive B, the voltage waveform generated by A must be 180º out of phase with the voltage appearing at B (this is the oscillation condition for oscillator energy transfer mandated by circuit theory).  The PLL will automatically adjust for this to be true and as a consequence the PLL will be synchronized to the voltage appearing across the "Grenade's" voltage waveform. Even if you phase-shift your feedback signal by +90º then the PLL will adjust the phase by -270º to maintain that oscillation condition.

Hypothetically, if the MOSFET Drivers were current sources, then the PLL would automatically synchronize to the current waveform.
This is not a viable solution, but it helps to understand why the present PLL synchronizes to the voltage and not the current in the circuit that generates the feedback signal (the "Grenade").

Regarding the current transformer:
Properly burdened and unsaturated current transformer will have its secondary current in-phase with the primary current.
Unburdened current transformer will have its output shifted by 90º.

verpies,

Are the pulses coming out of the CD4046 block driving the Yoke and pulses driving the "Kacher" in phase ?  Are they the same pulses ?

The origin (pin 4 of the 4046) is the same, there is a switch (S1) inbetween to select either the normal or the inverted pulse (due to an inbetween 74HC14)
There is also some logic (74HC132) before the Kacher driver/MOSFET to adjust the pulse position / width.

Are the pulse widths driving the Yoke, constant or dynamically varied in response to some feedback signal (as in the classical TL494 application) ?

Hmmm,  good question, i will have to check that, but i don't think the width changes.

How are you preventing the "Kacher's" RF burst from reaching the CD4046's feedback path ?

Not (yet), but this is not needed right now as the Kacher is mostly not activated, i check the Kacher drive pulse for correct firing, not the output (allthough
for some testing i did fire up the kacher and that is what is showing in the earlier screenshot).



Ok, so what you are saying is that in this case A) and B) we ALWAYS will have the PLL sync on the VOLTAGE like i see it!
Is that not contradictionary with the fact that a (burdened / unburdened) current xformer can shift 90° (so flipping from voltage to current)?

By the way, there is a video clip from RUSLAN somewhere where he shows that the moustache like signal (current Xformer output) flips a 90° when activating the kacher.
Edit, i looked it up and it was mentioned earlier here:
http://overunity.com/12736/kapanadze-cousin-dally-free-energy/msg422411/#msg422411

Thanks,    regards Itsu

[itsu]

The inductor is the coil receiving the Kacher pulse. I don't fully understand why the Kacher should be synched to the inductor current waveform. Synched to the grenade current waveform would make more sense to me- I think??

Hoppy,   could be, but in the 2th diagram in post #10999 there is the feedback path showing the kacher and the inductor coil, and i assume that the signals (RF burst and Sine waves) are from them, thus
that the sine wave signals (voltage U and current J) are from the inductor.

Itsu