Kapanadze Cousin - DALLY FREE ENERGY

[T-1000]

But what we need of our pll is to change this frequency every time according to any change that happens inside inductor's line. What is your opinion about that? Where do we have ti inter-vain? Any block diag. would be very helpful.

The PLL should be operating in blocking oscillator mode on the current peak in the series resonance.
So when there is maximum current on positive half-cycle the PLL will switch off MOSFET and flip to another half. Then the PLL should do same with on the peak of current in the negative half-cycle.
In this way it will chop low frequency square wave duty cycle to the best matching length and will make frequency shift to the best matching resonant frequency of the series resonance.
Then the signal on the PLL flip-flop time goes to the Tesla coil driver which will fire up signal to the Tesla coil.
There is an issue as well - due changing resonant frequency on the PLL the Tesla coil driver have to change its frequency to the resonant harmonic. This make manual tuning hard to achieve due changing conditions and instability of system operation. So to solve that the both frequency generators have to be synchronized. akula tried 2 PLL but that appeared to be "mission impossible" to get proper operation. My idea is from different approach - by applying frequency multiplier instead of manual frequency generator for the Tesla coil this problem go away instantly due locking of 2 frequencies on resonant harmonics all the time.

Here is Ruslan's video about mode of operation: https://youtu.be/NHpUE6oqt7k?t=9m27s

[verpies]

Yes, there needs to be at least a 2x frequency multiplication between the output of the PLL and the input of the PWM controller, because the PWM controller's clock runs at twice the frequency of its push-pull output.  This is not hard to accomplish.

[Tomtech29]

The PLL should be operating in blocking oscillator mode on the current peak in the series resonance.
So when there is maximum current on positive half-cycle the PLL will switch off MOSFET and flip to another half. Then the PLL should do same with on the peak of current in the negative half-cycle.
In this way it will chop low frequency square wave duty cycle to the best matching length and will make frequency shift to the best matching resonant frequency of the series resonance.
Then the signal on the PLL flip-flop time goes to the Tesla coil driver which will fire up signal to the Tesla coil.
There is an issue as well - due changing resonant frequency on the PLL the Tesla coil driver have to change its frequency to the resonant harmonic. This make manual tuning hard to achieve due changing conditions and instability of system operation. So to solve that the both frequency generators have to be synchronized. akula tried 2 PLL but that appeared to be "mission impossible" to get proper operation. My idea is from different approach - by applying frequency multiplier instead of manual frequency generator for the Tesla coil this problem go away instantly due locking of 2 frequencies on resonant harmonics all the time.

Here is Ruslan's video about mode of operation: https://youtu.be/NHpUE6oqt7k?t=9m27s

better late than never I moved this topic several times but was ignored -
-I hoped that someone would help me determine the rules combinations of these components!
here they are what guests have the concept and do not want to share diagrams of the project Pll.
(maybe something will change) and will be brainstorming and interesting solutions!
I'm counting on you guys simulations are also necessary I greet the experimenter.
I do not have any experience in this field I also wanted to try!
... maintain a high state of resonance full load the works of masters.

[Tomtech29]

Hi.
Throw large format photos of the first Akula circuits (I think that has something to do with the current)
but pes confirm that it works as expected only  is the pictures.
-I will be vigilant, as I do not have a bad throw other projects of the PCB "Oleg"

[Tomtech29]

or from any of you worked out those connections?