Kapanadze Cousin - DALLY FREE ENERGY

[AlienGrey]

   Itsu:
   I should have tested the grenade output coil self resonance frequency, before I rewound the inductor to 48 turns and placed it on  top of it. But, I didn't think of it when I had the chance.
Now the 1 turns test coil connected from the SG, has to be placed on top of the inductor coil, which can influence the resonance readings of the output coil.
   So, in any case I'll see what the grenade reads with the new inductor in place.

  EDIT: Here's the scope shot of the new grenade readings. This is using a one turn coil over the inductor coil to test the grenade's output coil self resonance frequency.  I get 1.15 divitions, at .5us= 0.575us, for 1.74Mhz. Correct?

Alien
Does it divide by 432 ? show me both wave forms primary and secondary out, how stable is it all 'locked' ? no forget it ! do you have a frequency counter ?

[itsu]

   Itsu:
   I should have tested the grenade output coil self resonance frequency, before I rewound the inductor to 48 turns and placed it on  top of it. But, I didn't think of it when I had the chance.
Now the 1 turns test coil connected from the SG, has to be placed on top of the inductor coil, which can influence the resonance readings of the output coil.
   So, in any case I'll see what the grenade reads with the new inductor in place.

  EDIT: Here's the scope shot of the new grenade readings. This is using a one turn coil over the inductor coil to test the grenade's output coil self resonance frequency. I get 1.15 divitions, at .5us= 0.575us, for 1.74Mhz. Correct?

Nick,

You are close,
i count 1,1 div.  between 2 peaks  @  0.5us  = 0.55us   =   1818Khz  =  1.8Mhz
or
i count 7.4 cycles in 8 divisions (8 x 0.5 microseconds) = 7.4/(8 x 0.0000005) = 1850000Hz = 1.85MHz

So it seems to be the same as in the latest measurement,  about 1.8Mhz
I would put the 1 / 2 loop winding around the 168 coil itself, not over the inductor.


Regards Itsu

[NickZ]

  Itsu:
  What I did was to find the best position showing the highest amplitude, as you had previously mentioned. Which was not on one end or the other of the inductor, but in the middle of the inductor, instead. If I take a reading at the end of the inductor, but off of the inductor and over the output coil, the reading is much lower in amplitude.
  Today I'll take a reading of the output coil when it's not over the inductor, to compare.  Which one will be the correct reading? Who knows.  But, there was slightly lower reading than the previous 1.85Mhz. As I see not 1.1 divitions but between 1.1 and 1.2 divition, more like 1.15 divitions, therefor the 1.74Mhz, instead. In any case it's fairly close to your 1.85Mhz. And my SG was not at it's maximum of 2Mhz.
  However, your original 700Khz grenade reading is a long way away from the 1.74Mhz that I'm seeing.  Why such a big difference?

 

[NickZ]

  Alien Grey:
  I'm not concern as to the phase lock loop at this time, nor anything else, like PWM, frequency controller, etz...
Why don't YOU guys do the PLL circuit and show how well it works (on the scope), when adding or removing 500w- 1000w bulbs. 

[T-1000]

Why don't YOU guys do the PLL circuit and show how well it works (on the scope), when adding or removing 500w- 1000w bulbs.

https://youtu.be/NHpUE6oqt7k?t=9m30s - see how frequency changes under load attached after power on and PLL handling that.