Kapanadze Cousin - DALLY FREE ENERGY

[NickZ]

  Itsu and Tomtech:
  Thanks for your videos.
  So, my question now is how does the light output on your set ups compare to normal grid powered bulbs?
  As it's hard to evaluate the output of a bulb when shown on a video, due to the camera adjusting light levels. So, how does your 100w test bulb light when the Kacher is connected, compare to normal 100w bulb on the grid.  20 -50%?

   I am still tuning, and more tuning.   I've now gotten my Kacher's HF, HV streaming to spark a 3-4mm long stream, and the HF stinging is back to be unbearable to the touch.  But, my antenna coil's scope reading is showing only 1.2Mhz, for this to happen, when all circuits are connected and running, and over 3Mhz from the Kacher secondary by itself, when the antenna is disconnected.
   Tomtech: I also have the problem with my Kacher's output and frequency dropping as the Kacher's transistor circuit gets hot. 
I use No heatsink fan on the Kacher heatsink, as I've been trying to avoid using fans.  As, No fans needed or even heatsinks for the fets on the Mazilli now.  I hate to have to hear any fans, in a solid state device.  But, the Kacher's transistor heating may not be the cause of the power drop after a few minutes running. What is the cause of the voltage/amp drop???

[Hoppy]

   I am still tuning, and more tuning.   I've now gotten my Kacher's HF, HV streaming to spark a 3-4mm long stream, and the HF stinging is back to be unbearable to the touch.  But, my antenna coil's scope reading is showing only 1.2Mhz, for this to happen, when all circuits are connected and running, and over 3Mhz from the Kacher secondary by itself, when the antenna is disconnected.
   

Nick,

I may be wrong here but taking T1000's comment to Verpies below, I read this as the Kacher frequency is supposed to be 1/4 or 1/3 of the grenades resonant frequency. So, if your grenade frequency is say 4MHz, then the Kacher should be 1.0MHz or 1.33MHz resp when running with top-load coil and ferrite inductor.

"In brief: the yoke has series resonance which magnetizes grenade coil. The frequency of LC resonance in yoke matches subharmonics of standing wave resonance. The Tesla coil simulates nanosecond pulse generator and fires up high tension and high voltage RF pulse which is 1/4th - 1/3rth resonant to wavelength passing through grenade coil creating standing waves inside. The PLL takes peak of the current in the yoke and fires up the driver of Tesla coil for very brief period for EMP spike simulation."

[T-1000]

I may be wrong here but taking T1000's comment to Verpies below, I read this as the Kacher frequency is supposed to be 1/4 or 1/3 of the grenades resonant frequency. So, if your grenade frequency is say 4MHz, then the Kacher should be 1.0MHz or 1.33MHz resp when running with top-load coil and ferrite inductor.

To be more precise we are talking about longitudinal wave resonance in grenade coil where the wire length defines what frequency is.

[itsu]

By the way, here the latest ALLEGGA diagram, it is missing some text and chip symbols and there is as far i can see 1 capacitor (decouple cap) added
to the IR2184 (C14) which has caused all other capacitor ID's to be upped by one.
Also the battery / switch / diode is added at the output

I have changed the input to the switch S1 as both polarities were the same, so the link from pin 4 of the IR2184 is removed and the one from pin 1 is added.
Now the switch really switches between 180° out of phase signals.

At the potmeters R5 and R9 i have added what they do (delaying / widening the pulse going to the Kacher).
The potmeter R14 (PLL) sets the the range that the PLL still locks on the feedback signal, so for my 15Khz resonance signal i have set it to
still lock between 9 and 21 KHz (15KHz in the middle).

The function of the R8 potmeter is not really clear to me, but i understand it will shift the Kacher pulse compared to the Voltage (or current) peak of the inductor
I should be able to shift the kacher to fire from my voltage peak to the current peak (90° off), but that potmeter range is not enough.
Perhaps i should change C5 to 33nF or 330nF as discussed earlier as now it is 330pF in my setup.

Sigh.

Regards Itsu

[starcruiser]

By the way, here the latest ALLEGGA diagram, it is missing some text and chip symbols and there is as far i can see 1 capacitor (decouple cap) added
to the IR2184 (C14) which has caused all other capacitor ID's to be upped by one.
Also the battery / switch / diode is added at the output

I have changed the input to the switch S1 as both polarities were the same, so the link from pin 4 of the IR2184 is removed and the one from pin 1 is added.
Now the switch really switches between 180° out of phase signals.

At the potmeters R5 and R9 i have added what they do (delaying / widening the pulse going to the Kacher).
The potmeter R14 (PLL) sets the the range that the PLL still locks on the feedback signal, so for my 15Khz resonance signal i have set it to
still lock between 9 and 21 KHz (15KHz in the middle).

The function of the R8 potmeter is not really clear to me, but i understand it will shift the Kacher pulse compared to the Voltage (or current) peak of the inductor
I should be able to shift the kacher to fire from my voltage peak to the current peak (90° off), but that potmeter range is not enough.
Perhaps i should change C5 to 33nF or 330nF as discussed earlier as now it is 330pF in my setup.

Sigh.

Regards Itsu

Itsu,

I would look at adjusting the capacitance value to adjust the timing delay, figure out the delay required (4x operating frequency I think) and us the RC time constant formula to see if the 1C value places it in range at mid point on the potentiometer.