Kapanadze Cousin - DALLY FREE ENERGY

[Thaelin]

Hi Itsu:
   Figure out the impedance value for your input side and
then figure it for the output side. I think you will be in for
a surprise.
   You can then figure out using  L/C calculator which is
the best combination for the output.

I used to keep asking why they chose 50 ohm impedance
for the coax antenna value. This falls in the best L to C
ratio. Don't mix and match in this game. Match it up for
the best result.

I am no expert but this has become quite evident to me
over the time spent digging.

[itsu]

Hi Thaelin,

thats sound advice, however that "Figure out" part is where the problem lies.
The used Mazilli circuit seems to be load dependent, so will adjust itselve for frequency so probably also impedance, etc. depending on the load it "sees".

As i am just a replicator, trying to replicate what other claim, and i have to follow their setup as closely as possible in my view.

But that impedance matching item pops up every time, so i guess it needs proper investigation (and equipment), thanks.


Regards Itsu

[magpwr]

hi everyone,

My findings with Mazilli if it doesn't resonance with a particular test coil/capacitor .The circuit will catch fire with sight,sound and smell effect on the 2 mosfets or IGBT's.

Around 2 months ago i had purchased a smallest self resettable "circuit breaker" in the internet that run on 12volts and 5Amp(This is the lowest at the moment) from digikey.

The circuit breaker as attached have saved all my Mosfets and  IGBT's from being fried.Upon reaching breaking point at 5Amp it will remain open until current drawn is lowered.

This 1 component investment have been helping me to save me lots of money indirectly since i don't have a variable power supply because of space constrain.

[starcruiser]

I would suggest looking at the reactive components of the LC tank, i.e. the XL and Xc to determine the impedance match or mis-match taking place (relates to the Q as well). I am sure the Mazilli circuit is impacted by the inductive and capacitive components of the load. I would suggest doing the static measurements and doing the math to see how close of far off you are. this way it gets you in the ball park without burning stuff up maybe?
Phasor diagrams reminds me of the school days.

[bbiechele]

Hi Itsu, the reason capacitors are getting hot are the losses. We do not have pure C. We have got L-C-R and additional a R for the losses of dielectrics. The size of L depends on the internal construction and the length of your connecting wires (1 cm is about 1 nH !). For high frequency special dielectrics with low losses are used. If we see a capacitor as LCR and not only C the impedance is going down when we increase the frequency. Reaching resonance the impedance is R. From this point your component is not a capacitor any more when you increase the frequency. It's its an inductance !  => We need components that fit to the working frequency. If you have nano pulses we have bandwith up to 500 Mhz. Question I was surprised to see pure sinus and no pulses. Could you please show the schematic you used in your next video ?

google: Polypropylene kondensator frequenzbereich
http://de.wikipedia.org/wiki/Kunststoff-Folienkondensator