Kapanadze Cousin - DALLY FREE ENERGY

[Osiakosia]

what is the flow of electrons in the cylinder?

I REALLY like this resonant frequency calculator, can give any two, leave third blank and it works.  It's a self contained script also, so can rip to standalone.


http://www.whatcircuits.com/lc-resonance-frequency-calculator/



Please find very interesting and usefull site with numerous calculators for LC circuit
and EM waves propogation .
Want recomend for all OU resechears .
http://www.amanogawa.com/Circuits.html

[verpies]

But anyway, how do I keep L1 from being a 0 ohm load that consumes all of the pulse from the toroid?

@d3x0r
Before I can help you, I must know which schematic diagram you are using to build your circuit.
There are many versions floating around.

Please post a link to it. For example see here...

[d3x0r]

(Added video links)

@d3x0r
Before I can help you, I must know which schematic diagram you are using to build your circuit.
There are many versions floating around.

Please post a link to it. For example see here...

Here...  Actually the post after yours....

But in either case, 4 of Tr2 is connected to L1 directly, which saps all the power.


(these are some of my testings... )


http://www.youtube.com/watch?v=LxyfKbh6Loo


http://www.youtube.com/watch?v=M482imX3L78

[verpies]

L1 is now 3.02mH (+.64)  (28 turns/cm  17.8cm, 498 turns, Dally spec 475, (needs minus 21, or 1cm-oh good, thought I was short )

Because L1 has an inductance of 3.02mH it means that it resists 4.6kHz AC sine wave as much as an 87Ω resistor (a.k.a. impedance).
Because W4 of Tr2 outputs a 4.6kHz rectangular wave, then this impedance is lower because a rectangular wave also consists of many additional higher frequency sine waves (says Mr. Fourier). Approximately 71Ω

So the question becomes: Why W4 of Tr2 cannot handle a 71Ω load?

Do you enable any other loads on your secondary windings?  If yes then disconnect them and report what happens.

[Black_Bird]

@d3x0r, verpies
In Dally video, observe that he turns on the inverter first, then the nano pulser, and then the load. Maybe it is a problem of inrush current at power on. In my setup, I use a different inverter, that presents a similar problem. The nano pulser frequency has to be adjusted to the resonant frequency of L2 and C at the vco. The inverter frequency does not need to be at that frequency. What I can see on my setup is a 4.6 KHz sine wave with a smaller wave riding over it. I still cannot get a reasonable amplitude, but the effects are there.