Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[jbignes5]

Just remember the differences between the backyard example and the house version. The heat sinks were separated so that there was less capacity and coupling between the two transistors which would cause them to overheat in the previous backyard showing from parasitic currents between the two transistors.

[Zeitmaschine]

resonant frequency is calculated by the formula
fr = 1 / 2*3.14(LC)^0.5

There is a slight problem with that: How to calculate the value of C to resonate at 50Hz when the value of L (the transformer's coil inductance H) is unknown?

Measuring the inductance H of the transformer is not the easiest thing to do. And hitting the right value for C by chance is not very convenient too.

In fact this could be the reason why only few are successful in creating resonant circuits with 50Hz transformers. Because the inductance of a transformer is generally unknown and the value of a capacitor rated at 220V and a couple of µF is not continuously adjustable (like a tuning capacitor in a radio).

So any ideas how to get a 50Hz transformer in resonance with a capacitor straightaway without too much trouble?

They probably blew the 2004 components and replaced them in the Green Box one.

Replaced them with smaller ones? A TO-66 transistor is smaller than a TO-3 transistor.

The diode plate is receiving AC that is rectified to create a DC biasing inside the main transformer that is creating an amplified effect on the AC5 line and this loop is created to draw output. The AC10 line that comes from the tin can to the rectifier is probably in parallel with the load.

OK, and what is in the tin can (apart from a HV generator)? A capacitor? Because the one visible is used for filtering the DC output and without a resonant capacitor there can't be resonance.

OK, enough is enough. I have had it with looking at these vids.

These vids haunt me in my dreams. But gradually I get used to it.

[bass]

Zeitmaschine
There is a slight problem with that: How to calculate the value of C to resonate at 50Hz when the value of L (the transformer's coil inductance H) is unknown?

In fact, it's not so difficult. Tuning capacitor not needed.
From my experience I will say that to measure the inductance of the transformer does not make sense because when you connect the load to the secondary winding of the transformer primary winding inductance changes.
I picked up the capacitor as follows:
1. took a step down transformer (It only needs to adjust the resonance and that would not have burnt capacitors and measuring instruments)
2. connected down transformer  and transformer according to the diagram below.
3. and selected capacitor so that the UC and UL, are equal.
I think it is necessary to start with a 15 uF capacitor.
If the voltage UC> UL need to take condenser of large capacity. If the voltage UC <UL need to take condenser of lower capacity capacitor.
At resonance in a series LC circuit voltage UC and UL should be equal. These voltages at resonance will be much higher than the supply voltage! That's the secret how to more energy.
There is  such a thing as a quality factor (Q). This is ratio of inductive resistance (considered by the formula 2*pi*f*L) to active resistance at a given frequency. The greater the ratio, the more additional energy (in this case, UL and UC). This was written by Tesla and his patents.
I.e. if you have a LC-meter, you must first measure the winding inductance (by her count the inductive resistance at 50 Hz) and measure the active resistance of the winding. Calculate their ratio. The bigger it is the better.

Select a capacitor with connected load!
When you change the load, changing the inductance.
If you will not get an exact equality UC and UL it is not terrible. You'll see that all the same voltage UL must be higher than the supply voltage.

When you pick up a capacitor on the basis of the measured ratio of the voltage UL and supply voltage you can calculate which voltage to power the resonant circuit that would be necessary voltage at the load.

[wattsup]

@all

As @forest recommended I revise the 2004 device diagram with the transistor changes, I then decided to finish the complete system mapping as can been seen to not have to do it later.

Thanks @bass for clarifying the orange wire. I could not see it as entering the Tin Can but it does. Great. So I revised the last diagram and it is below.

wattsup

[bass]

wattsup

I think (and not just me) that the orange winding starts at load and go into the Tin Can.

Regards