Re-Inventing The Wheel-Part1-Clemente_Figuera-THE INFINITE ENERGY MACHINE

[bajac]

Once the secondary 'Vsy' voltage is induced, the main limiting factor for the power output should be the size of the secondary wire. That is why I am using a #14AWG wire.

I am forecasting that the model of this transformer differs from the standard ones in that the primary parameters such as resistance and reactance do not affect the output power.

Wonju

[kEhYo77]

OK, so to better understand what we are dealing with here I have drawn a quick graph.

Now which one is the best?

[bajac]

KEhYo,

The original waveform shown in the first graph is about right when you have a pure resistive load. The inductance of the primary coils should distort the shape a bit.

I have no comments for the second graph.

The third graph is not correct. You are showing two sinusoidal voltages in 90 degrees out of phase. If you applied these two signals to full wave rectifier, then, you get the correct voltage that should be applied to the primary coils. The voltage applied to the primary coils should be half-cycle sine waves. Refer to figure 21 of the document.

Wonju.

[kEhYo77]

The third graph is not correct. You are showing two sinusoidal voltages in 90 degrees out of phase. If you applied these two signals to full wave rectifier, then, you get the correct voltage that should be applied to the primary coils. The voltage applied to the primary coils should be half-cycle sine waves. Refer to figure 21 of the document.
Wonju.

Maybe the '0' at the beginning of the time line is misleading a bit It is 0 A of current flowing through a coil. the trace is a sample from a running cycle when it comes to time line.

Just look at it graphically. It has the same shape as the current traces above, all of them have high and low peaks at the same time! The last one is a current trace as well, not voltage! At the minimum peak a small amount of current still flows through a coil as per schematic!
I am proposing this type of DC-offset sinusoidal wave form as it is my belief that maybe Clemente was trying to do just that!: linear or maybe even sinusoidal current rising/falling through the coils but he only had those simple inductive resistors at hand at the time of building. We do not know the operating frequency and input coil's and resistive element's inductances to predict the waveform on the output. It might have been close to sine wave AC...

[kEhYo77]

Basically in this configuration, there are two primaries on the sides and a secondary in the middle. Primaries create magnetic flux unidirectionally and the flux from each side corresponds to the induction of current in the secondary output coil in one direction only. Splitting the cycle in two halves allows the mirror "C" core part to become alternate path for the CEMF flux from the output to take a route through that core (which is not magnetized at the moment of maximum saturation with flux from the other primary). Now, I Get IT! Think about the BiTT - The same principles apply!