He started with a circuit created by Alexander Meissner in 1913, shown here:
Production scheme of Alexander Meissner in 1913
Armstrong oscillator - Wikipedia
This circuit increases the current of the primary and secondary coils connected at terminal C of the transistor. When the voltage on the secondary winding increases and the current also increases, a back electromotive force (Back EMF) occurs on the steel core of the transformer. Immediately, the primary coil is subjected to back emf, which leads to a sharp decrease in current.
This leads to the fact that terminals B and E of the transistor are responsible for closing the circuit. The back emf will then charge capacitor C. This is a method of using the back emf to create free energy.
The addition of a capacitor in series with the primary winding is designed to take advantage of voltage transients during a sudden circuit break.
Thus, the coil and capacitor set up two oscillations: electrical oscillations on the primary coil and the secondary coil. Adjusting the capacitor C will create a resonant phenomenon of oscillations, which will lead to a significant increase in voltage.
Stefan claims that he built this circuit and can confirm that it is a self-resonant power supply circuit. After connecting a twelve-volt power source to the input terminals, the transistor is turned on, feeding the transformer, which applies repetitive pulses to the base of the transistor, maintaining oscillations. The rate of oscillation is regulated by the capacitor marked "C" in the schematic diagram above and the coil through which it is connected.
A combination of Alexander Meissner's circuit and Stefan Leben's free energy transformer
Stefan W. Leben continued to propose upgrades to Alexander Meissner's circuit from 1913. This modernization and improvement was aimed at optimizing the power of the transformer.
At the C terminal of the transistor, this time, replace the conventional transformer with a Charles Flynn transformer. The primary coil is now responsible for controlling and advancing the magnetic flux through the steel core of the transformer.
This flux will affect the primary winding of the Charles Flynn transformer. Between the primary winding from terminals E and B of the transistor and the primary winding of the Charles Flynn transformer, there is still the phenomenon of back emf. The work process is very similar to the scheme presented by Alexander Meissner in 1913. Thus, to improve and develop the circuit at this time, it is necessary to add a capacitor to the primary winding of the Charles Flynn transformer. See diagram:
Combination of Alexander Meissner's Circuit and Stephan Leben's Free Energy Transformer
The transistor stage still has self-oscillation, the transformer now consists of red and blue coil windings. This oscillation also oscillates the Flynn magnetic frame, creating an electrical output through the black coils at each end of the magnetic frame. This is of course an oscillating or alternating output, so the four diodes produce a full-wave rectified (pulsating) direct current which is smoothed by a capacitor connected to the diodes.
This circuit is started by very briefly touching a 12 volt source to the output terminals on the right. An alternative would be to swing a permanent magnet near the red and blue coils, as this creates a voltage across the coils just enough to make the system oscillate and thus become self-sustaining. Stefan suggests using a piezo crystal from a lighter and connecting it to an additional coil to create the necessary voltage spike when the coil is held close to the blue coil and the igniter clicks.
The odd problem would be how to turn off the device since it works by itself. To deal with this, Stephan suggests a double pole on/off switch to disable the output and prevent it from feeding the input section of the circuit. To show whether the circuit is working or not, a light emitting diode ("LED") is connected through the output, and the current flowing through it is limited by a resistor of about 820 ohms.
Anyone who wants to attempt to recreate this device will need to experiment with the number of turns in each coil and the diameter of the wire needed to carry the desired current. Stefan states that you should have at least twice the weight of copper in the (black) output coils than the (blue) input coils to allow the device to produce excess power. The first page of the Appendix lists the current carrying capacity for each of the standard wire diameters commonly offered for sale. As this is a fairly recently released scheme, I am not currently aware of any replications of it.
Application of free energy using magnets Stefan Leben and Charles Flynn
As can be seen from the diagram above, according to the theory of using back emf, along with the power of the magnet, we can see that the 12V battery can create a high voltage and high current output power source.
The question is, how can you use a 12V battery to power an entire house?
With the output of the above circuit, in the secondary winding of the Charles Flynn transformer, connect it to an inverter to obtain alternating current with the desired voltage and frequency. See the basic diagram:
Free Energy With Magnets by Stephan Leben and Charles Flynn
Free energy with magnets: Stephan Leben and Charles Flynn's transformer turns into ordinary electricity. Alternating current (AC) is converted to direct current (DC)
To be able to store electricity and supply more electrical appliances, we can connect more batteries (battery) so that the output of the transformer charges the "battery" And from this battery bank it is connected to an inverter to convert DC to AC.
Free energy with magnets: Stephan Leben and Charles Flynn's transformer turns into ordinary electricity. Alternating current (AC) is converted to direct current (DC) - the version that connects to a battery pack to produce stable power
Full text:
Free Energy With Magnets by Stephan Leben and Charles Flynn (air-fountain-water.blogspot.com)
Serge Rakarskiy
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