Free Energy Immobilizer Generator: The Alexkor Zero-Back-EMF Coils
https://www.overunity-electricity.com/2025/04/free-energy-immobilizer-generator.html
Overview of Alexkor's free energy immobilizer
Alex in Russia who has shared several of his motionless pulse-charging systems for batteries, now shares his design which does not appear to have any back-EMF effect on the primary coil. If that is the case, then any increase in output current draw does not have a corresponding increase in the current flowing through the primary coil. That is completely different to the way in which a conventional transformer operates.
This is a generator that has no motion (immobilizer), it has no rotation, like a free energy transformer, with an output power greater than the input power.
The arrangement is somewhat like the Transmitter / Receiver arrangement of Don Smith and while it looks to be a simple arrangement, is isn’t. Alex draws his coil configuration like this:
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| Free Energy Immobilizer Generator by Alexkor |
Here, his chosen form of construction is a frame of twelve lengths of 20 mm diameter plastic pipes – four at the top, four at the bottom and four verticals. Each pipe is filled with ferrite powder and there is an output coil wound on each of the four vertical pipes. Suspended in the centre is the primary coil which is 15 mm in diameter. All five coils are wound using 0.5 mm diameter enamelled copper wire (swg 25 or AWG #24). While Alex’s drawing shows a single strand of wire, the actual arrangement for the four output coils is that they are wound as a single layer bi-filar coil:
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| Construction and location of the coils in Alexkor's Immobilizer |
For this, the output coils are wound with two strands of wire side by side, in a single layer along the length of the plastic pipe. Then, the start of one wire is connected to the end of the other wire. As the coils are filled with ferrite, they can operate at high frequency, when the 15 mm primary coil is fed with either DC pulses or an AC sine wave. Each output coil can provide a separate output or the output coils can be connected in series to give a higher voltage or connected in parallel to give a higher output current.
Alexkor's free energy transformer building guide
The green coil in the center is the primary coil. It is powered by an AC source, or a DC pulse. For simplicity, let's use a DC pulse. Generate a DC pulse with the simple circuit below.
Then you need to add a 12V battery to power the above circuit. The output will be in the form of pulses, with a square-shaped voltage variation.
The DC pulse power to the blue primary coil will be as shown below.
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| The back-EMF from the secondary Bifilar winding will be blocked by the diode. And then the direction of the magnetic flux between the two crossed coils promotes each other - strengthens and resonates. |
Note: according to the projection of the square we have a diagonal and two crossed coils. This is why exactly 4 coils are needed and not 5 secondary coils.
In addition you will need the following:
The negative pole of the battery (0V) is considered ground, the positive pole of the battery is connected to Vcc in the circuit.
A plastic circuit board is used to install electronic components.
The components will be mounted on that circuit board. Use a soldering iron and tin, and wires to connect them into a circuit.
For simplicity, without installation, use a square DC pulse generator or a rectangular pulse.
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| Pulse Generator 12V |
Pulse Generator 12V: ZK-PP1K dual mode signal generator ZK-PP2KPWM motor speed controller ZK-PP3K PWM digital display pulse generator
Now, design the frames with the Ferrite core as shown in the original drawing. The PVC pipe will cover the cylindrical Ferrite.
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| Ferrite core |
Ferrite core: 1pcs Soft Ferrite Zinc Rod Cores Medium Wave Bar Dameter 10mmX50/70/80/100/120/140/160/180mm Diameter 10mm
Note that the green lines connecting the 8 vertices of the cube to the Ferrite core of the primary winding are also Ferrite bars.
Connect and design them firmly. The ferrite bars can be connected to each other, in contact, but must not be exposed. Then use a file to grind them smooth when in contact.
According to Alexkor's diagram, we have 4 output coils, each coil as a power source. To use this power source, it is necessary to convert it through a rectifier bridge diode first. Then put it into a polarized capacitor to create a usable power source, or go through an inverter to create AC.
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| Converts output voltage into DC power |
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| Converts output voltage into AC power |
You should use a high-power inverter, one with many features and many conversion scales. Because you may not wind the secondary coil correctly to create the desired voltage. However, the inverter can help you convert from 12V, 24V, 48V, etc. to 110V / 220V Sine wave AC.
There are 2 places to buy inverters for you to choose from:
Final note:
- Alexkor's transformer with double Bifilar windings (i.e. currents do not flow in opposite directions on a pair of wires) still has back-EMF from the secondary winding of the transformer. However, the two crossed secondary windings will promote each other by the back-EMF.
- There are 4 windings, there will be 2 pairs of windings, each crossed pair is promoted by each other (resonant). Therefore, not 5 windings but 4 windings to get 2 resonant pairs.
- The transistor in the primary winding will be turned off when the power supply is negative, or blocked by the Diode. The back-EMF will be blocked by the Diode.
- The reverse emf from the secondary Bifilar coil will be blocked by the Diode. And then the direction of the magnetic flux between the two crossed coils promotes each other - reinforcement and resonance. Look at the figure above and make notes for it.
You should design an additional charger for the 12V battery by assembling electronic components, including the potentiometer circuit. But for simplicity, you can buy a charger for the 12V battery by converting the power to charge.
At the output coils, tests show that the output power is greater than the input power. There is no reverse emf to dissipate power in the primary coil.
Finally, I would like to introduce a modern-style plan but based on old-world science:
⁂ Revealed At Last...!
Self-powered generator with feedback circuit for input.
⁜ Generates Energy-On-Demand: 👉 Harnessing the power of the Field※ Transistorized snap-off technology to harness energy from dielectric inertia.
※ This is a modern version of the self-powered generator, suitable for today's manufacturing - just buy the electronic components and electrical equipment to assemble, then expand the scale and increase the power of the machine. In addition, the plan has many other modern and unique methods!
