Tesla's Secret Free Energy Generator - Exploiting Transient Voltage
17/10/2024
OVERUNITY ELECTRICITY
This is a Free Energy Generator with a power of 100 kW. Who would have thought such a thing really exists? In this video, you'll learn a secret scheme on how to build a Free Energy Generator with 100 kW power. It's no secret that these technologies are hidden from the public so that ordinary people never figure out how the scheme works and how this massive installation actually functions—where it draws its free energy from.
The secrets of Tesla's free energy installation and the Canadian generator. For those who missed it, the Tesla generator you're seeing on the screen is a large tower emitting sparks—this is the Tesla generator. Now, as for the Canadian generator, it’s a bit more compact. Let’s take a look at what we have here.
We are now measuring the voltage. While it's off, there’s nothing to see, but when we turn it on, you'll see the magic. Let's turn it on and measure the output. Currently, we're getting 6.8 volts, and that equals roughly 1 kW.
Now, to demonstrate its power, we'll turn on a 2 kW kettle. Look at how it functions—it's operating perfectly! Notice the red light? Everything is working smoothly. Now, let’s raise the output voltage and measure how much energy we're consuming. It shows 14.7 volts, but when divided by four, it's about three. On the next page, I’ll provide a detailed explanation of the Tesla generator’s construction, the Kapanadze generator, and other similar free energy generators, which may operate on similar principles.
Hello, everyone! Today, I’d like to discuss these generators—PVC and how they work. I want to explain how the Kapanadze generator functions. I have the circuit right here, and you can easily build such a generator yourself.
Initially, like many people, I made the circuit myself and misunderstood how it works. I used to believe in reactive power, which was back when I had another channel. But since then, my understanding of the device has changed. Many people show it online, but now I know how it really works.
The speaker compares the energy extraction method to that of an induction stove, stating that while energy can be extracted, common approaches like using inverters are inefficient, yielding only 90% of potential energy. They explain that their method is based on Tesla’s discoveries, including patents for amplifying energy through the natural environment.
The process involves using a sine generator (E 838) that operates from 5 kHz to 50 kHz. The output goes to a Class B amplifier, which can be either a microchip or transistors. This amplifier drives a coil (L3) wound to a specific frequency (12,800 Hz) and inductance (50 microhenries), selected for maximum gain. The goal is to create a pure sine wave with a peak amplitude of 400 mV.
After generating the sine wave, the next step involves winding a second coil (L4), which will extract the energy. The speaker emphasizes the difference between their approach and traditional inverters, stating that they use a high-voltage generator and amplification through the natural environment. This method allows for charging the coil (L4) to a necessary voltage, such as 220V, and calculating the current required to avoid excessive heating.
The speaker explains that every wire has a maximum current capacity, determined by its thickness and characteristics. They proceed with calculations involving the natural frequency of the conductor, which depends on the wire's thickness and properties. The wire’s natural frequency is crucial, and the resonance created between L4 and the ground leads to maximum voltage output.
Additionally, the construction of the system involves creating gaps between capacitors, similar to designs seen in popular online shark installations. The speaker refers to Tesla's designs, noting that when L2 and L5 are correctly tuned, resonance will be achieved, resulting in maximum energy extraction.
In summary, the process involves careful tuning of coils and amplifiers to extract energy using principles based on Tesla’s discoveries and specific natural frequencies for optimal resonance.
This corresponds to the frequency L4, roughly speaking. This is the time L4, which is similar to L2, and, speaking broadly, it's around 1 Hz. At this frequency, there are a few pulses. Time has passed, around 100 Hz. The time has definitely passed, and there’s a pause — it's further than 100 Hz. The voltage on the primary L1 of the test needs to be adjusted so that you get L4 and so that the voltage is closed afterward. This is called a low filter, designed to pass only low frequencies. Basically, you will have a low-frequency generator. Hot pulses will work here, and you can connect transformers or a load, for example. Generated voltage is 12800 here, but no voltage will be present here — it will show up at 14. This needs to be removed because we don’t need to make an inverter.
There is no voltage here, but it will appear when Tesla’s correct frequency charges our inductance L4, which we built, to a certain level. Look, since we have an inductance, say 174, if we charge this wire, it has an inductance at this frequency. It’s 14 ohms — exactly what we need here. This is polarization. The particles are arranged. When the level reaches 220 V, current will appear. This is power, and accordingly, the power is there, but there is no reverse electromotive force (EMF). As for us, it consumes very little and doesn’t need to use an inverter. We get a device that, let’s say, collects charged particles from the surrounding space at high Tesla voltage and charges conductor L4. These particles are arranged correctly, and they just need to be charged. That’s where the energy comes from.
The diagram will be attached. This is a quick overview for the video, so take the diagram and listen carefully. The device is something you can build easily. Anyone can do it. The difference between what you find online is that those are just inverters or induction setups, and you'll never get more energy from them because they just convert energy. You generate a strong magnetic field, like with an induction stove, or you convert energy from Tesla directly, but this method draws down energy, so those methods are not suitable. This method is correct for obtaining energy, the kind of energy that’s present in space.
Of course, it sounds strange, but that's how it is. You need to understand the circuit. Someone smarter may recognize that this is a class amplifier, using certain transistors, maybe Class A or Class AB. There’s a stray voltage. A spark gap may be installed here, probably to limit the voltage level so that the winding doesn't exceed 54. All the windings are wound on a PVC pipe, and L5 is wound on top with a gap. There’s a bus, maybe a Kona bus or copper. You don't have to use a bus; you can use 16-square-meter wire.
I’m giving you some basic knowledge, but even if you have the diagram, it might not work perfectly. There are things like the wire between L5 and L4, which need to be wound in a certain direction, or you may need to flip it to make amplification occur in L4. Instead of using a blade, you can use the same induction, for example, only in antiphase. This also needs testing. I haven’t checked it yet.
This is what I’ve discovered so far. To find out more, who else has shown such diagrams? No one. I think no one has. I gave it to you. These are for the people who first came to the channel. You need to learn the basics before building such a device. I know the basics well, and now you can start building.
The diagram is sketched out so far, and how you use it is up to you. Well, friends, that's all for now. Like the channel, and I have a couple more secrets for you.
Two types of power generation technology (generator) of Nikola Tesla
- 🔹 Radiant energy
- 🔹 AC generator - Free Energy
🔹 Tesla Technology and "Free Energy" in practical application
