Selfrunning Free Energy 5 KW Kapanadze 8

A thorough examination of the Kapanadze video reveals that the vertical coil is wound with copper tape, forming a capacitor that captures environmental particles with the assistance of high voltage. Experiments indicate that it charges easily with minimal power required for generating high voltage. Additionally, a spark gap is utilized to manage and control overcharging. The larger horizontal coil functions as an output transformer, acting as an inverter. It has been possible to collect charge from the tape capacitor to operate a homemade inverter. While inverters utilizing integrated circuits are sensitive, a simple transistor-based inverter operates effectively. The older green box device utilized the windings to create a capacitor. A careful analysis of Kapanadze devices shows that the principle is straightforward and can be replicated even without spark gaps, especially when low power is the goal. The focus should be on the simplest method of charging a capacitor without affecting the source; once the capacitor is continuously charged, it can be utilized in various applications. There is a request for assistance in obtaining a file related to the TBC-100 flyback used by the WNY Group. Concerns are raised regarding the legitimacy of file-sharing websites that may host malware. It is advised to avoid ferrites and consider using real materials like iron, which can be degaussed more easily. The suggestion is made to terminate the exterior coil to the inner coil leaf to create a loop, with a preference for solid cores for this application, as the high voltage section will be used over the core. The field should ideally be a surface charge, with significant magnetic fields concentrated around the generator coils. There is a concern for the well-being of Tariel, with a willingness expressed to assist him and his family if needed. There is a mention of a copyrighted document and a request for a downloadable version, with caution regarding legal implications. The discussion notes that Kapanadze technology may be suppressed by Kapanadze himself and that the concept is attributed to Tesla. Additionally, instead of using a flyback arrangement, a Neon Sign high-frequency power supply capable of delivering up to 9KV (max 30mA) at approximately 20-50KHz is employed, with voltage output being dimmable from 1 to 9 KV in three steps.

In electronic circuit design, the Kapanadze device illustrates innovative methods of energy capture and conversion. The vertical coil, constructed with copper tape, serves dual purposes: functioning as a capacitor and capturing ambient energy through high-voltage induction. This design emphasizes the importance of efficient energy harvesting techniques, which can be applied in various applications, including renewable energy systems and wireless power transmission.

The horizontal coil's role as an output transformer and inverter is critical in converting the stored energy into usable electrical power. The ability to collect charge from the capacitor and utilize it in a simple transistor-based inverter highlights the potential for low-cost, efficient energy solutions. Transistor inverters, while less sensitive than their IC counterparts, offer a robust alternative for applications where simplicity and reliability are paramount.

The emphasis on using solid cores and avoiding ferrite materials in the design process is noteworthy. Solid cores, particularly those made from iron or laminated steel, can provide better performance in terms of magnetic field management and energy efficiency. The suggestion to create a loop by terminating the exterior coil to the inner coil leaf is a valuable design consideration that can enhance the overall performance of the system.

The integration of high-voltage components, such as the Neon Sign power supply, demonstrates an advanced approach to achieving high-frequency operation and adjustable output voltage. This capability allows for greater flexibility in various applications, including experiments with energy capture and conversion techniques.

In conclusion, the Kapanadze device serves as a significant example of innovative circuit design, emphasizing the importance of material selection, efficient energy capture, and the use of simple yet effective components to create functional and adaptable electronic systems.Have a proper look at the Kapanadze video in the transparent box and see that the vertical coil has copper tape windings on it resulting a capacitor that captures the environment particles with the help of the high voltage. I have done some experiments with it and it charges very easy with very small power used for generating the high voltage.

there is also a spark gap to maintain and control overcharge. In my opinion the big horizontal coil is the output transformer, acting as a inverter. I have managed to collect the charge from the tape capacitor and run a normal inverter home made. The inverters using ic`s are quite sensitive but a simple one using just transistors works just fine. The old green box device used the windings to form a capacitor. If we look properly at Kapanadze devices we can easily see that the principe is very easy and it can be replicated even without spark gaps if we aim for low power.

People should focus on the simplest way on charging a capacitor without affecting the source, once the capacitor is continous charged then we can do anything with it. Also, is there anyone that can go to the website I requested in my previous post and try to get that file on the TBC-100 flyback that is used by the WNY Group.

If the site requires payment, I don`t mind sending a paypal to cover it but I just can`t understand the language. wattsup, That file you mention is typical of file share website Malware. It`s an executable. If you are familiar with doing searches on file sharing sites you will find that virtually any term you use in your search (i.

e. try searching "i49zhmQrtZZYY" or any such nonsense) and it will show it has found several hits on your search. If you click on them you will find you need to pay to get access and once you pay there will not be any such file found.

I`m fairly certain the file you found there is malware or non-existent and just a way to suck people in to paying for access to file downloads. Looks that the forum has a problem with showing attachments. People can still view by clicking on the picture then it is going to enlarge. Another method is to download it then open locally in your computer, that will work always. I would stay away from ferrites. Try the real thing like the metal I`m trying to get a hold of. Iron would be easier to degauss as well if it did become semi permanent. maybe very thin bessemer steel coils can be made. It is very very soft and would make laminated coils. I suggest if the do to terminate the exterior coil to the inner coil leaf to form a loop. I still think the solid cores are better for this application. I am only going to be using the high voltage section over the core anyways. The field should be a surface charge anyways. The only heavy magnetic field will be around the generator coils. @ Stivep, Do you have any news about Tariel, is he in hospital again, and out of danger, do you have contact with him and if he needs help, we could make an account and help him and his family.

"Can you find away to download the whole spark gap document If you can please link that downloadable I will translate it with Google document translator. " This is a copy righted document. Not only that, The download link was already posted by someone else. By the way I can`t seem to find that post. I`m not falling for any legal traps. Nor would I intentionally break the law. It seems to me, the only way to have a Kapanadze device is to make Kapanadze or his kin speak out. The main supressor of Kapanadze technology is Kapanadze. Also, Kapanadze in his green device video admited that he concept is not his, but Tesla`s. As you can note instead of using a Flyback arrangement I take advantage to put in action an existing NeonSign high frequency power supply able to deliver up to 9KV (max 30mA) @ about 20-50KHz.

The output Voltage output being G ‚¬ dimmableG ‚¬ from 1 to 9 KV (in 3 steps). The first sparkgap for the first test 🔗 External reference