Jeg :
Quote from: ramset on May 10, 2020, 05:00:10 PM
Tesla, within a patent relating to their use explains that bifilar or double pancake coils are able to
store many times more energy than single wire coils.
Bifilar coils maximize the voltage between turns.
Hi guys.
Lets assume that we have 12 wires in a straight line all in a parallel position between each other. All connected like Tesla's bifilar coil meaning that each conductor is connected at its end with the beginning of the next wire. We know that capacitance is evenly distributed this way and voltage difference is steady at any point between two adjacent wires.
Lets say now that those 12 wires are again wired like Tesla's bifilar but this time they are not in a parallel position but twisted. What the difference would be is terms of capacitance? What the difference would be in terms of stored energy?
Thanks in advance
Jeg
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Apart from someone's answer,
Akula and Ruslan induce resonance with the transformer primary coil,
Kapanaze speculates that it induces resonance with the transformer secondary coil.
The reason is,
It comes from the difference in wire arrangement and transformer material.
So the Ruslan generator has a simple rescue procedure,
The Kapanaze generator has a complex rescue procedure.
I am not talking about the complexity of the number of electronic components.
What the transformer can handle is a kapanase generator that extends the grenade-coil.
In contrast, the Ruslan generator handled the resonance in a transformer and the grenade-coil was used as a second transformer to amplify the voltage.
Kapanaze is the key to making the grenade-coil possible to resonate and amplify the voltage,
The heart of the Ruslan resonance is the yoke-transformer.
It sounds like a minor difference, but it doesn't make Ruslan very important to the grenade-coil.
https://www.youtube.com/watch?v=EFukUl43wWk&t=9sThe larger the grenade-coil winding, the higher the voltage can be obtained, but
TopRuslan33's grenade-coil is not thick.
With 9~12V input voltage, the voltage cannot be increased unless there is a separate transformer.
There is also a limit to the amount of current that can be obtained through resonance.
Kapanaze increases the input voltage to get a voltage value proportional to this,
Ruslan generators have limitations in obtaining high voltages.
https://www.youtube.com/watch?v=p9eSb0pvUG8&list=PLRL37ipeNHs9LitAWqDWcFyCLbm6Wbtc9&index=1We remember Andrew's pancake coil.
In Kapanaze, the grenade-coil acts as a pancake-coil,
In the Ruslan generator, the yoke-transformer acts as a pancake-coil.
So the material of the 50mm pipe that winds the grenade-coil is important.
There is a big difference between inducing resonance only with wires and using materials.
https://www.youtube.com/watch?v=Goq76CQapyIKapanaze's Mr-Tengiz would have also had a 50mm pipe material for the grenade-coil winding.
The reason for the Frenchman Andrew used Troidal-ferrite in a grenade-coil is also the same.
Akula and Ruslan were able to achieve resonance with only the yoke-transformer,
Early Kapanaze generators covered the weak resonance force with a high input voltage.
And I started making resonance in the Kapanaze transformer,
After that, the grenade-coil role actually decreases.
https://www.youtube.com/watch?v=NkmEhGt1yxAThick wires are essential to maintain high voltage and current.
https://www.youtube.com/watch?v=UKzXTAJJsbMAs the main body that creates resonance, it is a grenade, so you have to use thick wires.
So, as long as Ruslan uses a yoke-transformer, it cannot be the same as the original Kapanaze generator resonance method.
What Ruslan confuses the schematic,
It disguised as a secondary coil resonance like a Kapanaze generator, but in reality it is a primary coil resonance.
https://www.youtube.com/watch?v=s_zSeMslvlU&feature=youtu.beIn the video above, the triple-coupled grenade-coil returns to the secondary coil resonance like an old generator.
This is only speculation, but much of it was based on my experiments.