hello people from earth I'm finishing my prototype and i need some money because its parts cost a bit and I'm out of funds so i guess can just help you to understand what resonance really was in meyer work, this information will make you understand the reason why he used stainless steel wire for his charge pump vic transformer, and why it is not necessary, I'm going to show you why he used 1200v 40 amps diodes and why he said it could work with any water.
From the start.
The Vic transformer.
This is a charge pump transformer because it has a diode of high voltage low amps maybe 40kv 1 amp overkill connected between the secondary and what stan calls Resonant charging choke 1. the other resonant charging choke is connected straight to the secondary or can also be not necessary being only the secondary continuation. Anyway any of this is important because the important thing here is that it wont resonate with the cell as stan made everyone believe he was doing. Stainless steel wire was just to add resistance as to damp any tentative of resonance of the vic that could destroy it. It serves only as a high impedance output for charging what was the real resonant circuit. i'm going to show a diagram of exactly how the coils are arranged for the vic. Anyway a normal transformer would also work and also with no diode the only thing is that the secondary inductance should be higher than the real high Q parallel resonant inductor by a fator of at least 100. The reason for this is that you don't want the very high power current kwatts recirculating power in the resonant tank to go thru your transformer thin wires. The resonant frequency of the transformer connected to the resonant capacitor should be much lower than the actual resonant frequency of the resonant inductor and the resonant capacitor i think its clear enough.
A tank circuit or parallel resonance is known to accumulate power and its ability to accumulate power is defined by its Q factor. You should want a not very big value of inductance and a bigger capacitance. Vic just keep inputing lets say 20 ma pulses every cycle and than the current recirculating within the tank grow and grow and grow up up to very high value. I reached with simulation more than 100 kwatts of recirculating power with only 50w input power over a very wide range of frequencies and values of inductance and capacitance. The bigger the capacitance the bigger the current if you proportionally reduce inductance to maintain the same frequency. Thats too simple.
(the recirculating currents build up to its maximum value in few microseconds depending on components values)
The Resonant inductor that is arranged in parallel with the resonant capacitor must be made of thick wire 4mm or higher. Could be useful to use litz wire to have a greater Q Factor.
Its like induction heating systems.
The resonant capacitor should be very high Q too Because it must handle very high voltages and high recirculating current. I bough a Vacuum capacitor 125pf 60kv 280amps from jennings that costs 2300$. vacuum has almost 0 losses. It could be done with ceramics too and i'm going to try it too. But money is needed.
Now i ask you if you want to give a help to finish my project make a donation on pay pall
https://www.paypal.com/cgi-bin/websc...if%3aNonHosted
If i receive donations i will keep posting the rest of the information like where the hell you must put the water to have all this power to efficiently decompose the water. the diodes the values of the transformer windings ... and how to get ahead of the dielectric proprieties of water to have maximum flow of amps at resonance.
any help?
I'm so sorry to have to do this but all information on web is crap everyone still thinking that stanley meyer was using the only the vic resonating with the wfc.
I need donations.
Later i can explain how this apply also to the gas processor and how stan used this as an electricity source for his car.
If you could donate any way how much would 100$ cost to you? 100$? How long you've being reading and anywhere no one has no idea of what really resonance is so how much time you lost how much misinformation have taken place.
Hope you see my point
From the start.
The Vic transformer.
This is a charge pump transformer because it has a diode of high voltage low amps maybe 40kv 1 amp overkill connected between the secondary and what stan calls Resonant charging choke 1. the other resonant charging choke is connected straight to the secondary or can also be not necessary being only the secondary continuation. Anyway any of this is important because the important thing here is that it wont resonate with the cell as stan made everyone believe he was doing. Stainless steel wire was just to add resistance as to damp any tentative of resonance of the vic that could destroy it. It serves only as a high impedance output for charging what was the real resonant circuit. i'm going to show a diagram of exactly how the coils are arranged for the vic. Anyway a normal transformer would also work and also with no diode the only thing is that the secondary inductance should be higher than the real high Q parallel resonant inductor by a fator of at least 100. The reason for this is that you don't want the very high power current kwatts recirculating power in the resonant tank to go thru your transformer thin wires. The resonant frequency of the transformer connected to the resonant capacitor should be much lower than the actual resonant frequency of the resonant inductor and the resonant capacitor i think its clear enough.
A tank circuit or parallel resonance is known to accumulate power and its ability to accumulate power is defined by its Q factor. You should want a not very big value of inductance and a bigger capacitance. Vic just keep inputing lets say 20 ma pulses every cycle and than the current recirculating within the tank grow and grow and grow up up to very high value. I reached with simulation more than 100 kwatts of recirculating power with only 50w input power over a very wide range of frequencies and values of inductance and capacitance. The bigger the capacitance the bigger the current if you proportionally reduce inductance to maintain the same frequency. Thats too simple.
(the recirculating currents build up to its maximum value in few microseconds depending on components values)
The Resonant inductor that is arranged in parallel with the resonant capacitor must be made of thick wire 4mm or higher. Could be useful to use litz wire to have a greater Q Factor.
Its like induction heating systems.
The resonant capacitor should be very high Q too Because it must handle very high voltages and high recirculating current. I bough a Vacuum capacitor 125pf 60kv 280amps from jennings that costs 2300$. vacuum has almost 0 losses. It could be done with ceramics too and i'm going to try it too. But money is needed.
Now i ask you if you want to give a help to finish my project make a donation on pay pall
https://www.paypal.com/cgi-bin/websc...if%3aNonHosted
If i receive donations i will keep posting the rest of the information like where the hell you must put the water to have all this power to efficiently decompose the water. the diodes the values of the transformer windings ... and how to get ahead of the dielectric proprieties of water to have maximum flow of amps at resonance.
any help?
I'm so sorry to have to do this but all information on web is crap everyone still thinking that stanley meyer was using the only the vic resonating with the wfc.
I need donations.
Later i can explain how this apply also to the gas processor and how stan used this as an electricity source for his car.
If you could donate any way how much would 100$ cost to you? 100$? How long you've being reading and anywhere no one has no idea of what really resonance is so how much time you lost how much misinformation have taken place.
Hope you see my point
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