Hello guys, Thank you for this space and i hope to help you understand what was really stanley meyer doing.
1° of all however you may think what i'm talking about doesn't relate to stanley meyer technology the reason of this is that Stanley didn't leave to us precise information on how the thing really works. He created a some concepts to confuse everyone.
I'm going to point the real good clues he left.
1n1198 diode
This is a high amperage diode. Was non sense to have a transformer where you have 40kv 1ma using this diode so it may be used for different thing that was my 1° thought.
40kv 1ma
40 watts
This gives to us very important information that is the load have 40Mohms of impedance.
10khz at this frequency the values for inductance and impedance are very practical values.
Voltage intensifier circuit Very similar to Resonant tank circuit Which also at the resonant frequency become a very high impedance because of the reactances of the capacitor and inductor and minimize to a minimum input amperage and maximize voltage.
A resonant tank is what is it called like. Is like a AC battery At the resonant frequency the inputed current flows from the inductor to the capacitor and vice versa and for every cycle it becomes bigger until it reach the limit of power the transformer can input.
It Recirculates many Kwatts of power. For example you can have 1amp recirculating for say and depending on the inductance to capacitance ratio you have more voltage per amp recirculating. For example if you maintain the capacitor the same and change inductance to a bigger value you will have more voltage to amp current. And here it is the amp restriction meyer was talking about.
The input transformer Or Vic :
This is a transformer designed to drive your tank. For example if you want to drive a 40Mohm load or our resonant tank. You need to have the impedance transformation of the transformer to match load as to have maximum power transfer. Hopefully i already designed a sheet of calculations on exel that give al the values you need very easy to understand.
Just choose Inductance, Capacitance, Input voltage from the battery,series resistance of the components in the tank. And you just observe the values.
I also designed a pll circuit that is quite replicable and you can see clearly.
Ocean water, river water, tap water, snow water, however he stated that any water can work.
Thats why i think he used the water in series with the tank because is impossible to have a high Q tank with the water in parallel. So it is in series. The switching diodes (here is high current diodes used) allow the current to flow only in one direction so i use two and two cells that are connected in antiparallel configuration between an inductor and a capacitor connected in parallel. Just as simple as this is impossible.
Stanley talked about solderable coating on the wire. This mean that he was making Litz wire for his resonant inductor.
All his calculations showed on his memo are on the exel sheet.
2°
I already have simulated this theory in a software called multisim and the values of the calculations are right everything also confirmed in practical tests. So it works.
Now i'm getting better components litz wire high Q toroids and constructing a big cell for start measuring the production.
I discovered that hot water would work a little better because the voltage needed for electrolysis goes down for a bit and i something makes think that pressure will influence in it too. So in the electrolysis process you can absorb energy from the environment.
Oh i forgot to say the water don't get hot during this electrolysis so the heat must be provided by the motor, sun or the like.
If you think about stan used a water heater too.
end of 1° post start of a new way of thinking.
