I think I may have come up with an idea to tune the WFC in Stan's circuit. Usually when you create high impedance chokes the capacitance is sent to system ground but with Stan's system we have a problem. The problem is that the choke is an isolated transformer because of the diode and the voltage which is dumped onto the capacitor from the chokes is totally isolated and if you have a voltage bottleneck in a capacitor that isn't big enough or doesn't have enough surface area to get rid of the voltage into the water, the voltage cannot get back to system ground.
System ground is the same ground your primary current is fed from btw.
Now in the picture below i've placed a spark gap between the isolated ground and the system ground. You set the spark gap in relation to the size of the cell, the smaller cell will overload quicker so the spark gap would be narrower, if the cell is larger then the gap is wider.
In this way you can tune any cell to any system against voltage overload.

Or maybe we could do it this way....

Does anyone know what value in watts the 220 ohm resistor is in the 5 coil VIC was?

Hi Nav,

i remember that Stan, in some of his drawings, did indeed draw a earth connection in the load line. If i remember correctly, he draw it after L2. But you have to check that. Some weeks ago, i had that same idea, that this earth connection is important.........If you look at the radiant energy reveiver circuit from Tesla, you see simularites.

greetings Vortex

p.s. the pictures are from http://www.free-energy-info.com/Utkin.htm

first image: unlimited voltage rise, the spark gap wil end the time of voltage rise
second image: tesla radiant energy receiver with bifilar pancake coil and spark gap discharge