When the operating frequency is raised the "distributed capacitance" starts to become significant at a point where L and C form a parallel resonant circuit as in "B".....
this statement about chokes is what i need to accomplish with my charging choke......i have it i just need to find the frequency.....each choke consists of 3 things......resistance R, inductance L, and capacitance C......the choke has it's own resonant frequency.....where the proportion of resistance, inductance, and capcitance is in perfect hartmony....the choke is resonating........with the windings in bifilar form this will also enhance the overall high voltage output......then we just apply this resonance to the wfc and we have our vic......in its early stages it might only be capable of voltages in the 1kv range or less.......but as long as it works as stated in the patent then it works......think about a stun gun......it uses a pulse circuit powered by a 9 volt battery sends it through a tiny transformer and into a capcitor where the electrodes are discharged on a person.......the tiny transformer is created to make voltages in some cases around 1,000,000 volts while holding back almost all amps so the person is severly stunned but not killed.......this concept is exactly what we are shooting for......and a resonant charging choke is capable of producing high voltage levels.....and a bifilar wound choke with a capacitor in between will produce 250,000 times greater than a normal inductor........this is where everything adds up.......
i am getting help on calculating the point "B" from a very intelligent individual from an electronics forum.......they have mention things which i have already come across in my studies.....hopefully they will be able to help me calculate this frequency without the use of a frequency sweep.
stay tuned......this is for the world.