but once again i am finding no reason of creating seperate sections for the bifilar chokes...please someone state your justifications on this....i have read what you have wrote alan but that does not seem right since we are to wind the chokes bifilar with both chookes being in each of the sections......this is why stan talks about the coating on the wires actually acting like a dielectric material....this tells us that the wires are together......so i honestly feel that the 14 different sections or so are not necessary.......
Kines,
This is from the brief without all the References notes
Inductor (614) and Inductor (615) is wound or coil-wrapped in such a manner as to increase the magnetic flux intensity between the turns of coil-wrap. The circular-spiral
turns of wire is separated by an Insulated Dielectric Coating Material which
forms a series of capacitors when magnetic flux-lines produces Electromagnetic
Coupling Field during pulse on-time. The
series resistance value is determined by ~e composition of the wire material in terms of its ohmic value per given length and diameter cross-section:
Resonant Charging Chokes 430F/FR 36 AWG (.006) stainless steel (s/s) wire equals 60 micro ohms per centimeter; Primary Coil 22 AWG (.028) copper wire equals 5.1933 ohms per pound weight; Secondary Pickup Coil (623) 35 AWG (.007) copper wire equals 13K ohms per pound weight. "Pyre-ML" trade name "Himol" polymer coating-material is used to impart thermal and mechanical resistance to the stainless steel (s/s) wire coating; both magnet wire sizes uses solderable Nysol (Polyurethane Nylon Jacket) insulation enamel coating as a electrical shield-material ... all dielectric coatings having an effective 3KV per mil dielectric value and formulated specifically to endure automotive temperature range from _ 40C to 155C.
Inductance Reactance occurs when resistance, capacitance , and Inductance interacts together during D.C. Pulsing.
Inductance Reactance not only increases voltage across water-capacitor beyond applied Voltage Potential but, also, establishes "Impedance Field" across Inductors which acts and performs as
Resonant Charging Chokes once placed on opposite side of capacitor forming Resonant voltage Effect Circuit. Both Inductors are Bifilar wound in equal length to optimize the electromagnetic field strength in equal electromagnetic intensity to encourage and promote "Electron Bounce" phenomenon while adjusting input signal Pulse-Frequency to "tune-in" to the "dielectric property" of water causing amp flow to be reduce to a minimum value while allowing voltage potential to go toward infinity if the electronic components would allow it to happen. Inductance Field performs
"Capacitance Charging Effect" , while, at the same time, Inductor Field restricts electron movement through VIC Impedance Network Circuit since Inductance Field locks onto Electrons Magnetic Field to block the movement of electron flow toward Positive Voltage Potential thereby preventing and inhibiting electronflow to pass through or arc-over capacitor water-gap such electron blocking action is herein called "Electron Inhibiting Effect'". At elevated.or higher amplitude voltage levels, primary electromagnetic coupling field transmitted by way of Inductance Pulsing-Core as to VIC Coil Assembly enters into and passes through both Inductors simultaneously and offers not only further electron-flow restriction to both Inductor Chokes but
automatically increases voltage potential of opposite voltage intensity of equal magnitude across
Resonant Cavity overcoming any potential loss of pulse signal due to resistive interaction of either or both Inductor Cores wire-material to the formation of Inductance Fields during reoccurring pulse on-time. Electron Inhibiting Effect in direct relationship to Voltage Enhancement Effect is accomplished since stainless steel 430F/FR wire-material is "Electromagnetic Inductive" to incoming electromagneticflux-lines (without (s/s) inductor-wire-coil becoming permanently magnetized ... paralleling and performing the same electromagnetic characteristic of copper wire when it comes to magnetic field reformation that encourages, brings-on, and perform Voltage Inducement Process without amp "influxing" between Positive Voltage Potential and Negative Voltage Potential electtically applied across
Resonant Cavities. In-Line Circuit Components Lengthening Inductor lengths applies an even higher Voltage Potential across Resonant Capacitor since
Inductance Reactance "Stores" Energy Inductance Reactance directly determines
"Stored" Energy Which is controlled by
input Voltage Potential attenuated or varied by way of Voltage Amplitude and/or Gated Pulse-Frequency or both.
There is an inductance coupling between each resonant cavity of the resonant coils (14) of this coil assy that require them to be seperate sections.