Memo WFC 422 DA
pages 3-6 to 3-7
Negative electrical voltage potential (61) of pulse wave (65a xxx 65n) of Figure (3-21) is
simultaneously applied to negative voltage zone (67) via Resonant Charging Choke (62) of Figure (3-
22) which is electrically linked to opposite end of Primary Coil (26). The resultant signal coupling ( 65a
xx 65n ) of Figure (3-21) is accomplished since primary coil (26), pulsing core (53), secondary coil (52),
switching diode (55), resonant charging choke (56), resonant cavity assembly (170), natural water (68),
and variable resonant charging choke (62) forms Voltage Intensifier Circuit (60) of Figure (3-22), as
illustrated in Figure (3-22) as to Figure (3-23). Negative electrical ground (61) of voltage Intensifier circuit (60) of Figure (3-22) is electrically isolated from primary electricaI ground (48) of Figure (3-22).
pulse wave (65a xxx 65n) is
simultaneously applied to negative voltage zone via Resonant Charging Choke of Figure
which is electrically linked to opposite end of Primary Coil
Negative electrical ground of voltage Intensifier circuit is electrically isolated from primary electricaI ground
sounds kind of contradicting when u here isolated all the time..
i think i made a mistake on my first drawing.. the connection is from the negative output to cell to the negative side of primary while having the cell driver circuit isolating them at the same time.. during the on time of driver circuit.. it is dead short and primary will not pull more then the load it wants 12 v.. when it is off the electrons runnign though primary are forced without a choice.. (isolated) cant go to ground and need to go somewhere..
will be making new pic