RLC CIRCUIT

The voltage ( V C ​ ) across the capacitor is given by: 

 

 During resonant interaction, the incoming unipolar pulse-train (h) of Figure (1-1) as to Figure (9B) produces an step-charging voltage-effect across Excitor-Array (ER of t), as illustrated in Figure progressive function. 

 Figure 1-1 

 

 

 Figure 9B 

 

 Once the voltage-pulse is terminated or shut-off, voltage potential returns to an "ground-state" or near ground-state to start the voltage deflection process over again. 

 Voltage intensity or level across Excitor-Array ( ER of t ) can exceed 20,000 volts due to circuit (AA) interaction and is directly related to pulse-train (h) variable amplitude input. 

 RLC CIRCUIT 

 Inductor (c) is made of or composed of resistive wire (R7) to further restrict D.C. current flow beyond inductance reaction (XL), and is given by 

 

 Dual-inline RLC NETWORK 

 Variable inductor-coil (y), similar to inductor (c) connected to opposite polarity voltage zone (E4) further inhibits electron movement or deflection within the Voltage Intensifier Circuit. 

 Moveable wiper arm fine “tunes” " Resonant Action" during pulsing operations. 

 Inductor (y) in relationship to inductor (c) electrically balances the opposite voltage electrical potential across voltage zones (E3/E4). 

 VIC RESISTANCE 

 Since pickup coil (n) is also composed of or made of resistive wire-coil (R4), then, total circuit resistance is given by 

 

 Where, R E ​ is the dielectric constant of Argon (Ar).