LC Circuit
Resonant Charging Choke (C) in series with Excitor-array (El/E1/E2) forms an inductor-capacitor circuit
(LC) since the Excitor-Array (ER) acts or performs as an capacitor during pulsing operations, as
illustrated in Figure (1-2) as to Figure (1-1).
|
Figure (1-2)
|
Figure (1-1)
|
The Dielectric Properties (insulator to the flow of amps) of natural water (dielectric constant being
78.54 @ 25c) between the electrical plates (El/E1/E2) forms the capacitor (ER).
Water now becomes part
of the Voltage Intensifier Circuit in the form of "resistance"resistance" between electrical ground and pulse-
frequency positive-potential
... helping to prevent electron flow within the pulsing circuit (AA) of
Figure 1-1.______________________________________________________________________________Stanley
The Inductor (C) takes on or becomes an Modulator Inductor which steps up an oscillation of an
given charging frequency with the effective capacitance of an pulse-forming network in order to charge
the voltage zones (E1/E2) to an higher potential beyond applied voltage input
input.
The Inductance (C) and Capacitance (ER) properties of the LC circuit is therefore "tuned"tuned" to
resonance at a certain frequency.
The Resonant Frequency can be raised or lowered by changing the
inductance and/or the capacitance values.
The established resonant frequency is, of course, independent
of voltage amplitude,amplitude, as illustrated in Figure (1-3) as to Figure (1-4).
|
Figure (1-3)
|
Figure (1-4)
|
The value of the Inductor (C), the value of the capacitor (ER), and the pulse-frequency of the voltage
being applied across the LC circuit determines the impedance of the LC circuit
circuit.
The impedance of an inductor and a capacitor in series, Z series is given by
(Eq 1)
Where:
The Resonant Frequency (F) of an LC circuit in series is given by
(Eq 4)Olun'
Ohm's Law for LC circuit in series is given byby:
