PULSE ATTENUATION CIRCUIT

PULSE ATTENUATION CIRCUIT

Objective: Voltage Disassociation of the Water Molecule.

A) VARIABLE POWER SUPPLY:

• Purpose: (See (1) of Figure 9)
  • Any type of conventional A.C., to D.C. or D.C. power supply (non-regulated) where an adjustable voltage range from less than one volt to 110 volts and up (first-stage to voltage attenuation).

B) VARIABLE PULSE VOLTAGE FREQUENCY GENERATOR:

• Purpose: Not to allow a constant voltage source to be applied to excitor array (voltage zones) while attenuating voltage amplitude for gas-rate control.

  Circuit Stage: (1) (2) as to (3) of Figure 9

  • Optocoupler (3) is a photosolation switch that when triggered by pulse frequency generator circuit (2) causes power supply voltage (1) to be attenuated as per Figure 9A, setting up a pulse voltage frequency. By varying the triggering rate of said pulse generator (2) from 1HZ to 1MHZ, said pulse voltage frequency (9A) is likewise varied.
  • Phototransistor of said optocoupler (3) now allows said pulse voltage frequency amplitude (Va-Vn of Figure 9A) to be varied from less than one volt to over 110 volts via said variable power supply (1).

Circuit Function:

1. The variable pulse voltage frequency (9A) is adjusted to keep amp flow restricted during first-stage to amp restriction by allowing said voltage amplitude (Va-Vn of Figure 9A).
2. The variable pulse voltage frequency amplitude (Va-Vn of Figure 9A) is directly related to hydrogen gas production on demand (second stage to voltage attenuation).
3. Both above said functions can be performed simultaneously or apart.

C) VARIABLE GATE CIRCUIT:

• Purpose: To switch off and on said generated pulse voltage frequency (9A) at a variable time rate while maintaining said voltage amplitude control (Va-Vn of Figure 9A).

  Circuit Stage: (4) (5) as to (6) of Figure 9.

  • Optocoupler (4) is another photoisolation switch that when triggered by variable gate circuit (5) (a second variable triggering circuit) causes said pulse voltage frequency wave form (9A) to be altered as shown in Figure 9B. The gated pulse train (16, on time) as to (17, off-time) is adjustable from 1% to 100% duty time. As on-time (16) increases, off-time (17) proportionally decreases, allowing more voltage pulses to be applied to said excitor's array (Va-Vn of Figure 9A).