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EPG Version 2 Staged Coil
Magnetic Spin EPG Pump Ardunio Concept Version1 Push & Pull
First version of Arduino code to produce the Push-Pull pumping action for the "magnetic spin generator" version of Stan Meyer's EPG. Please reference the Dealership Manual for an overview,
LEDs provide visual representation of coils and their corresponding sequence of pulsing. This is a project that will be expanded on in the future.
Arduino Uno was used to produce linear pulse control.
The LEDs provide a visual representation for 10 coil linear pump assembly.
Each LED represents each coil pulsed in a sequential fashion to produce longitudinal movement of a magnetic medium.
Two potentiometers control the ON and OFF delay times of the LEDs (what would be the coils)/
int delayONinput = A0;
int delayOFFinput = A1;
byte ledPin4 = 4;
byte ledPin5 = 5;
byte ledPin6 = 6;
byte ledPin7 = 7;
byte ledPin8 = 8;
byte ledPin9 = 9;
byte ledPin10 = 10;
byte ledPin11 = 11;
byte ledPin12 = 12;
byte ledPin13 = 13;
int delayONMultiplier = 300;
int delayOFFMultiplier = 300;
int delayONTime;
int delayOFFTime;
void setup() {
pinMode(delayONinput, INPUT);
pinMode(ledPin4, OUTPUT);
pinMode(ledPin5, OUTPUT);
pinMode(ledPin6, OUTPUT);
pinMode(ledPin7, OUTPUT);
pinMode(ledPin8, OUTPUT);
pinMode(ledPin9, OUTPUT);
pinMode(ledPin10, OUTPUT);
pinMode(ledPin11, OUTPUT);
pinMode(ledPin12, OUTPUT);
pinMode(ledPin13, OUTPUT);
pinMode(delayOFFinput, INPUT);
Serial.begin(9600);
}
void loop() {
delayONinput = analogRead(A0);
delayONTime = (delayONinput / 1023. * delayONMultiplier);
Serial.print("mS time on is ");
Serial.println(delayONTime);
delayOFFinput = analogRead(A1);
delayOFFTime = (delayOFFinput / 1023. * delayOFFMultiplier);
Serial.print("mS time off is ");
Serial.println(delayOFFTime);
digitalWrite(ledPin4, HIGH);
delay(delayONTime);
digitalWrite(ledPin4, LOW);
delay(delayOFFTime);
digitalWrite(ledPin5, HIGH);
delay(delayONTime);
digitalWrite(ledPin5, LOW);
delay(delayOFFTime);
digitalWrite(ledPin6, HIGH);
delay(delayONTime);
digitalWrite(ledPin6, LOW);
delay(delayOFFTime);
digitalWrite(ledPin7, HIGH);
delay(delayONTime);
digitalWrite(ledPin7, LOW);
delay(delayOFFTime);
digitalWrite(ledPin8, HIGH);
delay(delayONTime);
digitalWrite(ledPin8, LOW);
delay(delayOFFTime);
digitalWrite(ledPin9, HIGH);
delay(delayONTime);
digitalWrite(ledPin9, LOW);
delay(delayOFFTime);
digitalWrite(ledPin10, HIGH);
delay(delayONTime);
digitalWrite(ledPin10, LOW);
delay(delayOFFTime);
digitalWrite(ledPin11, HIGH);
delay(delayONTime);
digitalWrite(ledPin11, LOW);
delay(delayOFFTime);
digitalWrite(ledPin12, HIGH);
delay(delayONTime);
digitalWrite(ledPin12, LOW);
delay(delayOFFTime);
digitalWrite(ledPin13, HIGH);
delay(delayONTime);
digitalWrite(ledPin13, LOW);
delay(delayOFFTime);
}
YES the Original Magnetic EPG Circuit Board is now Available from Secure Supplies
Stanley A Meyer EPG Style 4 Magnetic Pump V2
2 layer board of 9.86 x 9.86 inches (250.5 x 250.5 mm)
P r ic e
EPG Notes/Stan's Quotes
The quotes below are from Stanley Meyer literature.
The literature appeared to be in format similar to Dealership Manual. These quotes haven't been found in the public domain, for those struggling to continue EPG research,
YOU'RE WELCOME. Proceed with caution please.
EPG patents discuss using different permanently magnetized media inside the tubing.
This included a slurry, and gaseous forms.
Below is a direct quote from Stan related to the liquid/slurry:
"Slurry is composed of micro-sized permanently magnetized particles suspended in a fluid medium such as a liquid Teflon or light oil, forming a homogenous liquid-mass."
Direct quote from Stan related to gaseous medium:
"Permanently magnetized gas is composed of atom sized permanently magnetized particles suspended onto inert carrier gas such as Nitrogen or Argon, forming a homogenous gas mass. Both masses may be doped with different permanently magnetizable atoms"
Two diagrams indicated possible candidates, mentioned by Stan in his lecture, including Nickel and/or Cobalt atoms:
The methodology for how magnetizing the medium inside was speculated upon at the 2019 conference. It was mentioned that a capacitive discharge magnetizer machine, in conjunction with pickup coil array, could've been utilized to magnetized media inside copper tubing. The direct quote from Stan shed light on how close this speculation was:
"Once tube is filled with said permanently magnetizable material, said pickup coil array is electrically energized to produce electromagnetic field that completely surrounds copper tube. (Figure 33).
Exposing material to electromagnetic field, causes material (3) to become permanently magnetized. Forming longitudinal field. Said longitudinal field (4 - Figure 26) remains after said coil array is de-energized. No other energy is needed to maintain magnetic field. Longitudinal movement of fluid medium inside occurs with pumping methods."
It was also discovered that the EPG pump coils were composed of 400 turns, #30 gauge magnet wire. Between them were shunt steel plates. This same turn count and gauge may also be the same for orientation coil.
EPG Linear pump coil schematic:
EPG Speculations/Suggestions
*** Page will be continually updated.
Highlighted below, appears to be various, thick varnishing applied to outer surface of copper tubing on each EPG model. Figure 3 demonstrates the best example of this. Obviously, this was done to insulate adjacent tubing during operation. However, this could also provide further proof of magnetizing media using pickup coil array (please see other page in this section covering this topic).
Seen in the circled red area is dividers. It appears these dividers are placed in this location to provide support for pickup coils wound on opposite sides. This area being where the 90 degree fittings are attached couldn't receive pickup coils.
Figure 2: Electromagnetic Push-Pull EPG ("Magnetic Spin Generator")
Figure 3: Electromagnetic linear pump EPG
Figure 1: Mechanical pump EPG
Above, the green residue spillage seen on copper tubing has been speculated to be Copper Oleate. Oleic acid is utilized in the production of ferrofluid, typically used as a surfactant for separating iron particles. We know that ferrofluid was found at the estate sale, as shown below. Type is EFH1. EFH-1 criteria below was from Ferrotech website: FerroTech EFH-1