Vic Bobbin Multi Spool

Stanley Meyer

From Optical Thermal Lens Slide 

Wee all study the version this one seam to bee an vsion of  Bobbin style 2

with stainlss stl resistive wire 

  Bifilar Wrapped   

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Stanley A Meyer Dual Layered Multi Spool
Stanley A Meyer Vic Bifilar

Meyer`s "Dual-Layered Multi-Spool"

 •1 Oct 2017

Stanley A Meyer Bifilar VIC

In Memo WFC 429, page 10-4: "The magnet Coil-Wire (56/62) is best suited for Voltage inducement while the inductance/capacitance/resistance properties of Stainless Steel coil-wire (SS56-SS62) is appropriately used to restrict electron movement beyond the self-inductance of each energized coil when elevated voltage levels (up to beyond 40 kilovolts) are to be reached/obtained without experiencing any appreciable amount of "Amp Influxing."

 

Generally, magnet coil-wire length is longer than the Stainless steel coil-wire length and magnet bifilar-coil (56/62) is placed on top of Stainless Steel bifilar-coil (SS56/62) to maximize mutual inductance coil-field (Rp2) (adding Rp1+Rp2) of (690) of Figure (7-8) to cause coil capacitance (Cda xxx Cdn) to help maintain and even increase pulse voltage amplitude (xxx Vn + Vn 1 + Vn2 + Vn .... etc.)

 

while the resistive value (Rs2) of SS Coil-Wire (SS56/62) performs the work of further resisting the flow of amps not inhibited by both self-Inductance fields (Rpl + Rp2), as so illustrated in (690) of Figure (7-8). In all cases, bifilar coils (56/62 - SS56/62)

 

are electromagnetically orientated in the same direction." Stanley Meyer and Andrija Puharich work at about 600 Hz Resonance frequency. As you can see, the inductance of a Bifilar resonant inductor is not important !!! It`s important is the number of turns (like step-up transformers) and the number of serial connected bobbins !!!

 

My Circuit diagram: https://drive.google.com/open?id=0Bxn...

 

Memo WFC 420: https://drive.google.com/open?id=0Bxn...

 

Memo WFC 429: https://drive.google.com/open?id=0Bxn...

 

Memo WFC 425, page 6-3: https://drive.google.com/open?id=0Bxn...

 

 

Primary coil - 0.8 mm. (21 Gauge) Secondary coil - 0.05 mm.

(43 Gauge)

Resonant Choke coils - 0.1 mm. (38 Gauge) https://drive.google.com/open?id=0Bxn...

Meyer's VIC-Transformer is only a High voltage,

unipolar pulses "source"!!!

 

The two Resonant inductors placed on VIC core

(C1 and C2) is not "AMP INHIBITOR CIRCUIT"!!!

Adjusting C2 number of turns (Negative inductor),

only "tune" VIC`s output DC Offset.

 

VIC-Transformer is a Voltage source! Between VIC and WFC must be placed Bifilar inductor, like this: https://drive.google.com/open?id=13m3...

 

My Circuit diagram: https://drive.google.com/open?id=11Gl...

 

Value tables:

https://drive.google.com/open?id=1y_z...

https://drive.google.com/open?id=13bJ...

https://drive.google.com/open?id=1m3V...

https://drive.google.com/open?id=1kUb...

 

Full Meyer`s video:

https://www.youtube.com/watch?v=DuKfu...

 

My ferrite rod (9 pieces "RRH-175-107-285", with "Ferrite antenna" rod inside): http://tpetrov.com/search.php?prod=%D...

 

Other ferrite rod Websites:

http://www.amidoncorp.com/r61-050-1200/

 

http://www.amidoncorp.com/r61-050-750/

http://www.amidoncorp.com/r33-050-1200/

http://www.stormwise.com/page26.htm

http://nnelectronic.com/product.php?P...

The Bifilar inductor - the most important part of Meyer`s invention

•20 Aug 2018

Stanley A Meyer Vic Bifilar Muti Coil 2.
Water1 (1).png
Stanley A Meyer Vic Bifilar Muti Coil 4.
Stanley A Meyer Vic Bifilar Muti Coil.pn
Stanley A Meyer Vic Bifilar Muti Coil 3.

Big Red 

"I ended up building “big red” seen below in the photos. It is 3,305 turns of 28awg wire, bifilar (red and green)."

You want it bifilar with 28 awg and 3,000 turns....

The 3,305 was the max the coil form would hold.

 

The carrier frequency is 50-60hz and the modulations are 5khz but

your chokes must be self resonant at 5khz,

 

you need a 220ohm resister parallel with the water fuel cell. L2 + the cell combined must have the same impedance as L1 at 5khz to match impedance and you must extend the same wire the chokes are made from with no soldering to the cell, you cannot use additional wires.

A Good Reminder From Don Smith Resistors and Transistor can hold alot of capacitence so you should measure and account for that

Dan 

Stanley A Meyer Dual Layered Multi Spool
Stanley A Meyer Dual Layered Multi Spool
Stanley A Meyer Dual Layered Multi Spool
Stanley A Meyer Dual Layered Multi Spool
Stanley A Meyer Dual Layered Multi Spool
Stanley A Meyer Dual Layered Multi Spool
Stanley A Meyer Dual Layered Multi Spool
Stanley A Meyer Dual Layered Multi Spool
Stanley A Meyer Dual Layered Multi Spool

Stanley Meyer  Advanced the application of the multi spool Transformer.To Make Water Fuels on Demand

Stanley A Meyer Multi Spool Bobbin Circu

In Memo WFC 429, page 10-4: "The magnet Coil-Wire (56/62) is best suited for Voltage inducement while the inductance/capacitance/resistance properties of Stainless Steel coil-wire (SS56-SS62) is appropriately used to restrict electron movement beyond the self-inductance of each energized coil when elevated voltage levels (up to beyond 40 kilovolts) are to be reached/obtained without experiencing any appreciable amount of "Amp Influxing." Generally, magnet coil-wire length is longer than the Stainless steel coil-wire length and magnet bifilar-coil (56/62) is placed on top of Stainless Steel bifilar-coil (SS56/62) to maximize mutual inductance coil-field (Rp2) (adding Rp1+Rp2) of (690) of Figure (7-8) to cause coil capacitance (Cda xxx Cdn) to help maintain and even increase pulse voltage amplitude (xxx Vn + Vn 1 + Vn2 + Vn .... etc.) while the resistive value (Rs2) of SS Coil-Wire (SS56/62) performs the work of further resisting the flow of amps not inhibited by both self-Inductance fields (Rpl + Rp2), as so illustrated in (690) of Figure (7-8). In all cases, bifilar coils (56/62 - SS56/62) are electromagnetically orientated in the same direction." Stanley Meyer and Andrija Puharich work at about 600 Hz Resonance frequency. As you can see, the inductance of a Bifilar resonant inductor is not important !!! It`s important is the number of turns (like step-up transformers) and the number of serial connected bobbins !!!

 

 Circuit diagram:  

 

Memo WFC 420: 

 

Memo WFC 429: 

Memo WFC 425, page 6-3: 

 

Primary coil - 0.8 mm. (21 Gauge) Secondary coil - 0.05 mm. (43 Gauge) Resonant Choke coils - 0.1 mm. (38 Gauge)  

Stanley A Meyer Multi Spool Notes.jpg