@SkyWatcher123,

Awesome! You gave me an idea. This may be the final one involvng the

"Tunnel Diode"!

"The negative resistance region (between points A and B) is the important characteristic for the tunnel diode. In this region, as the voltage is increased, the current decreases; just the opposite of a conventional diode. The most important specifications for the tunnel diode are the Peak Voltage (Vp), Peak Current (Ip) , Valley Voltage (Vv), and Valley Current (Iv)".

Let's say we wind the ferrite core with a single wire coil. No magnets. The core's polarity would be singular N out. At CMF for DLE the rotor accelerates and the core density rises increasing phase lag. Now the "Tunnel Diode" which Works backwards from a regular diode senses the rise in output voltage and begins to decrease the current to the single wire core wrap reducing flux density!

I believe my innovation is finally finished now.

Hey Synchro1
So are you proposing the tunnel diode as a degenerate semiconductor (I think Bearden has written about it)?
Bob

@Bob,

I'm very pleased by the simplicity of the finished coil. I replaced the permanent magnets with an electro-magnet core that's powered by it's own output coil. The beauty of the "Tunnel Diode" is that it can demagnetize the core as the rotor speed increases to compensate for the additional external flux. This reverse voltage feedback feature should stabilize the "Phase Lag" and help sustain DLE acceleration. This coil has no moving parts and requires no external power source. A self energized reverse Lenz propulsion output coil. The Age of "Free Energy" may be at our doorstep!

@SkyWatcher123,

"Edit: oops, didnt think that through, of course the magnet will attract and repel at center, because they are the same pole.
Anyway, will be testing this".

You should have two "Bucking South Poles" at the center. What would happen to the input if you dead shorted the secondary leads?

Fascinating results! The capacitor delivers the largest input drop. What would happen if you increased capacitance value?

Hi synchro, not sure if results are amazing, they do seem different.
When secondary coils output is shorted, amp draw increases to .9 amps.
Checked from end to end of ferrite bead core with dmm up to highest 20 megaohm resistance setting and no readings show at all.
While pulsing, no readings show and after giving a rest, still no readings.
Will be trying higher capacity capacitor later and see what that does.
peace love light

Hi synchro, i placed a neo magnet at each end in same and opposite polarity and still no ohm reading.
I'm thinking about winding another bifilar over the other half in opposite winding direction.
It will then be bucking against the other bifilar when oscillating, though it might be worth seeing what happens.
Here is the schematic as it is now.
peace love light

@SkyWatcher123,

Thanks for trying. I'm glad I switched from Ohms to voltage to regulate the flux. The "Bucking Coil Inverter" looks really clean!

One final improvement:

I realized my DLE "Flux Controller Coil" needs a sister "Zener Diode" to channel output coil current to the storage capacitor, joined to the "Tunnel Diode". These two diodes would need to be connected by their input electrodes to "Fork" the current from the output coil. When the output coil voltage rose sufficiently, the "Tunnel Diode" would begin to restrict current flow to the internal electro-magnet core coil, as the "Zener Diode" opened up, permitting current to simultaineously flow from the output coil to the storage capacitor. Two seperate storage capacitors, offset in size with common grounds, might help. These "Symbiotic Siamese" diodes would combine to assist one another. They could nestle neatly together hidden behind a coil Wall. This finished coil would be difficult to tell apart from any ordinary coil at first glance. The difference is that this DLE "Synchro Output Coil" hides an intelligent core.

The "Tunnel Diode" can grow susceptible to back leakage after it reaches it's valley. A third standard diode in series between the electro-magent coil and it's charging capacitor would prevent this. I think that solves the entire problem. I would choose the same gauge enamel coated magnet wire for both coils perhaps 28 gauge, with a thin dielectric insulator between the coils. 1/2" high perm ferrite core with a few layers for the electro-magnet coil and a 2 to 3 depth to width ratio for the output coil. Plenty of thin wire turns! The core coil should have a N pole facing a N pole faceing out monopole rotor. Good luck!

This coil would be a major break through, have a COP of one over infinity, and replace nuclear fission if it worked as planned. A quantum leap in the field of free energy. Brace yourself for "Warp Factor Futue shock". Everyone has my blessings. May the force be with you! "Power to the People"!

Hi folks.
Ok, i tried the open circuit wiring for each separate bucking secondary coil and it works.
With basically two open circuit secondary coils, meaning one wire end from each connected to the led bulb, lights the bulb to the same brightness as before, using same .52 amps, actually seems a little bit brighter.
I took wire end from coil under oscillator at end of core and other wire end from center of other coil and this is powering the bulb.
Any thoughts welcome.
peace love light