Patent- Generator with more output than input

[Jim Mac]

Reminds me of my stepper project..  Since the stepper's output is high frequency, I was able to reach resonance of a secondary of a transformer..  It resulted in speedup under load..



My evaluation is,  when we reach resonance, the sinewave shifts by 90 degrees, thus negating Lenz.  So it runs Lenz-free.  This does not account for the speedup effect though..  IMO, when we neutralize Lenz, we also neutralize eddy currents as they act the same way as Lenz drag.

So when we spin the motor unloaded, we are still fighting eddy currents from the cores..  But when we harvest a load, both the Lenz from the coil + the drag from eddy currents get atleast partially neutralized..

This theory coincides with the observation that, Although we can get speedup effects, we can NOT make the rotor travel quicker than if there was no generator coils or cores.  

I always wondered, if we reproduce this setup, then amplify the output with an amplifier, would it enhance the neutralization and allow the motor to spin even quicker.

[unimmortal]

If you were to disconnect everything after your stepper motor and put a load on it, is it sticky? Ie. Can you feel a magnetic field between alligator clips. And hooking the rest of the system up, does the same magnetic field exist?

I've very recently realised that current generation needs to have the magnetic field removed somehow.

Maybe you've 'polarised' the field that now assists the stepper motor instead of resisting, hence the speed up.

[Jim Mac]

If you were to disconnect everything after your stepper motor and put a load on it, is it sticky? Ie. Can you feel a magnetic field between alligator clips. And hooking the rest of the system up, does the same magnetic field exist?

I've very recently realised that current generation needs to have the magnetic field removed somehow.

Maybe you've 'polarised' the field that now assists the stepper motor instead of resisting, hence the speed up.

It drags with a direct resistive load.  But speeds up when hooked to a transformer with the same resistive load on the secondary. It happens because the stepper can output well over 2 kHZ.  

The resonant frequency of the secondary matches the frequency, so the output shifts 90 degrees.  Thus eliminating lenz drag.

[ovun987]

Resonant circuit includes THE ATTACHED LOAD.

This, having the load permanently attached, building the circuit with the load and for the load, is the number one paramount criteria I have noted to be of utmost importance in designing an overunity setup.

Which is why it surprises me to so often see experimenters in this field varying their load...

[unimmortal]

Chiming back in after very hastily trying out a single bifilar coil in the Axial to loosely mimic this patent.

2 x 5 ohm windings, 24AWG. Rectified output: Open 30V, shorted 640ma. 12V/5W brake globe - glowing. Motor Input: 15W

Further testing with a load at resonance required, but in short, this patent is legit, and something I'll be pursuing.

Thanks for posting this up Jim.

[kloakez]

Wouldn't it be possible to rectify the output from the motor and charge a (big) capacitor with it? Thereby removing the load's influence on the motor?
Another option could be transmitting the power over one wire in an open system. What that would mean is that the motor and the load would be connected by one wire and the other wire would be ground.

Just some ideas from Don Smith systems. Wondering if it would work.

[unimmortal]

I did an interesting experiment years ago. I connected two coils to a timed pulsing circuit so they would pulse as motor coils at the exact moment a rotor magnet was aligned. Then I took one of the coils away from the rotor (still connected to the pulsing circuit, and hand held a magnet (same size as the rotor magnet0 in front of the coil at the same distance as the rotor magnet was from the coil. I could feel the change in attraction/repulsion in the magnet as the coil was pulsed. I learned a lot from that very simple experiment about the relationship between a rotor coil core and the magnets moving past it.

https://youtu.be/90t071rVfmE
https://youtu.be/nnKYlchUm5w

I don't know if anybody here was around when RomeroUK made a big splash amongst free energy folks, but I am pretty sure he learned some or all of the things I demonstrate in these two videos.

Hi Turion, I've been so caught up in what you've presented that I forgot to say thanks for all of the info.

I've got a design underway and a series of correlations to put together, but in relation to your first video with the magnets you are holding - did you get the impression or sense you were neutralising the resistance of like poles approaching on the rotor causing a speed up and more current flow? Or that with the N magnet in your hand, the coil/core was less attracted to the rotor magnet and without that wire resistance (lenz) more current could flow?

I personally think you have very simply demonstrated how you can lock or bias the equilibric field on the opposite side of the rotor.