@Suudge and ALL I have a different view about this thing. I have shown that a pair of coils in series bucking mode will exhibit an induced negative resistance (i.e. a source of energy) if there is a magnetic propagation delay across the gap between the coils. And for coils wound on cores there will be a delay because the velocity of propagation in the core is significantly lower than light velocity. So the core itself is the key component that somehow supplies this power. If you use air cores separated by an air gap there is no anomaly.
The anomalous power will show up if you simply connect a generator to the coils and include a load resistor. The power into that resistor will be greater than it should be because of the energy supplied by that magnetic arrangement. However because the induced negative resistor is likely swamped by the coil losses it is difficult to get a handle on what the power would be without that anomalous source. If it were possible to have coil resistance lower than the induced negative value we would have self-oscillation.  . So it is not necessary to think about transformers.
IMO EMJ's transformer is just a method of inducing current into that coil arrangement. The direction of induced current in the secondary is what you would get for a normal transformer. And that creates flux that causes the primary to draw load current so that the two currents (pri and sec) almost cancel with regard to flux generation. I say almost because there remains in the primary the small magnetizing current at 90 degrees to the load current and that supplies the working flux needed for the transformer action. There will also be a current associated with flux leakage, i.e. flux created in the primary that does not get to the secondary. Because the special magnetic arrangement of the secondary is supplying some power, the in-phase load current in the primary is smaller than it would be otherwise, but there is nothing special about its direction.
EMJ talks about the primary and secondary current providing complete cancellation, but that is wrong, it is only the in-phase currents that do that. In any transformer there is always a small magnetizing current in the primary at 90 degrees to the load current. This is not a criticism of EMJ, he has spent years experimenting and discovered something special about bucking coils and is doing his best at explaining what it is. Had he not started this thread I would not have looked into the theory to discover where the anomaly exists. What I did could have been done by anyone over the last 100 years or so but no one took the simple step of applying a magnetic delay to the coupling factor in the classical formula for coupled coils. Had they done so science would have progressed beyond where we are now.
Smudge
Sumdge is right! Once you have the right conditions you can see a "Self Assisted Oscillation" - this still needs to be driven however, the input needs to guide the operating frequency! E.G: Turn off the input and the device can stop. Sorry for the repeated Video: [youtube]iJsVSMQqCOM[/youtube] In the above Video, I took the Magnets out and the same effects were visible! The coils needed to be configured as shown. Loosely! Yes, also moving the coils further away from each other did yield more output on the coils - unfortunately I did not have much room to move as you can see. This device was not OU! It only exhibited the Concepts. IMPORTANT: I had to have the load connected on the big coil on the other side or the condition was not apparent on the Partnered Output Coils, I used the term A Vector Coils in the video. @Itsu: This was the reason for my comment:
This may sound silly and trivial, but would you mind trying something for me, can you turn 20-30 turns of small AWG wire on the end coil, furthest away from the Input, and add a 1K resistor. Adjust the resistor down and see if this helps? maybe lowest say 20 Ohms.
Putting a small load on the input that is not related to the Partnered Output Coils simply just gets the Core moving through Hysteresis! This possibly may be your problem? I am not an expert, have tried to point this out many times. I am exploring a field that has really very little information! I am still learning every day. I am just showing what has worked for me.
« Last Edit: 2015-02-02, 02:21:56 by EMJunkie »
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Topic: Partnered Output Coils (Read 384863 times)
