RESONANCE EFFECTS FOR EVERYONE TO SHARE

[gotoluc]

@Gotoluc

  Great explanations to humanity!

  Could you also explain the relation of  applied Voltage to the RC (Resonating Coil) and the output?  What if you play with input Voltage?

   Increasing the applied Voltage will increase Voltage on the cap linearly or exponentially?

  It seems you are receiving P = V2 / R = [0.8x0.8] / 10 = 0.064 Watts output,

  Can you let us know the input to the system?

  Why don't you utilize secondary wire as RA (Receiving Antenna) on the big Coil?

  Best Wishes.

Hi samedsoft,

thanks for the positive comment

Once the coil is tuned as I demonstrated in the video the only thing that is limiting the output on the secondary pickup antenna is the 10 volts RMS limit that my signal generator can output. This is where Groundloop's  H-Bridge circuit can be used to further increase the voltage going to the resonating coil. More voltage IN the more voltage OUT on the load and at this stage of testing they seem to be directly related. The effects of higher input voltage can be seen in my earlier test 8 video: http://www.youtube.com/watch?v=LBTSSHYrRJM

All Tutorials 1 to  5 are meant to help others to learn in a very short time what took me a few months to learn. It is not meant for calculating the efficiency at this time as many improvements will come hopefully with coil geometry and multi coil position amplification.

Hope this helps your questions.

Luc

[gotoluc]

Hello all,

@gotoluc

as always a very nice video and explanations.

Maybe I forgot but how many turns has your big coil?

Otto

Hi Otto,

I did not make it, (off the shelf as is from store) so I'm not too sure but it looks to be about 85 turns and measures .815mH

Luc

[gotoluc]

Great videos gotoluc! Video 4 got me thinking how much your setup reminded me of Tesla's wireless power devices. What would the readings be if your secondary circuit was an exact copy of the primary? If coil A resonates, then so should coil B if it is the exact copy of coil A. We could take it a step further and try using the same mass for each coil, but, with different gauges. For example... 1 pound(weight) of 22 gauge for coil A and 1 pound of 18 gauge for coil B.

How do you change or add capacitance to a self resonating coil without using/adding a capacitor? Or even how do you lower the inductance of a coil if you can't increase the capacitance?

Hi HeairBear,

your questions are related to what I had planed for my next testing stage. I want to test coils geometry, pancake coils cone coils bifilar coils identical tuned primary and pickup coils, plastic coated lamp wire vs. magnet enamel wire coils and so on. So you will need to wait some time for me to test this. I will post the video results as the tests are done.

Adding capacitance to a coil can maybe be achieve by using Litz wire and or having a really long coil wire. Lowering inductance can maybe done by adding Aluminum as center core. We also need to test all this.

Good questions tough

Luc

[gotoluc]

Hi gotoluc,

Nice job on this thread. I appreciate your work here.

I saw these videos a while back, he has done something just like what your trying to do here, I think they're worth a look.


Introduction to Resonance
http://www.youtube.com/watch?v=5Xefg-EfC4Q

Resonance Continued
http://www.youtube.com/watch?v=R2y9w9cbwcg

Proof of over unity
http://www.youtube.com/watch?v=Idey7O0WlU0

Interesting resonant wave forms from pulsed dc using a tuned LC circuit  - notice how the amplitude keeps going up as he increases the frequency to the next higher resonance level.
http://www.youtube.com/watch?v=tW3JW4g0No8

Pulsed DC2
http://www.youtube.com/watch?v=2dmKewxW8RA

So now the challenge is to put this extra power to work in a useful device.

Keep up the good work,

Thanks,

Shinz

Hi shinz62,

thank you for taking the time to add most of Overunity user: armagdn03 excellent resonance demo video's. Armagdn03 resonance Demo videos are what got me back on to pulsing coils again but this time I got good results.  I am very thankful of the work he has done and have acknowledge him at the first post of this topic and in other posts as he drops in from time to time.

Thanks for sharing

Luc

[armagdn03]

@ TinselK

The measurements done will give units in VAR or volt-amps-reactive. When dissipated into a load with power factor close to 1 (resistive) the power averages out to equal no increase. The purpose is to show use of reactive loads with a power factor as close to zero as possible. Transducers based on this principle produce the energy conversion ratios above 1:1. 

People paying attention will notice that less and less are we worried about conduction alone, but rather are interested in an interchange between seeming opposites in relative permeability (inductance) and permittivity (capacitance), which do not require the traditional circuit between positive and negative poles of the source. Such systems can be "open" as described by Gabriel Kron, floyd Sweets Mentor. For a good paper on the subject look up OSC theory By T.W.Barrett. Start thinking about building systems who are completely reactive through and through, if there is any dissipation of energy in a resistive or non reactive manor, you will have a difficult time.

I have continued development along these lines for quite a while now, and made this video along time ago. This is of course a out dated model compared to what is being designed now, however it shows concepts that have not been brought up as of yet. For those interested, before the use of the signal generator was deemed not necessary, the coil output more than the max power deliverable from the signal generator, not even taking into account the fact that only a fraction of that power was used in the input stages.  The loads shown are poor loads, not reactive based, and so the performance is severely stunted. 100 times more loads could be run on the same power, if the output had been reactive.

http://www.youtube.com/watch?v=uNYUu1VL1aM (will fix link here soon as possible)


Take for example the power stroke of an electric motor, motive power arises during the inductive rise off the drive coils in the stator. According to the reactive power model, when the inductor is at maximum saturation in the LC resonance cycle average wattage is at zero because there is zero voltage at this point. However as was just noted, this is the portion of the cycle developing the most power in the stroke of the motor due to the maxed out magnetic field component. This means that the greatest power is developed at the portion of the cycle with least wattage, meaning our concept of power (the watt) is not the last word in power measurement or development.

This shows how to build reactive motors as only one example, motors such as the variable reluctance motor are a good starting point, Dr. Peter Lindeman has recently brough the reluctance motor back into scene.