ENERGY AMPLIFICATION

[forest]

Mags

Good idea with external diode. Think more maybe you will find some magic. The is a surprise when you use some elements combination in not-ordinary clever way.
Think about very fast diodes 

[Magluvin]

Ok fellers
Worked on this a bit and seems promising.  I have included the cutoff diode, and added a recharge circuit to the discharge cap.  We are now getting more watts out than in.  Even though the output is a waveform and not steady wattage, it is clear that we see more out.   
The key here, in this circuit, was giving back to the charge cap from the lrc without killing it completely by using a diode and an inductor. The inductor helps to peal off some from the oscillations. Maybe just a resistor would work here, As in Teets first drawing, diode in series with a resistor. But i feel another reason for the inductor is to get some inertia there, maybe EXTRA coil, effects helping to recover even more from the lrc than it is giving. So that inductor needs some fine tuning to maximize the recharge if my theory is correct.

The wonderful thing is, The first time you charge the discharge cap, notice the input watts. But that is filling an empty cap, Then discharge till you see the cutoff diode do its thing then release. Notice the output watts.

Now charge the discharge cap again, what do you see?   Not the same amount of power it took to charge it the first time.  I was happy about that one.

This was a good exercise for me.  The circuit that has the 2 strings of diodes in the lrc is a bit different. The regulation properties are great, but I think I am getting some regulation here also if you see the output, and that could be the diode inductor recharge circuit. Im still messing with it.

Ok Void, have at it. If you find an issue please let me know.   This one is in a ruff state and needs fiddled, as in tuned and, well just fiddle. =]   I used my 2mh coil here as I want to build dis ting, and figure it before hand.

Mags

[Magluvin]

Here is the circuit

Mags

[Magluvin]

Here are some things to think about also.
The watts measurements are of the .3ohm resistors.  The source resistor should give a very good indication of power taken from the source over a period of time.

The other R of the lrc on the left, we are only seeing the power dissipated by that resistor. We have power being dissipated in the coil, we have power being dissipated recharging the discharge cap. Those add up to plenty.

Remember what the input power was when you first charged the cap? Well thats what kind of power the lrc circuit has to do to bring it back up from zero to almost source voltage. And power the resistor we are watching in the scope. Then we only have to top it off with source voltage after the first cycle.

Next will be getting the switching automated. I was going to work on it last night till Void saw something I didnt.
Hey,  until I got home from work today, I thought of nothing else.  When I sat down at the computer and logged in, I had no clue I was going to add a recharge circuit. But it came from watching the cutoff diode and seeing the cap always empty and having to get a dump from the source in a big way. When I added the diode only at first, I maybe got a cycle and a half before the oscillator died and woopy if I got some recharge, my output was crap. And I would have been happy with just gettin half recharge potential, heck anything to help the source not have to work so hard and reduce the input cycle.
But I added a coil to the diode and vuala. She peals enough for about 90 percent recharge and the power dissipated by the resistor.  The unreal kw(short time though) it takes to charge that cap empty, we brought it down to about 15w after the first cycle, over a much shorter time than the output lasts. Tesla trix.

Mags

[Magluvin]

Ok new circuit.   I used a diode and a coil, just all these Extra coils, to replace the switch to charge from the source so it does it automatically. It charges to the discharge cap WHILE the lrc charges, so the combo working together charges the cap even more than source. The charge on that cap begins at about 180v after power up from the 100v source, because of the coil and the diode.

So now all we have to do is turn on the power switch at the right and wait for the cap to charge. Now discharge till cutoff and release. You will notice the caps charge increases with each recharge. It will hopefully stop at some point. Naturally if the caps recharge increases after each recharge, there will be more energy in the lrc, thus more energy for recharge..

Notice the input power when you switch it on. Then watch it after the first discharge and recharge.

Ok back to work.  The input switch is solved.  =]    Now the cutoff switch. Goin with mosfets.  I gota eat foist.


Mags