Simple Resonance collection circuit

The simple resonance collector circuit will keep the caps at a good charged state high in their phase shift, and the circuit will auto dump peak current/voltage back too your original source. You will notice the capacitor voltage rise is slow at the beginning from the BEMF and then in a linier state it accelerates too a higher voltage very fast. This is where I normally bleed off a little over 2/3 of the capacitor voltage rating for added gains. A crude way but it works, is too run a resistor from the capacitor back too the battery too maintain a high cap voltage level and trickle charge the battery.

Here we don’t completely want a diode plug extraction. It is when the voltage accelerates too its peak is where the free gains come in. If you interfere with resonance on its rise or fall you have just whacked a shock absorber on the spring. The resonance voltage must be allowed to spring up nice and high, then

you hit the top as this doesn't kill the action. Look at it like a ball, where you bounce it by tapping it near its highest height and it keeps bouncing higher. Now see the resonance peak clipping circuit being the same, where the secondary load causes a shock resistance that bounces the wave back down harder.

Do you like my scientific approach there? LOL –Phil.

Here is a quick shot off a simulation so you will see as the voltage hits a level from resonance or anything, the FET auto switches on and goes thank you I will take that.

I [Phil] use this circuit concept all the time in my other circuit designs, now I have thought to draw it out as a simple extraction Circuit on its own. The component values will allow you too adjust clipping off the resonant peaks from 80volts up to 300volts no problem with the adjustable resistor on the circuit.

If you want higher voltage collection you only need too change the Zener diode value too a high voltage rating or just whack another Zener in series with it. The only thing I didn't mark on the diagram was the FET model because it all depends what voltage they want too play with, but the IGBT part number listed previously in this guide will be perfect. That's the 1200volt one listed above.

It’s a perfect little circuit for tapping into the RV if you want too, or on any DC motor collecting BEMF or whatever, and you can adjust by turning the potentiometer how high or low of the peak voltages you want. With the RV I have found you want the energy circulating in the motor and left alone, but that's my belief so far and needs confirming.

Above is a picture of the resonance collector built for me by PHIL that has an adjustable voltage potentiometer allowing you too collect the peak signals of any resonance signal from 40volts too 400volts. This circuit has a 10 bar graph LED display that counts from one too ten each time the IGBT is activated, so a visual pattern is observed of resonance situations. A current meter is also used so a reading can be seen of what is being consumed on the DC collected output. The circuit has been tested under different conditions and has operated too perfection with no faults.

The circuit I developed (BCSRC) where each winding has its own capacitor, tunes each winding into an LC tank circuit whereby the use of this concept in conjunction with an inverter provides a cleaner and perfect resonance formation too lift the overall efficiency.