Kapanadze Cousin - DALLY FREE ENERGY

[Tomtech29]

-do not get me wrong Dog-One good design  I have a question for you as J2 (SYNC)where you have the diode voltage rectification and regulation? you keep the frequency stabilization C2.3 1000pF to clock how to solve I'm curious because I did not work on the TL494 me correctly
superimposing a signal of low frequencies push poll will be disrupted by the impact of a large backfeed kick in the back, like a spring causing destabilization of the LC resonance (penetrating pulses on the capacitor) This small ferrite with a hundred winding is to suppress these Operating Noise and support behavior in adjacent frequencies,if someone has a different view on this detail please correct me.

[Dog-One]

   From the horse's mouth, Ruslan.
   quote by T-1000:
   "The entire setup is underunity until you get effect and this what also Ruslan said.."

And this is why from day one everybody needs to build their setup with the loop power supply and fast rectifier diodes.  Set your bench power supply to a few volts less than the loop power supply and adjust.  Getting all wrapped around the axle with input/output power measurements almost guarantees you'll skip right over the required parameters for self-running operation.  Were someone to glance up and notice the "DC OK" light on the loop power supply and the bench power supply reading zero amps, there would be no going back to the old "tried and true" ways of doing things.

[Tomtech29]

The use of the old scheme is not useful to anyone unless you have solved the problem and knows how to fix it?

[Tomtech29]

Here is a little mess and not really grab like this transistor will not go up in smoke ,a good way to ask the question of how it works, and when the switch is supposed to work?

[Dog-One]

-do not get me wrong Dog-One good design  I have a question for you as J2 (SYNC)where you have the diode voltage rectification and regulation? you keep the frequency stabilization C2.3 1000pF to clock how to solve I'm curious because I did not work on the TL494 me correctly
superimposing a signal of low frequencies push poll will be disrupted by the impact of a large backfeed kick in the back, like a spring causing destabilization of the LC resonance (penetrating pulses on the capacitor) This small ferrite with a hundred winding is to suppress these Operating Noise and support behavior in adjacent frequencies,if someone has a different view on this detail please correct me.

The thing I noticed in my first prototype developed on a Vector board was the back kick not only hits the drain of the MOSFET, it also hits the ground plain by way of the internal protection diode.  When you consider this device needs a ground wire to loop, that was a clue to me what might be happening throughout the circuit.  My goal with the PCB design is to go in the other direction from my Vector board design and see if I can spot an anomaly, a difference in behavior between the two.  The PCB design has an order of magnitude larger ground plain and should appear more stable.  Once fully built and tested, I should have that answer.

Also notice in Ruslan's latest video the effect seen when he simply touches the heatsink for the Tesla generator.  Grounding is extremely important here and my take from Ruslan's last video is that he hasn't fully determined what ground is important.  Some are, some are not and other grounds may actually be detrimental to the operation and stability.  What is most certain is that simple conductive mass adds capacitance and that capacitance must work with not against the inductance.  It's not as simple as just plus and minus.  There is more going on in the electrostatic realm.