Kapanadze Cousin - DALLY FREE ENERGY

[AlienGrey]

   
   AG:   This (below) is the diagram of the basic TL494 circuit that I've built and replicated, and is in use for my induction circuit. But my device was made by a combination of three different TL494 circuits all combined into one. However, it still basically a replication of the diagram below.   

Nick it's not that circuit that's the problem it's how it's set up from what I have seen is important concerning the yoke
signals the rest appears to be done in the grenate pomegranate whatever you want to call it.
see scope shot it has 3 or 4 sections not 2 as you show voltage dead time current dead time.
but there is more to it than it is shown in yoke scope shot on working device.

[NickZ]

Nick it's not that circuit that's the problem it's how it's set up from what I have seen is important concerning the yoke
signals the rest appears to be done in the grenate pomegranate whatever you want to call it.
see scope shot it has 3 or 4 sections not 2 as you show voltage dead time current dead time.
but there is more to it than it is shown in yoke scope shot on working device.

   AG:  Well, if you say so.   I think that Geo created the dead time controls for the TL494 circuit. Yet, I don't see a self runner from that set up.   You can ask Geo just how he did it, if that is what you're looking for. Like you said though, there is more to it than just dead time control. I am following what Ruslan and Stalker have built, using their circuit diagrams, and their grenade wiring instructions.  And I'm focusing on just their supposed self running devices, not any others.

[AlienGrey]

on one of the russian forums one of the guys translation nickname the master say each transition going into the yoke should be about 33-38 % then deadzone filled with wave form from after cap ie across inductor then  next  yoke transition 33-38% then next sync pulse from inductor winding filling dead zone.
thats what the feed back circuit is for Akula used in his circuits.
The tesla coil is just an RF transmitter that has to be tuned and in sync.

Ask T1000 if he has seen it or knows anything about it?

[Bat1Robin2]

The yoke drive circuit is by design of the schematic driving one or the other of the output in a flip flop manner. This is what i discovered years ago when you pulse the tesla circuit it cuts off the yoke drive and decreases the pulse width of the yoke circuit and jumps the unit into a higher efficiency zone. It jumps it up but not overunity. This is why it needs to fire on mid drive of the yoke waveform to actually force the FET cut off early. I have rediscovered this again when using arduino to control every microsecond of pulse width drive.  Most efficient operation is dead zone time of yoke drive of about 5 microseconds or so on mine. For example 18 microseconds fet1 with  5 microsecond dead time, 18 microsecond fet2 with another 5 microsecond dead time. Program runs with 18 microsecond interrupt to drive the flip flop action with 5 microsecond dead time. This generates and output frequency of about 27 khz. Somewhere in the 4-5 range is the highest efficiency. The tesla circuit adds only noise to the output no significant power only special RF effects of lighting up florescent bulbs. Its largest effect in the original schematic is cutting into the pulse width control by forcefully control of the yoke FETs.  I switched to arduino control to cover all variations quickly. The tesla rings like a bell 1-3 mhz and generates RF nothing special that i have discovered at all. Also i have recently found out the topload is very important without it the power has no place to go and will reflect back and destroy your tesla drive FET. Also fet main power is best turned on after driver circuit is up and running to avoid startup issues. If not started up in the right order FETs will sometimes lock in the on state via RF feedback of some kind, luckily i monitor and limit current when experimenting. The ringing of the topload can be picked up by a single loop of wire near the secondary and can be used to trigger itself repeatedly also.  Its my opinion this is nothing more than an inverter style power supply with an RF noise generator. Adding ground wire has very little effect. RF can jump back into control circuit very easily and cause mass confusion, even the position of your hand near the unit changes the RF field. If you tune your scalar waves to my frequency we can start a secret chat forum. Im thinking about modulating the carrier with the yoke drive from the arduino to make a regular AM radio transmitter. If im real lucky maybe ill invent the CB radio again.

[T-1000]

   T-1000:
   Well as you may know, I've never been too fond of the idea of energy back from the ground line. I've always conceived it being the other way around, or energy going too the ground, instead. But, maybe it's both ways, instead of one or the other way. Like a static charge, just there. And energy may flow both ways, at once.   So, to test such an idea, I thought to place an air core coil (as suggested), which is tuned to resonance at about 13MHz, or so. And place it on the Earth ground line to see what happens, and what the signal looks like, as it can pick up much higher frequencies, in the MHz range. So, what value resistor do you think that I should place on that coil? It's not going to cook, as there is not much amperage on the ground line, normally. Geo had shown how he could light a bulb on his ground line, but, I never tried it. I don't like to disconnect the ground line when the device is running.
   Anyways, let me know what you think.                                                            NickZ

If to approach whole concept as mixed transformation with inductive Tesla coil (push-pulll and grenade coil)+capacitive static transformation from second Tesla coil (katcher circuit and "antenna" on top of grrenade's inductor) you end up adding ground current into mix. It may not be seen much in amperes but because there is high voltage involved in open circuit it counts towards decent power.
The CT on high frequency - just need to make sure it does not filter out frequency range on which Tesla coil works on with best ground response and CT does not ring itself on that frequency range.


The rest can be found out more on experimenting as no one did provide enough data from results before.

Cheers!