Kapanadze Cousin - DALLY FREE ENERGY

[NickZ]

   Quote from T-1000:
   it included 2 parametric circuits with opposite polarity connected together and each leg involves resonance in parallel+standing wave+resonance in series creating surge right on standing wave pin point where Voltage from one coil meets Amperage from another and generates excessive effect...
 
   What does this mean, I've heard you say it many times, but I don't understand how to do it. Can you draw a diagram and be more specific???
   I'm not concerned about the self running aspect for now, but,  to focus on the actual cause of making a big output, from a small input source. Who, if anyone, has done what you are mentioning?

[Void]

Possibly the 5 uF  AC run cap on the yoke circuit is acting as a spark gap, this I'm fairly sure of, there may also be needed a diode there, on that circuit. Then, what is happening at the big air coil? Everything there would be working as in normal inductance mode, even though the big secondary coil is going from the ground connection to the bulbs, that in itself is NOT a big eye opener. EXCEPT, for that choke and cap circuit in isolation, in the center of it with the aluminum sheeting, next to it.  Hendershot style.

Nick: I already described in detail how the primary circuit is working in the previous Akula video in Reply #1242, a few posts back. There is nothing particularly special with driving the primary this way. I also explained how you would likely have to tune the choke and parallel capacitor in that same post. Nothing too mysterious there that I can see.

[T-1000]

   T-1000, Verpies, and All:
   I think that we really need to focus on what is making these devices work.  Let's just forget about the voltage source, inverter, and first rectifier, for now. As well as the feed back coil, cap, and second inverter. As these are not what is making this device produce an unconventional output. So, what is left? That is what we need to look into...

I tried to explain all these circumstances from my point of view what might make devices work (that still needs hard evidence with independed experiment) starting with post in http://www.overunity.com/12736/kapanadze-cousin-dally-free-energy/msg357338/#msg357338

From my view what is essential is to have there 5 things at once - resonance on paralel(L1C1) in primary, feedback from secondary to flip-flop circuit for breaking power input when secondary is starting to draw current so coils stop affecting power source, on the same air coil to have quarter wave resonant frequency between choke and secondary(L2C3L3) and resonance on same frequency on seeries and most important - creating standing wave between choke L2 as voltage source and L3 as current source. From the point where they both make standing wave you have shockwave what needs to be utilized by the load.
These all conditions are critical and need to be precise so with this environment you create something what is not in conventional physics...

[NickZ]

  Guys:
   Void, and T-1000, thanks for your input.
   But, what we really need is some hard evidence, diagram, and hands on example of our opinions, as a back up to the proof of concept, theory, or ideas.
   Has anyone got anything that would prove the point, an example of such a device.
  We can all state how we think it should work, like L1/C1 needs to be in resonance, etz... but how do we do this, exactly, exact parts, and configuration, and know that such is indeed what is needed.  Do you get what I'm saying?  We can theorize all  day long, but just exactly how is this done, is what is needed at this time. Over a thousand pages of theories have not gotten us anywhere, yet.
  Some kind of proof of concept, showing small input/big output.
  I know that it's not easy.  But...

  EDIT:  Void, I just read you post that you mention in your last post. I had missed it before, I will consider it.
   Ramset:  I had also missed your post.  Thanks for the advice. Sometimes my patience is not what it should be.

   Quote from T-1000: 
"while trying to understand what are working principles over experiments done by various people over time including reproducing NMR effect by myself but my personal goal was not to go and consume another matter as fuel but use N. Tesla type of technology where we have resonances on matter + standing waves and that can work for much cleaner way than device with NMR based energy production".  End quote.

  I really have to agree with your "personal goal", as it is also mine. As I feel that after watching my father working in a nuclear radiation lab, for years, that radiation in any form (even from cell phone, etz...) is what I would consider not desirable. Or its future consequences, and disposal once discarded, as it's true dangers may not really be known, for years to come. Then may be too late, for some of us. 
  Also,  I don't feel that it is similar in any way to how nature works, at all.   My personal opinion.

 

[Void]

  Void, I just read you post that you mention in your last post. I had missed it before, I will consider it.

Hi Nick. What I am talking about with the primary series resonant circuit and how the choke would likely be tuned is not theory. I was basing my comments on the hand drawn schematic which Akula's previous demo board seemed to follow fairly closely. In a prior video Akula showed some tests with driving a series resonant circuit and how it produced high current. This is the same primary circuit configuration used in the hand drawn schematic as well. Since Akula seems to have followed the hand drawn schematic fairly closely (except for maybe some parts the main coil configuration), then I am pretty certain that is how he set up the primary circuit in the previous Akula demo video.

Using a series resonant circuit for the primary circuit would require that your transistor driver circuit be frequency adjustable. You would have to set the frequency of the transistor driver circuit to run right at the resonant frequency of the series resonant primary circuit. This resonant frequency is easy to find if you have an adjustable sinewave generator and an oscilloscope. If you don't have an oscilloscope, you could use a clamp on type ammeter over a wire in the primary circuit and adjust the transistor driver frequency until you read maximum current. You don't need to care about an accurate current reading as you are just adjusting for maximum current flow in the primary series circuit. If you don't have a frequency adjustable transistor driver circuit, then it will be tougher to tune. You would have to vary either the total inductance of the windings or change the series capacitor value, to make the primary resonant frequency match your transistor driver frequency . That is not so easy as just adjusting the frequency of your transistor driver to match the primary resonant frequency.

If the choke coil in the main coil assembly is parallel to a capacitor as shown in the hand drawn schematic (tank circuit), then this parallel tank circuit would probably be tuned to the exact same frequency that you are driving the primary at, which is the primary's series resonant frequency. It looks like the main output coil secondary winding in the hand drawn schematic is not tuned for resonance, and so the goal with it may well be to just wind it with magnet wire with a whole lot of turns so it steps up the secondary voltage to a high enough voltage to light the lights even when the lights are connected in.

That all seems fairly straight forward over all. So what might make the circuit produce over unity then? Well, the choke coil configured for parallel resonance with a capacitor and with the choke coil placed inside the other coils might contribute to some sort of boost in performance, but it would be hard to see how that might give over unity by itself. That aluminum sheeting that is wrapped around the coil form, which is between the choke coil and all the other coils, might be contributing something unusual to the whole arrangement, but who knows.

I think the best approach to try to set this up would be to build a frequency adjustable transistor driver circuit so you can easily drive the primary series circuit right at its exact resonant frequency. This resonant frequency may change a bit when you add or make changes to the other coils, so having a frequency adjustable driver would allow you to fine tune the driver frequency as you make any other changes to the whole coil assembly. Once you get your coils wound and you find the right driver frequency, you would then tune the choke and parallel capacitor to match the driver frequency you are using. There may be a bit of a back and forth there as you tune up the choke tank circuit, as it may impact the primary resonant frequency as you change the choke tank circuit tuning. Having a frequency adjustable driver circuit would make the tuning much easier here as well.

The question I would have is, is that aluminum sheeting connected to anything such as another coil, or is it just placed in there with no connection? Without having more specific details I think the best you could do there is experiment with a few different ways to connect the aluminum sheeting in, and compare to leaving it unconnected. I will see if I can find some time to do some experiments with this sort of setup over the next month or so. I am also interested in trying this out.