Kapanadze Cousin - DALLY FREE ENERGY

[T-1000]

Hi all,

Seeing you still struggle lighting up 40W+ bulbs near Tesla coil with a plate connected I decided to give some hints how to succeed on this simple experiment.
So first at all, most people are making Tesla coils with very thin wire thinking about tens of thousands volts for making streamers. While you can make long thin streamers the power that coil can give is not so much. So if you got spare 0.3-1.0mm wire I would advice to make another Tesla coil for comparison. The thicker wire, the more amps will be flowing in the coil and also more power can be held if you keep same voltage compared to the coil made from very fine wire. The heigh of the coil will also increase but this is how it is in Sergey's place with around 1 meter height of Tesla coil. Also the streamers will become much thicker if you choose to bleed power out of it. The coil made from the thicker wire will light up 40W+ bulbs easily.
So here is the plan for that experiment

Cheers!

[Void]

Hi T-1000. For me it is not really about how big of a light bulb you can power, but how little input power
it takes to do it.

[T-1000]

Hi T-1000. For me it is not really about how big of a light bulb you can power, but how little input power
it takes to do it.

There comes "magic" when you drive Tesla coil with less than 20% duty cycle. The heating element does not have much difference from between 50% or 5% duty cycle pulses coming to it...

[AlienGrey]

And there lies the missing piece of information.  We do not fully understand or appreciate the capacitive
element of the Ruslan, Sergey, Akula, Dally, etc  circuits.  Maybe the type of insulation on the wire
is important, or how tightly/loosely the coils are wrapped.

I highly recommend (unless you already have a self runner), replicating what Woopy demonstrates here:
https://www.youtube.com/watch?v=94yCfy8z4lc

Then replace the split rolled copper with various coils arrangements.  It is fairly easy to do and will
provide a means to better understand the capacitive side of these devices.  Take measurements;
look at the waveforms, but be careful not to blow up your scopes.  You might even discover a way
to significantly increase output beyond what the rolled copper plate produces.  That would be a
huge step in the right direction.  Try different things, bucking coils, mini grenade coils, heavy
insulated and straight magnet wire.

You may also want to determine the running frequency of the Kacher driver and replace it with
a signal generator to see what effect the changing capacitance has.

I'm pretty convinced as I mentioned recently what these devices must be doing, but I'm a long
way away from understanding how it does what it does.  Experimenting may be the only means
to shore-in this understanding.

If it's any use I made this device 5 or 6 years ago, it lit the 40 watt bulb dead easy but it was not overunity.

I now have a device using the IR21530 and 2 igbt2's that's far more efficient, but forget it if you want smoothed DC the bright light fades and it draws more current if a cap is used to smooth the output ripple, assuming you used UF4007 fast diodes the ripple runs on the dc carrier.

[NickZ]

    Which is what I'm concerned about. That the components are actually filtering too much of the spikes, and the output will suffer for it.  And that's why I've asked for the output readings, when both induction circuits and the Kacher are tuned and working properly. Before going that route myself.
   Input is only 1/2 of it, we need to see what happens at the other end, especially when using the PWM, PLL, etz...
as I don't think that those components are adding a thing to the output, but restricting it instead.
Not being able to light up even what a normal 100 watt bulb will do, is the proof in the pudding, of these circuits. Or not?
   
   Ruslan did not complain about the spikes killing his components. Or did he? As I don't know what he's normally blabbing about.

   Dog:  After several years of people coming up with different types of circuits, like Kacher/Exciter circuits, Joule Ringer, Joule Thief circuits etz... I haven't seen a single one that will self run. Including all of the LaserSaber, Woopy, and many others guys circuits.  As Kachers are not efficient for use on incandescent bulbs. 
  This last blurry video powering up 2000w from a simple Kacher circuit is a hoax, as far as I'm concerned, until it's actually replicated, and proven otherwise. Which is not going to happen, at least not from one of us.
  So, let's get back to the Ruslan replications, and waste no more time discussing an unrelated device, that we'll never be able to replicate in anycase, as there is not enough info on it.  Of course, it's up to you.