Akula0083 30 Watt Self Running Generator.

[JohnnBlade]

Hi Meno,

My device is different from akula device, mine is Tesla ACMM.

But what you mentioned is what i have been testing, its the behavior of my device and not the effects from akulas circuit. ( but i do have all akula parts in house to try most of akulas circuits, but sofare im more testing work of Tesla )

Now that i added more pick up coils i had to change of train pulses to.

Its now        X . . X and then reset and if my pulses are X . . X . . . .  And then reset then my output amps start affecting the input amps but i can get about 150mA extra but input will go up by about 30 or 50 mA

With the current pulses, the input does not change while i short circuit the output but output can get up to 380mA while in stays at 270mA ( 270mA is my reference point )

Greets JB

Ps: i will make another movie whereby i do all my default pressure tests.

JohnnBlade, maybe you need use more lower frenquency of space if you not using any back pach? Or ajust R11 if you using back pachs.Can you make photo of your divice and show that going from Tl494 in oscilioscope photo?

[EMJunkie]

@EVERYONE

This post just might be the most important post of all this thread!

LOOK AT THE FACTS!!!
Everyone, facts are facts! Words means nothing if a fact proves the words to be wrong!

All the Experiments, all the circuits show such thing as a pulse train! If you find a circuit or a video which proves this to be wrong please provide the evidence!

This is totally wrong! Take ONLY the facts from the entire Akula experience and leave the rest behind. Repeat the Akula Experiments! Do what he did!

Please, everyone, don't get side tracked!

All the Best

  Chris

@EVERYONE


Wesley tells you the same as I just have: -->Wesley Translate's Akula#7 SCHEMATIC Free Energy Device<--

PLEASE don't get side tracked!

All the Best

  Chris

[TinselKoala]

This utterly cracks me up. A couple of days ago Steve Weir made a comment on my latest Akula waveform scoposcopy video...

These situations are a really good application for a phase locked loop that uses a multiplying phase comparator.  A multiplying phase comparator which can be made with an XOR gate will average out the random noise.  A CD4046 is ideal for these low frequency signals and includes both a multiplying phase detector, and a phase frequency detector.

Is Steve in cahoots with Akula, I wonder? Or maybe the other way around?

But that's an old video, from November of last year. Surely we have moved on from there?

[JohnnBlade]

Isnt that a frequency devider instead of a multiplier?

Im using that one to, to devide my frequencies, but not multiplying it, but it has less pins

@Steve

Good shit Tinsel,

This utterly cracks me up. A couple of days ago Steve Weir made a comment on my latest Akula waveform scoposcopy video...


Is Steve in cahoots with Akula, I wonder? Or maybe the other way around?

But that's an old video, from November of last year. Surely we have moved on from there?

[Farmhand]

I wasn't sure where to post about this here will do. Maybe one of the folks experimenting with TV yolks have noticed the effect I will describe below, or maybe it is normal, although I can't say I've seen the effect so pronounced.

Setup is a regular smallish TV yolk with around 100 turns on each half of 0.5 mm magnet wire one side has about 4.25 mH and the other is about 3.85 mH, I connected the function generator to the 4.25 mH winding with a sine wave signal at almost full amplitude which I think is about + - 18v and scoped both windings. The LC calculator here http://www3.telus.net/chemelec/Calculators/LC-Calculator.htm says that with 4 mH and 100 pF capacitance (added for instrument capacitance) the resonant frequency should be at about 250 kHz and it does seem as though it is as the amplitude of the wave forms peak and the undriven winding increases voltage from slightly less than the driven winding to about the same.

But here is the interesting part when I keep increasing the input frequency then the undriven waveform distorts then increases amplitude a lot but the driven one doesn't ( it's on the opposite half of the yolk, they are clipped together), then when the input frequency approaches around 1000 khz the undriven winding phase differs from the driven one and develops a quite high voltage sine wave which goes to 330 volts pp while the driven side is still 14 volts pp. I haven't used the HV probe yet to see actually how high it goes.

My question is. Is this normal ?  I can make a quick video clip to show it if get time tonight. It's kinda interesting.

I would not have thought that driving the winding at a frequency so much above the LC resonance would show such voltages. What am I missing ? I'll investigate some more and get some better numbers make a drawing or short video clip or something to better explain, typing is a pain.

..

Correction above : the undriven wave form peaks at 330 volts pp with the driven wave form at 14 volts pp and 90 degrees phase difference between them at 1040 mHz.

I guess I'll try some capacitors and see what happens. 

..