Kapanadze Cousin - DALLY FREE ENERGY

[T-1000]

Well, if you mention the NMR simulation at  http://www.drcmr.dk/JavaCompass/ ,
it would be prudent to maintain a strict analogy to it.

Wasabi correctly noticed that this simulation shows a unidirectional and constant strong vertical magnetic field, but the Dally device does not have any constant fields, does it?

Alas!, I don't think it even has a unidirectional field.

I could not find any better easy visual explanation of what is happening in process.
In simulation you are looking at there is constant aligment  of compas needle (magnetic domain) but in reality it will be AC sine wave driven rotating magnetic domain with second (small magnet) signal changing polarity too. So this is where you can compare it with what is happening in primary coil->LC  resonant balast coil energy transfer->output coil.
If that still does not explain what I tried to show, you might go and read NMR patents for better explanation:
http://www.nuenergy.org/pdf/GB763062.pdf
http://www.rexresearch.com/meyernmr/meyer.htm

It is crucial to understand process before you can take grasp on devices of this type and then actually assemble working unit.

[d3x0r]

 what is the flow of electrons in the cylinder?

I REALLY like this resonant frequency calculator, can give any two, leave third blank and it works.  It's a self contained script also, so can rip to standalone.


http://www.whatcircuits.com/lc-resonance-frequency-calculator/



Rewound my L1-L4 coils... these are more approximate to the dimensions, I found a cardboard tube that was about 4.58cm diameter.  I then used the flat sides of 1 Liter plastic bottles to make tubes that were an exact diameter to a seem so I could wind a coil on them.  L2 is about 2 layer of masking tape or 1 plastic bottle on top of L1, instead of on concentric PVC pipes.  I then wound RG58-strandedshield 21 windings, and a sub coil on the end that is 14 gauge copper 14x2 layers, so both ends come out like the blue windings of Dally.  Then I fit the outside on another sleeve of plastic bottles that fits outside.  Unfortuntatly the 14x2 coil is slightly larger, and I sized it to a slight diameter bigger than the coax...  will have to redo that one later ( RG50 - hooray for non american parts).


L1 is now 3.02mh (+.64)  (28 turns/cm  17.8cm, 498 turns, Dally spec 475, (needs minus 21, or 1cm-oh good, thought I was short )[/size]
L2 is now 20 gauge, 160 windings (to be turned back maybe) 0.400 ( -.865mh)  (currently 176 turns, Dally spec 159, needs minus 17, for 11 turns/cm )
L3 is now 0.020mh  (-.006)  (coax, shorter wire, needs foil shielding probably not stranded shield... but then what is the flow of electrons in the cylinder?  ) (21 turns as spec... )
L4 is now 0.182mh   (59 turns... that's actually what it should be... but then again at this diameter, it's more significant +/- a turn)


.... this this means I need 4uf capacitor instead of the 1 for L2....resonance at 4.2Khz.  Right now I have bad resonanance capping at only 50V . My (what was that first part, inverter) isn't generatating 150++V  ...


I dunno I guess I'll go forward with this,

I did some measuring of my coils...
L1 is 2.28mH  28gauge 
L2 is 1.265mH  24 gauge
l3 (insdie and outside) is 0.026mh (lowest end of my meter, not nesscarily accurate)
l4 is .126mh  12 gauge
the additional coil I had on L4 is .256mh



My L2 computes resonant around 4.3Khz with 1uf cap (almost exactly 1.0)


L2 was pk-pk 200V, the L1 driver voltage is something around 150V, as my neons only come on briefly, so, by turns, the best I could do ....

[size=78%]L1 is 22.5cm long, and using 28 gauge wire has 25 turns/cm for 562 turns.[/size]
L2 is 22.5cm long and using is approx 20 turns/cm for 450turns
L4 is wound with 12 gauge wire, 4 turns/cm, and is 24cm long, 96 turns.

[size=78%]L1 : 562:96 = 5.854 .... 150V/5.854 = 25V[/size]
L2 : 450:96 = 4.687 ... 100V/4.687 = 21V  (100V for half wave rectified...)


but I was clearly reading 75V on the capacitor across L4 (when L2 was at resonance)


The cap I was using on the L2 coil was also a 100V mylar capacitor, maybe that capped it?  But it didn't look chopped or have strange drops...

(lost author quote block)


1 ----------------------------------------------------------------------------Coil calculationâ€" One-layer coil a turn to a turn                Diameter of former D: 46 mm                Diameter of a wire d: 0.848 mm                Length of winding l: 134.454 mm=>Number of turns of the coil: 158.554=>Inductance: 354.738 µH   (3.02mh)  (coil too short)2 ----------------------------------------------------------------------------Inductance calculationâ€" One-layer coil a turn to a turn                Coil inductance 354.738 µH                Working frequency 0.0069 MHz                Diameter of former D: 46 mm                Diameter of a wire d: 0.848 mm=>Length of winding l: 134.455 mm=>Number of turns of the coil: 158.555=>Q~ 413 ----------------------------------------------------------------------------Contour calculation                Inductance of a circuit: 354.738 µH                Circuit capacitance: 1500000 pF=>Frequency of a circuit: 0.0069 MHz

[mihai.isteniuc]

Rewound my L1-L4 coils... these are more approximate to the dimensions, I found a cardboard tube that was about 4.58mm diameter .... 

Hope it's a typo. Should be 45.8mm 

@all: thank's for all the usefull data (T-1000, Vasily, Verpies, Itsu and so on)

Mihai

[d3x0r]

Okay, so I reassembled all these coils, measured inductances again and they were the same measurements... added some caps to get my L2 frequency down to 5-6Khz...


If I don't connect L1, I get plenty over solid high voltage in the neon/cap/resistor side of the coil.  As soon as I connect the other coil, I get a voltage drop entirely across that winding on the toroid.


I can get a resonant voltage in L2 of 50volts... and I dunno, probably that also reverse inducts into L1 in turn the toroid, so maybe there's a harmonic there that I can't control....


hmm... which by the way, when I use only the high voltage neon side, I have no frequency adjustment ability...


I need some terms for the outputs on the toroid...


Something I learned with the joule thief... if I had multiple secondaries, if I shorted one, the other wouldn't get the same amount of power... so both sides really had to be balanced....


But anyway, how do I keep L1 from being a 0 ohm load that consumes all of the pulse from the toroid?

[d3x0r]

Is there any reflection through a bridge rectifier?  Like is the capacitance on the other side actually part of the primary side?