Kapanadze Cousin - DALLY FREE ENERGY

[verpies]

I don't understand the arrows, or the caption in russian

The caption translates as "What wire is that?"

[itsu]

There is an easy trick that you should try with that nanopulser.
Namely, use an open coaxial cable instead of the C1 capacitor.

Ok,  some further sidetracking with my nano-pulser.
I put a 7.89m long open coax cable in place of the 3pF C1 cap like suggested.
Coiled up or not does not matter.

You can see the result here: http://www.youtube.com/watch?v=eAMby3BVa74&feature=youtu.be


Inspired by Hoppy, i checked out if an ATX PS can run on 220V DC as that is what we see in all the "Dally 2012" diagrams (it does).

Video here: http://www.youtube.com/watch?v=LSjfAp-YJSc&list=UUdJ2A-075yx9y4bKqu_8Q8A&index=1&feature=plcp

Regards Itsu

[d3x0r]

So regarding the KD203A or DSRDs how should these be connected vs the toroid's windings? 


If both are clockwise, a positive pulse on one side should be put on the negative(cathode) side?  Then the same side on the secondary should be on the cathode side of the other diode?   Seems If I get this backwards, then the pulse will just go through the diode and not go down the coax...


If the beginning of a CW winding on the toroid is connected to the cathode on one side, is the beginning or end of the other  CW winding attached to the cathode on the other side?

[d3x0r]

Ok,  some further sidetracking with my nano-pulser.
I put a 7.89m long open coax cable in place of the 3pF C1 cap like suggested.
Coiled up or not does not matter.

You can see the result here: http://www.youtube.com/watch?v=eAMby3BVa74&feature=youtu.be


Inspired by Hoppy, i checked out if an ATX PS can run on 220V DC as that is what we see in all the "Dally 2012" diagrams (it does).

Video here: http://www.youtube.com/watch?v=LSjfAp-YJSc&list=UUdJ2A-075yx9y4bKqu_8Q8A&index=1&feature=plcp

Regards Itsu

Interesting; so the cable length vs pulse time is probably important, so that the trailing edge of that pulse should hit the reflection (resonant 1 step)....


does the reflection time double with the shield shorted to the conductor?  ... okay saw that; so no, but it does invert the signal... so the falling edge should hit that....




Also nice to know about the ATX power supply; guess the first phase of that is a bridge rectifier to DC before any step downs even...

[verpies]

Inspired by Hoppy, i checked out if an ATX PS can run on 220V DC as that is what we see in all the "Dally 2012" diagrams (it does).

Pulsing the coax was fun and educational. I'd like to add that you had reflections from both ends of the coax. Anywhere not terminated with 50Ω creates reflections.

Regarding the ATX Power Supply:
It is obvious that it runs on 200VDC because those power supplies have full-wave bridge rectifiers at their input. Those with PFC - do not.

I think that Hoppy was objecting to the insufficient power to run the ATX PSU when supplied by L4 or insufficient voltage due to L4/L1 turn ratio (83/475=~1/6). Even if the unloaded L4 voltage was sufficient to run the ATX PSU then most likely the power input provided to the cylindrical coil L1-4 (by transformer Tr2), was insufficient to maintain this voltage when loaded with the ATX PSU.

His objection has merit if the transformer Tr2 (driven by TL494) is the only source of power to L4.

Hoppy's objection has no merit if there is power gain between L1 and L4 because of some undiscovered process stimulated by the nanopulses in L3 and the oscillations of the LC tank composed of L2 & C?.

IMHO this above energy gaining process can be stimulated in a Gain Medium such as ferrite, brass, or copper tubes/rings, but not in the Vinyl glue dispenser tube or air.