Hello,
According to Vladimir Utkin pdf, the asymmetric capacitor is some sort of current amplification???
so i am trying to understand this,
pls pls pls,
what you think?
Thanks and Best Regards
luc2010
Sorry,
can this possibly work?
Thanks and Best Regards
luc2010
The top drawing seems to be the basis for the T.T. Brown (so-called) antigravity work, heavily adapted to give the B2 Spirit bomber a push forward rather than antigravity. i.e. you should find that the caps will move if the voltage is enough. You should find a very great deal of research work, and maybe the answer to your question, in this field. Try the NASA research papers site.
I don't understand what the bottom drawing consists of. Please can you give us a circuit diagram.
Hi paul-R,
Sorry, my goals towards new energy generation system!
please, any gains in this arrangement?..or just the same power in and out ( High volt with low amps vs high amps low volt)
the bottom drawing is just a two ordinary transformers
Thanks and Best Regards
luc2010
Quote from: Paul-R on March 17, 2015, 11:43:17 AM
The top drawing seems to be the basis for the T.T. Brown (so-called) antigravity work, heavily adapted to give the B2 Spirit bomber a push forward rather than antigravity. i.e. you should find that the caps will move if the voltage is enough. You should find a very great deal of research work, and maybe the answer to your question, in this field. Try the NASA research papers site.
I don't understand what the bottom drawing consists of. Please can you give us a circuit diagram.
@Luc2010,
Good to see you got this interesting topic on a new thread!
Quote from: luc2010 on March 17, 2015, 09:25:24 PM
the bottom drawing is just a two ordinary transformers
What is the input? Mains AC ?
You have the transformer inputs and outputs shorted.
Quote from: Paul-R on March 19, 2015, 10:53:46 AM
What is the input? Mains AC ?
You have the transformer inputs and outputs shorted.
that is an interesting issue...
measuring the resistance in each coil, we will find that one is different than the other
more current passes through the coil of lower resistance.
this induces change in current in the other coil??
What exactly happens when both coils of a transformer are run in parallel?
I imagine it will work like a bifilar coil (center-tapped), but I have not researched one that is so "unbalanced" as this...
shouldn't be hard to test if you have a transformer handy
I used a 12 Volt mains transformer as supply (AC). Used two toroidal 230-to-24 volt transformers. If I connect the transformers as the drawing shows, my lightbulb (12 Volt 3 Watt LED) lights up perfectly. Not much is lost. A very low voltage can be measured per transformer.
As soon as I disconnect one lead, the led dims to almost nothing. If I disconnect the other lead as well (the 230 V leads of trafo 1) and connect those together, the LED light is lit again (almost fully or fully). I also tried attaching something to the 230 Volt side, a neon light is orange to reddish on it, and a 220 Volt (led 2 Watt) light will light up (most LED lamps for 230 Volts will run from 80 Volts upwards, depends on brand and such) but not bright.
I even tried to swap the 230 V wires, to be sure I tried the current not going against each other. And I tried it with both trafos. There was a very slight change in used watts (all the time I had a watt meter in use). And I also tried connecting the 230 V leads from trafo 1 to trafo 2. as well in short cut mode, as in parallel mode. If in series (shortcut) the light was lit up normally. If I had the wires in parallel, there was not much current, the led was dimly lit. And I was not able to light up a 230 V LED light on it.
Oh, and I even tried 24 V trafo 1 to 230V trafo 2 and visa versa, but still normal power usage and normal LED light.
At no point I had the idea I came across something weird.
I do not know how often I posted this one here
https://www.youtube.com/watch?v=EB-jWfzkz_E (https://www.youtube.com/watch?v=EB-jWfzkz_E)
Kator01