Kapanadze Cousin - DALLY FREE ENERGY

T-1000 · June 11, 2019, 02:56:11 PM

Quote from: WhatIsIt on June 11, 2019, 02:13:25 PM
I am little bit struggling here to imagine this. Can you elaborate this little bit more? Please?
What will affect what to power amplification occur?

OK, lets start with basics.

Consider the case where you have 2 power inputs and one output on transformer. Depending on how much current is going through each primary and how much in sync they are it will effect power of the output coil.
Moving on to next case. Now imagine secondary transformer coil is not connected as coil but it is connected as capacitor plate. The second capacitor plate is also coil and is connected to another closed loop circuit. So what happens with the output when you introduce a bit of current in secondary circuit? The resulting answer - https://www.youtube.com/watch?v=AMkywy34A78 (as one of many examples, just in Russian)

And finally - when one of inductor coil outputs is connected to external circuit. And the another coil/capacitor plate is connected to secondary circuit in same way. Should be reaching same effects with 2 currents going over same wire, right? And that is exactly how I can describe grenade coil where one of inductor ends is connected to the ground and we have "antenna" with sharp pulsed DC for creating open circuit between air and ground.

Cheers!

WhatIsIt · June 11, 2019, 03:52:42 PM

Quote from: T-1000 on June 11, 2019, 02:56:11 PM
OK, lets start with basics.

Consider the case where you have 2 power inputs and one output on transformer. Depending on how much current is going through each primary and how much in sync they are it will effect power of the output coil.
Moving on to next case. Now imagine secondary transformer coil is not connected as coil but it is connected as capacitor plate. The second capacitor plate is also coil and is connected to another closed loop circuit. So what happens with the output when you introduce a bit of current in secondary circuit? The resulting answer - https://www.youtube.com/watch?v=AMkywy34A78 (as one of many examples, just in Russian)

And finally - when one of inductor coil outputs is connected to external circuit. And the another coil/capacitor plate is connected to secondary circuit in same way. Should be reaching same effects with 2 currents going over same wire, right? And that is exactly how I can describe grenade coil where one of inductor ends is connected to the ground and we have "antenna" with sharp pulsed DC for creating open circuit between air and ground.

Cheers!

From the video he has inductor of low inductance, which can eat lots of amps. It is air core connected to secondary transformer which output is controlled to desired frequency.
First and second circuit are not connected. It is air core.

And he had 220V and lamp glow.

Quote
So what happens with the output when you introduce a bit of current in secondary circuit?

First circuit act as one plate of cap, and second circuit as second plate.

How to introduce current in second circuit if they are not connected? It will transfer via air core as much as it can, and current will occur in second circuit. Question is how much first circuit spends to do that?
First circuit is low inductance.

Sorry, but I am trying to grasp concept? It is like you trying to explain to little child how car engine works. I am little child!

I am going to watch video again. And compare it to your post. I miss something here.

Thanks for effort!
If you can explain it further, I will be grateful!

Cheers!

AlienGrey · June 11, 2019, 04:26:10 PM

Me too any chance or drawing circuit with pointers describing critical points and info on whats going on.

He starts off talking about a 2 transister low voltage inverter pumping circuit driving a 15w 220v bulb
driver by 100 volts.
Then talks about a 2 tank resonant coil then the translater cant cope and goes into jiberish mode.

I tried using translating with cc and on screen but it gives a lot of errors and doesn't help.

WhatIsIt · June 11, 2019, 04:49:26 PM

Quote from: AlienGrey on June 11, 2019, 04:26:10 PM
Me too any chance or drawing circuit with pointers describing critical points and info on whats going on.

He starts off talking about a 2 transister low voltage inverter pumping circuit driving a 15w 220v bulb
driver by 100 volts.
Then talks about a 2 tank resonant coil then the translater cant cope and goes into jiberish mode.

I tried using translating with cc and on screen but it gives a lot of errors and doesn't help.

As I can see from the video, first circuit is fat, low inductance inductor.
By air core it transfers field to secondary, and eat lots of amps.

Secondary is transformer, with 2 coils, probably different inductances, so he gets voltage from one and amps from second, and he is mixing that into one current.
Also, phases needs to be aligned perfectly, if he does that. So, he multiplies voltage and current at secondary transformer, by aligning phases of transformer into one.

How, the secondary transformer is connected to do that? If it is what I said? Questionable?

I have no other explanation! Based on video.

Confused, yea!

T-1000 · June 11, 2019, 05:09:08 PM

Quote from: WhatIsIt on June 11, 2019, 04:49:26 PM
As I can see from the video, first circuit is fat, low inductance inductor.
By air core it transfers field to secondary, and eat lots of amps.

On the right side in the video - ZVS style cicruit running on 50Hz stepping up voltage. Eats amps when running alone
On the left side of the video - flyback transformer with secondary coil with capacitor in series then discharging over fat coil inside of spark gap. Does not eat much amps if you make it resonant on flyback primary. And as the side note, in other similar videos it makes ZVS style circuit to stop eating amps while also increasing output.
The relationship between these two circuits is capacitive over air gap.
And it is simple enough to try replicate such experiment and to see effect for yourselves.