Kapanadze Cousin - DALLY FREE ENERGY

[John.K1]

Geo: Don' use digital ampMeter. As I told here before, digital meter shows me around 7.5A but when I connected my analog meter it shows just 25mA. Digital meters and HF are not much friends. And one more thing- if you think you got some power out try to connect inductive load, like motor. The true about the real power  will come out 

That ground jumping and moving it is just static electricity causing ion wind and as each small particle charge the same polarity they just repulse each other as long as they discharge their charges and the  process repeat.  It is a bit out of this thread but wanted polarization of the sand you can see here:  https://www.youtube.com/watch?v=nTeehORmh0s   I like your warm weather there - here around 0ºC 

[Hoppy]

Hi Geo,

Thanks for showing your second video, with a good explanation of the setup.

As has been said earlier, a clamp meter is not suitable for measurements at the HV/HF end of your circuit. Your measurements need to be taken at the input using an analogue meter in the 12V supply line, whilst carefully observing current draw versus lamp brightness. You will see that the current draw will track the lamp brightness, showing that the lamp is illuminated from the power supply, not the earth lead and ground, which is just acting as a conductor in the circuit. Plugging your PC PSU into a mains power meter will also give you a good idea of how input power relates to lamp brightness. Ideally, a scope should be used to take measurements.

Nonetheless, your setup looks very Kapanadze to me, so your next stage of experimentation could be to try and scale-up your setup to see if you can light a bank of 60W or 100W lamps, using the same two simple circuit configurations.

[Jeg]

Hi Guys
Very nice experiment Videos Geo, br545!
Your iron table Geo has a capacitive coupling with ground in which case we have a capacitive connection between the two grounds (HV coil – capacitor). When you connect galvanically those two grounds to one, the output will become higher and this is normal. Except if there is something else that you are trying to mention and I didn't notice.
For me, a secret  lays somewhere behind the transformation of a low frequency signal, to a higher frequency one with higher voltage. I applied this idea to my Ruslan replication and all of the sudden things changed in a better way. With a very simple modification I raised my output yoke power to almost the double (without using Katcher yet), making this way a very efficient transfer of power from primary to yoke's output and finally to the load. What I did was to tune my inductor's line to the high frequency oscillation which created over my low KHz pulse every time the mosfet  is switching off. To create this high frequency oscillation which is superimposed on the low KHz PWM frequency in a range between 250Khz-700Khz, you have to stick to the initial Akula's snubber design. By changing the 2.2nF cap to a value between some 50pF up to some 3nF, you control this imposed high frequency. For fun I connected a diode to this inductor line charging a cap, and I can easily charge it at 2KV with some 2A mosfet consumption. With 1A consumption and even lower I can charge it up to some 1600V.
I  was always suspecting this snubber part as with an appropriate treatment we can create a classic Tesla dump wave, substituting this way the Spark Gap. I can make a video if you like in a few days after experimenting more on this.
Hi Void how are you doing 
I have a question for you. If I supply my circuits from mains but with disconnected ground (only L,N), will it be any interaction between a separate circuit earth grounding and mains? I mean without main's grounding in my input, will it be any return from my separate ground back to mains in any way?
Thanks folks
Have a great day

[magpwr]

hi everyone,

After applying synchronized variable nanosecond pulse to base of kacher transistor via 10ohms  which would appear at top of sine wave obtained across various capacitor value after 3 turns still produced no ou effect.
(Applying nanosecond pulse to base of transistor does reduce power to kacher without effecting output)


Using 60watt bulb lit to the max using 70watt for input power.

But in order to know if device is able to produce more power i then use 1KW 220volt halogen bulb in order to verify if system would able to maintain high voltage using high power bulb.

Consuming 172watt of input power at this moment but no ou.

-------------------------------
Next stage and the final stage of experiment would be to charge capacitor to 1000volts(Which i do have a  variable Hv supply 150volts to 1600volts) and apply nanosecond pulse at 3 turns or earth wire using wire through toroid (tested for nanosecond pulse) and observe if there is any interesting effect.

I will also increase voltage from 30volts to 50volts...80volts for kacher so that it is able to produce higher voltage.

[Void]

I have a question for you. If I supply my circuits from mains but with disconnected ground (only L,N), will it be any interaction between a separate circuit earth grounding and mains? I mean without main's grounding in my input, will it be any return from my separate ground back to mains in any way?

Hi Jeg. In many countries the N line is grounded to earth ground at the electrical box where the
power comes into the house. If you are using a switch mode power supply, then it really depends
on the design of the power supply, but there is a good chance you could still get ground loop effects.
If you are using an analog power supply where you are using a step down transformer to step down the
voltage from the line voltage, then theoretically the output of the power supply should be fully isolated from ground.
I haven't tried testing with an analog power supply, but, for me anyway, I just find it better to use a battery
for the supply since then you can be sure that ground loops back to the mains or power supply are not a factor
in any results you are seeing.

Ok on your tests using a higher resonant frequency in the 'inductor' series resonant loop than the inverter is running at. I find
that I keep seeing coincidences here like that, as I have been doing some testing along the exact same line in the last couple of weeks myself,
although with a different type of setup using a tesla coil. Nothing notable yet, but I still plan to do more testing with
that approach. I have moved back to some other tests relating to capacitor pulsing for the time being.
Keep at it guys... 
All the best...