Kapanadze Cousin - DALLY FREE ENERGY

[Void]

I think it will be a bit higher than that ! more in around the mhz region I would of thought, your multiplying the rf up in f don't forget.

Hi AlienGrey. From what I understood from T-1000, the purpose of the test is try
find the optimal operating frequency for the PWM generator, which should be in the
low kHz range of say 10 kHz to 40 kHz, I believe.

[Void]

The Vasmus 'field' device video recently posted, interests me most with its intriguing low frequency pulser. The clamp meter reading on the earth wire of 1.2A - 1.5A suggests to me that this current may be flowing from the earth rod back to a hidden earth rod buried under the device (which is never moved or lifted) and is part of the pulser circuitry. I would be interested in anyones thoughts on this device.

Hi Hoppy. I don't know much about Vasmus' device, but I watched more of the Vasmus
videos on the DrangonsLord76 youtube channel, and Vasmus has released some videos
explaining more about his circuits (in Russian).

The following are three videos from Vasmus that explain more about his device circuits.
His device seems to be more complicated than what Akula did. From what I could gather
Vasmus uses a kacher driver and vertical tesla coil and another vertical receiver coil in a tesla
coil-like configuration. In between these two vertical coils he uses a horizontal coil and his spiral
copper foil coil to which he applies signals such as impulses of some sort, I think. He also uses
some sort of 'modulator' transformer ferrite core that does some sort of signal mixing. It seems
a bit on the complicated side, especially for those of us who don't understand Russian.

See the following three Vasmus videos for some explanations of his circuits:
http://www.youtube.com/watch?v=k8DZVBQc0YQ
http://www.youtube.com/watch?v=h7nw_FC-kgE
http://www.youtube.com/watch?v=_bHd726we10

There are other Vasmus videos on that same youtube channel as well.
http://www.youtube.com/user/DragonsLord76/videos

[AlienGrey]

Hi AlienGrey. From what I understood from T-1000, the purpose of the test is try
find the optimal operating frequency for the PWM generator, which should be in the
low kHz range of say 10 kHz to 40 kHz, I believe.

Re device below is Grenade  it is made up of 37 meters or 2.5 conduit cable, at 38 meters long and your driving it with 19 meters of the same, to find freq its wavelength (cable length) withch is found from Velocity (speed of light) over frequency. So 38 meters = about 8 megahertz and the 19 meters length works out to about 16 megahertz. FOR THE FULL WAVE !
Regards AG

[NickZ]

  Hoppy:
   Good to hear that you're threatening to get the dust and cobwebs off the old coils, and start to build something.
Fakes, or no fakes.
   Which Vasmus video are you mussing over?
   Here's his personal hand drawn diagram, below.
   His coil system may be more complicated than the Akula/Ruslan devices, but his drivers don't seam to be as complicated as compared to Ruslan's newest 4000w rig.  Coils are easy to build, but, drivers that produce OU, not so easy to do.
   

[Void]

Hi T-1000. I ran some tests by driving the inductor winding with a FET driven by
my function generator. I did not see anything unusual going on in the 10 kHz to 40 kHz
range or so. I used an 8.2 ohm power resistor across the grenade because that is what I had handy,
but all I see across the resistor on my scope is the switching waveform with some ringing. I did not see
any special frequency in that frequency range where there was any sudden bursts of current or
unusual spikes, or anything like that.

I am not using oxygen free copper wire however. Maybe you need to be using the ferrite yoke
core to find that special frequency where you get some unusual bursts in current...  Or who knows,
maybe oxygen free copper wire has something to do with it. I did not see anything unusual, but I
was not driving the inductor coil at a very high voltage, so my test was only at fairly low power.

I kept the coil drive voltage down, as even at 1v to 3 V coil drive voltage you can already get
quite a high voltage switching spike on the drain of the FET, peaking at 100 V to 200 V or more. If anyone
tries this, keep an eye on the FET drain waveform to make sure the switching spike does not exceed the
FET max drain to source voltage. I was using an IRFP450, so it has a max voltage of 500 V, I believe.
You really should have a snubber or similar of some type to limit the switching spike for this test, especially
if you are going to drive the inductor coil at voltages much above 3 volts. Depending on the duty cycle you
are testing with, the drain current can already be upwards of one amp or more at those low frequencies, also
depending on the coil drive voltage.