Author Topic: Understanding the VIC  (Read 47640 times)

0 Members and 1 Guest are viewing this topic.

Offline Login to see usernames

  • Sr. member
  • ***
  • Posts: 363
Re: Understanding the VIC
« Reply #72 on: December 16, 2011, 21:25:56 pm »
I just finished testing sebos extra diode on my setup.If my choke coils are on the same core as the primary and seconary,it doesn't work.
But if I have my choke coils on a seperate core, than yes I get half rectified unipolar pulses at the cell,but not the double frequency unipolar pulses.
More testing needs to be tried.Which brings me to another question,I'll post it in a new post here.
Don

Offline Login to see usernames

  • Global Moderator
  • Hero member
  • ****
  • Posts: 3607
Re: Understanding the VIC
« Reply #73 on: December 16, 2011, 23:26:21 pm »
Wish I had a good oscilloscope to see what i'm doing here...

The diodes are acting... the blocking diode allow the pulse to charge the network and the switching diode close the blocking diode further for keep the cell from discharge.

The unipolar should work with the coils on the same core if the polarities are as showed, cause they shouldn't interact at all. Except by increasing the distributed capacitance of the pulse forming network which actually change the frequency of the pulses. Also it would be able to increase the frequency of the potential applied..

Offline Login to see usernames

  • Sr. member
  • ***
  • Posts: 434
Re: Understanding the VIC
« Reply #74 on: August 23, 2012, 14:43:49 pm »
HMS, in one of Stan's patents he writes about the Sec., L1 & L2, each being wrapped with a ratio of 10:1 compared to the primary. This would make the summation of the coils a 30:1 step-up. I mentioned this back last year, but I guess nobody paid me any attention. Stan says that with 12v input to the primary, you will get 360v at the output of the chokes.

Now, the thing that we all need to understand about the cell is this, the cell will act almost as a dead short with having a resistance around 200 - 250 ohms. What Stan was doing or attempting to do is make the cell act as a true capacitor. It will act as a really bad leaky capacitor, but once you, as Stan says, tune into the dielectric value of water, only then it will act as a real true capacitor! Like I stated earlier in this thread, the water has a dielectric of 78%, which is non-conductive. So at a certain frequency you will nullify the 22% conductivity and tune into the 78% non-conductive part of water and the voltage will rise dramatically with no current leakage!

Hi,

Maybe stupid question, but is it possible that I step-charged the connected scope probes  :-[
http://www.ionizationx.com/index.php/topic,2488.msg23226.html#msg23226

When I tune the PULSE and the GATE frequency I see the step-charge scope shot image.
(http://www.ionizationx.com/index.php?action=dlattach;topic=2488.0;attach=11380)
(http://www.ionizationx.com/index.php?action=dlattach;topic=2488.0;attach=11408)
(http://www.ionizationx.com/index.php?action=dlattach;topic=2488.0;attach=11380)(http://www.ionizationx.com/index.php?action=dlattach;topic=2488.0;attach=11408)

Interesting the 22% conductivity and tune into the 78% non-conductive part of water !!!

When I connect one plate to the positive choke the UNIPOLAR offset is higher, from -84V to -28V for the positive choke!!!!

Problem is when my WFC is attached to both chokes I have only AC! I needed to tune the PULSE frequency to get this amplitude higher. The WFC has 200 - 250 ohms (RAIN WATER). 180 degrees is now lost due the really bad leaky capacitor as a dead short!!!

Ideas?

Regards