Kapanadze Cousin - DALLY FREE ENERGY

[Jeg]

So just place your probe near by the kacher and/or antenna like you see me do in the above video of the "micro SSTC" and look at the scope screen.

Regards Itsu

A piece of aluminum foil on the tip of the probe can allow you to measure Kacher from a longer distance than usual.

[magpwr]

Good evening verpies
I attached an excerpt from the US patent from which I took the original idea for the design.
I also attached a schematic of *one* of the versions I tested of the design.  I made this a while back, and in my LTspice directory I found no less than a dozen different variations of the same design.  I do remember playing around with the polarity of the 3rd mosfet. In some versions I find it inverted in relation to the lowest ground potential.  I do not remember how I finally left the 3rd mosfet in the final device seen in the video.  I do know that capacitor #65 (energy recycling cap.) does get *slightly warm* to the touch when left to run at 1.5-2kV, so it is absorbing/cycling reflected energy/leakage inductance. The main filtering/supply cap #50 remains cool at the same time.  The mosfets I used are rated at only 50 volts (HUF75344P3), but do not even get warm to the touch when left to run for twenty minutes outputting 1kV5 .   The GDT is wound with braided Silver plated copper/ teflon coated wire and the secondary side (GDT) runs a negative offset on the gate drive voltage waveform (-5 to +12 volts), so it is insured by design to turn off hard the mosfets under spurious conditions.

The 3 switch flyback was built to supply HV for another project which I have still not finished........

Also attached the complete patent for anyone interested.

EDIT: added one more photo to show the neon bulb & copper tape placed over the aluminum EMI reflector.  One terminal of the neon bulb connects to the copper foil tape (which is glued directly to the aluminum metal EMI reflector) and the other terminal in series with a switch which then connects to the positive rail of the input.  Strange thing is when the neon bulb is turned *on* the output voltage reads steady on the scope, and the input wattage (read on digital power source) *drops* a few milliwatts concurrently. 

take care, peace
lost_bro

hi lost_bro,

Nice schematics but i am sure verpies would be curious by now what was the primary objective in creating a variable HV supply.

Ans:Both of us are working on replicating the China version of the Don smith device which uses around 500volts...1600volts DC supply for the 6x1.2kv Cree SIC Mosfet in series
which act as a high frequency approx~225khz and high voltage version of the "spark gap" for the L/C  primary coil.
Still work in progress at the moment if anyone asked.

------------------------------------------------
My v1.0 prototype was uploaded 1 year ago which uses just 2 I/C MC34063 and 3525 to achieve this similar feat but without implementing HV isolation back then. 


Variable High Voltage Supply 150volts-1600volts

http://www.youtube.com/watch?v=MknH42t0IGw

 

[NickZ]

  TK, Itsu, Gyula:
  I am getting a nice signal from my scope's channel 2 now. TK was right about the trimmer selector being on the wrong channel setting. I probably didn't change that setting when I moved the 100x probe from channel 1 to test channel 2.  Now I know my error.
   However, it's a different story when testing using the probe adjust, on channel 1.
   Here is a pic of channel 1 probe adjust reading.  What should I do to correct it?  Wait for my new probes to come, then do the test using those 10x probes, instead? The brightness setting is all the way up.  Very dim image on the scope.
   
   Now, the 100x works great now on the second channel.  Thanks TK.

   

[TinselKoala]

Nick, your P6007 probe has a funny way of adjusting the capacitance for squaring off those Probe Adjust signals. Here's what I found out:

The P6007 is a low input-capacitance, high-voltage passive probe with a signal attenuation of 100X. It is designed for oscilloscopes having an input resistance of 1-megohm and input capacitance of 15 to 55 pf. The P6007 consists of a probe-body assembly and a 3.5, 6, 9 or 12-foot cable. Compensation is accomplished by turning the probe body and tip assembly while holding the knurled section at the base of the probe. There is no separate compensating box with this probe.

So try that procedure while looking at the Probe Adjust signal to see if it gets rid of those spiky tails. Then take another look at the Mazilli drain signal.

[NickZ]

  TK:
  Ok, thanks I'll do that, next.  I have been messing with that probe. But, it seams to be working fine on the 2nd channel.
  The non-flat bottoms of the signal is affected and changed by the number of bulbs, tuning caps, etz...

   Itsu: Here is the signal from my Kacher's secondary output. The probe is laying about 3 inches away from the secondary coil.
Can you make out the running frequency? 
  According to some, the Kacher should be running at 100x the Mazilli/yoke/grenade frequency, which is close to 24khz.
So, for me this Kacher frequency should be tuned to run at around 2.4mhz??? Or not?