Kapanadze Cousin - DALLY FREE ENERGY

[Jeg]

I'm not saying he's faking....

If you were saying it you would be probably right! Hi Tinsel, Hi Void

[lost_bro]

Bro:

OK, my question is...did she win?  Or, how did she do in the science fair?  This looks like a brilliant project for such an event and I hope that she did well.  It is great to show kids this type of thing to get them interested.  Very good for you.

Bill

Good Day Bill
Don't mean to side track the thread...
Actually we made two different versions of the modified slayer/Karcher device.
The first is this one:  runs on any USB hub/source.. (ie: computer usb)
It can light up any size CFL or fluorescent tube by proximity effect..... just 5volt input.

The second one was in my last post, it runs on 12VDC from a SMPS computer adapter.

I found the best way deal with the BEMF on the Collector, (which amounted to about Vcc x3) was to soft clamp (below Vce voltage) with Zeners from Collector to Emiter along with a MUR120 in parallel.  I placed a small heatsink on top of the diodes with thermal paste allowing the small signal ( high HFE) transistors to run with little heating.  Ended up running three sets of three 2n2222A all in parallel for the switching transistor...  will handle at least 3.5 amps continuous.
I first tried different power transistors (low HFE) with marginal results....  seems a higher HFE is required for the effect to be pronounced.

And to answer your question...  The Science Fair will be later this semester, we did the project during X-mas vacation.  Not sure if they have a winner or just give extra credit for the participation...

take care, peace
lost_bro

[br549]

  Jeg:
  We still don't know the real working principal of the first Akula device, nor has it been replicated, nor has as the second device, (other than by Ruslan).
  I tried to build both the first and second Akla device, but I don't have the right power supply, or inverter, yet.

  Last night I connected a small bulb to the grenades coil's 168 turns coil, and the other end to ground, only.  Nothing happened...
 
  I don't fully understand the posted Mazilli diagram either,  the output part. And just how the 50hz is superimposed onto the output coil.  Possibly I need to adapt that part to my current circuit, using the grenade as the output coil, instead.
  Any ideas are welcome. 

  Has there been an actual working device for the previously posted 6KW Mazilli/yoke circuit?  I don't think so.
  Wild goose chase?
 

NickZ:
I am kind-of in the same boat with my replication. My bench time is limited, and it takes a certain amount of time
when I make any changes. Since I haven't seen an actual proof of concept (that I can simply replicate, and accuraetly
measure with the equipment that I have) I decided to backup a little bit and do some simpler experiments to try to find a working
concept. Personally I think that the root concept Is probable simple to replicate, and Roslan Is jerking every one around to
avoid spilling the beans. T.K. said it was "so simple you would laugh" which is probable why he is so paranoid. If you take a
wind-up toy and add 45 more parts to it, it becomes difficult to identify what you started with (hidden in plain sight).
Anyway---so much for the rant. Coils and RF is not my working area, but I'm learning as I go.
Been working through some basic coil experiments and found this one interesting, so I thought I would share it and would
encourage any positive feedback and comments. Along with the current circuit is a little video explaining my measuring
process and results.
Have a Great Day
br549

http://youtu.be/wDmdk6ImV_M

[TinselKoala]

I've combined several replies into one comment:

If you were saying it you would be probably right! Hi Tinsel, Hi Void

Hi Jeg!
I guess I really was saying it, after all!

Good Day Bill
Don't mean to side track the thread...
Actually we made two different versions of the modified slayer/Karcher device.
The first is this one:  runs on any USB hub/source.. (ie: computer usb)
It can light up any size CFL or fluorescent tube by proximity effect..... just 5volt input.

The second one was in my last post, it runs on 12VDC from a SMPS computer adapter.

I found the best way deal with the BEMF on the Collector, (which amounted to about Vcc x3) was to soft clamp (below Vce voltage) with Zeners from Collector to Emiter along with a MUR120 in parallel.  I placed a small heatsink on top of the diodes with thermal paste allowing the small signal ( high HFE) transistors to run with little heating.  Ended up running three sets of three 2n2222A all in parallel for the switching transistor...  will handle at least 3.5 amps continuous.
I first tried different power transistors (low HFE) with marginal results....  seems a higher HFE is required for the effect to be pronounced.

And to answer your question...  The Science Fair will be later this semester, we did the project during X-mas vacation.  Not sure if they have a winner or just give extra credit for the participation...

take care, peace
lost_bro

That's pretty  impressive performance for a bank of 2n2222a (I presume you are using the metal can version not the TO-92 plastic case?)
It would be nice if you could show the complete diagram with all transistors, the soft clamp, etc. along with the simple, single transistor unclamped version you posted earlier.
Did you also try using a tuned, wireless receiver to light up some LEDs? This is very simple to do and would be a nice addition to the Science Fair project.
http://www.youtube.com/watch?v=OgndINJHnd0
(Bottom-loaded slayer circuit, compact secondary resonator, with 2n3055 driving)
I don't think I'd want to power anything like this from the computer's USB power supply! I've found that my usb devices, like the security webcams, the Logitech trackball and the keyboard, will often "malf" and freeze when I'm operating these EMI emitters that are not even connected to the computer in any way! Power supplies even are on separate line circuits in the housewiring. I have to unplug and replug the USB devices to get them to work again.

(snip)
Been working through some basic coil experiments and found this one interesting, so I thought I would share it and would
encourage any positive feedback and comments. Along with the current circuit is a little video explaining my measuring
process and results.
Have a Great Day
br549

In most cases, the scope probe references (ground clips, BNC shields) are connected together at the chassis of the scope and also are connected back through the line cord to the housewiring "ground" wire, which may or may not be at the same potential as your true Earth ground shown in the schematic. This is also usually true for the Function Generator "black" or shield output lead. If you turn off the equipment and use your DMM in the "continuity check" or low Ohm resistance range you can check this ground continuity to see if it is true for your test equipment. My old Interstate F43 has a "chassis isolation" switch and fully isolated BNC connectors so its output can be completely disconnected from the chassis line cord ground, but most more modern FGs apparently don't have this feature. And of course as soon I connect even the isolated F43 to another instrument with a BNC patch cable, like a scope or frequency counter that is chassis-grounded, this isolation is lost. My Link DSO (computer parallel port based) has both probe shields/references connected together at the chassis, and also to the parallel port "hood" and thus to the computer's chassis ground,  but uses a 2-wire "wall wart" power supply so is isolated from the line wiring Earth ground, at least. Both my analog scopes have all probe references connected together at the chassis and also back through the 3-wire line cords to the house wiring Earth ground. It's easy to create unintentional ground loops if I'm not careful to connect all grounds/references to the same physical point in the circuit under test.

It would be interesting to know if your FG and scope probe references are 1) connected together at the scope chassis, and 2) connected to the line cord ground wire. Could you do a continuity test for us?  You may have actually connected your FG "black" output lead and the scope probe references to the circuit's Earth ground point after all, through the groundloop from the instrument chassis grounds and power supply cords.

[From other Planet]

Made quick hand drawn schematic.
Need be careful with setting of pot or it can fry transisor. When i havnt used this Kacher for long time i always put it to aproximately mid setting and start with low voltage power source monitoring current draw.

It would be cool if you could post a some short of drawing for replicating this! Especially how this esl tube is connected to Kacher's circuit.