Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[broli]

@Broli
Well u cannot say that resonant freq calculated by the formula is also valid for square pulses. Here since it is at 50% duty cycle it is 2 time of 1KHz. If u give 2 KHz Sinusoidal it is having the same effect if u give 2KHz/2 = 1KHz pulse to the same LC cct with 50% duty Cycle. But in this case u will get higher kick offs. I practically checked that using my DDS 3x25 function gens.
As far as your java based cct sim is concerned. Try to check it again using following steps.

Place an on off  switch just before the load of 300Ohms.
Keep the load disconnected from rest of the cct by keep that switch off.
Charge the 4700uF capacitor to 50VDC.
power on the pulse generator and after a few seconds connect the load to rest of the circuit.

This is the only way to trap the energy and get oscillation.


Try this and plz let me know..

Best of Luck
Charge the capacitor completely to 50V DC.

Yes I do precharge the cap to 50V first. I put switches in more places but still the same result is given. I think it could also have something to do with the mosfet model.

[DreamThinkBuild]

Hi Ali,

Thank you for sharing this interesting circuit.

Hi Broli,

Thanks for the simulation.

The sim seems to treat grounds as termination points and not feedback, this is why you are seeing dampening. I modified your setup with the grounds removed and hardwired back to the cap. Also changing the cap to 1F gives some nice long power output. I changed to a 10ohm load, which is average resistance for a heating element.

Here is the changed version, if you see error please advise. Link to Circuit simulator:
Updated version click here

[John M]

In the bottom of the page of the second link it shows the last picture of the device. It talks about the primary HV winding which uses copper tubing with a wire which is supposedly inserted all the way through it. They indicate it would create a displacement current capacitor.
Has anyone tried this type of setup? I don't remember hearing from any of the group members as having tried this.

John

I didn't see any response. Maybe someone like Wesley can give us some insight on why the primary is similar to a coaxial cable with wire running inside the copper tubing. This might be a key to why it works so well.

John

[Blacktail]

Hi,


Sorry to bother you but you have a tip to make the secondary coil with copper 0.6 mm ?
& Thanks some informations


@energia9 i am agree with you.

[broli]

Hi Ali,

Thank you for sharing this interesting circuit.

Hi Broli,

Thanks for the simulation.

The sim seems to treat grounds as termination points and not feedback, this is why you are seeing dampening. I modified your setup with the grounds removed and hardwired back to the cap. Also changing the cap to 1F gives some nice long power output. I changed to a 10ohm load, which is average resistance for a heating element.

Here is the changed version, if you see error please advise. Link to Circuit simulator:
Updated version click here

The circuit still dampens out, yes over a much bigger time scale but you did use 1F which 212x bigger than the cap Ali and my previous sim used. I don't think the effect can be shown with this simulator.

Ali, can you also provide the specifications of the capacitors (voltage rating, frequency rating) and inductors (current rating) and did you also use those irfp260 mosfets?

EDIT: I included a "body diode" to the mosfet as strangely this is not a feature of the simulator when using mosfets. The waveform looks now very similar to Ali's simulation however the voltage still dampens.

Click here to open simulation