Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[Grumage]

@all,

I knocked-up the circuit shown in post 17331 using a TL494 based PWM generator to pulse the mosfet at a frequency around 100KHz. By tuning both the frequency and duty cycle to achieve maximum voltage across the cap bank, I could light a 40W mains lamp. The 0.5uF cap across the transformer is necessary to get the cap bank charging. Without it, the voltage will only climb very slowly and not very high. With the cap connected, the voltage will climb above 200V, so must be monitored to ensure it does not exceed the voltage rating of the caps. I have tried a few different transformers with a 24V AC output but none of these can be made to make the vibration noise heard in the video (Kapanadze 'green box' and Aqua1 noise), accompanied by a rise in voltage across the cap bank when the lamp was switched on at around 115V. I only have 3000uF, whereas in the video, the cap bank was 6000uF / 150V, so I will be increasing my bank to at least 6,000uF / 450V once I receive a few more caps off ebay. It is possible that the transformer used in the video had a poor build with loose laminations. Does anyone recognise this transformer as it appears to be very old with an unusual build?

Video here: http://www.youtube.com/watch?v=JCOEjb0Ag_I

Good evening Hoppy.

Well done, great progress by the sounds of things. Any chance you could share a more detailed schematic for this device?

I am finished with chibridze replication as IMO, like yours, there is no way enough output from the SG to work. I have spent all weekend trying all different ways with the spark gap. From 5Kv mains frequency 20mA transformer, through to flybacks. It is IMO a frequency related device and seems to work at around 700 Khz. The other point of note, using the Royer oscillator I was only getting a light with two grounds. And if anyone noticed those ground connections were in effect shorting out L4!! I did in fact phyisically short L4 and got a light without a ground!!

Going back to your latest project, could you use Electrolytic caps? Or do they have to be non polarised?

Cheers Grum.

[Hoppy]

Good evening Hoppy.

Well done, great progress by the sounds of things. Any chance you could share a more detailed schematic for this device?

I am finished with chibridze replication as IMO, like yours, there is no way enough output from the SG to work. I have spent all weekend trying all different ways with the spark gap. From 5Kv mains frequency 20mA transformer, through to flybacks. It is IMO a frequency related device and seems to work at around 700 Khz. The other point of note, using the Royer oscillator I was only getting a light with two grounds. And if anyone noticed those ground connections were in effect shorting out L4!! I did in fact phyisically short L4 and got a light without a ground!!

Going back to your latest project, could you use Electrolytic caps? Or do they have to be non polarised?

Cheers Grum.

Evening Grum,

Its always a good policy to build these circuits where possible, to see first hand how they work or don't work as the case may be. Like you I have done enough experimentation to know that the chibridze circuit could not IMO possibly self-run as shown on the schematic.

I have attached a typical schematic of the TL494 based PWM that can be used to pulse the mosfet in the post 17331 schematic. I have cribbed this circuit from the internet (to save drawing out a circuit) but it will need the following alterations: -

C1 = 1nF.
R3 = 100K Pot (Duty cycle).
R4 = 100K Pot (Frequency)
Strap pins 9&10 together and connect to push-pull NPN/PNP transistor pair T2/Q2 (T1/Q1 & R1 are not required).
Replace C5 with a 10R resistor and connect to gate of mosfet with short lead. Connect the mosfet source pin to ground.
A 15v zener diode can be used connected between mosfet gate and ground for gate protection if the TL494 supply rail is not regulated at 12V or 15V.
Ignore rest of circuit beyond C5.

A switch is required for the lamp and to switch the 24V DC to the drain of the mosfet.

The 0.5uF cap across the transformer secondary needs to be non-polarised. The 3 big 2000uF caps in parallel are polarised electrolytics.

The thing that baffles me with the video demo is that you see at one point that the voltage across the cap bank falls from about 220V down to 115V at which point the lamp is switched on. The 'noise' is then heard and the voltage starts climbing with the lamp getting brighter until he switches it off. The baffling thing about this is how the cap is discharging without the lamp being connected. There does appear to be a cut in the video at the point the meter suddenly reads over 200V, so there could be some skulduggery going on here! Anyway, I cannot achieve this or the 'noise' at present and am currently looking for a suitable poor quality transformer with noisy laminations! As I mentioned in an earlier post, what interests me is the 'noise' which closely resembles that made by the Kapanadze 'Green box' and 'Aqua1' devices and whether this noise signals the onset of some special effect.

@ Verpies. I welcome your expert opinion on what you think could account for what is baffling me, other than the possibility of skulduggery.

[Grumage]

Evening Grum,

Its always a good policy to build these circuits where possible, to see first hand how they work or don't work as the case may be. Like you I have done enough experimentation to know that the chibridze circuit could not IMO possibly self-run as shown on the schematic.

I have attached a typical schematic of the TL494 based PWM that can be used to pulse the mosfet in the post 17331 schematic. I have cribbed this circuit from the internet (to save drawing out a circuit) but it will need the following alterations: -

C1 = 1nF.
R3 = 100K Pot (Duty cycle).
R4 = 100K Pot (Frequency)
Strap pins 9&10 together and connect to push-pull NPN/PNP transistor pair T2/Q2 (T1/Q1 & R1 are not required).
Replace C5 with a 10R resistor and connect to gate of mosfet with short lead. Connect the mosfet source pin to ground.
A 15v zener diode can be used connected between mosfet gate and ground for gate protection if the TL494 supply rail is not regulated at 12V or 15V.
Ignore rest of circuit beyond C5.

A switch is required for the lamp and to switch the 24V DC to the drain of the mosfet.

The 0.5uF cap across the transformer secondary needs to be non-polarised. The 3 big 2000uF caps in parallel are polarised electrolytics.

The thing that baffles me with the video demo is that you see at one point that the voltage across the cap bank falls from about 220V down to 115V at which point the lamp is switched on. The 'noise' is then heard and the voltage starts climbing with the lamp getting brighter until he switches it off. The baffling thing about this is how the cap is discharging without the lamp being connected. There does appear to be a cut in the video at the point the meter suddenly reads over 200V, so there could be some skulduggery going on here! Anyway, I cannot achieve this or the 'noise' at present and am currently looking for a suitable poor quality transformer with noisy laminations! As I mentioned in an earlier post, what interests me is the 'noise' which closely resembles that made by the Kapanadze 'Green box' and 'Aqua1' devices and whether this noise signals the onset of some special effect.

@ Verpies. I welcome your expert opinion on what you think could account for what is baffling me, other than the possibility of skulduggery.

Evening Hoppy,

Thank you for your prompt responce to my request. But it is the device I am having trouble deciphering. A simple "fag packet" drawing of what you have done would suffice. I have several of the RMC pwm modules at hand and plenty of caps and mosfets, " as you do"  so could probaly aid your detective work 

Cheers Grum.

[verpies]

@ Verpies. I welcome your expert opinion on what you think could account for what is baffling me, other than the possibility of skulduggery.

If you can get a hold of an old saturating Ferroresonant Voltage Stabilizer then you will be able to generate such transient buzzing sound on demand.
Regarding, the voltage across the cap - I would have to watch the video again and take a look at the schematic (which one?).

[Grumage]

If you can get a hold of an old Ferroresonant Voltage Stabilizer then you will be able to generate such transformer buzzing sound on demand.
Regarding, the voltage across the cap - I would have to watch the video again and take a look at the schematic (which one?).

Dear Verpies,

I think it is this one.

Cheers Grum.