Kapanadze Cousin - DALLY FREE ENERGY

[magpwr]

They're all independant cores.


@magpwr
does it actually need the whole chain of modules or does one work the same?
does more generate a higher power?

hi d3x0r,

To be honest i really don't really know how to advise since i was merely following the original experiment merely to verify if there was any interesting effect.
But this one did impress me the most.

I have attached my comical visualization on how i view this circuit in my head.Maybe this makes sense for someone.

[d3x0r]

hi d3x0r,

To be honest i really don't really know how to advise since i was merely following the original experiment merely to verify if there was any interesting effect.
But this one did impress me the most.

I have attached my comical visualization on how i view this circuit in my head.Maybe this makes sense for someone.

yes, but it's easy enough to cut some connections and route wires to bypass modules or copy and paste more modules in series.  Hooray for simulators.
I've already done the experiment and already know the answers.

[mscoffman]

magpower,

Do you happen to have a FET driver circuit model that you can substitute for the function generator? A dual fet drive
circuit can lock out shoot-through current and may have some better parameters for Fet gates in the real world. I would
like to see if it performs better or worse then the direct function generator.

---

I know of a very simple emergency, overvoltage load dump circuit that uses a opto LED in series with a NE2 neon bulb
that would cut out the power supply in 16ms after an overvoltage fault is detected. It uses a relay switch to do the
cutting so as to not affect other circuit parameters. The Hi-Q drive line components used are "self-healing" as long as
you do not wait by and cook them. This could allow one to use lower WVDC working voltage capacitors maybe even 630VDC
eventually, which are much less expensive then their higher voltage cousins.

---

If there are no glitches in the frequency territory around primary reasonant frequency one could use the technique of
shifting the drive center frequency to control stability and power resonating in the output circuit to some extent.  I
would much rather have a very parts reduced ou circuit, where there is little to go wrong and then dump the energy
to a professionally designed high efficiency inverter to reformat it for use as utility power.

---

By the way, I don't really consider that it is an overunity circuit yet - look at the scope you can see what it's doing.
But its got its backbone in the right place.  Bring it!
 


:S:MarkSCoffman

[magpwr]

magpower,

Do you happen to have a FET driver circuit model that you can substitute for the function generator? A dual fet drive
circuit can lock out shoot-through current and may have some better parameters for Fet gates in the real world. I would
like to see if it performs better or worse then the direct function generator.

---

I know of a very simple emergency, overvoltage load dump circuit that uses a opto LED in series with a NE2 neon bulb
that would cut out the power supply in 16ms after an overvoltage fault is detected. It uses a relay switch to do the
cutting so as to not affect other circuit parameters. The Hi-Q drive line components used are "self-healing" as long as
you do not wait by and cook them. This could allow one to use lower WVDC working voltage capacitors maybe even 630VDC
eventually, which are much less expensive then their higher voltage cousins.

---

If there are no glitches in the frequency territory around primary reasonant frequency one could use the technique of
shifting the drive center frequency to control stability and power resonating in the output circuit to some extent.  I
would much rather have a very parts reduced ou circuit, where there is little to go wrong and then dump the energy
to a professionally designed high efficiency inverter to reformat it for use as utility power.

---

By the way, I don't really consider that it is an overunity circuit yet - look at the scope you can see what it's doing.
But its got its backbone in the right place.  Bring it!
 


:S:MarkSCoffman

hi mscoffman,

This signal driver for the igbt is the most easy to implement which i have already solved it in my head before i even commence my actual experiment.

If we are using 12volt battery then we would need to use MC34063 to boost voltage to generate dc 20volts.This circuit was already assembled few months back using one of the many online example circuit and applying online MC34063 formula to get the required fixed voltage.

This 20volts supply will be fed to one of many version of the IGBT drivers I/C i currently own TC4421(9Amps),TC4422(9Amps),TC4428(1.5Amps).There are other IGBT Drivers out there as well.But i liked these better although it's little costly.

I will use my preferred PWM signal generator circuit using I/C: SG3525 which is also used in my latest video 150-1600volts Variable High Voltage Generator (Prototype) in youtube :"sanjev21"
10 of these PWM I/C merely cost $3.09 USD and comes with free worldwide shipment in ebay.

This i/c will then provide the necessary signal to IGBT driver at whatever resonant frequency the actual created circuit needs and the duty cycle can be controlled easily.


Hi-Q capacitors is the most expensive component in the circuit.Higher the voltage rating the better 630volt...2000volts.

The output of circuit is best left connected to the bulb as you can see as done in virtual circuit if i don't do this then the output voltage may kill ya with high amps and it would likely destroy the igbts if it exceed 600volts for the unprotected igbts which seems to function better than protected ones.

Strangely this is the only circuit in multisim which would consume 80% to 100% of cpu in my laptop at resonance.Do lookout for this strange effect.

[mscoffman]

 I found a valid capacitor!  Mouser/Wima 0.47uf  1KVDC claimed function: snubber high current
I found a half value capacitor that is a Hi-Q 2KV transmitting capacitor, I'll bet it's expensive with a long deliver time. 
Some inductors from China.

magpwr,

I don't intend to do much more unless the project somehow disappears. I will use your suggested IC's if I were to do more.
While it's not very common, I will offer to *Fund* certain aspects of your project if it would help you. For example to find
the highest Q LC's by trying more manufactures components, or do the project quicker, or better, Like printed circuit boards ect.
Don't hesitate to communicate with me and ask if you come across something worthy.


:S:MarkSCoffman


People like to build simple DC to AC square wave inverters out of a twelve volt CT transformer and a couple of FET's as per youtube.
If they were to build a second order modified sinewave inverter, That waveform is: +,off,-,off... with timing closest to a sinewave from
an FET H-bridge then attach it to an acid/lead battery without a filter cap. One would get an AC 120Hz pulse stream directly from the battery.
This is well within the range that anomalous discharge characteristic of acid/lead batteries seem to occur. Caution would be indicated but
would be an interesting thing to try.