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Overunity Machines Forum



Fundamentals of FREE ENERGY generation with a transformer. Experiment #1

Started by tarakan, June 12, 2014, 06:22:08 PM

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tarakan

Quote from: ARMCORTEX on June 15, 2014, 03:44:17 AM
Man that looks so boring with arduino.

Nonono.

ARM better!

Microchip better!

Digital signal processor may be an option than.
ARM is better. If I can find a cheap demo board and bootleg the right compiler. But I don't have time to learn all this for one circuit.
If I could split tasks with someone then I would do my share of the project.

I am interested in seeing the result but I am not going to study all the fields of engineering associated with its design. It is impossible as I don't have as much free time.

I think that it is time to hand this project to whoever wants to build it and leave.

Other overunity enthusiasts can either try to decypher the next Akula 0083 LED light circuit or try to find a fundamental approach to the subject matter.
There are no options besides those two.

Maybe mankind hasn't reached the level of self-awareness yet. Than all my efforts will be wasted no matter what...

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1) Permanent magnet motors - the V gate arrangement (I tried a linear motor - it works. Now I want to make it spin in a circle), the Perendev Motor, the Searl Generator, etc
2) Electromagnetic - mechanical overunity - Bedini motors, other devices that use moving parts and coils. Veljko Milkovic stuff
3) Transformer- based devices - Kapanadze generator, Akula device, Hubbard Generator, Molina-Martinez, Hendershot device, etc.
4) Atmospheric Ion generators and Cosmic ray generators. http://en.wikipedia.org/wiki/Townsend_avalanche , Nikola Tesla PATENT 685,958, etc.
5) Capacitor - based free energy devices. Non-linear or piezo - capacitor is used in those OU devices.

Those are the categories. Everyone wants a quick result and fails. The right thing would be to classify devices and form theories of operation.

Collapse of the magnetic field is the #1 suspect. This is what I wanted to experiment with but I see very little support.

vasik041

QuoteThis is what I wanted to experiment with but I see very little support.

How easily you gave up :-(

TinselKoala

Quote from: vasik041 on June 15, 2014, 04:38:52 AM
How easily you gave up :-(
And how unwilling to do homework. 

I can only suppose he didn't bother to watch my videos posted earlier showing an Arduino _auto-self-resonating_ Inductance Meter that illustrates the principles of programming the Arduino to initiate pulses to interrogate an LC tank, cause it to resonate, read the response, compute and display the resonant frequency and the inductance of the device under test.

He also probably isn't aware of my SNOT testbed, using Arduino to regulate and measure the kinetic energy of the "rotor" (a ball on a track) of a simple non-overunity magnet-motor type testbed that can be adapted to test _any_ magnet "gate" arrangement to see if it really does add energy to the system or works as a loss mechanism. I would wager he has never properly tested his "working" linear magnet motor arrangement to see if it really adds energy to the moving part or not... and I'll also wager that it does not add energy and thus all attempts at looping it will fail.

Or my demonstrations, and those of other people, of several auto-resonating  systems including Tesla coils of the standard and Slayer Exciter type, boost oscillators like Joule Thiefs, ambient energy harvesters and so forth.

Of course since he wants to operate at between 100 MHz and 1 GHz... he's a little out of range. As others have pointed out, reasonable operation at those frequencies requires construction techniques, test equipment and components that are out of reach of the average "garage experimenter". Even a "basic" 100 MHz bandwidth digital oscilloscope is a bit of kit that not many of us have available and even fewer could use properly.


Sorry, I'm feeling crotchety this morning. I always get annoyed by people who ask for help and advice then ignore it, and who think up overly complicated "solutions" to problems that will never be implemented because they are too busy to learn the basics. "No, a stand alone microprocessor is better than a packaged thing like Arduino, but I'm too busy to learn how to program it...." Please, give me a break.


Collapse of a magnetic field? Well, here, just so there can be some entertainment in this thread, here's a little slideshow of what one system does with a rapidly collapsing magnetic field.

http://www.youtube.com/watch?v=tTLFlRhsa5U

fritz

Quote from: tarakan on June 14, 2014, 02:35:10 PM
Are there engineers on this forum?
I suspect that the absolute majority of well-paid electronic engineers that design this kind of circuitry bow their heads to the idols of the status quo and disregard overunity physics.
But I can always call this circuit a hobby RCL meter. Theoretically this concept can produce a very high end RCL meter.
I know that if I make this circuit run at 1GHz, I will need a lot of skills that I don't have. It would be nice if I get someone interested in the Ham Radio world where people optimize their antennas and try to make the most efficient morse code generators.
There are engineers on this forum, and resonance trackers are somewhat simple things.
Puharich and Meyer have some in their patents (...)
Its quite easy to design them for narrow frequency ranges - and typicalwise you know your needs and there is no need for a universal wide-band tracker/resonance finder.
Using modern parts and drivers - it should be easy to make universal once up to few Mhz.
Because the components you can buy (even military or whatever)  are not the ideal ones - and you can design reasonable ones which operate in a specific "band" and a specific load impedance with little effort.
There are a few things to consider:
You would need a driver stage with adjustable output impedance.
If you are not able to match the load impedance - you can only get at fraction of the effect.
Under perfect conditions you loose only half the energy because of transmission, not including driver losses.
Using an array of mosfet bridges - you could vary the output impedance by certain degree.
But even if you adjust the output impedance - the transmission line from your driver stage to the device under test should be tuneable - whats quite difficult to realize.

So its possible to realize a kind of universal setup for the measurment, frequency and pulse generation - but if it comes to the driver stage - you need somewhat optimized driver to match your load - and a powersupply which can handle that.

>Joke ON
If we could manage to reduce the speed of light by a certain factor - we could increase the wavelength - that would help a bit.
>Joke OFF

Its not about skills but about reasonable effort.
An RF generator, operating from DC up to 1Ghz on a _fixed_ impedance of 50 Ohms with plenty of power is a serious expensive machine.
BTW, I think that these tracking is a tool but not the key to what you want to achieve.

A somewhat approach could be to analyze the "device under test" with a network analyzer and extract the impedance vs frequency plot.
Then you could design a driverstage which is capable to operate in that certain range...

(...)

TinselKoala

I have an HP 8640B signal generator for sale. It's a serious bit of kit, in fair cosmetic condition and good working. Will trade even for a Spectrum Analyzer plug-in for the HP180a scope.

You pay the shipping, of course!