Quantum Energy Generator (QEG) Open Sourced (by HopeGirl)

ariovaldo · May 11, 2014, 10:26:22 AM

Quote from: ariovaldo on May 11, 2014, 09:41:59 AM
MileHigh
Good morning!
I will try to answer the questions!
1) Coils- Primary:- 2 coils of 20 AWG wire 3050 turns each one. The inductance with the rotor installed is about 15 H each one. This change when I run the rotor by hand...
2) Capacitors: The capacitors bank are 7.600 volts rated and I have more than 30KV of insulation calculated and I have 0.156 uF using my " cheap" instrument. Calculated should be 0.125 uF.
3) Coil- Secondary:- 2 coils of 2X16 AWG wire 350 turns each one.
4) The output frequency that I measured (195 Hz) was in the secondary and I need to do some more tests, since something is intriguing me and my tachometer is not working good.
What is intriguing me is: When I start to run and I speed up to reach the resonance point, it looks like that the FREQUENCY JUST LOCK UP in this number ( 192/195 Hz). The more that I try to increase the speed, more increase the output and input power. It is strange, no?

I will post some more information.
About schematic, I will try to send it tomorrow. Here in my home I have just iPad and it's no so friendly for me.

5) The instruments a) Clamp-meter :- I'm using a cheap one just for amps, but is true rms.
b) Scope:- I'm using a RIGOL DS1102E, for volts and frequency. The lead scale that I'm using is 10X.
6) The load:- I'm using 8X60 watts lights bulbs.

isim · May 11, 2014, 10:38:59 AM

@ariovaldo
"4) The output frequency that I measured (195 Hz) was in the secondary and I need to do some more tests, since something is intriguing me and my tachometer is not working good.
What is intriguing me is: When I start to run and I speed up to reach the resonance point, it looks like that the FREQUENCY JUST LOCK UP in this number ( 192/195 Hz). The more that I try to increase the speed, more increase the output and input power. It is strange, no?"

This is exactely what Tesla write in is 511916 patent claim's: see the last words of his patent.

http://exvacuo.free.fr/div/Sciences/Brevets/Tesla/US000511916%20-%20N%20Tesla%20-%20Electric%20generator%20-%201894.pdf

"6. The method of producing electric currents of constant period herein described
which consists in imparting the oscillations of an engine to the moving element of an electric generator and regulating the period of mechanical oscillation by an adjustment of
the reaction of the electric generator, as herein set forth. "

"The method of producing electric currents of constant period herein described ... and regulating the period of mechanical oscillation by an adjustment of the reaction of the electric generator" :

He never pretend something else...

Bravo for your work, your are the first to got and describe the result!
Maurice BERNARD

ariovaldo · May 11, 2014, 10:40:32 AM

Quote from: F_Brown on May 11, 2014, 10:18:45 AM
Ari,

As James said the thing will kind of phase lock. Really a wall of resistance to drive torque forms at the resonant frequency. It requires more and more drive torque as the system approaches the exact resonant frequency, and it will output more and more power in proportion to that drive. Then if even more power is applied the rotor speed will exceed the resonant frequency of the primary circuit and the resistance to input drive will fall off sharply and the resonant oscillations in the primary will stop.

What is the inductance of the primary when the rotor is aligned perfectly with a pole, and what is the inductance of the primary when the rotor it aligned perfectly in between poles.

I was also wondering about the DC resistance of the primary and secondary windings.

Thank you for your previous answers.

Cheers,

Fred

By the way, the cogging torque of the QEG is probable causing jitter in the angular velocity of the rotor, and that jitter is probable giving the tachometer a hard time determining a steady state rpm.

The inductance when I turn the rotor slowly goes up 20 Henries that is the max scale in my instrument...
I made a test, disconnecting the primary and put a 15 uF capacitor in the secondary. When I run the system, it resonate in a low speed and lost the resonance after speed up...

PiCéd · May 11, 2014, 11:29:44 AM

QuoteThe inductance when I turn the rotor slowly goes up 20 Henries that is the max scale in my instrument...
I made a test, disconnecting the primary and put a 15 uF capacitor in the secondary. When I run the system, it resonate in a low speed and lost the resonance after speed up...

1/(2*Pi*SquarR(20*0,000015))=9,19 Hz

ariovaldo · May 11, 2014, 11:37:24 AM

Quote from: PiCéd on May 11, 2014, 11:29:44 AM
1/(2*Pi*SquarR(20*0,000015))=9,19 Hz

Don't forget that I installed the capacitor in the secondary.....

Quantum Energy Generator (QEG) Open Sourced (by HopeGirl)

ariovaldo

isim

ariovaldo

PiCéd

ariovaldo