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

[ariovaldo]

I would like to register that I'm not here to judge somebody that is claim overunity and I'm not claim anything...I'm just an old guy that use the spare time to build and to test stuff. I never found any overunity since I beginning 8 years ago.
I mentioned somewhere in this forum, that I'm getting some high voltage leakage in the secondary. This is the same that happened in the witts movie ( start at 4 minutes)
Check it out..
https://www.youtube.com/watch?v=IDIFbcy6WC0


Cheers,


Ariovaldo

[MileHigh]

Ari,

Thank you for all of the information.

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?

There is a possible explanation for this.  Assume that when you have resonance that the power goes into the primary resonator and that couples to light bulb load on the secondary quite well.  It's almost like an 'active' coupling because of the LC resonator.  The LC resonator will dissipate as much power as you can put into it, in other words it matches it's power drain to be the same as the power supplied by the source.  When you add the light bulb load assume the effect is still taking place.  (I am assuming that the LC resonator is on the primary like the standard QEG.)

Note that the light bulb load is capable of dissipating more power if you make it available.  When you try to increase the motor speed and add more electrical power, the QEG's resonant tank circuit coupled to the light bulb load absorbs the extra power and couples it to the light bulb load.  This creates more Lens draz on the motor and keeps it at the same speed.

If this is true then it's like there is a "frequency wall" almost like the sound barrier.   If your motor had enough torque it could "break through the wall" and then the LC resonator would go out of resonance and the light bulbs would dim.

This can all be confirmed by making careful measurements.  If what I said is correct then as you add motor power you may only detect a very tiny increase in speed while seeing increases in motor power and light bulb power.

MileHigh

[ariovaldo]

Ari,

Thank you for all of the information.

There is a possible explanation for this.  Assume that when you have resonance that the power goes into the primary resonator and that couples to light bulb load on the secondary quite well.  It's almost like an 'active' coupling because of the LC resonator.  The LC resonator will dissipate as much power as you can put into it, in other words it matches it's power drain to be the same as the power supplied by the source.  When you add the light bulb load assume the effect is still taking place.  (I am assuming that the LC resonator is on the primary like the standard QEG.)

Note that the light bulb load is capable of dissipating more power if you make it available.  When you try to increase the motor speed and add more electrical power, the QEG's resonant tank circuit coupled to the light bulb load absorbs the extra power and couples it to the light bulb load.  This creates more Lens draz on the motor and keeps it at the same speed.

If this is true then it's like there is a "frequency wall" almost like the sound barrier.   If your motor had enough torque it could "break through the wall" and then the LC resonator would go out of resonance and the light bulbs would dim.

This can all be confirmed by making careful measurements.  If what I said is correct then as you add motor power you may only detect a very tiny increase in speed while seeing increases in motor power and light bulb power.

MileHigh

You are right..
For now my motor doesn't have more power to "break this barrier" I can add some resistance in the primary, between the  inductor and the capacitor bank.
Last night, as I said in one of my post, I disconnect the primary and I installed a capacitor in the secondary. The resonant point was in a low speed. At this time, the motor was strong enough to "break the barrier" and  and the lights in the other secondary coil start to dim as the speed increased until the point to lose the resonance.


Cheers


Ariovaldo.


By the way, so far it looks like a normal generator.....nothing new as I expected. But I'm learning a lot...

[ariovaldo]

Some effects that I noticed...
1) With the circuit open the secondary voltage is very high....I found this last week and I confirmed that now in a hard way. I burned some more lights bulbs.
2) The above effect was proved to be right by disconnecting one of the six lights bulbs. The voltage increased. ( normal)
3) With load or without load, once the resonance is locked, the input is the same...


http://youtu.be/yFr20PLUs6A


That is all for today...


Cheers


Ariovaldo

[pmgr]

From my days of studying output and power transformer design for musical instrument amplifiers, the rule of thumb was 3 A/mm^2, although that was a conservative figure.  So, 2 A/mm^2 for the 20AWG would probably work fine without over heating in the QEG, unless the machine was operated for a long time while sitting out in the sun on a hot day.  Such a occasion might occur if the QEG ever found its way into common use as a generator, as it does on a regular basis for musical instrument amps sitting out on stage.

@F_Brown:

Take a look at the table here:

http://www.powerstream.com/Wire_Size.htm

AWG20 is listed at 0.8128mm diameter (or 0.5153 mm^2 area) and the maximum amps for chassis wiring (DC) is listed as 11 Amps. Maximum amps for power transmission is 1.5A, or for AWG20 with 0.5153 mm^2 area, 2.9A/mm^2. This is close to your number of 3A/mm^2. Question remains what frequency this 1.5A number that is stated in the table applies to? 60Hz? 27kHz? Or wired in air (chassis) or in a bundle (power transmission).

Same question for the QEG. The secondaries run at 200Hz. Most likely AWG20 can carry amps somewhere in between 1.5A and 11A depending how tightly packed the coils and what frequency it is run at?

PmgR
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