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

isim · July 01, 2014, 06:34:22 PM

@TinselKoala
Thanks.
I try to make another simulation.
Diameter #12 wire= 2.053mm,   Area=3.31mm², L=243nH for one wire...(http://emclab.mst.edu/inductance/circular/)
For the 3 wires in parallel the inductance will be lesser.
3 wires Area=10mm²=Pi*D²/4, equivalent diameter of 3 wire=sqrt(4*10/Pi)=3.57mm so L=166.5nH (it's an bad approximation). But L will be <166nH.

"I also don't have that much phase shift showing in my scopeshots, probably because of the lower overall inductance in my apparatus. "
   a) if an inductive resistor is used to make your scope shots, the phase sift will be very low. Note, on the third plot pane, how little the phase sift is. This is because the impedance of L2 is much bigger than the resistor. |Z(L2)|= 11 * R (in my circuit)
   b) if you use an resistor with L=0, then you "must" have a phase shift between I(the same along the circuit) and the main coil voltage.
@+

MileHigh · July 01, 2014, 07:07:55 PM

Great SIM work gentlemen!

I don't think that Dave's posting advanced the cause.

QuoteI have struggled to find my part in this effort to help the QEG to become self-sustaining, after all, I had once been a rather mediocre electronic engineer whose skills do not appear to be relevant, but I do seem to be good at putting elements together and weaving a story that might be an inspiration to others.

Bah... I take that with a huge grain of salt. It was Dave that was narrating the first allegedly known as over unity video where he took the peak-to-peak voltage and current measurements to calculate the output power into the light bulb load. Bah....

Visions? What does it mean when you go to a garage sale and they have two kitchen sinks for sale? Dave of Arc. <*rim shot*>

MileHigh

MileHigh · July 01, 2014, 07:12:04 PM

The *real* RESONANCE CASCADE!!!

https://www.youtube.com/watch?v=DwGcKFMxrmI

TinselKoala · July 01, 2014, 07:31:47 PM

Quote from: isim on July 01, 2014, 06:34:22 PM
@TinselKoala
Thanks.
I try to make another simulation.
Diameter #12 wire= 2.053mm, Area=3.31mm², L=243nH for one wire...(http://emclab.mst.edu/inductance/circular/)
For the 3 wires in parallel the inductance will be lesser.
3 wires Area=10mm²=Pi*D²/4, equivalent diameter of 3 wire=sqrt(4*10/Pi)=3.57mm so L=166.5nH (it's an bad approximation). But L will be <166nH.

"I also don't have that much phase shift showing in my scopeshots, probably because of the lower overall inductance in my apparatus. "
a) if an inductive resistor is used to make your scope shots, the phase sift will be very low. Note, on the third plot pane, how little the phase sift is. This is because the impedance of L2 is much bigger than the resistor. |Z(L2)|= 11 * R (in my circuit)
b) if you use an resistor with L=0, then you "must" have a phase shift between I(the same along the circuit) and the main coil voltage.
@+

Excellent!

Here is some fresh data, using a non-inductive CVR. The resistor is 2 Ohmite WNER50FE in parallel for a DC resistance of 0.25 ohms and I used a slightly better probe hookup with less wire in the ground lead. As you indicate, now the phase shift shows up quite well in the scopeshots.

I also made the measurement with a fresh battery charge and while the transmitter was powering a wireless load (but I didn't retune for optimum match).

TinselKoala · July 01, 2014, 07:44:04 PM

Quote from: MileHigh on July 01, 2014, 07:07:55 PM
Great SIM work gentlemen!

I don't think that Dave's posting advanced the cause.

Bah... I take that with a huge grain of salt. It was Dave that was narrating the first allegedly known as over unity video where he took the peak-to-peak voltage and current measurements to calculate the output power into the light bulb load. Bah....

Visions? What does it mean when you go to a garage sale and they have two kitchen sinks for sale? Dave of Arc. <*rim shot*>

MileHigh

I think his "cannabis journey" must have been right into the heart of LaLa Land. Some people should avoid those kinds of journeys at all cost... they might not be able to find their way back home.