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

[TinselKoala]

Here's the "nonprinted" circuit board layout for the uQEG. (pronounced Moo-Kweeg, of course, or perhaps Myou-Kweeg.)

This is my "macro SMD" prototype technology, no drilling or etching needed. I removed the copper with a hacksaw and I solder stuff directly to the surface of the copper, using elevated pads also made of cut-out circuit board material glued on, if needed.

Or you can use packing tape or a Sharpie marker for a resist, and etch normally with ferric chloride.

[TinselKoala]

Here's the latest version of the HV "receptor". I've made a FWB of UF4007 diodes, and installed a Siemens 470 volt sparkgap type surge protector across the 2 series 22 uf 250 V capacitor stack (11 uF 500 V). When inserted into the uQEG's core, the gap flashes nicely at a rate of about 1 Hz.

ETA: OOOOH, I just got a helluva shock from the damned receptor thing, moving it from where I took the photo. Zapped my right hand from thumb to forefinger, it's still tingling. Be careful people! I'm going to have to put a bleeder resistor and some insulation on it. Now I'm _really really_ glad I didn't use more capacitance.

[Farmhand]

Yeah Tinsel, I agree, with too much inductance and too little capacitance there is a lot of voltage but the power throughput is less.

I don't even have resonance on the primary spiral. It's 18 uH with a 2.5 nF cap across the switch ala "Armstrong oscillator style".

Quasi resonance isn't it ? 

It seems to give a good lump at any frequency near 1/3 resonant frequency, resonant frequency should be 750 kHz, I get the
oscillations of ring down then if I tune a bit suddenly it jumps from several oscillations to one big lump, I can tune that to lower or
higher, but it takes a nudge to get it to lock into the one lump mode. Once in it's pretty solid and the voltage remains at 92 volts
when a load like 20 x 5 mm LED's is put on the receptor the input current increases. smaller loads make little difference.

Still just a tester. This setup bangs 10 uF through a 200 volts Gas discharge tube, which gave me a surprise shock it was loud.
I might get it popping soon and get a video of that.

The receptor lights the Neon even at a harmonic when I reduce the capacitance to very small.

More capacitance more power, the balance with 18 uh and 2.5 nF on the primary is better than the 320 uH and the 0.8 nF on the
receptor but the primary is at just over 1/3 it resonance frequency. Somehow it's locking in with a nudge but it's off tune still.

If I increase frequency it locks into the one lump mode above 300 kHz then if I reduce frequency the lump gets bigger but too
much reducing and it unlocks from the one lump mode.

On tuning the receptor there is sharp tuning with a definite strong resonance coupling which can tolerate a shift in capacitance of a
fair bit which shows a shifting of receptor to primary voltage phase in a band where it's strongly coupled even though the distance.

I think if I load the receptor much the waveform will distort because I've only got small DC lumps to the primary, on a side note
a couple of more caps across the mosfet driver fixed the gate oscillations and the circuit seems to be working with few losses
which is a plus. I thought of the primary as the motor and the receptor as the tank (with tuning) a tuning inductor there is much
better on space than a tuning capacitor, I've got variable inductors on a TV board, I'll check them out.

Of course I need the AC primary circuit and will set one up.

I've got two IRF 740's/840's/540's and some others and I can organize almost everything except the several Watt resistors.

That setup from last night is just using coils I had handy.

Still interesting. I noticed some things.

Thats a 1 to 100 VA magnification from 12 volts and 0.8 A to 180 volts and 0.55 A. Big OU there. 

..

[synchro1]

 perhaps Myou-Kweeg.

That name appeared in the obituary of the dead cat found by food inspectors at the China Palace!

[synchro1]

THERE IS NO COLLAPSE SPIKE HAPPENING ANY WHERE IN THE ENTIRE microQEG SYSTEM."


A tiny collapse accompanies the current reversal of the sine wave in the coil. Running A.C current through a single wire solenoid will heat the wire up. The tesla series bifilar, as I've pointed out out has no negative micro Henries. This means there is no resistance to the change in current direction from the sine wave, unlike the single wire. This translates into no heat! A caloric measurement would highlight the major difference between the coils. The bifilar is an A.C. current coil, the single wire's not!