Pulling energy from the ambient energy field using a coil capacitor

[itsu]

OK, taking a few steps back, i have the below layout, 2 layers of 2 bifilar coils (pairs), each seperate coil is about 63 turns on a 5cm diameter former (PVC) using 0.5mm (AWG24) magnet wire.
1st layer coils (pair 1) hooked up as driver capacitively coupled / series to the FG,
2th layer coils (pair 2) hooked up as charge collector capacitivly coupled /  series to the CH1 scope.

A 1Khz 5V all DC 10% duty cycle pulse was fed into drive coil pair 1 and the result on the charge collection coil pair 2 can be seen in the screenshot 1.
We see the resonance ringing at open and close of the pulse to be around 278Khz
When i increase the pulse frequency to 278Khz, we see some resonance sine wave appear (Resonance Rise??), see screenshot 2
Blue is the FG pulse signal,   yellow the collectors coil response.

Answers to some earlier PM questions:

- Induction effect is stronger at higher frequencies. So measure the voltage of the charge collecting capacitor at different resonant frequencies (subharmonics).
 
See video of upwards sweep of the pulse, main resonance seems to be 278Khz, but with harmonics up till 24Mhz (FG max).
The screenshot of the Spectrum Analyzer shows these peaks (resonances) up till 100Mhz, the first peak at far left is the 278Khz peak
 
 
- Change the voltage of the drive pulse to lower/higher value. If generator gives out fixed power then amperage of the pulse should increase when voltage is lowered.
 
when varying the drive pulse voltage (5 to 10V), the output ringing signal increases, so is not fixed.

Video here:   https://www.youtube.com/watch?v=YpxHlALVfgg&t=15s    (use Chrome or Firefox)

Itsu

[wistiti]

Thank you Itsu for sharing your results. It is really interesting!

I have not play with this concept since a wile ( not much spare time) but you give me the trill to be back on it!

Sincerly.

[itsu]

Thanks wistiti,     your welcome.

I hope you guys will chip in (again) and we can explore this further.

What is puzzling me right now is the low (278Khz or so) first resonance peak i see popping up.
I wonder if this could be the resultant (beat) frequency between the 2 pair coils, like say the
first coil pair resonates at 3.2Mhz and the second coil pair at 3.5Mhz so the resultant will be 300Khz.
The second coil pair is ontop of the first pair, so has a longer track (circumference) to cover, so has less turns, so higher Fres.

The higher resonance peaks i see (18, 25, 41Mhz) could be the odd/even harmonics of this (now undetectable) 3.5Mhz base frequency
3.5, (base),  17.5 (5th harmonics),  24.5 (7th harmonic), 42 (12th harmonic), etc.


Anyway, room for more experiments, i hope Jack will find the time to answer the above raised questions.

Regards Itsu

[itsu]

While waiting for Jack to comment on the above posts / questions, and to give further directions on what he want to be tested, 
i was doing some tests on my own, like doing some measurements around the first resonance peak (285KHz).

I have hooked up my FG to the first coil pair and drive it with a 285Khz AC sine wave of 20Vpp.
I monitor that signal with the blue probe and have my current probe also in that input line so i can monitor the input power.

I shows that when approaching that first resonance peak, the current increases and the voltage decreases, pointing to a series resonance situation (minimum impedance at resonance).
The output almost peaks at that point as can be seen by the yellow probe which is across a 200V / 470uF electrolytic capacitor after a FWBR made of 4 UF4007 diodes.
The real output peak (40V) lays some KHz below resonance.

The scope math function (red trace) calculates the power i input with the FG and is around 100mW at this first resonance peak.

Screenshot shows:
the input voltage from FG in blue (776mv rms)
the input current from FG in green (125mA rms)
the input power from FG in red (97mW mean)
The output voltage on cap in yellow (39V DC)

Video here:  https://www.youtube.com/watch?v=O0SX0b6OSeY

For what its worth,  regards Itsu

[sm0ky2]

The energy density of the earths electric field most of our altitudes

Is ~13w/m^2
Which is coincidentally less than the field of the human body at close distance


The coil capacitor would have to have a very large surface area.
and should not touch it, you can charge it with your body on accident