Kapanadze Cousin - DALLY FREE ENERGY

[Hoppy]

hi everyone,

I have attached circuit layout of Geofusion on how to achieve the 1 wire current movement 1.5Amps to 4.1Amps to Earth.This is a easy experiment to conduct to prove the existence of current movement to earth.
The spark gap acts like a nanosecond pulse.

Hi Magpwr,

Have you tried verifying your earth current DVM measurement using a very low value shunt resistor in series with your earth wire to measure the current using a scope?

[magpwr]

Hi Magpwr,

Have you tried verifying your earth current DVM measurement using a very low value shunt resistor in series with your earth wire to measure the current using a scope?

hi Hoppy,

The separate 10Amp probe connection slot in the multimeter UT-136B is already connected to a pre-calibrated thick shunt copper wire which is design to measure current up to 10Amps.
I do not own any high watt 1ohms resistor which can handle frequency greater than 50khz since it's common wire wound type.

I am currently waiting for clamp meter :UNI-T UT207A to be delivered for double verification as what was shown by Geofusion.
The only difference clamp meter is isolated way to test for current flow.

I bought bought this meters after review done in youtube user:mjlorton .

I have just tested 566khz tesla coil without any interrupters at DC 105volts merely using full-bridge rectified from the yoke/toroid 28 turns at 22khz 40% duty.
Without any interrupters in place the reading is 0 on both A/C and D/C at 10Amps setting.
This is my first time running tesla coil at 100volts dc which produce nice spark like a electric tree from around top wire.

My previous experiment which i have posted around 2 weeks back i have achieved 146mA at 17volts boosted supply only with the use of interrupters.
Later i would need to assemble a interrupter circuit once more for 100volts tesla coil in order to see any Amps.

[T-1000]

Hi all,

It is good to see progress in making one wire energy transmission between circuit and Earth ground.
One of things I would add there: when you have high frequency signals coming through you need to modulate it by low frequency ON/OFF control circuit(like akula/Ruslan did) which make possibility of transforming current going to earth ground over current transformer to the load. Also when doing that you will see approximately  how much power is actually fluctuating between circuit and ground by making 10 turns coil around wire going to the ground and connecting its output to the scope (or having current measurement probe). The clamp meters will always lie about that due high frequencies involved and the best case scenario is to use scope instead...

Cheers!

[Hoppy]

hi Hoppy,

The separate 10Amp probe connection slot in the multimeter UT-136B is already connected to a pre-calibrated thick shunt copper wire which is design to measure current up to 10Amps.
I do not own any high watt 1ohms resistor which can handle frequency greater than 50khz since it's common wire wound type.

I am currently waiting for clamp meter :UNI-T UT207A to be delivered for double verification as what was shown by Geofusion.
The only difference clamp meter is isolated way to test for current flow.

As you realise, a non-inductive resistor is needed.
As T1000 comments, clamp meters are not suitable for high frequency measurements, as they are generally calibrated for 50Hz or 60Hz.  My fluke clamp meter gives a reasonable indication in the low KHz range. You could use a scope current probe but these are expensive.

[magpwr]

Hi all,

It is good to see progress in making one wire energy transmission between circuit and Earth ground.
One of things I would add there: when you have high frequency signals coming through you need to modulate it by low frequency ON/OFF control circuit(like akula/Ruslan did) which make possibility of transforming current going to earth ground over current transformer to the load. Also when doing that you will see approximately  how much power is actually fluctuating between circuit and ground by making 10 turns coil around wire going to the ground and connecting its output to the scope (or having current measurement probe). The clamp meters will always lie about that due high frequencies involved and the best case scenario is to use scope instead...

Cheers!

hi T-1000,

I understand the accuracy of the measurement little questionable without worrying too much.

But like Vasmus,Akula,Tariel and Ruslan since they were using clamp meter which we can see spike of around 4.5Amp at the wire or at the pole.

I am aware the pulse sent down down to Earth is not in sine wave but in high current spikes or explosive discharge pulse.
Hence we need not worrying about getting true RMS meter for this type of testing.


It is good enough for me to experiment in order achieve around this level of current reading at the transmitter stage.