Kapanadze Cousin - DALLY FREE ENERGY

[Hoppy]

  At least there is no beep on the video link that I posted. 

  Why doesn't anyone try to replicate Geo's last GMR diagram circuit??? 

The beep is probably not needed in this video as the device is very likely powered from the inverter in the wooden box, which is powered from the big batteries. 

Why bother to replicate the GMR until full build details are given.

[verpies]

This won't work with such type of output well too as there is different blueish color of light and much less heat when bulbs are connected to high frequency circuits.

A load, that at the same time plays the role of a measuring device, such as a non-inductive resistor, will not have any problems measuring power delivered to it by high frequency electric current.

A combo of 1GHz W-->V converter + any load (even inductive), will not have any problems measuring the electric power delivered to and returned by the load, either.

However if you are claiming that the output of the device under test is not an ordinary high-frequency electric current, that produces a blush glow in incandescent filaments, but an extraordinary or exotic form of energy, then both of those above devices are not designed to measure it properly.

However such claim of extraordinary existence is extraordinary and extraordinary claims require extraordinary proof.

[NickZ]

  But, regardless of what the exact brightness of the 1kw bulb was at, no one can duplicate even that result, with any of the Royer/Mazilli oscillators that have been shown by us here, yet.

[SeaMonkey]

The bulb in the video is a long, tubular bulb
such as is used in copy machines or industrial
scanners.  Conventional tungsten filament.

A halogen bulb is two "bulbs" within one:
the high temperature/high pressure halogen
laced inner bulb of quartz surrounded by the
low pressure/low temperature outer bulb.

I do not see a halogen bulb structure in the
video nor do I see a One KiloWatt bulb.  The
bulb used for the video is a much lower wattage
device.

Hoppy is correct.  It seems to be a case of deception.

[Khwartz]

This is not only one video http://www.youtube.com/channel/UCyZZNOLvFRlSMnloejp3FCw/videos
Also when you connect Mazilli (ZVS) circuit to power source the starting frequency starts from very low until capacitors get charged so there is beep heard.
This won't work with such type of output well too as there is different blueish color of light and much less heat when bulbs are connected to high frequency circuits.

Understand you say that cause you were not around these last days when we discuss these methods.

Indeed, the calorimetric method DO NOT use light bulbs, especially for the reason of the nonlinrarity of the brightness versus voltage and frequencies. It use ONLY linear resistor heating loads.

A close isulated boxes is used. You supply the box with the device starting from room measured temperature until it reachs a certain temperature and you check the duration.

You supply the same box but with a DC constant supply you can control the voltage and you do the same until you are able to bring the box from the same low temperature to the same high temperature in the same time. Then you compare this energy consumption to the energy taken by the device in input.

If you know the nominal of the heating linear resistor, and have checked it, or the value of its resistance, it will be even more easy: W = P.t = RI^2.t..