Kapanadze Cousin - DALLY FREE ENERGY

[skywalker66]

Hi Skywalker
Thanks for the drawing. What exactly ballast coil does?

It is an arbitrary name given by me, I think.
It's a ticker coil made by electric wire like those witch interconnect coils, inside bottom end of kacer coil wounded some direction as kacer is.
Its purpose is to sustain harder current required by load. It is also a extension of kacer at the bottom end where current node is.
Is something similar in this setup from attached schematic. Look how tesla coil is configured.

Edit: In this schematic the guy named his extra tesla coil "kompensator"

[Void]

It's a ticker coil made by electric wire like those witch interconnect coils, inside bottom end of kacer coil wounded some direction as kacer is.

Hi Skywalker.

Edit:
I guess you are referring to something that is tucked inside the tesla coil tube as can been
in the attached screen shot from the April 4 Roma Grits video?

In the late 2015 video, it looks like the tesla coil tube has nothing inside it.
See the attached screen shot from that video. This earlier version of the device
was powering maybe 1 kW to 2 kW of loads in the video, so that extra winding might
not be too critical, or could possibly even be a decoy. You just never know what might
be added to the device to try to throw people off. It might also be that component that
was covered in blue tape and just left hanging near the bottom of the tesla coil in the 2015 video.

[Jeg]

Ah I got it. Thanks SW66!

Void, Verpies

Guys I 'd like to tune a parallel tank circuit using my signal generator. I hooked up my freq. gen. in parallel with the tank circuit and my oscilloscope probe. The tank circuit is vibrating at MHz range and parallel cap is of a small value. How can I be sure that my f.g. doesn't introduce any extra capacitance in parallel to the tank circuit? I measured the capacity at the ends of my f.g. when this was switched off. I found something to 300nF. Way higher than my tuning capacitor. Is that a valuable way for finding it out? What do you think about that? How can I correct it? I am searching for a manual for my Chinese f.g. but nothing. 

[skywalker66]

Hi Skywalker.

Edit:
I guess you are referring to something that is tucked inside the tesla coil tube as can been
in the attached screen shot from the April 4 Roma Grits video?

In the late 2015 video, it looks like the tesla coil tube has nothing inside it.
See the attached screen shot from that video. This earlier version of the device
was powering maybe 1 kW to 2 kW of loads in the video, so that extra winding might
not be too critical, or could possibly even be a decoy. You just never know what might
be added to the device to try to throw people off. It might also be that component that
was covered in blue tape and just left hanging near the bottom of the tesla coil in the 2015 video.

Hi Void!
Is about April 4 video. That extra coil inside indeed is not quite visible along all video, is more a mine deduction
based on other seen similar coil configuration including previously posted one, and make sense to me as the
bottom end of tesla coil haven't enough current required for such a load shown alone.   
That second capture you posted is all what I have seen also in that mater. You can see there is three wire getting inside tesla coil bottom,
two of them I guess for a feedback coil going to transistor like in hand drawn schematic previously posted, and a thicker black
wire for load return.   

[Void]

Void, Verpies
Guys I 'd like to tune a parallel tank circuit using my signal generator. I hooked up my freq. gen. in parallel with the tank circuit and my oscilloscope probe. The tank circuit is vibrating at MHz range and parallel cap is of a small value. How can I be sure that my f.g. doesn't introduce any extra capacitance in parallel to the tank circuit? I measured the capacity at the ends of my f.g. when this was switched off. I found something to 300nF. Way higher than my tuning capacitor. Is that a valuable way for finding it out? What do you think about that? How can I correct it? I am searching for a manual for my Chinese f.g. but nothing.

Hi Jeg. What I usually do in that sort of situation is to connect only the red
lead of the signal generator to one side of the LC tank circuit, and the scope
probe tip to the other side of the LC tank circuit, and then connect the signal generator
ground lead to the scope probe ground lead. You will still get some LC tank circuit loading
this way if the capacitor in the tank circuit is a very small value, but it should still get you
at least close. You can double check your measured resonant frequency results by
measuring L and C separately if you have an LC meter, and then calculate the theoretical resonant
frequency as a double check to see if you are at all close to the expected result.

You can use the following website to calculate the LC resonant frequency based on the measured
L and C values. Keep in mind that if you are going to connect loads or other components to the
LC tank circuit directly or indirectly, that this could change the resonant frequency. In that case it might
be better to measure L with those other components/loads connected.
http://www.1728.org/resfreq.htm