Kapanadze Cousin - DALLY FREE ENERGY

[Void]

Guys I attach a schematic with a Cw and a ccw arrangement of a katcher coil. The first occasion is mine, with both primary and secondary cw arrangement. In this case collector goes on the right end of primary as you look at the picture. Where the collector goes when the arrangement is the opposite? At end no.1 or no.2?

Hi Jeg. If the primary and secondary are wound in the same direction, whether both CW or both CCW, then you must connect the
V+ connection at the bottom of the primary winding (1) and the collector connects to the top of the primary winding (2).
If on the other hand the primary and secondary are wound in opposite directions to each other, the connections on the
primary will be reversed, with V+ at (2) and the collector connected to (1). Since in both of your drawings the windings
of the primary and secondary are in the same direction relative to each other, either both CW or both CCW, then the connection
of V+ and the collector connection remains the same for both of your drawings.
All the best...

[Jeg]

Hi Jeg. If the primary and secondary are wound in the same direction, whether both CW or both CCW, then you must connect the
V+ connection at the bottom of the primary winding (1) and the collector connects to the top of the primary winding (2).
If on the other hand the primary and secondary are wound in opposite directions to each other, the connections on the
primary will be reversed, with V+ at (2) and the collector connected to (1). Since in both of your drawings the windings
of the primary and secondary are in the same direction relative to each other, either both CW or both CCW, then the connection
of V+ and the collector connection remains the same for both of your drawings.
All the best...

Thanks a lot Void. So in whichever direction someone is wound it, the same negative particles will emit. Only the poles are changing. In my case south is at the top of Tesla, and on the other way North. Did you notice at Urfa's video that lamps are affected even when he had disconnected the antenna from Tesla coil?

[Void]

Thanks a lot Void. So in whichever direction someone is wound it, the same negative particles will emit. Did you notice at Urfa's video that lamps are affected even when he had disconnected the antenna from Tesla coil?

Hi Jeg. I am not sure what you mean about negative particles.
The waveform on the secondary of the tesla coil when driven with the kacher driver
is an AC signal, so it is an alternating in polarity. Whether this could be considered negative or positive
at any point in the AC cycle depends on the reference point.

Since the tesla coil is wound with the top of the secondary being fairly close to the
top of the grenade coil, there will likely still be interaction between the two separate coils
even without the 'antenna' winding connected, although this interaction should be a fair
bit less due to the way the grenade coil is wound.
All the best...

[Jeg]

Hi Jeg. I am not sure what you mean about negative particles.
The waveform on the secondary of the tesla coil when driven with the kacher driver
is an AC signal, so it is an alternating in polarity. Whether this could be considered negative or positive
at any point in the AC cycle depends on the reference point.

Since the tesla coil is wound with the top of the secondary being fairly close to the
top of the grenade coil, there will likely still be interaction between the two separate coils
even without the 'antenna' winding connected, although this interaction should be a fair
bit less due to the way the grenade coil is wound.
All the best...

Yes it was less but it is a good indication to understand that something happens without worrying at least about the radiator's direction.

About negative particles, I was referring to don Smith's theory. Without realizing it I started to look things in this way. Smith and Ledskalnin were my teachers

[Hoppy]

hi itsu,Hoppy and everyone else,

I do believe i may have the answer to why there is such high voltage reading across capacitor 0.47uf especially for itsu and yet the bulb are dimly lit.

This is something to do with "Reactance of a capacitor"

Just try to punch some number into the web site pasted below base on your capacitor reading via L/C meter(Please don't trust the value on capacitor) and frequency base on PWM generator.
Example:490nf for capacitor and 27khz for PWM generator
Answer:It's around 12 Ohms if you are sticking with 0.47uf

http://www.sengpielaudio.com/calculator-RC.htm

Now let's take Ohms reading of 25 turns x 2 bifilar winding.If this figure is way lower than 12 Ohms.
Then at this point i can safely say you already have a case of " impedance mismatch " .
It is the main reason why such high voltage can be seen across the capacitor rather than at the winding.


Now assume you start using 1.2uf capacitor at 27khz as example.The Reactance of capacitor is now 4.9Ohms.

This capacitor reactance would be now closer in order to match impedance of 25 x 2 bifilar coil.

This is something to seriously consider related to capacitor value selection.

Yes the formula in web is based on ideal capacitor without taking into account high or low ESR which would be represented as losses.
To be on the safe side i just use induction heating capacitor x 4 in parallel to form 1uf at first.

Mag,

You raise an important point about reactance. I'm getting as much as 400V across the inductor cap and its important to use the best low ESR caps for this component, designed for pulsed operation. As you suggest, ideally smaller caps should be paralleled to make-up the required value in order to reduce reactance. Caps at 400V rating heat-up and blow out on my setup, so I would advise at least 600V DC rating.