Kapanadze Cousin - DALLY FREE ENERGY

[lost_bro]

Indeed, even Tito brought up parametric amplifiers/oscillators, but nobody talks about which parameter is being modified.

I think the variable parameter is permeability.

Applying an HV gradient to a running circuit with current flowing in both directions causes those fast-running currents to run outside the copper, like a skin effect.   I think you could then collect the result electrostatically.

This change in 'virtual permeability' would only show up in circuits with currents running in opposition (non-inductive coils, bifilars, opposed/bucking coils, etc) and it would be proportional to the external static field voltage.


I wonder if we're getting warmer?

Good day Reiyuki
Yes, probably getting closer, just take a look at this US patent.  The same author has other patent applications dealing with a parametric effect induced on transformers.

"the output voltage occurring on the secondary side caused by a transient phenomenon"

and;

"According to Faraday's law, only the time rate of change in the magnetic flux of a transformer, that is, only the time rate of change in the primary input current is effective for the secondary output voltage of the transformer, and the length of time when current flows does not matter. That is, input current which is flat and close to direct current, has little effect on the output voltage no matter how large it is and how long it flows."

then;

"Further, according to non-patent literature 2, the occurrence of positive electromotive force (positive EMF) exceeding Faraday's electromotive force is disclosed, when a change in the primary input current of the transformer involves a precipitous change as effects a change in secondary or more differentiation value with respect to time. The positive electromotive force (positive EMF) is in the same direction as the
input current, that is, serving to increase current, and thus the occurrence of the output electromotive force, which exceeds the electromotive force according to the Faraday's law, can be expected.
This is the reason why a sharp spike-shaped current (pulsed current) is used for the primary input signal of the transformer."

take care, peace
lost_bro

[lost_bro]

Good day All;

While we're at it, figure I'd add some info. from a VNA (Vector Network Analyzer) manual:

"So at resonance the series LC combination switches from acting like a large capacitor to acting like a small inductor."

take care, peace
lost_bro

[apecore]

Good day All;

While we're at it, figure I'd add some info. from a VNA (Vector Network Analyzer) manual:

"So at resonance the series LC combination switches from acting like a large capacitor to acting like a small inductor."

take care, peace
lost_bro

Unfortunately i and a lot more don't understand every detail explained.
It is hard to make the relation to the workbench.
But looking at the big picture it makes sence...... it is as you always have very interesting to read.

Is it possible Lost_bro to explain some statements (in general) in simple practical understanding?
Maybe in respect to what we are doing and should be aware of with our setups?
It may lead to practical test i hope?


As you speak about behavior of LC serie combination is there also a connexion in what Tesla showed with the coil capacitor....  the double aluminium foil wrapped wich has also in combination with a spark gap a coil/ capacitor behavour?  Yust a guess.

thanks in advance

[lost_bro]

Unfortunately i and a lot more don't understand every detail explained.
It is hard to make the relation to the workbench.
But looking at the big picture it makes sence...... it is as you always have very interesting to read.

Is it possible Lost_bro to explain some statements (in general) in simple practical understanding?
Maybe in respect to what we are doing and should be aware of with our setups?
It may lead to practical test i hope?


As you speak about behavior of LC serie combination is there also a connexion in what Tesla showed with the coil capacitor....  the double aluminium foil wrapped wich has also in combination with a spark gap a coil/ capacitor behavour?  Yust a guess.

thanks in advance

Good day Apecore:

I wish I had an easy answer for your question:

"So at resonance the series LC combination switches from acting like a large capacitor to acting like a small inductor."

This statement was posted to show a plausible correlation between the comments Dog-One made regarding a possible M.O. relating Parametric oscillations to the operation of this device.

First off one needs to be familiar with the reactances at play while a coil is driven @ resonance and *near* resonance.

At the Fres (resonant frequency) the inductive reactance Xl and capacitive reactance Xc are equal and opposite. 
This means they cancel out each other and only R is remaining, so the Voltage and Current are in phase (resistive load).
In other words: load impedance equals R (winding resistance) @ resonance

I think the first interesting point is: the load impedance will become very sensitive to any changes in Frequency near the natural Fres of the coil.

This translates to the driver seeing/responding to a load that can be dominated by either of the two reactances:
Inductive Reactance or Capacitive Reactance and their associated phase shifts.

When the driving Frequency is under the natural Fres, the Load presents itself as Capacitive and conversely when driven at a frequency above the natural Fres of the coil the Load presents itself as Inductive. This change between Capacitive and Inductive nature is accompanied by the associated phase shift between Voltage and Amperage. 

So we have one coil which can present itself in either of two ways......... with a variable power factor!

When driving a Tesla coil and large sparks/discharges are wanted, it is desirable to run at *precisely* the Fres. This is because @ Fres, the impedance is at it's lowest (only R exists (winding resistance)- reactances cancel out each other) and the Highest Power throughput occurs (large sparks).

The second interesting point would be: Since the load (coil) can change it's apparent electrical appearance from Inductive to Capacitive nature with associated phase shifts (variable P.F.) by fluctuations in the driving frequency...........

The questions are:

What is the min. delta in Freq. necessary to effect this change / flipping of the inductive/capacitive character of the load?
Can this effect be used to instigate Parametric Oscillations?
And, Can this variable P.F. (power factor) be used to an advantage to beat Lenz's law?

Unfortunately I do not have these answers, in fact I am not sure that this is the actual M.O. for the device.

I just post this here as food for thought.

take care, peace
lost_bro

[verpies]

What is the min. delta in Freq. necessary to effect this change / flipping of the inductive/capacitive character of the load?

That depends on the Q of the LCR circuit.  As Q approaches infinity, the "min. delta in Freq." approaches zero.

Can this effect be used to instigate Parametric Oscillations?

I don't think so because the presence of an external AC oscillator negates self-oscillations.


Here are three videos for newbies:
http://youtu.be/zO7RZZW0wSQ
http://youtu.be/Mq-PF1vo9QA
http://youtu.be/ozeYaikI11g