ENERGY AMPLIFICATION

[wattsup]

https://teslaresearch.jimdo.com/articles-interviews/electrical-oscillators-by-nikola-tesla-electrical-experimenter-july-1919-1/

[Magluvin]

Just did a simple test with 6 turns of 4awg around a 4in pvc pipe. Charged up a 4.7uf 100v cap. Blue dip cap

I charged the cap to 30v and discharged it to the coil with a scope on the coil. So far not much. So is the problem with the cap used? Is it necessary to have a bifi coil cap instead? Would it be of an advantage to integrate the pri with the bifi inductively to help keep the oscillation going longer. Im going to try a few more things with this to see what I can come up with on those terms. I suppose the bifi cap would be open ended to act as a cap only, but if it is wound as a coil, induction could play a part in how the open ended bifi reacts.

Mags

[sm0ky2]

In the Ozone Paten ( pg 530 of this thread)
Negative side of the input (dc power source)
Goes through the motor windings, the commutator
And grounded to the motor case. Turns the motor
As well as through the primary coil to the - side of
The capacitor
+ side of capacitor is constantly being charged by the
dc power source.
Once the capacitor reaches the potential to arc across the
adjustable spark gap on the rotating disk attached to the
motor shaft, it discharges through the primary coil. There
is no effective feedback through the motor back to the source
because the potential exists between the capacitor plates


The frequency is generally 2x that of the motor rpm, due to
the physical construction. Controlled by a variable resistance.
The two contact points on the disk allow for a contact twice per
rotation. If more is required, multiple arc paths can be used in the disk.
Drawing is simplified.


The secondary coil bears little in the primary in terms of operating
frequency. The resonance that is set up in the LC primary tank overpowers
the minuscule current drawn off through the secondary induction.
And the high potentials makes it so the path of least resistance is through
the ionization of atoms and molecules in the space between the plates of the
Ozone Maker. This is what creates the Ozone, some of the ionized O(-) atoms
have enough energy to bond into groups of 3 or more instead of the low energy
O2 we are used to at human altitudes.
Current can't go back through the transformer
Not quite a diode, but an inhibiting resistance path.
Whatever charge is left on the plates when the field collapse occurs in the inductor
Is lost.
The oscillating primary tank in this circuit could probably drive several devices
before you had any noticeable impact on the tank.

[sm0ky2]

You could say that the primary and the capacitor are in series with
Each other (shorted out across the spark gap)
And both of these are in parallel to the motor.
Motor drives the spark gap and facilitates the 'shorting'.


The LC tank could operate on its own by using just a spark gap
Instead of the motor.


The secondary is irrelevant until you get the primary down to perfection.

[Magluvin]

You could say that the primary and the capacitor are in series with
Each other (shorted out across the spark gap)
And both of these are in parallel to the motor.
Motor drives the spark gap and facilitates the 'shorting'.


The LC tank could operate on its own by using just a spark gap
Instead of the motor.


The secondary is irrelevant until you get the primary down to perfection.

I see it as B input lead as connected to in of the D stator coil, then out of the D coil to the motor brush, through the armature, then in to the F stator winding and out of F to the G brush of the H controller. One side of the primary also is connected to the G brush, where the other side of the primary is in series with the cap and the other side of the cap is connected to the K brush of the H controller, and also the power input A is connected to K.

So all the motor windings are in series, and are not connected to power directly from the input until the H controller connects brushes G and K, and at the same time H is making that connection, the primary and cap are in parallel to do their thing.

So this is very much like the Igniter pat where as the motor here is the large inductor there. Or does the motor help us any compared to the large inductor of the igniter circuit?

When the H controller is connecting brushes G and K, the motor is powered by the DC input and the fields in the motor build. Then when the H controller disconnects, the motors field collapse charges the cap through the primary. Then when H connects again, the cap is discharged into the primary, oscillation I suppose, and the motor once again gets power from the input and repeat.

Mags