Understanding electricity in the TPU.

[giantkiller]

What Wattsup did not show was the polarity of the LED bank to the polarity of the diode at the cap.
In the last test I had the LED polarity in the same direction as the diode which means the flow is blocked one way but in the opposite way the diode lights and the cap does not get charged. The LED presents the shortest path.
I am switching the direction which makes the 2 diodes look like a Barkhausen diode pair indicator. The capacitor then charges from the Barkhausen noise. No?
In the anti-parallel diode config the cap is charging albeit slowly, the LED is lit, the VAC output is 3.05vp-p, the freq is 100khz, The LED is dim at 5khz, the amp draw has dropped 150ma.

I will switch to the micro wave cap and 1n4007 diode next.

I am using a wireless hub to the controller and have eliminated the pc crashes all together.

http://amasci.com/freenrg/bark.html


http://en.wikipedia.org/wiki/Barkhausen_effect

The Barkhausen effect is a name given to the noise in the magnetic output of a ferromagnet when the magnetizing force applied to it is changed. Discovered by German physicist Heinrich Barkhausen in 1919, it is caused by rapid changes of size of magnetic domains (similarly magnetically oriented atoms in ferromagnetic materials).

Barkhausen's work in acoustics and magnetism led to the discovery, which provided evidence that magnetization affects whole domains of a ferromagnetic material, rather than individual atoms alone. The Barkhausen effect is series of sudden changes in the size and orientation of ferromagnetic domains, or microscopic clusters of aligned atomic magnets (spins), that occurs during a continuous process of magnetization or demagnetization. The Barkhausen effect offered direct evidence for the existence of ferromagnetic domains, which previously had been postulated theoretically. Heinrich Barkhausen discovered that a slow, smooth increase of a magnetic field applied to a piece of ferromagnetic material, such as iron, causes it to become magnetized, not continuously but in minute steps.
[edit] Barkhausen noise

A coil of wire wound on the ferromagnetic material can demonstrate the sudden, discontinuous jumps in magnetization. The sudden transitions in the magnetization of the material produce current pulses in the coil. These can be amplified to produce a series of clicks in a loudspeaker. This sounds as crackle, complete with skewed pulses which sounds like candy being unwrapped, Rice Krispies, or a pine log fire. Hence the name Barkhausen noise. Similar effects can be observed by applying only mechanical stresses (e.g. bending) to the material placed in the detecting coil.

These magnetization jumps are interpreted as discrete changes in the size or rotation of ferromagnetic domains. Some microscopic clusters of atomic spins aligned with the external magnetizing field increase in size by a sudden reversal of neighboring spins; and, especially as the magnetizing field becomes relatively strong, other whole domains suddenly turn into the direction of the external field. Simultaneously, due to exchange interactions the spins tend to align themselves with their neighbors. The tension between the various pulls creates avalanching, where a group of neighboring domains will flip in quick succession to align with the external field. So the material magnetizes neither gradually nor all at once, but in fits and ends
[edit] Practical use

The amount of Barkhausen noise for a given material is linked with the amount of impurities, crystal dislocations, etc. and can be a good indication of mechanical properties of such a material. Therefore, the Barkhausen noise can be used as a method of non-destructive evaluation of the degradation of mechanical properties in magnetic materials subjected to cyclic mechanical stresses (e.g. in pipeline transport) or high-energy particles (e.g. nuclear reactor). Schematic diagram of a simple non-destructive set-up for such a purpose is shown on the right.

[giantkiller]

Did this and the air coupling to a spool / LED. Trying to find the freq where the LED lights using the stepped sweep function. I can see it flickers real fast somewhere.

Send pulse into one Pri, then send that Pri to either the Sec under it or opposing it, in either direction. Like a cannon.

[giantkiller]

Lit a LED through the air with 440milivac and I didn't even have to go to M.I.T.. Pretty cool since it normally takes 700millvdc in a conductive loop.
It's like Tom Bearden's 'Action at a distance'.

Next I will do:

Send pulse into one Pri, then send that Pri to the Sec opposing it, in either direction. Like a cannon. I think your build will be better then mine when I test it that way this weekend.

Opposing could also mean cross couple to the other winding.

You could get a package of garden wire and roll your own like I did with the GK4. Variable configuration of a programmable iron core.

As a side note: I think Armagdn03 is ERfinder. Both sets of notes match up plus other specs.

[giantkiller]

Two bucking magnetic fields create consequent poles.  This creates more torsion at the expense of angular velocity.
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@Sparks,
The iron ring, once energized, keeps the precession going internally and indefinately. Same as Ed's PMH. On the PMH we see it when the keeper is seperated from the iron U and the LED flashes on. The magnetism is lost also.
The opposing pulse or abrupt stoppage of the angular velocity causes the energy to emit at a perpendicular angle.

@Wattsup,
The next setup will use the opposing bifilar configuration. The current setup has the Pri and Sec going in the same direction.

[wattsup]

@GK

Just got to my office. All weekend my internet at home is not working due to outside telephone line trouble and it should be fixed by tonight. I left all my notes at home but just wanted to say great work and thanks for your further investigation and also your technical explanation. I can maybe show an effect or two but being able to tech talk it to others is a real gift. Thanks.

Without internet all weekend I had only to work on this further. Even though I have already shown that the FTPU can show a 60 vdc voltage rise just with the toroid pri/sec while consuming mA's, I have still given the benefit of doubt to SM and made a new mock up with the outer rings. There is nothing special to report any more then before but I would say I am only at 10% of potential trials. There is also one pulse splitting into two lines, etc., that I have not tested, but will soon enough.

So you really think @Armagdn03 is @erfinder. Geez we have not heard from ErfyBaby for a long while. If this is true, then his recent posts should be reviewed a few times. Not that @Armagdn03 by himself does not deserve the same attention, well, you know what I mean. lol (Foot in my mouth.)