Otto`s replication of Steven Mark`s TPU

[otto]

Hello all,

@Rich

in this moment I prefer for my primary side of my little "transformer" 4,2m wire lenght and diameter can be 0,5mm - 1mm. Its the same. Yes, the current from the power supply is the same. Nice, isnt it?

For my secondary I use 0,35mm wire diameter and 10,5 m .

Of course, the controls must be optimised.

You did a great job. Finally, my drawings on 1 place. Thanks.

I see you mentioned currents.
When you first pulse the coils at WRONG frequencies it can happen that the current from the power supply is at least 5A!!!!  A disaster. The controls are overheating, you can smell the isolation of the wires is almost melting.
Wehn you are nearer even a wrong frequency, but a nearer, the current drops to 2 - 3A and then the coils are hot but not overheated. With such a current you can then easily work.
Later I will describe something impossible but fantastic.

Again in short:

1.primary coil 4,2m lenght, diameter 0,5mm - 1mm
2.secondary coil 10,5m lenght, 0,35mm

It will be and must be changed.

Otto

[eldarion]

Otto,

Have you noticed the inertial (gyroscopic) effect yet?

[gn0stik]

Hello all,

@Rich

in this moment I prefer for my primary side of my little "transformer" 4,2m wire lenght and diameter can be 0,5mm - 1mm. Its the same. Yes, the current from the power supply is the same. Nice, isnt it?

For my secondary I use 0,35mm wire diameter and 10,5 m .

Of course, the controls must be optimised.

You did a great job. Finally, my drawings on 1 place. Thanks.

I see you mentioned currents.
When you first pulse the coils at WRONG frequencies it can happen that the current from the power supply is at least 5A!!!!  A disaster. The controls are overheating, you can smell the isolation of the wires is almost melting.
Wehn you are nearer even a wrong frequency, but a nearer, the current drops to 2 - 3A and then the coils are hot but not overheated. With such a current you can then easily work.
Later I will describe something impossible but fantastic.

Again in short:

1.primary coil 4,2m lenght, diameter 0,5mm - 1mm
2.secondary coil 10,5m lenght, 0,35mm

It will be and must be changed.

Otto

Alright Otto, I will change it, and re-post it first thing tomorrow to reflect the things you specified. I'll make a note of the current notes as well, for tuning indications.

Thanks for the tips. I'm glad to help. Gus, good idea. I think a q&a section would be a good, no pressure approach to answering questions that need to be answered.

A question for everyone(whoever can answer). What would the "gauge" in the US (AWG) be for .35mm and .5mm wire? (lol at myself)

Regards,
Rich

[gn0stik]

Nevermind, it looks like 24 AWG(.321), and 27 AWG(.511), they are not exact, but close.

Here's a chart.

These will work, won't they Otto? 

http://www.vandenhul.com/artpap/awg.htm

Rich

[Gustav22]

The following translation is pertaining to Otto's message
http://www.overunity.com/index.php/topic,1848.msg33897.html#msg33897
in German language thread

Hi everybody,

here comes a real bummer ? A sweet for our physics experts and our Gabi.

All of us pulse our  TPUs with 3 frequencies. All of us use 3 MOSFETs, 3 pulse generators etc. for this purpose.

In order to not overheat the pulse generators we use a heat sink for each MOSFET, so that?s 3  heat sinks in total. They are made of aluminium.

A long time ago we were told that everything should go into the TPU. I followed this advise although I could not see any change or sense in it.

Maybe you also remember my magnetized needle, which started to spin. I did not know why it started spinning (not important). When I saw it spinning I took a lighter and used it to heat up the wire. OHO. The needle started to spin up like mad. It was obvious: something was going on in the wires. I put this experience aside, but took note of it.

Then I took a look at the 15?? TPU: an oval heat sink. You can?t overlook it. Then the open TPU: 2 black rings. Hmmm

Maybe I should tell you that I envisage the rotating mag field as rotating ?dust? or ?particles?, in order to visualize what?s happening.

OK. The heat sink must be oval so that my fast rotating particles don?t get disturbed in their movements but can rotate unhindered. So I had solved this problem.

But why should the heat sink be in the TPU??

And here it comes:

3 heat sinks with attached MOSFETs.
Outside the TPU: If they get pulsed all 3 heat sinks get hot.

When my visitor and I changed the frequencies we could observe that a small sine wave showes up. To prevent frying the MOSFETs I alway had to put my hand over the heat sinks to feel the temperature. What did I realize??

Good god, the heat sink of the MOSFET which gave the sine wave must have got heated up to more than 100? C!!! Why did the  MOSFET not switch off. After all it is equipped with an overheat protection !!!! What is going on??? The heat sink was so hot, I could not touch it. Yet the  MOSFET continued to operate!!!!
Something is wrong there..

Then I detached the MOSFET from the heat sink and took it in my hand. Unbelievable!!!!!! It was just WARM!!!!!!!! UNBELIEVABLE but true!!! Just WARM!!!

Well, that?s one of the effects we saw. That?s just one of the secrets of the TPU.
Now you also know what the black rings in the TPU are: rings of aluminum!!!

Sure, then I remembered the wire which I heated up, and which mentioned above .

One of the secrets of the 6" TPU:

Aluminium gets heated up to release particles which are then injected into our "tornado" with my coils. That?s one of the secrets.

Why do you think I try to get people to replicate a - my  TPU?. So that they will be able to see what I and my visitor saw.

Digest this a little.
Tomorrow another small story.

Otto