Bloch wall disconnect and reconnect. The final design!

[giantkiller]

Uh oh....

I am working 2 mag amps with an iron core and stranded copper core. I am winding the 3 control coils all that way around(this gives a solid toroid field) and overlapping instead of 3 segments. This still flips domains, controls bloch wall, cancels flux.
The leads coming off the collector are 2 inches apart.
All silicon is in and on the bench. I use JK flipflop with !Q pointed back to reset for fast cmos switching.
Design documents are also on the bench.
I have to finish winding my 2 coil then prototype the driver.
All electronics will sit in center and are battery driven.

Tube based JK flip flop... Looks like a mag amp setup, no? Hmmm. 2 magamps throttling back and forth. Thumping? Hmmm. And then out to 2 larger rings thumping up and down. Oh, what wonderous field activity!

Anybody else?

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

[giantkiller]

Lets keep it simple:
http://www.youtube.com/watch?v=edqGNOrW1GM&feature=related

TPU bootcamp:
http://www.youtube.com/watch?v=OaXMw6JOPPs
http://www.youtube.com/watch?v=ZAcw7BuHhwA

[giantkiller]

Here ya go pretty coils straight from the bedside: go to downloads and look for gk1-gk27
http://www.overunity.com/index.php?action=downloads;sa=downfile&id=406
You still have to work.

The big chips are 'break before make' when the address lines change. Try a JK flipflop with the !Q tied to CLR then clock it. Very high speed. That is the big secret. Floating ground, floating fets(IRF840), low current, controls all the way around(snake biting its tail).

The fet driver chip is a p605. The clock chip could be a 4 bit binary out. Look at the truth table. 1 line then 2 lines are on at the same time then 1 line.
There is also a funny looking switch in the circuit. I have used a fet. It is in the feedback loop internal to the ckt itself.
All cmos for 9v bat operation in center.
Notice no caps on the coils? That is where we come in and what about the magamp? Iron centers. Color picture posted previous. I have this build 80% done. I prototype now.

sorry not so great news in the call, not what you wanted to hear.

here are all the scans.

to recap
for 8" to 15" base freq ~ 1.4khz - 3.2khz
freq 2 = base x 2.1 +/-
freq 3 = base x 3.2 +/-

driver2.jpg was my preliminary interpretation

some comments.
important to have the collector outputs around 1-2" separated, not together.
wind a / b / c with same # of turns on top of each other
lowest wind (closest to collector) uses slowest freq
the control coils should be wound over top and into middle (winding direction) clockwise
the control coils should meet in the middle between the collector outputs, and be brought into the middle (not come outside)
all the electronics should be housed inside the torroid (not outside)
use tinned stranded insulated wire
fine tune 2nd, for max output, then 3rd for max output then repeat (for max output)
more collector turns for more voltage

sometimes a build would not work, so start again
found older wire (some corrosion) would work better

use a outer circumference wind to stablize electronics ground (notice the 2 grounds mentioned in diagrams) float gnd
2 grounds (9v battery) plus the outer wind ground

lots of buffers everywhere.

too many stories to tell (12 or so meetings over 12 months, sometimes 4 months of no contact)

I figured out what the second set of windings in the drawing is for. If you remember what "S" said, part of the output from the collector was wrapped around all the control coils together as a magnetic bias that helped to intensify the effect - the "furnace that feeds itself". I also noticed that one of the collector rings didn't appear to be attached to anything but the VCC source. Perhaps it's functioning as some sort of potential bias?

Also, I studied the pictures containing the big ICs with the resistors and stuff on them. I looked up the 4009 and it is a Hex Inverter IC. If you look above it in the picture where he has all those resistors tied to inputs and outputs, it looks like the things on the left are actually electrolytic capacitors. He is using the RC values probably to male an oscillator to generate one frequency for each channel. It looks like he has three of those ICs there which create pulses for the three channels (you can see them labeled A, B, and C). So by controlling all of the RC constants, you can effectively make both a digital oscillator for the frequency and a delay line setup to control the pulse width. I haven't studied the circuit in as much detail as I will later but those are my initial impressions from the drawings he gave.

That's my thoughts for now. This is making more sense by the day :-). Also, I checked my rat shack coil spools (the pack you can get that has a red, green, and black set of wire). They are definitely tin plated!

Rat shack arent plated anymore.
I got mine from http://stores.sacelec.com/sacramentoelectronics/ search for wh22-

Look at the TPU this way:
All who know are under NDAs. How do they get it out? Recruit somebody who has a clue, who can be shown with out mentioning vital terms and then the recruit takes it from there. Might the recruit be you?
Could be my last build. I am not saying anybody has to follow. I just give

[Mannix]

cut and paste?

[sigma16]

Here ya go pretty coils straight from the bedside: go to downloads and look for gk1-gk27
http://www.overunity.com/index.php?action=downloads;sa=downfile&id=406
You still have to work.

The big chips are 'break before make' when the address lines change. Try a JK flipflop with the !Q tied to CLR then clock it. Very high speed. That is the big secret. Floating ground, floating fets(IRF840), low current, controls all the way around(snake biting its tail).

The fet driver chip is a p605. The clock chip could be a 4 bit binary out. Look at the truth table. 1 line then 2 lines are on at the same time then 1 line.
There is also a funny looking switch in the circuit. I have used a fet. It is in the feedback loop internal to the ckt itself.
All cmos for 9v bat operation in center.
Notice no caps on the coils? That is where we come in and what about the magamp? Iron centers. Color picture posted previous. I have this build 80% done. I prototype now.

Rat shack arent plated anymore.
I got mine from http://stores.sacelec.com/sacramentoelectronics/ search for wh22-

Look at the TPU this way:
All who know are under NDAs. How do they get it out? Recruit somebody who has a clue, who can be shown with out mentioning vital terms and then the recruit takes it from there. Might the recruit be you?
Could be my last build. I am not saying anybody has to follow. I just give

You should not believe everything people say.  You should perform simple experiments before building full-blown devices.  Otherwise, you waste a lot of time and money, and get no where.