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Overunity Machines Forum



Successful TPU-ECD replication !

Started by mrd10, June 12, 2007, 05:12:47 AM

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c0mster

#415
June 18, 2007, 11:11:51 PM
OL

Bruce_TPU

#416
June 18, 2007, 11:38:53 PM
Well tonight was fun...not! :)

Spent much time rewinding my control coils onto the 6" loop and off of the spools like I had them.  I am sure Rich can relate.  LOL

My partner spent a great deal of time soldering small little pins to the IRF7307 drivers.  They are near microscopic and VERY difficult to work with.  This is why several pages back Roberto approved a MIC for the driver that has pins and is easier to wire.

@ Stefan
http://www.overunity.com/index.php/topic,2535.msg35456.html#msg35456

at this post, reply #236 Roberto asked for the schematic of the MIC4426 driver to be placed in the FAQ.  I am sure you overlooked it, because it isn't there yet.  This driver will save hours off of the build time compared to the IRF 7307!  LOL  My partner would agree! :)  Thank you!

Cheers,
Bruce
1.  Lindsay's Stack TPU Posted Picture.  All Wound CCW  Collectors three turns and HORIZONTAL, not vertical.

2.  3 Tube amps, sending three frequency's, each having two signals, one in-phase & one inverted 180 deg, opposing signals in each collector (via control wires). 

3.  Collector is Magnetic Loop Antenna, made of lamp chord wire, wound flat.  Inside loop is antenna, outside loop is for output.  First collector is tuned via tuned tank, to the fundamental.  Second collector is tuned tank to the second harmonic (component).  Third collector is tuned tank to the third harmonic (component)  Frequency is determined by taking the circumference frequency, reducing the size by .88 inches.  Divide this frequency by 1000, and you have your second harmonic.  Divide this by 2 and you have your fundamental.  Multiply that by 3 and you have your third harmonic component.  Tune the collectors to each of these.  Input the fundamental and two modulation frequencies, made to create replicas of the fundamental, second harmonic and the third.

4.  The three frequency's circulating in the collectors, both in phase and inverted, begin to create hundreds of thousands of created frequency's, via intermodulation, that subtract to the fundamental and its harmonics.  This is called "Catalyst".

5.  The three AC PURE sine signals, travel through the amplification stage, Nonlinear, producing the second harmonic and third.  (distortion)

6.  These signals then travel the control coils, are rectified by a full wave bridge, and then sent into the output outer loop as all positive pulsed DC.  This then becomes the output and "collects" the current.

P.S.  The Kicks are harmonic distortion with passive intermodulation.  Can't see it without a spectrum analyzer, normally unless trained to see it on a scope.

z_p_e

#417
June 19, 2007, 12:33:35 AM
I was going to wind a coil, but I don't have the #24 wire, so I decided to try and calculate the inductances.

What I came up with:

Primary: 15.5uH, 0.36 Ohms, [165.32 inches of #24 wire], 90 turns

Secondary: 107.8uH, 2.28 Ohms, [413.28 inches of #28 wire], 248 turns

I used a coil length of 1", and a starting bobbin diameter of 0.5".

Hopefully a few people will add their specs for comparison.

Regards,
Darren

Thaelin

#418
June 19, 2007, 01:33:11 AM
   Here is the driver file. Covers the 26 and 27. I was looking for this one and Norvac Elec. here has no listing for it. Go figure.

sugra

Jdo300

#419
June 19, 2007, 01:57:02 AM
Hello All,

I'm finally back from my weekend trip and thought I would take the time to draw up the the circuit diagram for my control circuit.

It uses the mic4427 MOSFET drivers for the IRF840 MOSFETs. For those of you wondering where to order them, they can be purchased inexpensively from this website here:

http://www.arrow.com/

Search for mic4427BN. That is the correct chip.

I am currently modifying my control circuit to output extremely small duty cycle square waves (500 ns pulse width) to conserve input power. My firm view is that we only want to put in enough current to load the coil inductance and no more. Any extra input will simply be wasted. The attached circuit diagram does not include the ICs I will be using for the pulse width control but I will be using the 74HC423N chip. It is a Dual retriggerable monostable multivibrator which, using a resistor and capacitor allows you to vary the output pulse width from a minimum of 75ns and up. The mic4427NB drivers need a minimum 500ns pulse width to turn on and off properly.

As soon as I have finished the modifications to the control circuit, I will post an updated circuit diagram.

The board I have currently runs on a single 9V battery and the input frequencies are controlled by three separate battery-powered function generators, which I bought from here:

http://www.electronickits.com/kit/complete/meas/fg500k.htm

They have a range of 1Hz to 1MHz. Above, 500k, the square wave output really breaks down but since the FET drivers are comparator driven, it won't affect the switching of the MOSFETs.

That should be all you need to make this circuit. If you want to use 555 timers, make sure that you put some capacitors in parallel with the power supply inputs to the timer chips because the FET drivers draw a lot of power when they are running. If you have any problems, PM me and I'll see what I can do to help you.

God Bless,
Jason O
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