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Overunity Machines Forum



Self Running Micro TPU, with closed loop.

Started by EMdevices, November 12, 2007, 11:49:58 PM

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quantum1024

#200
November 25, 2007, 06:13:43 PM

I had a bunch of cores laying around, I thought maybe I should check them sorta magnetically, so I played with about 15 cores and stuck a neodymium magnet on them, interestingly they where all different strengths, when I tried to remove the magnet from the cores. There where stronger and weaker cores. Try this test yourselves. 

wattsup

#201
November 25, 2007, 06:36:06 PM
I got a transistor that is equivalent to the MPS3904 which is a MPS6514 and the LED is now BLINKING. (Applause accepted). I can see on my scope that there are large spikes but taking a picture of it will be difficult on my old Hitachi V-650F cause the spikes are moving really quick.

1) Can any of the EEers here explain to me why this circuit is blinking the LED. Does this not mean that the base is getting zero voltage - then voltage - then zero voltage. But how is that possible?

2) My large cap is a 1000uF 25V. Does this mean that if I only charge the circuit with let's say 3 volts, I won't have 1000uF, or do I have to charge it for a longer time for it to reach 1000uF.

Bruce_TPU

#202
November 25, 2007, 07:14:29 PM
Quote from: wattsup on November 25, 2007, 06:36:06 PM
I got a transistor that is equivalent to the MPS3904 which is a MPS6514 and the LED is now BLINKING. (Applause accepted). I can see on my scope that there are large spikes but taking a picture of it will be difficult on my old Hitachi V-650F cause the spikes are moving really quick.

1) Can any of the EEers here explain to me why this circuit is blinking the LED. Does this not mean that the base is getting zero voltage - then voltage - then zero voltage. But how is that possible?

2) My large cap is a 1000uF 25V. Does this mean that if I only charge the circuit with let's say 3 volts, I won't have 1000uF, or do I have to charge it for a longer time for it to reach 1000uF.

Great job, Wattsup!  (Applause!)  It seems to run longer with a larger load of LED's, so you may want to start with at least two in parallel.

Is your transistor hooked in reverse as mine is?

Holiday 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.

hakware

#203
November 25, 2007, 10:50:07 PM
In regards to 7.5Hz resonance, an LC circuit to resonate at that frequency with a toroid core of the sizes were using
would be around 200 winds of wire and about a .4F capacitor. So there must be some other mechanism at work here.
we don't have near enough wire or cap size for it to have the resonant frequencies that it appears to be exhibiting here.

just my .02

@EMdevices

Do you have a part number on that core your using? numbers printed on the outside circumference?

4Tesla

#204
November 26, 2007, 01:04:16 AM
Here is a site that sells both ferrite and iron toroid cores.
http://www.oselectronics.com/ose_p88.htm

I would like to buy 2 of each kind.  What size do you think works best?
There are 4 different mixes - 43, 61, 75, and 77.. Which do you think is best?

Thanks,
4Tesla
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