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Overunity Machines Forum



STEORN DEMO LIVE & STREAM in Dublin, December 15th, 10 AM

Started by PaulLowrance, December 04, 2009, 09:13:07 AM

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maw2432

#2490
February 07, 2010, 04:54:41 PM
Quote from: Bruce_TPU on February 07, 2010, 04:31:17 PM
Hi Bill,

I will let you know in a bit, as I am just having time to play... LOL
You wind the secondary, strip the leads and join them together.  That is it.  They are not joined "electricaly" to the circuit, if I may use that word.

I will let you know if it works!

Cheers,

Bruce
http://energyfreedomreport.com

Bruce thanks,

Let me see if I understand, once shorted the secondary coil wires are then connected to one of primary wires?  If so does it matter which one?   If not connected at all,  then how does it effect the primary?    Sorry for  being so detailed.   

Bill

Bill

Bruce_TPU

#2491
February 07, 2010, 04:57:47 PM
Quote from: Bruce_TPU on February 07, 2010, 04:31:17 PM
Hi Bill,

I will let you know in a bit, as I am just having time to play... LOL
You wind the secondary, strip the leads and join them together.  That is it.  They are not joined "electricaly" to the circuit, if I may use that word.

I will let you know if it works!

Cheers,

Bruce
http://energyfreedomreport.com

Hey Bill,

Ok, having a shorted winding on the primary does indeed allow the current to flow, and reduces the need for much voltage at all.  I have just burned up some wires (too much current), no biggie... LOL  But I now must switch from my 12 volt sealed lead acid to a D Cell and see what happens.  Worst case, I put it onto my power supply.  I really want to go with a battery if I can.

Shorted secondary (my green winding) is not connected to anything but itself (shorted)
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.

teslaalset

#2492
February 07, 2010, 05:02:37 PM
Quote from: PaulLowrance on February 07, 2010, 04:25:45 PM
The attached image should explain it. That's how it seemed to me from the start.

Paul, thanks for your thoughts.
I thought about this kind power flow, however that does not match with my thoughts on how the coil moves in the B-H curve.
Below my initial views.
Red is the area that is 'travelled' during the power pulse.
Blue is the one travelled after the coil power has ended.

[edit]
To close this loop, the remanent magnetic situation of the coil core needs to switch. This is probably where the magnet comes in. Any other thoughts?

PaulLowrance

#2493
February 07, 2010, 05:14:23 PM
Quote from: teslaalset on February 07, 2010, 05:02:37 PM
Paul, thanks for your thoughts.
I thought about this kind power flow, however that does not match with my thoughts on how the coil moves in the B-H curve.
Below my initial views.
Red is the area that is 'travelled' during the power pulse.
Blue is the one travelled after the coil power has ended.

teslaalset, the BH curve you show is only for internal interaction, not simultaneous external-internal interaction. The magnet acts as an external field since it cannot form a close magnetic loop. You can't use the square loop BH curve in this case. The magnet forces a lot of the domains to align to its field. This requires a lot from the coil to counteract. It's almost a flat curve, practically no coercivity.


teslaalset

#2494
February 07, 2010, 05:17:48 PM
Quote from: PaulLowrance on February 07, 2010, 05:14:23 PM
teslaalset, the BH curve you show is only for internal interaction, not simultaneous external-internal interaction. The magnet acts as an external field since it cannot form a close magnetic loop. You can't use the square loop BH curve in this case. The magnet forces a lot of the domains to align to its field. This requires a lot from the coil to counteract. It's almost a flat curve, practically no coercivity.

That makes sense, indeed.

B.t.w. instead of a diode, it could simply be shortened as well.
(in case of reed switches or relais)
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