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Overunity Machines Forum



Solid State Orbo System

Started by Groundloop, January 06, 2010, 12:21:24 PM

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Bruce_TPU

#35
January 07, 2010, 01:23:04 AM
Quote from: Groundloop on January 07, 2010, 01:08:34 AM
Oc,

Thanks for the added information about the Orbo motor system.

In this thread we are trying to make a solid state version. So some of your points will not apply.
But good information anyway. One factor for the solid state will be the frequency. Higher frequency
will give out more power. This is compatible to RPM in a rotor, I guess. One other factor in a solid
state system is resonance in the input toroid cores. This will lower the input usage to almost
nothing while at the same time switch the magnetic field on and off in the generator coil.

So there is a lot to research.

Alex.

EXACTLY!  Those two items alone, and the addition of the increased flux from double sets of magnets and added steel, might just do the job...  :)

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.

stprue

#36
January 07, 2010, 09:32:21 AM
Ahhh

Nice to have you back on the scene Bruce!

;D

Groundloop

#37
January 07, 2010, 10:24:10 AM
@Staffman,

Today I tried to measure the inductive kick back voltage spike.
I set the o-scope to 5 Volt/Div and used the probe at X10.
So each Div. on the vertical on o-scope is 50 Volt. The inductive
voltage spikes was above the o-scope edge. The setting on
the switch was NOT at maximum. I can go even higher.

So the inductive kick back voltage spike is > 50 *10 = 500 Volt. I estimate
closer to 1000 Volt or more when the switch is at maximum setting.
This is the reason that I'm using a 1500 Volt transistor.

Alex.

Staffman

#38
January 07, 2010, 10:51:14 AM
Wow groundloop! That's one heck of a spike! The IRF PF50 should be here in a few days. Should I worry about frying it?

Groundloop

#39
January 07, 2010, 11:28:11 AM
@Staffman,

It will probably survive. It depends on several factors. One is
you input voltage. Two are the toroid coils. Three is how much
power you put into your toroid. So if you don't push the RA
switch to maximum then you should be safe. Your transistor
is rated 900 volt so you can push a lot of power into the
toroid before the transistor blows up.

Alex.
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