Solid State Orbo System

[Groundloop]

Hi All,

I have started this new thread to discuss a solid state Orbo version.
I have build one version, not perfect in any way, but it seems to work.
I think magnetic shielding is important to consider when making free energy.

I use three Toroids (the one that is on power cables) with the size as in the attached drawing.
I threaded two of them with 4 wires in parallel 0,2 mm enameled copper wire. Did put as many
turns as I could on the cores, approx. 90 turns. I then epoxied the two toroids to the third
ferrite core. Did use two plastic rings to keep the generator coil in place. The generator coil
is wound approx. 200 turns with 1 mm enameled copper wire. The mostfet switch is
the Rosmary Anslie switch found in another thread in this forum. I have three pot-meters
to adjust frequency, duty cycle and mosfet gate trigger resistance.

I now can confirm that the energy created in the generator coil of my solid state
is real and useful. I have done a test and used the output to charge another
lead acid battery. I collected the high voltage output in a capacitor and when the
voltage in the capacitor reached approx. 220 volt, then I just discharged the
capacitor into the battery with a SCR triggered from a Neon bulb. When the
high voltage from the capacitor meets the low resistance of the lead acid battery,
then the voltage is "converted" to current in the battery, thus making the ions
move and ultimately charging the battery. I can not claim that my first crude
and simple setup is over unity. But I hope that future versions is better tuned
with better toroids etc. I have also learned that the generator coil must be
a high turn (thin wire) coil so that we generate a LOT of voltage with almost no
current. It looks like this method of generating power need voltage, not current.

I know this because I was WRONG about the fast switch on time regarding the
difference between hexfets and regular transistors. I found that in my first transistor
trial run I have used a diode across the coil to protect the transistor from high
voltage spikes. This WAS a mistake and killed the output voltage. When I removed
the diode and put it across the transistor collector and emitter instead, then I
got the same high voltage effect as with a hexfet. So I was wrong.

I think this solid state shows a great potential for more research. There are numerous
ways to improve the circuit. One way is to make it bigger. The bottom line is that
the system works and the only way it CAN work is by magnetic shielding by the
toroids at each end of the center core.

Did test this:

Without magnets = zero (or very close to zero volt) in generator coil.

With ONE magnet at one end = 1/2 the voltage (approx.) as with 2 magnets.
Tried both ends, same result. Did try both polarities, north and south, same result.

With two magnets attracting each other = high voltage on output.
Did try both NS and SN, same result at each ends.

With two magnets PUSHING at each other at both ends, zero volt at output.
Did try NN and SS and zero volt in both cases.

With TWO magnets NS and adjusting the distance to toroid with paper shims,
then I got even higher volt for the particular switch setting and frequency.
So there IS a relationship between magnet strength AND the power you put
into the toroids.

Groundloop

[k4zep]

Hi All,

I have started this new thread to discuss a solid state Orbo version.
I have build one version, not perfect in any way, but it seems to work.
I think magnetic shielding is importaint to consider when making free energy.
I will post the drawings and circuits here soon.

Groundloop

Great, look forward to your work!!

Ben

[Groundloop]

All,

Build the switch with the component values as shown in the attached
drawing. The three pot-meters must be external to the PCB for easy adjustment.
You can use almost ANY hexfet transistor as long as it is a HIGH VOLTAGE type.
You can also use a HIGH VOLTAGE bipolar transistor as shown in my drawing.
If you choose to use a high voltage bipolar npn power transistor, then you MUST
use a diode across collector and emitter as show in the drawing. If you use a
high voltage N-Type power HEXFET then the diode can be omitted since
the hexfet already has a internal diode. This is step one.

Step two. Find three ferrite TUBES that normally is used as RFI shielding around
mains cables. Remove the plastic covering around the Ferrite tubes. Now wind two
of the Ferrite tubes with as much copper wire you can get onto the core. Go back
to page 60 in this thread, post 891, and check what copper wire I used. Use the
same wire thickness and number of wires.

Step three. Find an old used and empty solder tin plastic spool. Cut off the top
and bottom of the spool, leaving a few mm of the center tubing on each top
and bottom. Epoxy one plate at each end of the third Ferrite core tube. Next,
epoxy one toroid tube (ready winded with copper wire) to each end of the plates.
You then get a setup as shown on page 59, post 874.

Step four. Now wind the generator coil with 0,5 mm wire as many turns as you
have room for between the two plastic plates. Secure with tape when done.

Step five. Solder two ends from the outer toroid cores together. The two remaining
ends connects to the RA switch output connector. Look at the attached drawing.
Connect power to the unit and try out different magnets. Adjust for best output
voltage by using paper shims between magnets and toroid cores. No need to use
the biggest Neo magnets you have. Try finding the magnets that is strong enough
for you toroids.

[Bruce_TPU]

I have high hopes for this device.  Keep on going Alex! 

Have you yet to test the steel horseshoe connecting the back of all magnets and increasing the flux?  I think that this might work and could be huge in showing more power generated on the generator coil. 

Cheers,

Bruce

[Groundloop]

Ben, Bruce,

Thanks. :-)

I will continue my work in here. That way we do not have to clutter up the other thread.
I have not tested the flux bar from magnet to magnet yet. But I do not think it is needed.
My research shows me that if the magnet field is too strong then I need a huge current
going in the toroids to block that field. There is a balance between magnetic field and
the power needed in the toroids.

Alex.