Overunity.com Archives is Temporarily on Read Mode Only!



Free Energy will change the World - Free Energy will stop Climate Change - Free Energy will give us hope
and we will not surrender until free energy will be enabled all over the world, to power planes, cars, ships and trains.
Free energy will help the poor to become independent of needing expensive fuels.
So all in all Free energy will bring far more peace to the world than any other invention has already brought to the world.
Those beautiful words were written by Stefan Hartmann/Owner/Admin at overunity.com
Unfortunately now, Stefan Hartmann is very ill and He needs our help
Stefan wanted that I have all these massive data to get it back online
even being as ill as Stefan is, he transferred all databases and folders
that without his help, this Forum Archives would have never been published here
so, please, as the Webmaster and Creator of these Archives, I am asking that you help him
by making a donation on the Paypal Button above.
You can visit us or register at my main site at:
Overunity Machines Forum



Self Running Micro TPU, with closed loop.

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

Previous topic - Next topic

0 Members and 26 Guests are viewing this topic.

wattsup

@magpwr

First post. Congrats.

Good idea. I am just wondering about the duct tape. Seems rather thick and too heavy duty but trying is learning.

Once your coils are wound, leave the trigger coil with long enough wire so you can try a few more or less turns as this is making a difference.

Bruce_TPU

Quote from: 4Tesla on December 18, 2007, 01:30:31 AM
(snip)
@btentzer
Can you please post photos of your toroids so I can see how you wound them.

Thanks,
4Tesla

@ 4Tesla
I posted some very good pictures, in the start of this thread, of my toroid and what was my setup at that time.  I hope that it helps.

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.

4Tesla

Thanks Bruce.. I found it..

Are the coils wrapped like this

101010101010

or like this

11111110000000

Thanks,
4Tesla


Quote from: btentzer on November 17, 2007, 09:30:47 PM
Well,

The best time tonight, no power, LED flashing is 4min 45 sec.  I tried a wrap around the circumference in different configuration, but no go.  I sure would like to get to that 2.5 hours, EM!   ;)

I will be attempting the use of many different capacitors and see if there is any difference.  If I beat my 4min 45 second on time, I'll let you know.

Cheers,
Bruce

plengo

I have some good news. I have created a reproduction of my design with a simplified coil and two transistor instead of a mosfet. The coil is just a small spool, about 2" width, 1" high, 1/2" hole, with 51 turns of 23 and 26 awg wire. It is running beautifully and battery is steadly charging. It started with a 3.5volts and now is 5.35v. It is inside a Faraday cage to guarantee is not RF or something else feeding energy to it.

I also decided to run a test with my older device (the one posted here and on video) using a fully charged 9v regular battery and it is lighting up four LEDs fully bright. Here is the cool thing: it is NOT running the battery down at all. It instantly dropped the voltage from 9.17v to 7.80v (because of the LEDs voltage drop) and it is running for over 24 hous now and the final voltage my wife told on the phone (im at work now) is about 7.95v. So. It is not only running full force but is also charging itself up.

What I was looking for into this test is to know if this will discharge the battey to a very low voltage first and then go up or if it would run full power and then go up.

I think this is something to be explored in more deph. If you guys agree and are willing to participate I would like to know if should I open a new thread or here is fine?

Fausto.

Bruce_TPU


Quote from: plengo on December 18, 2007, 04:32:16 PM
I have some good news. I have created a reproduction of my design with a simplified coil and two transistor instead of a mosfet. The coil is just a small spool, about 2" width, 1" high, 1/2" hole, with 51 turns of 23 and 26 awg wire. It is running beautifully and battery is steadly charging. It started with a 3.5volts and now is 5.35v. It is inside a Faraday cage to guarantee is not RF or something else feeding energy to it.

I also decided to run a test with my older device (the one posted here and on video) using a fully charged 9v regular battery and it is lighting up four LEDs fully bright. Here is the cool thing: it is NOT running the battery down at all. It instantly dropped the voltage from 9.17v to 7.80v (because of the LEDs voltage drop) and it is running for over 24 hous now and the final voltage my wife told on the phone (im at work now) is about 7.95v. So. It is not only running full force but is also charging itself up.

What I was looking for into this test is to know if this will discharge the battey to a very low voltage first and then go up or if it would run full power and then go up.

I think this is something to be explored in more deph. If you guys agree and are willing to participate I would like to know if should I open a new thread or here is fine?

Fausto.

@ Fausto
Wonderful work!  Please continue in this thread.  It sounds as if you have achieved the goal of this thread, and that is a continuous running LED. 

I would suggest several things.
1.  Post an updated circuit, including all values for caps, etc.
2.  Post a picture of your coil.  Post a picture of your battery, and of your circuit.
3.  continue to run your LED's.  IF it is truly charging itself, it will continue to light the LED's as long as the battery is good.
4.  I am purchasing a rechargable battery today.  Have you tried this with different types of rechargable batteries?

I would like to replicate this, also, using my 2" toroid.

Quote from: 4Tesla on December 18, 2007, 04:28:32 PM
Thanks Bruce.. I found it..

Are the coils wrapped like this

101010101010

or like this

11111110000000

Thanks,
4Tesla

@4Tesla
101010101010   ;D

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.