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Author Topic: Negative Inductance and measure of Magnetic force.  (Read 164507 times)

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #30 on: December 10, 2017, 07:13:33 PM »
Here's a video of the twin reciprocating "Latching Reed Switches" commutator with the rotor removed flashing LEDS:

https://youtu.be/kWKVhRdecZQ

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #31 on: December 13, 2017, 01:12:52 AM »
This video shows a streamlined D.C. fan commutator with the blades removed. There's a "Latching Reed Switch" mounted inside the frame and a trigger magnet fastened to the hub. This setup is powered by a run down 9 volt battery with a pot and mosfet speed controller: 

https://youtu.be/TzNuGdC4SbQ

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #32 on: December 13, 2017, 08:09:14 PM »
Here's a video of the finished blade-less, reciprocating D.C. fan "Latching Reed Switch" commutator with only two trigger magnets of opposite polarity positioned at 180 degrees from one another:

https://www.youtube.com/watch?v=Z79XWhN65ZY

Now that I reduced the load and input voltage, I eliminated the speed controller mosfet and simply have a 100K potentiometer wired in series between the 9 volt battery and D.C. fan. This combination is working perfectly.

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #33 on: December 14, 2017, 04:49:12 PM »

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #34 on: December 15, 2017, 01:06:22 AM »
Video of the first power measurements:

https://www.youtube.com/watch?v=UuohIRAw76c

Turning the commutator slowly by hand makes the lower stack of 4 ceramic disks jump a single time, but the output of around 7.5 volts persists for a protracted period of time. What might be causing that effect? Perhaps "Magnetic field reverberation". The output drops to .25 volts as the commutator speeds up. Slowing the commutator down towards the end of the video makes the output climb to as high as 2.5 volts; Stopping it generates the 7.5 volts again for an extended time!

I noticed an inverse relationship between frequency and output with the attraction masking oscillator. It appears that the maximum power curve may be in the fractional hertz with this generator. The prolonged output duration from the single pulse amazed me. Truly awesome initial test result!


The best commutator might be a 6 RPM microwave carousel motor.
« Last Edit: December 15, 2017, 04:58:26 AM by synchro1 »

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #35 on: December 15, 2017, 04:55:32 AM »
I ran a second test with 8 ceramic discs on the lower stack and am generating a steady 8 A.C. volts out of the electro-magnet. My input is 12 D.C. volts at 1.5 amps. I'll check the amperage on my next test. This is not BEMF recovery. The lower oscillating magnet stack still has the potential to generate output as well.

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #36 on: December 15, 2017, 04:54:44 PM »
Compare the diameters of these two Electro-magnets. The core of the 500 Newton coil on the left is merely 50% greater at 3/4" then the 50 Newton coil on the right at 1/2". Isn't it interesting that they develop that much difference in attraction strength with the same input current?

The masking oscillator generates power in proportion to the magnetic force of it's backing magnets. It's curious that we can control greater amounts at no increased cost to input power.

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #37 on: December 17, 2017, 12:04:59 AM »
Second potentiometer.

I wired a second 10K potentiometer in series with the 100K potentiometer and managed to lower the commutator fan R.P.M. down to around a Hertz.

I slowed the rotor for the second test by applying pressure to the fan rotor with my index finger. I also had the DMM wrongfully positioned on the D.C. setting. I'm certain my second output reading of 8 A.C. volts was accurate. That amounted to 2/3 of the input voltage. That's a whopping amount of recovery percentage from the primary EM coil. I'm currently testing for amperage.

My theory predicts a 100% chance of going OU with this configuration.

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #38 on: December 17, 2017, 04:41:41 PM »
Here's a video of the elastic spring oscillator controlled by the "Reed switch commutator":


https://www.youtube.com/watch?v=f9sSk9MwJok

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #39 on: December 20, 2017, 12:11:33 AM »
Art Porter's solid state GAP generator is powered by an A.C. sine wave inverted from a D.C. power source and controlled by a commutator. The positive and negative polarities of the A.C current serve to amplify and neutralize the permanent magnet fields that sandwich his primary coil. Hob Nilre has demonstrated conclusively that weight in copper increases magnetic field strength in an air core power coils with the same input current. Art's coil induction is balanced to mask the attraction gauss of his Neo disc magnets. It's not hard to visualize where the break even and over unity COP line would appear. We can calculate it with a high degree of scientific accuracy. Art's measurements demonstrate that the neutralization side of the A.C. sine wave delivers more output than the amplification one. My simple two switch commutator delivers a D.C neutralization pulse and recovers output. The setup works fine. Winding a larger copper coil with sufficent weight in copper to mask the attraction of my two large Neo disks at a predetermined input would result in a predictable over unity COP when driven by my two switch commutator. This conclusion is inescapable.   



synchro1

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Large neo disk from pie segments.
« Reply #40 on: December 22, 2017, 06:47:05 PM »
This video shows a very powerful levitating Neo magnet disk assembled from individual pie segments. A magnet form like this could easily be 3D printed. The advantage is that there is really no limit to the size or power this kind of magnet form can be enlarged to.

https://www.youtube.com/watch?v=y51rrBmepMw




 

synchro1

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Commutator
« Reply #41 on: December 24, 2017, 03:50:56 PM »
The "Reed Switch Commutator" only needs to latch on one side. The power switch can simply make a brief contact. It takes only a spilt second to separate the attraction fields, but the output is dependent on a time lapse oscillation. This amounts to a very simple adjustment of the power pulse biasing magnet.


https://www.youtube.com/watch?v=XXkJ07jkaOM


« Last Edit: December 25, 2017, 12:03:34 AM by synchro1 »

synchro1

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Relay timer circuit.
« Reply #42 on: December 26, 2017, 04:25:46 AM »
I bought several "Relay Timer Circuits" I believe will work bettor then the D.C. commutator fan.

Two normally open, timed to close (NOTC) "Timer Relays" should work fine triggered by a 6 second per turn microwave carousel motor with one trigger magnet attached. A Reed switch would then trigger the two "Relay Timers" together. One "Relay Timer" would power the masking coil briefly for 1 second, then the second "Relay timer" would wait 2 seconds then turn on for 3 seconds to channel the output to storage. This would create a one second gap for the BEMF to bleed off and not cancel any output. I'll upload a video of this soon.

synchro1

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Carousel commutator and "Timer Relays"
« Reply #43 on: December 28, 2017, 08:38:15 PM »
In this video, we see the "Timer Relays" and the 3 RPM commutator lighting an LED:

https://www.youtube.com/watch?v=BfvZGz_H77A

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #44 on: December 29, 2017, 01:14:54 AM »
Here's a pictute of the carousel trigger magnet motor mounted inside the D.C. fan frame. This will produce 10 seconds of latched "Reed Switch" power on each side, either simultaneously or in series. The four reed switch leads connect to the timer switches:

Here's a good video on the functioning of "Timer Relays":

https://www.youtube.com/watch?v=71LzzUukFhE&t=112s