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**Allen Burgess** · 07-20-2017, 11:23 AM

Overunity.

The attraction neutralization generator is charging the source battery with no switch. Not only that, it's a very powerful charging effect. It's time to pop the corks!

I think the higher voltage of the feedback output is making it back home through the contact before the spark.

I'll upload a video of this charging effect.

**Allen Burgess** · 07-20-2017, 01:55 PM

Video of reverse charging effect.

https://youtu.be/NzQtyFp_Ghk

Below we see screen shots of the before voltage of 9.82 on the left and the after 2:00 minute run time voltage of 9.91 on the right: Nearly a tenth of a volt in two minutes is a powerful charge!

Attached Files

**Allen Burgess** · 07-21-2017, 11:35 AM

Two sparks.

I believe there are two spark events between the contacts. Imagine two batteries of different voltage say 12 and 6 connected at their positive electrodes, and a contact between the negatives. When we close the contact on the negative side, power flows from the higher to lower potential. The oscillator contact interrupts the negative side of the circuit

The electro-magnet coil grows into the source of higher potential voltage when, after interruption, the PM field realigns and the compression of the magnet rod draws closed; So when the contact connects, the first event is a discharge of the higher voltage from the coil to the battery. This is followed by a pulse to it from the battery as the contact lingers at it's maximum interuppter amplitude dwell point.

**Allen Burgess** · 07-21-2017, 10:32 PM

test results

Running the oscillator over a period of hours appears to show at least a self running capability. The voltage level on the battery rose a little from 9.72 to 9.73 over a solid hour of run time. A lot depends on the contact adjustment.

Additional tests have produced the same results. This oscillator will run with no drop in battery voltage!

**Allen Burgess** · 07-22-2017, 12:27 PM

Hall effect switch

This fidget around direct contact is just junk compared to the Hall effect sensor on the switch. There are some provocative results available as a teaser, but nothing practical can come from this constant adjustment feature. Forward with the build!

**Allen Burgess** · 07-24-2017, 10:58 AM

Ossie schematic

This circuit has two Reed switches. This may be an even simpler approach to outputting charge from the electro magnet coil.

Attached Files

Screen Shot 2017-07-24 at 4.53.33 AM.png (228.6 KB, 31 views)

**Allen Burgess** · 07-25-2017, 01:06 PM

Physical commutator.

I am fashioning physical contacts onto my washtub motor. A copper strip covering 43% of the cylinder just needs two contacts, one to the positive pole of the battery and the other to the positive electrode of the coil; And so on!

**Allen Burgess** · 07-27-2017, 05:51 PM

Commutator.

The tub motor caused vibration problems, but I'm having great success with a home made reed switch. There's a lot of latitude with this hand made approach! Springy plastic tie loops and two copper wire spirals. Check it out below at the end of a bamboo chop stick: Adds a retro hair frizzer effect to the design. Progress forward like magic and wizardry!

Simple to control the timing ratios by just butterflying the trigger magnets. the big bonus is: This type of switching system runs itself with no need for an auxiliary power supply!

One side open the other side closed. Needs a FWBR to battery for the A.C. output.

Attached Files

**Allen Burgess** · 07-28-2017, 02:11 PM

Reed contacts video:

Reed contacts video:

https://youtu.be/Qj3jBMYE4AI

**Allen Burgess** · 07-29-2017, 12:56 PM

Reed contacts vs Hall sensor.

The Reed contacts have two definite drawbacks compared to the Hall effect sensor:

1.- The Hall effect sensor is non-magnetic and does not influence the travel of the oscillating ferrite rod.

2.- The Hall effect sensor can "Latch"; This allows for one on and one off trigger magnet. It's possible to arrange the Hall effect trigger magnets, one over the other in opposition, so they don't repeat their switching when the piston reverses direction as they would with the Reed magnets. The negative trigger magnet can't turn the Hall sensor off twice as it passes a second time. The pathway through diode to storage must stay open the entire second half of the cycle, or the complete descent phase of the rod

The Hall effect Sensor has proven far superior to the Reed switch and is definitely the correct approach for this minimal build over the Reed switch. Four trigger magnets and two hall effect sensors can do the job: The BEMF lag space is visible at bottom left.

Attached Files

Trigger Hall setting.jpg (40.6 KB, 19 views)

**Allen Burgess** · 07-31-2017, 05:53 PM

PM half cycle EMF.

Two important facts are presented in this video:

1.-The capacitor assisted exit spike is greater then the entry spike. (Compare this to Art's measurements of the difference between the neutralization and amplification pulse output).

The capacitor assist generates a magnetic field in the coil, and the increased output is from breakaway attraction. The exit stroke requires more force, and the output reflects it.

2.- Increased frequency results in less power output. (Maximum oscillator output is at minimum pulse).

https://www.youtube.com/watch?v=BusoqPXYYM0

**Allen Burgess** · 08-01-2017, 01:53 AM

GAP circuit

Here are two schematics of Art Porter's solid state GAP generator: Nothing could be simpler; The battery charges the GAP coil, then the switch flips and the coil illuminates the bulb.

Attached Files

**Allen Burgess** · 08-02-2017, 02:16 PM

DPDT Blade switch.

Flipping this kind of switch manually between magnet coil, battery and capacitor, will easily generate free energy with the right timing. The off position in the center has a rest period that's 18% of the cycle on the forward throw but skipped over fast on return.

Attached Files

6 blade switch.jpg (1.8 KB, 128 views)

**Allen Burgess** · 08-05-2017, 04:35 PM

Magnetic circuit

This video demonstrates how a current is generated when a "Magnetic Circuit's" broken:

The neutralization pulse acts the same as the lifting of the hinge. There's a second current generated when the hinge closes. Compare this motion to the neutralization pulse and attraction of the oscillator:

https://www.youtube.com/watch?v=HI5ERdvroec

**Allen Burgess** · 08-10-2017, 02:48 PM

Mosfet.

I'm triggering a Mosfet with positive and negative electrodes from the battery to a contact connected to the Mosfet gate.

This approach permits non-magnetic copper contacts connected directly to the battery electrodes to open and close the Mosfet junction when triggered by a non insulated copper wire feeler attached to the ferrite rod. This Mosfet can easily throw a DPDT relay (below). The relay connects to a FWBR and a capacitor and load. (below right) .99 cents free shipping ebay. This would work the circuit switch, and the oscillator would be powered by a direct short contact at the base.

This eliminates any magnetic torsion and hinderances to the rod oscillator.

The oscillator should charge it's own battery and illuminate this LED simultaneously. The D.C. output from the 50 volt capacitor can also feed the run battery through a diode. I'll upload another video soon.

Attached Files

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Mechanical Magnetic Torque Amplifier

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