https://www.youtube.com/watch?v=Cuobx2uPgY0


An SPDT spring pressure switch, for the dowel contact, at 2:20 in "Grain's" repeater video would loop the feedback with the output electrode connected to the positive of the capacitor through a rectifying diode.


What would happen if we held the magnet stack in place and pulsed the coil with Mag's PWM at 86 Hz with a 10% duty cycle?


It looks like Tinman may be running a D.C. propeller motor off the capacitor with this type of circuit free of charge with just this kind of setup.!


The question remains: Is there any advantage to stopping and transferring the motion already imparted in the oscillator with magnet stack in motion?


That would leave the power of the pulsed unmasked magnet stack for oscillating power output. The oscillating magnet stack is already doing kinetic work in Grain's pumper..


The hidden factor here is the coupling of the solid state quantum induction gain, while the magnet stack is in motion, along with Faraday output.

Suppose we jam the magnet stack in Grain's coil tube and connect Mag's PWM between the batteries and the coil with a diode to the capacitor; Would we be able to run a D.C. propeller motor off the capacitor gain just from pulsing the magnet coil as Timan did in his demonstration video?


Why not stop there? We need go no further then that to benefit from a solid state free energy generator!


https://www.banggood.com/1Hz-150Khz-3_3V-30V-Signal-Generator-PWM-Pulse-Frequency-Duty-Cycle-Adjustable-Module-LCD-Display-Bo-p-1270834.html?rmmds=search&cur_warehouse=CN


This is so simple practically anything will work. We don't need a special formula.

We can match the frequency of the coil Gun loop generator and Tinman's PWM version. Compare the short duration power pulse and the time the magnet stack is traveling back and forth inside the coil; The pulse is followed by output phase while the coil is shorting the output to storage in the same proportion as the 5% duty cycle. I generated pump output from stationary magnets in my first Dragone. It appears to work the same wether the magnet stack is moving or standing still, as long as the Pi/Po phase proportions are correct.

The problem with the "Integrated Circuit" is that the power range is down in the bulb lighting milli watts. Compare that to a pair of reciprocating magnet pistons with connecting rods, a scotch yoke and loop switches. This oscillating recovery design could be scaled up to mega watt power plant proportions.

Equal pressure from both sides of the piston reciprocator would generate a perfect sine wave. Any extra power from the Quanta generated by the magnet's electron potential could be channeled for recovery through the yoke wheel.

All we need to do is add a third electrode to Grain's dowel switch simply by connecting a second contact over the top of the trigger spring and attaching a diode to the lead then to the positive of the capacitor; One from each end to a common capacitor and single power source. My measurements indicate that free power may be available from the flywheel, that's in proportion to the heat loss in the magnets.


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Below is a schematic of the 3rd SPDT electrode over the top of the hinged spring contact. A hidden ground contact is on the surface at the end of the dowel: The magnet stack may need a small reducer bushing to fit the switch contact nicely. This is the only major modification to Grain's magnet pumper that's needed to self loop. The contact is normally open 95% of the time, pressed up against the top electrode and held there by spring tension:

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