You need special switching for sure and a slightly different variation.

I have used the SG between the negatives as you describe with a charge battery also in the gen mode position. I run off 24 volts. I was able to obtain around 60% recovery, if you want to call it that, at around a C-1 charge and discharge rate. I verified this using a CBA... So at a higher charge and discharge rate like C-20 for example one should expect a higher percentage of recovery. I have been working with this for a while now and progress has been moving forward.

This may be a little different from what you are doing? I have been watching that thread and saw your posts there, I am going to stick with the basic splitting the positve in part because it is simple and also because it has not been fully explored as to what exactly it is fully capable of.

-Dave Wing

What I'm doing is quite a bit different. I have a test machine configured for what I want to do. I am getting some magnetic charge between the negatives but at full speed, it is at 120 cps so I need some little AC motor that will synch to that frequency with very low input. I might have to build something - just a proof of concept.

I'm not ready to post anything on that circuit yet until I'm further ahead. However, with the 2 SG circuits, I've just been playing around with isolated recovery (they're both trifilar coils) and want to show a demo. Nothing magical but if 9.24 watts is drawing from the battery to run one circuit and the 2nd circuit is completely running on the recovery and the recovery is 4.24 watts, that is 13.48 watts moving for 9.24 expenditure. 4.24 watts is 46% of 9.24 and the disinformation team like Milehigh, etc... keep claiming only 30% is possible. If true, then I would only have 2.77 watts moving into the 2nd circuit.

I'm not charging a battery, just powering a 2nd circuit to move the wheel faster with the recovery. Not only is the recovery from the first circuit powering the 2nd, the 2nd circuit's own recovery is feeding back to the front of its own circuit isolated so the recovery and draw doesn't see each other. It just proves a point that electricity can be recycled over and over.

Of course this is only about 50% recovery, but if sent to a battery, then we know the chemistry converts it to more than can be electrically measured since the batteries develop their own internal charging currents and part of that does not come from the circuit.

The electric loop free energy generator is one of the most simple free energy generator topologies. It works on a principle of an endless electric loop. Once the initial energy is applied, the electric power keeps circulating in the ring. The circulation also starts the process of harnesing the ubiquitous abundant energy, thus turning the device into an overunity. Overutiny state allows adding a load without draining the energy from the circle. This turns the ordinary energy circle into a free energy generator and generates some amount of the free electricity. Big advantage of this version of free energy generator is that it has no moving parts. It simple uses the circular coil made of a multi-conductor wire. The electricity is the only thing moving in the generator. The disadvantage is that the free energy device of this kind can't be simply started by spinning its rotor, unlike the rotation free energy generators. The source of an initial electric energy is necessary. The Electric loop free energy generator topology is suitable for building the low to medium power overunity device.

Hi Aaron,

Could you please share a schematic of this set up quite interesting...
Rgds,
Faraday88.