Ok so I thought of a new way to create virtual rotation and verified the system is indeed creating smooth proper rotation. This new way is a little different than my past attempts and I think it exactly mimics what a generator does. It is NOT acting like a transformer at all. I know because there is one coil aligned dead center with the pickup coil like a transformer, and when the AC input sinewave of that center coil is at peak, the output is at Zero. And when that primary center coil is at Zero, the output is at Peak. The input does not raise at all when taking a load.
Furthermore, I also figured out why using 2 phases 90 degrees apart almost always caused the input to raise while harvesting a load. And I know how to fix that.
The issue I am having is that since I am using AC in coils to create rotation, and since the CEMF is not affecting the coils, they are self-inducing and creating back-EMF which is limiting the input current as I increase frequency. So the output DOES increase with frequency UNTIL the Back-EMF reaches a certain level and starts impeding the input current. Then the input and output both reduce as frequency increases.
So I need a way to reduce Back-EMF or Self-Induction of the primary inductors, and I think Figuera and Buforn figured this out. Figuera did not specifically show it in his drawing, but Buforn did.
If there is interest, I can explain how I think the virtual rotation MUST be created. But we must go step by step to understand WHY a generator does not suffer from CEMF and can output much more than is needed to sustain the magnetic field of the rotor. And how we can mimic it without physical rotation.
Addition- Keep in mind, a rotating generator DOES cause Lenz Drag on the physical rotation, but does NOT raise the rotor coil input requirements. Since virtual rotation does not physically move, the aim is to make a stationary motionless generator that does not raise the input of the primary (like a generator) as we harvest a load and it has no physical movement to cause drag.
Furthermore, I also figured out why using 2 phases 90 degrees apart almost always caused the input to raise while harvesting a load. And I know how to fix that.
The issue I am having is that since I am using AC in coils to create rotation, and since the CEMF is not affecting the coils, they are self-inducing and creating back-EMF which is limiting the input current as I increase frequency. So the output DOES increase with frequency UNTIL the Back-EMF reaches a certain level and starts impeding the input current. Then the input and output both reduce as frequency increases.
So I need a way to reduce Back-EMF or Self-Induction of the primary inductors, and I think Figuera and Buforn figured this out. Figuera did not specifically show it in his drawing, but Buforn did.
If there is interest, I can explain how I think the virtual rotation MUST be created. But we must go step by step to understand WHY a generator does not suffer from CEMF and can output much more than is needed to sustain the magnetic field of the rotor. And how we can mimic it without physical rotation.
Addition- Keep in mind, a rotating generator DOES cause Lenz Drag on the physical rotation, but does NOT raise the rotor coil input requirements. Since virtual rotation does not physically move, the aim is to make a stationary motionless generator that does not raise the input of the primary (like a generator) as we harvest a load and it has no physical movement to cause drag.