FIGUERA'S AETHER MAGNETIC FIELDS LINEAR PUMP, REVIVED

[greybeardmike]

Thanks Ufo,
You are right I did overlook the ICE generator and the drop in RPM and frequency that is compensated for by the governor.  But that begs the next question, in the Figuera generator shouldn't the load on the output not affect the frequency, there are no moving parts?  Wouldn't that just leave the AVR to regulate the output?  Would that require some headroom in the saturation levels of the cores to be able to do this regulation?  All things have operating limits, the ICE engines will eventually stall when overloaded.

You are certainly correct about load testing.  In my own crude sloppy builds I was so excited to see an LED light but sorely disappointed when I couldn't even light an automotive dome light incandescent bulb. )

greybeardmike

[Ufopolitics]

Thanks Ufo,
You are right I did overlook the ICE generator and the drop in RPM and frequency that is compensated for by the governor. 

Ok, Mike

But that begs the next question, in the Figuera generator shouldn't the load on the output not affect the frequency, there are no moving parts? Wouldn't that just leave the AVR to regulate the output? Wouldn't that just leave the AVR to regulate the output?

It will still affect the frequency, even though there are no moving parts...
Once that we close the circuit at output by adding a load, there is a Secondary Magnetic Field generated instantly, and that field is completely Static/Fixed to steel core and opposed (Lenz) -in polarity- to the exciting/induced field, creating a strong attraction, this reaction will generate a slow down tendency on any moving field, no matter if it is physical or virtual.
Now, if our Inducing Field is robust and strong, because its V & A is stable, all we need to do is raise the frequency or driver speed, and yes, just a regulator will do...but not exactly a voltage regulator, but an "Automatic Frequency/Speed Regulator".

I do not want to start 'theorizing' about conclusions we do not know yet...like saturation levels of steel core or generator capacitance to max loads...until I start real tests.

Regards

Ufopolitics  

[greybeardmike]

Thanks Ufo.  

I have distracted you enough.
Keep up the good work.

greybeardmike

[kampen]

Subject Re: Using this framework, I can now focus on Solid-State Commutator version

Dear friend Ufopolitics,

Based on the parameters we have clarified in detail, I can proceed with brainstorming and development toward the Solid-State Commutator version.

To directly answer the question: 
Yes, this absolutely helps in configuring the system for solid-state switching. 
Your 32-segment jumper drawing effectively represents a concrete hardware implementation of a very specific State Machine. 

When the commutator can be expressed in terms of discrete states and well-defined transitions, Solid-State switching becomes significantly more straightforward.
In particular, your quadrant and mirror descriptions map cleanly onto state sequencing logic, which is exactly what solid-state devices (MOSFETs, IGBTs, or logic-driven drivers) excel at handling. 

Rather than emulating a mechanical commutator, we can translate the behavior directly into controlled state transitions.

Using this framework, I can now focus on:

• Translating the 32 physical segments into logical states
• Defining transition rules that preserve the intended symmetry and timing
• Exploring how best to implement this with Solid-State switching elements and Control logic

This gives us a strong foundation to move forward.

Regards, Alex