I've been re-reading the former thread and making notes and last night awoke with
Figuera on my mind and had a Ureka moment of understanding. It all started with
increasing/decreasing wondering why this was necessary so here it goes.
My primary brain understanding comes first from descriptive words and then
from drawings. So here are the words first.
my Figuera functional part descriptions/concepts
1. 2 primary coils with secondary sandwiched between them called sets
2. motionless induction by varying the currents -
a. one primary coil increasing and
b. the other decreasing. This is done
by brushes on a commutator changing resistors that supply
the primary. The brush has segment overlap so no break in circuit
and back emf and sparks giving brush wear longevity.
NO MECHANICAL MOTION OF MAGNETS OR COILS - THUS NO LENZ COUNTER TO
MECHANICAL MOTION.
3. Pictue a brush is staggered over two contacts so that on the left
the first segment has a small resistor going to "primary coil a" and on the
right a long resistor going to "primary coil b". The second segment
has a longer resistor allowing less current to "primary coil a" and
on the right is a shorter resistor allowing more current to "primary coil b".
Then segment 3 on the left has a longer resistor allowing less current
to "primary coil a" and on the right is a shorter resistor allowing
more current to "primary coil b". What this does is allows a strong magnetic
field on one end and a weaker field on the other end BUT THIS HAS NO VALUE
UNLESS THE COIL POLES ARE EQUAL and what that does is pushes the
magnetic field from one end to the other through the secondary and thus inducing the secondary coil similar to a magnet being pushed into a coreless coil where it
makes a current as it enters and makes the opposite current when it
leaves the other end and then can be pushed back through again. So you can see
if you reduce the push on one side then the field from the other side will
reach through the coil and make a current and then you can also increase
the field in that end and simultaneously reduce the magnetic field in the
other end and bring the field back out the end of the coil making a current.
And this is done for the cost of the mechanical rotation of the commutator
and the input current wattage.
NOTE If the primary coil poles were opposite the flux would be addative
and then you would ask why the increasing/decreasing currents?
4. there are multiple coil sets that would allow each one to cool a bit
while they are not powered.
5. A youtube shows repel neos with coil between and what that shows is
a dense flux and a current is made with repel but not with different poles.
Sorry - lost the url for that youtube.
6. What I don't know is where the extra current comes from. perhaps the repel
concentration. Surely NO LENZ counter to motion allows more watts
at the same input power unlike mechanical coil moving past magnet generator.
7. this youtube shows increasing/decreasing makes a current -
https://youtu.be/ScTHwo-Jaq4 7 mins Published on Dec 21, 2015
Jonathan Peters this one shows varying the field with a pot and it lights leds.
pot changes flux increasing/decreasing and makes current - lights leds.
8. The mechanical commutator could easily be replaced by a circuit to sequence the coils and then you would have lots of variations available for testing.
There are other things about the coils and wire size that I am working on now
but not finished. - will post later.
I feel much better about this understanding.
Norman