Dear All,
This is my first mail in this treat. I hope it is understandable the way I write it.
I have read every page of this tread, very interesting

I tried to see in the mind of Figuere if at all possible. First I think if I was building a device for free energy, would I put in massive resistors? This sounds contra productive to me. Besides, If I look closely to the remains of the patent drawing, it looks faintly as if the resistors are placed there in a later stage, this is of course guesswork.

Secondly: Why is Figuere drawing a stack of 7 sets of primary and secondary coils in his patent???? This haunted me for a few weeks, time and again, WY 7 SETS OF COILS???? till I thought of the following.
Every inventor is making deliberate mistakes in the description in his/her patent. This is to my mind not different with the patent of Figuere.

So lets trow away the resistors. Then make a rotary collector system that puts 7 primary coils in series all times. So on the first step of the rotation of the rotating collector device, all 7 primaries of the south are in series, the other are powerless. Then on the second collector position we have again 7 primerie coils in series, this time 6 of the south and 1 of the north, then next position it is 5South and 2North, next 3S and 4N, then 2S and 5N and so on. In this way we have always the same current in 7 series connected primeri coils. This way you get more or less the same waveform as with the resistors, but all the current is active, not used to heat resistors.

The next posible enbodyment is to use a 3 phase transformer and remove the 2 outer coils of the transformer. Then rewind it with 7 flat coils one next to each other on both sides. Then put them in series. Then take every connection between the coils and go to the collector. as the collector turns, it is connecting as mentioned above. W.A.W.: always there are 7 coils in series of the complete transformer. With a bit of good will, you can find the original drawing with the resistors in this setup allso.

By connecting (via the collector brushes) 7 primaries in series in this way
7s+0n 6s+1n 5s+2n 4s+3n 3s+4n 2s+5n 1s+6n 0s+7n 1s+6n 2s+5n etc till the circle restart from 7s+0n.


I have no means to make this myself, so if somebody make this setup, Please rapport to this forum.

Willy

Now I have been thinking on this method to sweep directly on Part G windings...and it seems we have overlooked at a new issue by doing it this way...

The Brush-Commutator runs always in one direction, however, due to the jumpers configuration, brush never sweeps the two output terminals to N-S Primaries one after the other in a sequential and adjacent way...but goes back through the resistive path (no matter resistance or inductance) until it gets to the other output opposed at 180º...

In the case of the toroid windings brushed directly...we do not have that advantage but the brush will jump -at certain point- from output N to Output S without any resistive path between....or from High to High. Therefore, it will not take place like brush sweeping the commutator, back and forth...

And honestly, right now, I have really no idea how this problem could be solved...but it must be, otherwise Brush loosing contact with an output -without return through current resistive path- will definitively collapse that Primary Field to restart the following one.

Bi, the charts I sent above shows that the lowest voltage only drops to 3 volts so there should be no polarity change. The current is always in the same direction. If you map it out, you will see a distinct strenghten of the N 4 coil while the S 4 coil is weak and a half revolution shows a reversal with the S4 strong and the N4 weak.At the 90 degrees of the commutator the S1 and N1 fluctuate the same way. There are 4 high-low pulses per revolution of the commutator brush.

Hi Grey Wolf,

You need to do circuit analysis for each position of the brush around all 16 segments. The current will flow according to the principals defined by Kirrchoff. One thing for sure is current will flow in the path of least resistance along with other paths which have higher resistance.

I think you overlooked possible paths or circuits in your analysis. For example, when the brush is on segment #2. So positive (+) supply voltage is connected to wire N2. That connects to both coils N1 & N2. Thru N2 to N3 to N4 to N5 to N6 to N7 and then to supply negative (-). Coils N2 thru N7 all have the same polarity. There exists another path back at the node between N1 & N2. Here the current will flow thru N1 to the node connecting segments #1, #16 & #15. From there it will continue to flow thru wire S7 to coil S7 and onto supply negative (-). This current will cause polarity of coil N1 to be opposite from coils N2 - N7. Coils N1 and S7 will be at least 3 times stronger than any others.

There is also a loop where coils S1-S6 are in parallel with coil N7.

This is an incomplete analysis but intended to show major issues with your connection scheme. This is intended to help you analyze the circuit. No offense is intended.

Regards,

bi

Hi bistander,
about the coil exited Nx, next Nx+1, where you think the current would partly run back through Nx and reversing polarity of coil Nx and backwards, could it be that Nx (exited just a ms ago) still posses a kind of magnetic pressure or current flush, acting as a kind of diode when Nx+1 is excited, so that that the current mostly (maybe fully) will run in one forward direction ?
Br Fessor

The "Method" that We all have used...including Netica, are based on Spaced Taps and a short diameter comm sending a too fast signal that would never do as running brush directly on toroid windings.

With Toroid Windings and brush riding on top there is no need to add any jumpers.

Every change in AT (Amp/Turns) by positive brush will translate Inductance smoothly, as it would be generating two repulsive fields on each side of brush...plus, inductance will really grow at higher speeds.

No one so far has tested this set up...just Doug did it...and according to himself it works.

Let's wait till Cornboy does.

It is definitively NOT the same thing as using a remote and small diameter commutator with some spaced contacts and short circuiting with jumpers.

Time will tell...

I post below your (speaking of MM) design included in PJK ebook some months ago.