Have you run any experiments with the disks having cuts in them as Tesla depicted in his Notes on a Unipolar Dynamo? He states that the machine will be capable of exciting itself if rotated in the direction of the cuts. I've looked into this concept and it seem what this does is that it redirects the retarded fields (Lenz) away from the input rotation and forces it to follow the grooves to the edge of the disk where it can be siphoned of with a coil to reinforce its own input, so it has a double advantage of lowering resistance and increasing output from a simple change in geometry.
yes i didn't get the results I was hoping for. I have a far better design I could publish if someone wants to build it. However it still wouldn't be as good as this new variable capacitor generator. This to me ticks all the boxes and doesn't slow down under load.
Why not make it self running? Seems so close Adapting coil shortening circuit on a coreless output generator assembly driven by two disc with magnets does not take much torque to deliver 100 watts, easily giving you back the power it uses
This is the new machine v2 my calculator is saying 10 to 20 times output of machine 1. I am trying to get disks closer. This has 30 capacitor disks. The lights and switching cost power. Losses start in the motor as soon as its turned on. But it is my most efficient design motor to date. 3 phase will probably be better.
Have you run any experiments with the disks having cuts in them as Tesla depicted in his Notes on a Unipolar Dynamo? He states that the machine will be capable of exciting itself if rotated in the direction of the cuts. I've looked into this concept and it seem what this does is that it redirects the retarded fields (Lenz) away from the input rotation and forces it to follow the grooves to the edge of the disk where it can be siphoned of with a coil to reinforce its own input, so it has a double advantage of lowering resistance and increasing output from a simple change in geometry.
yes i didn't get the results I was hoping for. I have a far better design I could publish if someone wants to build it. However it still wouldn't be as good as this new variable capacitor generator. This to me ticks all the boxes and doesn't slow down under load.
Why not make it self running?
Seems so close
Adapting coil shortening circuit on a coreless output generator assembly driven by two disc with magnets does not take much torque to deliver 100 watts, easily giving you back the power it uses
This is the new machine v2 my calculator is saying 10 to 20 times output of machine 1.
I am trying to get disks closer. This has 30 capacitor disks.
The lights and switching cost power. Losses start in the motor as soon as its turned on. But it is my most efficient design motor to date. 3 phase will probably be better.