Muller Dynamo

[Dbowling]

As we experiment with different magnet configurations on the coils, it is important that we be able to rotate the motor using a dc motor and controller at a fixed voltage, so that we can see if different magnet configurations on the coils increase or decrease the rpms of the motor. Has anyone any info on which coils had magnets, and how many? It is impossible to tell from the pictures I have seen so far, but as I locate more pictures, I accumulate more information. At some point we need to put together a diagram of the top and bottom coils and start talking about which ones have magnets on them and how many, and which ones have no magnets. You can see ALL the top coils in one of the pictures, but not the bottom coils. Perhaps they are a reversed mirror image, as in the coils that have two agnets on the top coil have no magnets on the bottom coil. I suppose tie will tell.

[neptune]

@Dbowling . As far as i know , Romero did not fit magnets to all coils as he ran out of magnets . No magnets are fitted to drive coils either top or bottom . So he intended that all top and bottom generator coils should have magnets . Note that either through necessity or design , some of these coil magnets are only half thickness , that is , 29mm x 5mm . someone correct me if I am wrong .

[neptune]

@Libra-spirit . Three of us have been considering a theory close to yours in private ,And as it was not my original idea I will leave the disclosure to others . I think this is very significant .

[powercat]

This picture shows magnets on top of (some) of the coils, is this part of tuning?
How many magnets on top of coils are they on the underside ?

[caccr2000]

e pensado en utilizar este circuito como prueba en cada bobina para ver su comportamiento

Convertidor DC-DC de 1.5V a 15V


Este circuito es esencialmente un convertidor DC-DC elevador (step up), permite obtener 15 voltios de salida a partir de una simple pila de 1.5 voltios (B1) sin necesidad de utilizar transformadores ni circuitos integrados especializados. El corazón del circuito es un oscilador, desarrollado alrededor de dos transistores complementarios (Q1 y Q2), que gobierna una bobina (L1).

Al conectar B1, circula inicialmente una corriente a través de R2 y R1, causando que Q1 y Q2 conduzcan. Como resultado, L1 es atravesada por una corriente que magnetiza progresivamente su núcleo hasta saturarlo. Cuando esto sucede, cesa interiormente el flujo de corriente y el campo magnético que rodea la bobina colapsa, generándose una fuerza contraelectromotriz (fcem) que polariza inversamente la base de Q1. Como resultado, Q1 y Q2 dejan de conducir. El proceso se repite indefinidamente.

La energía de la fcem generada por L1 se rectifica mediante un diodo Schottky (D1) y se almacena en un condensador electrolítico (C1) como un voltaje D.C. Puesto que este voltaje es relativamente alto, mayor de 20V, cualquier voltaje de salida por debajo de este valor puede ser fácilmente obtenido utilizando un diodo zener o un regulador de tres terminales. En este caso se emplea un zener de 15V(D2), pero se puede utilizar otra tensión de referencia dependiendo de las necesidades particulares.