120% efficient solid-state excess energy design.
Shows the dual magnetic core of my solid-state device that produces excess energy, ~ 120% efficiency. Please copy this video, write down the circuit, and details. I am not selling anything. I am not compensated for anything. This is my magnetic research based on conventional physics. Analysis was done on a digital scope. Input source is a 1500uF cap charged to 13V. Output goes to charging a similar 1500uF cap. I’m well aware of dielectric absorption, have a deep understanding of electrical engineering and physics, & even do some Quantum physics math on occasion. Various configurations were tested such as swapping capacitors, which produced the same results of ~ 120% efficiency. The involved measurements are simple DC measurements of the capacitor voltage at start & at end of run time. The following clip shows two magnetic cores. The bottom core is a round toroid made of Metglas MAGAMP, part # MP1903P4AS. The key to success is the Metglas MAGAMP cores, which have a max permeability over 1 million! These MAGAMP cores have shown numerous effects that defy conventional understanding. The top core is a common ferrite toroid cut in half. In the circuit, V1 & V2 are charged 1500uF capacitors. L1 is the half ferrite toroid. L2 is the Metglas MAGAMP toroid, MP1903P4AS. Wire is 26 AWG. L1 & L2 inductance is meaningless since it changes by a significant amount. Resistance of L1 is 0.80 ohms, & 0.42 ohms for L2. Top half of MP1903P4AS plastic casing is removed & bottom casing half is …
