09-26-2023, 10:01 AM
I performed an experiment that shows two extra currents can be created for one pulse from the source.
The concept was nothing new as the test device is just a modified induction transformer, configured as a flyback type with a fast diode that only allows current to exist in the secondary when the magnetic field collapses. A LOPT, connected to a load.
The setup takes three capacitors. One for the source current, one for the load of the circuit, and one for the flyback. The load and secondary caps were 3000uf 400V, and the source cap 4700uf 35V.
It’s configured like this:
SOURCE --- MOMENTARY SWITCH --- PRIMARY OF LOPT --- LOAD CAP.
SECONDARY --- 3rd CAP only.
The source cap is charged to 24V and the other two caps are shorted to remove any potential. Then the mechanical switch is closed for about 1 ms, then the joules in the load and secondary’s cap are added together and compared to the drop in joules of the source cap. The combined joules of the load and secondary cap were about two and a half times greater than the joules expended from the source cap.
Now, did the collapse of the primary magnetic field after the source is cut off create two new extra currents that are not derived from the source itself and produced a combined output greater than the input alone?
Yes it did.
My observation shows the source current builds the magnetic field in the primary and simultaneously powers the load. The source is cut off on the high side and the field collapses creating a new extra current in the primary which also powers the load. The secondary creates a new extra current which was captured in a separate cap.
Two currents reached the load for one impulse from the source. A third current is captured by the cap or used as desired.
It’s a simple concept and it was well known over a century ago.
Cadman
The concept was nothing new as the test device is just a modified induction transformer, configured as a flyback type with a fast diode that only allows current to exist in the secondary when the magnetic field collapses. A LOPT, connected to a load.
The setup takes three capacitors. One for the source current, one for the load of the circuit, and one for the flyback. The load and secondary caps were 3000uf 400V, and the source cap 4700uf 35V.
It’s configured like this:
SOURCE --- MOMENTARY SWITCH --- PRIMARY OF LOPT --- LOAD CAP.
SECONDARY --- 3rd CAP only.
The source cap is charged to 24V and the other two caps are shorted to remove any potential. Then the mechanical switch is closed for about 1 ms, then the joules in the load and secondary’s cap are added together and compared to the drop in joules of the source cap. The combined joules of the load and secondary cap were about two and a half times greater than the joules expended from the source cap.
Now, did the collapse of the primary magnetic field after the source is cut off create two new extra currents that are not derived from the source itself and produced a combined output greater than the input alone?
Yes it did.
My observation shows the source current builds the magnetic field in the primary and simultaneously powers the load. The source is cut off on the high side and the field collapses creating a new extra current in the primary which also powers the load. The secondary creates a new extra current which was captured in a separate cap.
Two currents reached the load for one impulse from the source. A third current is captured by the cap or used as desired.
It’s a simple concept and it was well known over a century ago.
Cadman