29d • General discussion
From BJT to MOSFET Efficiency increased 3 times
Here is short summary of this experiment:
The cones are activated with DC input and just a single component (Transistor) without a resistor at all on the slayer circuit.
When Im using Transistor 2SD718 which is BJT NPN type the input power was 12 Wats and the LED on the output was the same brightness.
When using Sic(Silicon Carbite) MOSFET the LED are the same brightness or more but the input power degrees to 4.5Watts this is almost 3 times lees input power while the output remain the same or even higher.
The feedback loop wire from the cones provide both, the voltage for MOSFET Gate and the Timing that the cones love to operate, its a shelf tuning circuit.
This create magnetic and resonant coupling similar to a Tesla Transformer but the secondary are the cones (Short Circuited Mobvios Loop).
By shifting the Capacitive reactance of the system with my hand the impedance of the structure is dropping significantly and this makes the cones much more thurste drowning the maximum 5 ampers of current that the power supply can handle.
This makes the LED much brighter and eventually shutting down and the phone stoping recording because the fields interfere.
Nex I need to measure the output power with high frequency current probe and make a proper and precise Flash Matrix circuit inside with a Quartz crystal at the center.
So far this is very promising results and would be great to experiment with local university and see how we can take the project just one more step forward.
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From BJT to MOSFET Efficiency increased 3 times
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