How could the primary and secondary windings of that transformer make it look like a short circuit, or act like a straight wire? Is it because the magnetic fields cancel each other in differential mode of operation?
Yes, that is correct. I do not show the gate-driver circuitry or control for this. That would be another video. N-channel MOSFETs require special circuitry for high-side driving. There are h-bridge topologies in which the two high-side switches are P-channel MOSFETs. This makes for easier switching. Best wishes on your design. - Dr. K
Excellent sir! Thanks for sharing!
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very thank
How could the primary and secondary windings of that transformer make it look like a short circuit, or act like a straight wire? Is it because the magnetic fields cancel each other in differential mode of operation?
I think the transistors you chose are all of the same negative type. is it correct ?
Yes, that is correct. I do not show the gate-driver circuitry or control for this. That would be another video. N-channel MOSFETs require special circuitry for high-side driving. There are h-bridge topologies in which the two high-side switches are P-channel MOSFETs. This makes for easier switching. Best wishes on your design. - Dr. K