When Cr is discharging around time t7, u r saying that magnetizing current flows in the opposite direction but in the waveform Im is still in positive region even though it is decreasing. so which means direction is not reversed yet for Im, and the energy it has would be going where???? is it circulating in the path of primary winding and magnetizing inductor?
could you precised please what type of mosfet canal you are using? is that PNP +NPN? OR PNP + PNP? OR NPN + NPN? also what type of capacitor? is that a polarized or not polarized? chimic or other type? thanks to care ,super video :)
Very good video and explanation Can I ask what software do you use to make these presentation? I also make video about electronic circuits and dc-dc converters and I like your style
The B2 rectifier features 4 diodes instead of 2 for the M2. Therefore it makes more sense to use an M2 rectifier especially with higher output currents. The diode losses will be reduced by 50%
@@SemproniusDensusGaming ah ok so you are trading diode losses with transformer volume? Vor higher output voltages a fbr with single winding is better and vise versa?
Thanks for the informative videos. If I have an LLC HB resonant converter running at 100khz. What should be the resonant frequency of Lr, Cr and Lm in the smps to work in ZCS mode?
Bro, I know you are getting Low Video count's. But please Don't stop. You are helping many Engineer's ....
Thank you so much! I am working on it!
Honestly, thank you for putting the time into explaining electronic circuits, this job is very important.
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@@FoolishEngineer and what drives the mosfet, an IC???
@@Dailymailnewz🎉😅😢
Thanks!
I am very grateful!
Excellent visual explanation.
Really Informative. Thanks and keep up the good work
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Very good explanation, Thank you very much
When Cr is discharging around time t7, u r saying that magnetizing current flows in the opposite direction but in the waveform Im is still in positive region even though it is decreasing. so which means direction is not reversed yet for Im, and the energy it has would be going where???? is it circulating in the path of primary winding and magnetizing inductor?
why Q2 turn on, magnetizing current will change direction ?
Nice explanation. Thank you
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Wonderful man...
Can you share more resources for digital control of it.
could you precised please what type of mosfet canal you are using? is that PNP +NPN? OR PNP + PNP? OR NPN + NPN? also what type of capacitor? is that a polarized or not polarized? chimic or other type? thanks to care ,super video :)
Very good video and explanation
Can I ask what software do you use to make these presentation?
I also make video about electronic circuits and dc-dc converters and I like your style
Thank you.
Why is a secondary with two windings better than one winding and a full bridge rectifier?
The B2 rectifier features 4 diodes instead of 2 for the M2. Therefore it makes more sense to use an M2 rectifier especially with higher output currents. The diode losses will be reduced by 50%
@@SemproniusDensusGaming ah ok so you are trading diode losses with transformer volume? Vor higher output voltages a fbr with single winding is better and vise versa?
@@flavioernst902 basically yes
@@SemproniusDensusGaming thanks for answering!
Thanks for the informative videos.
If I have an LLC HB resonant converter running at 100khz. What should be the resonant frequency of Lr, Cr and Lm in the smps to work in ZCS mode?
Why magnetising current flows even during deadtime
Through Drain-Source capacitance and through body diodes
Genius foolish man.. Worderful explaination...
sir, can you show this Half bridge LLC Resonant Converter on matlab ? please