Nice explanation but a short question that you haven't mentioned why the ILR current slope shifts to positive after negative peak and what is the polarity in the circuit and why it happens? Would appreciate :)
2:14 I think it's confusing, and inaccurate, to say the diode turns on and off. The on/off state of a diode never changes. It's always "on" in the forward direction, and always "off" in the reverse direction.
Hey man been a follower from the beginning Very good explanation as usual But since you are consistent in quality content I'd like to learn that from you... Please as a request can u upload any PCB design related videos w r.t power electronics?
2:18 You don't show where the charge is coming from. The cap? The inductor? Also, first you said "constant current", then you said "constant power". Are those different things?
las curvas son muy diferentes en cuanto al inductor. Los libros muestra crecieminto de la corriente en el inductor y en el tuyo es constante, es muy raro
if the current source sinks current, it's a load. Otherwise, it's a source. If you use an actual current source in the lab, it might show negative current as it's sinking current.
Nice explanation but a short question that you haven't mentioned why the ILR current slope shifts to positive after negative peak and what is the polarity in the circuit and why it happens? Would appreciate :)
Brilliant explanation ❤
Glad you liked it
Van you explain why the diode turns on at t2 in this circute? I would guess the cap Ct reaches 0.7V of the diode?
Why does the charge of the Capacitor become zero after reaching the input voltage?
Thank you 🙏🏼
You’re welcome 😊
2:14 I think it's confusing, and inaccurate, to say the diode turns on and off. The on/off state of a diode never changes. It's always "on" in the forward direction, and always "off" in the reverse direction.
But the direction of the current flow through the diode changes during the different steps of operation which makes it turn on and off.
Using a push pull topology to drive two mosfet instead of using diodes that’s how commercial buck converter work
Thank a lot sir
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Hey man been a follower from the beginning
Very good explanation as usual
But since you are consistent in quality content I'd like to learn that from you...
Please as a request can u upload any PCB design related videos w r.t power electronics?
Sure! I'll make video on such topic!
Good video :)
Thank you so much! Please show support to my video with Super thanks and don't forget to subscribe to our channel
Do you have to supply a pulse to the mosfet gate
Yes
How zero voltage transmission tech in Gpz7000 metal detector of mainlap working
2:18 You don't show where the charge is coming from. The cap? The inductor? Also, first you said "constant current", then you said "constant power". Are those different things?
las curvas son muy diferentes en cuanto al inductor. Los libros muestra crecieminto de la corriente en el inductor y en el tuyo es constante, es muy raro
2:35 i thought a constant current source is a source, not a load.
if the current source sinks current, it's a load. Otherwise, it's a source. If you use an actual current source in the lab, it might show negative current as it's sinking current.
Pls show ids and vds
Ids is equal to the ILR & VDS is shown in the waveform