very good explanation bravo from the US -A power electronics engineer who build SF ,Seattle Chicago ,NJ and Hoston and many other metro trains including other components
@@FoolishEngineer Happy to help on that! Imagine how efficient it could be. Instead of wasteful bridge rectifier, you have active rectification using 2 opamps and 4 MOSFETs that can output tens of amps without needing any heatsinking. This would be just a start of this highly efficient design
Thanks for the information. Unfortunatly SiC-Mosfets are significantly more expensive than similar Si-Mosfets. An alternative for higher Voltages are Si-IGBTs, although they are not for super fast switching applications.
Not sure about showing up in videos :) Not a bad idea, but anyway not the biggest pros :) IMHO your biggest pros is great animations and very straight forward ,"Simple stupid" explanation, what makes your videos very useful and easy to understand. Thx for so high quality content and gl :)
Your videos are great. Straight to the point, every info relevant
very good explanation bravo from the US -A power electronics engineer who build SF ,Seattle Chicago ,NJ and Hoston and many other metro trains including other components
A really helpful well done video. I think you have the best practical summaries on the sort of things that I've seen so far.
Glad it was helpful!
In the next video we start a series that shows how to build a 220AC -> 48VDC buck converter using SiCs (active and sync rectification blocks)? :)
That’s a nice point! I can work on that.
@@FoolishEngineer Happy to help on that!
Imagine how efficient it could be. Instead of wasteful bridge rectifier, you have active rectification using 2 opamps and 4 MOSFETs that can output tens of amps without needing any heatsinking. This would be just a start of this highly efficient design
Would like to see that!!
@@kgsalvage6306 Yup! Makes a lot of sense to put these new awesome tech to use, doesn't it :)
Thanks for the information. Unfortunatly SiC-Mosfets are significantly more expensive than similar Si-Mosfets. An alternative for higher Voltages are Si-IGBTs, although they are not for super fast switching applications.
Your videos are excellent, great animation. Please keep them coming, they are educational as well.⭐⭐⭐⭐⭐
Thank you so much! Please show support to my video with Super thanks and don't forget to subscribe to my channel
Thank you so much you make it so easier to understand
Happy to help!
Excellent video!! Keep em coming!
Thanks! Will do!
Excellent videos, more informative and great job sir
Thank you very much! Please don't call me sir!
Just found your channel, I like it you are doing an awesome job. Subscribed!!
Thank you so much!
Great to see you.
Hey, thanks!!
I agree for you to be more interactive with your audience. Being able to see who you are. There is more trust.👍
Not sure about showing up in videos :) Not a bad idea, but anyway not the biggest pros :)
IMHO your biggest pros is great animations and very straight forward ,"Simple stupid" explanation, what makes your videos very useful and easy to understand.
Thx for so high quality content and gl :)
7:50
Wouldn't that be the gate capacitance Cgs?
Great explanation on SiC FET. Thank you
Glad it was helpful! Thank you so much! Please show support to my video with Super thanks and don't forget to subscribe to my channel
Nice to finally see your face FE 👍
Thank you so much!
Ciss to be compared for same voltage. Need to see the graph instead of electrical parameter
Hi, can you pls help to design flyback transformer and its snubber ckt.no. of times i tried but stuck somewhere.
th-cam.com/video/Lalsahf5cGo/w-d-xo.html
You can watch this video for flyback converter
Very nicely explained 💯
bas kya bhai!!
superb videos!
Thank you so much! Please show support to my video with Super thanks and don't forget to subscribe to my channel
Been following your stuff from long time.. great work..! Would you mind making a comparison video on SIC mosfet vs SI IGBT?
Uploaded video on GaN MOSFETs. You can see the comparison of Si vs SiC vs GaN in that
Very good 😊😊
👏 👏 👏
👍👍👍
👍