Прекрасный урок! Вы как всегда можете сложное разложить на простое) Именно такой подход к электронике делает ее привлекательной и прекрасной. Спасибо Вам огромное
As i have watched this video 3 times,now i am confident and Tomorrow i will calculate the total capacitance of my mosfet for the very first time in LTspice. ❤ It was an amazing lecture.
Hi professor, can we do such calculation: For Qgs, we do Qgs=15V*Cgs (normally Cgs is constant in this voltage range). For Qgd, we do Qgd=Cgd(er)*Vb+∫Cgd*Vgs(0-15V) er=energy related Thank you in advance for your education.
Прекрасный урок! Вы как всегда можете сложное разложить на простое) Именно такой подход к электронике делает ее привлекательной и прекрасной. Спасибо Вам огромное
спасибо
As i have watched this video 3 times,now i am confident and Tomorrow i will calculate the total capacitance of my mosfet for the very first time in LTspice. ❤ It was an amazing lecture.
😊👍🙏
Always a pleasure to view your informative videos.
👍🙏
Thanks Sir for educating us.
All your lectures are loaded with lot of wisdom.
Thanks
So nice of you. Thanks.
Your efforts are highly appreciated Prof Yaakov, thanks a lot.
Thanks.
another question:
in 17:53, why Vcin slightly decreases at Vg>4V(miller plateau)? you mentioned small signal but i am still confused.
If Q(V) is sort of exponential and you divide Q/V to get Ct at points along the curve, the value decreases at high voltages.
21 more to go to reach 500 milestone!!!!
Working on it. Stay tuned.
Thanks Professor Yaakov
👍🙏
Hi professor, can we do such calculation:
For Qgs, we do Qgs=15V*Cgs (normally Cgs is constant in this voltage range).
For Qgd, we do Qgd=Cgd(er)*Vb+∫Cgd*Vgs(0-15V)
er=energy related
Thank you in advance for your education.
Yes indeed. Good thinking.
Thank you 👍
🙏
👍🙏❤️
😊👍🙏