wow good channel dedicated to PD. Consider changing the channel name related to PD. Initially i thought its related some basic physics. Later came to know that channel is for VLSI
Mam you said that in gate leakage current, gate oxide is very thin, it allows gate current to pass through it, but the gate current is 0 mam in case of cmos inverter.
Thanks for the quick and crisp video on Power Dissipation. Keep it up!!
No comments madam....simply superb....applause
A good video for beginners in PD domain. Great effort! Thanks! 😇
I appreciate that keep posting PDN related videos
Tomorrow is my presentation n i haven't prepared anything till now bcz of my exam.. Hope this helps🌸❤💜
Very much helpfull ma'am. Nice presentation
wow good channel dedicated to PD. Consider changing the channel name related to PD. Initially i thought its related some basic physics. Later came to know that channel is for VLSI
Really a good explanation video thankyou
Please make more such videos. Very nice explanations.
Thank you ma'am great explanation
Very good explanation thank u
Thank you so much mam ❤❤🙏
Thanks for your video mam, very helpful ❤️
Good Effort 😊
Mam, please make video on PBA and GBA mode of timing analysis.
Thank you
good oveview thank you.
good information
excellent explanation...
Mam did you explained or did I not notice in ur video the section " power needed to charge or discharge the internal nodes of a transistor ".
thanks mam good explanation
Hats of u🙋
Great explanation..Keep it up...
Thank you Mam
good video 👍
Nice explanation...#Need to know the actual area of dissipation in 3D model #Real time.
So good
Great
Good mam
Helo mam , in the internal power dissipation. to changes the input but it may not be effected the output at that time what are the dissipation occur
How are the diodes reverse biased in the junction leakage cmos?
Nice topic, can you plz share a ppt of this? tks!
Thanks mam
Ma'am does it is possible for a candidate from tier 3 college with 60% to get a job as a fresher in vlsi domain
ha bhai koi dikkat n hai yr...
its difficult
Mam you said that in gate leakage current, gate oxide is very thin, it allows gate current to pass through it, but the gate current is 0 mam in case of cmos inverter.
this is second order effect i think ///
ideally it is o but not practicallyyy
In the dynamic power dissipation, in switching power dissipation, will there be any power dissipation, if the output is not changed due to input?
In that case, it will come under internal power, not the switching power
Kinda information is not easily found...🙏🙏
Why CMoS power dissipation depends upon frequency
👏👏👏🎉
hi mam , good explanation
plz share a link for ppt/pdf file used in above explanation
Source and drain are represented by n+ , it should be n-
if that represents charge on it