great video, it would be good to also mention that instead of sinusoid ac you could have any function with smal absolute value because many problems present small changes on Vin that you have to use small signals to solve, thx again great video!
I really like your explanation sir, Pls upload videos on all topics of BJT and OpAmp as well, there are very few good videos available on these topics on RUclips.
Sir at 7:00 in the formula of current Id ,shouldn't be it Id=Io (e *Vd/n Vt - 1) , you haven't written -1.please clarify my confusion. Btw great explanation!!!
Vd is normally around 0.5 or 0.7 volts, so when we calculate e^(0.5/Vt), it is approximately 500 million, which is much bigger than 1, so we remove -1 because the error for simplicity is very small like the error is smaller than the maximum error allowed for nasa to navigate the spacecraft to planets. That is how small the error is.
Explanation and presentation is very elaborate sir ....Thank you
great video, it would be good to also mention that instead of sinusoid ac you could have any function with smal absolute value because many problems present small changes on Vin that you have to use small signals to solve, thx again great video!
I really like your explanation sir, Pls upload videos on all topics of BJT and OpAmp as well, there are very few good videos available on these topics on RUclips.
Sir at 7:00 in the formula of current Id ,shouldn't be it Id=Io (e *Vd/n Vt - 1) , you haven't written -1.please clarify my confusion.
Btw great explanation!!!
e^(Vd/Vt) >>1 therefore 1 is neglected
@@ashutoshsharma9566 actually Id>>>Io so it is neglected
Vd is normally around 0.5 or 0.7 volts, so when we calculate e^(0.5/Vt), it is approximately 500 million, which is much bigger than 1, so we remove -1 because the error for simplicity is very small like the error is smaller than the maximum error allowed for nasa to navigate the spacecraft to planets. That is how small the error is.
Thanks sir ji.... Great
Thank you so much!!
9:15
Thank u so much
❤️