01:25 - Intro and Review 04:47 - Question Answer 05:40 - Bipolar Cascode CS Stage with Degeneration - Output Resistance 08:45 - Bipolar Cascode Current Source - Output Resistance 12:00 - Example: Combination of MOS and Bipolar Devices 26:55 - Difference Between Bipolar and MOS Cascoded Circuits 18:30 - P-type Current Sources 26:36 - Introduction to Cascode Amplifiers - Amplifier analysis concepts 33:19 - Transconductanse for General Circuit 36:34 - Finding Voltage Gain trough Transconductance and Output Resistance 41:46 - Example: Finding Voltage Gain in Two Steps
You are so AMAZING!!! The way you explained the transformation of pmos configuration from nmos is sooooooooo beautiful, you made it so intuitive and easy!
Maybe depict the linear circuit as a two terminal device, then we acually back to the normal conductance concept, that's more understandable, cause transconductance is still conductance whether is trans- or non-trans-.
For bipolar transistors if the current is flowing from a Q1 emitter to Q2 emitter does that still count as a bipolar cascode? In Lec. 1 you clarified how the topology doesn’t work with mos connected source to source. Would love verification.
In 17:54, why is gm of mosfet is less compared to that of bjt? Though prof has mentioned that it is beyond this course, if someone know... do tell me....😊
with due respect sir..Rout for bjt isn't clear to me... everywhere i see it as r0|| Rc.. in this case Rc is not present...so r0.. and the part where u include r(pi) in the expression is also unclear
01:25 - Intro and Review
04:47 - Question Answer
05:40 - Bipolar Cascode CS Stage with Degeneration - Output Resistance
08:45 - Bipolar Cascode Current Source - Output Resistance
12:00 - Example: Combination of MOS and Bipolar Devices
26:55 - Difference Between Bipolar and MOS Cascoded Circuits
18:30 - P-type Current Sources
26:36 - Introduction to Cascode Amplifiers - Amplifier analysis concepts
33:19 - Transconductanse for General Circuit
36:34 - Finding Voltage Gain trough Transconductance and Output Resistance
41:46 - Example: Finding Voltage Gain in Two Steps
Thank you so much sir. You are a very important person to the world. God bless you and your family.
Brilliant explanations, excellent examples. Thank you for your help.
he has amazing teaching methodology
Thank you a lot. You've really helped me with my studies, professor Razavi !
You are so AMAZING!!! The way you explained the transformation of pmos configuration from nmos is sooooooooo beautiful, you made it so intuitive and easy!
Waiting for this from long time sir... Thank you so much 😊
The wonderful explanation that everyone deserves!
the best ever prof. in the earth
Thank you! Dear Prof.Razavi
Great lectures blessed to find
thank you Prof.Razavi
Great Teacher
Thanks a lot, Prof. Razavi !!
I love you from the bottom of my heart
Excellent Sir, thank you sir.
Thank you! This is extremely helpful.
sir your lectures are the best....thank you sir
11:18 - Explanation from Lec1 when we said we want an element that doesn't obey Ohm's Law.
Thank you professor!
thank u so much....
Thank you!!!!!
i lOVE THAT INTRO MUSIC
Thank you so much!
Maybe depict the linear circuit as a two terminal device, then we acually back to the normal conductance concept, that's more understandable, cause transconductance is still conductance whether is trans- or non-trans-.
Thanks
I liked the music of electronics 1 more.
39:00 - If there were feedback, would it matter if we are applying voltage and measuring current or opposite, when finding output resistance?
For bipolar transistors if the current is flowing from a Q1 emitter to Q2 emitter does that still count as a bipolar cascode? In Lec. 1 you clarified how the topology doesn’t work with mos connected source to source. Would love verification.
Thank you for the video.
For the ac short in 36:30, the measured current is between the output node and ground?
Ty
41.00 why is there a negative sign for Av ? please explain
GOOD
Question>>> why we call CC/CD amplifier even they have gain close to unity ?
Thanks a lot. But where did minus sign came from in the Av = -Gm*Rout?
because of the direction of output current.
In 17:54, why is gm of mosfet is less compared to that of bjt? Though prof has mentioned that it is beyond this course, if someone know... do tell me....😊
I guess because gm in bjt follows exponential relation while that in mosfet it follows linear.
🔥
Can anyone please give me the link of Circuit Theory I and II, I have searched it but failed to find it...
I don't think it's published yet
ruclips.net/p/PLzN9G9-0qj-CA52kx_loXn2PPEKpnJyZ4
Where does the minus sign in Av = -GmRout come from?
it is explained in a previous lecture in Electronics1, Lec 20
with due respect sir..Rout for bjt isn't clear to me... everywhere i see it as r0|| Rc.. in this case Rc is not present...so r0.. and the part where u include r(pi) in the expression is also unclear
review the electronics 1 course
Il maschio alfa!
30:00
why there is humming noise randomly. Its very irritating
Can we download the solution manual of analog CMOS integrated circuits?
thank you so much!
40:00