00:02 Op-Amp is a block with a differential input and a single-ended output. 02:18 Op-amp gain can be calculated using differential pair analysis. 04:55 The Op-Amp has a gain of 50 and an output impedance of 12.5 kilohms. 07:21 Using a transistor as a current source to make a basic op-amp. 09:44 Op-Amp design involves various components working together for signal conversion. 11:51 Design considerations for driving a load with an op-amp. 14:28 Op-Amp gain can be improved using cascode configuration. 16:41 Cascode current mirror improves output resistance and current matching. 19:15 Total gain is GM 1 times the output resistances of the components. 21:38 Biasing methods affect op-amp performance. 23:44 Designing a current source to feed the transistor. 25:59 Consider resistive load for efficient design Crafted by Merlin AI.
13:27, Hi Professor What do you mean by "if we want to get 3V swing", we should let the current source be 60mA? Do you mean that if we want leg room of the input of this source follower to be as large as possible? As I understand, increasing the current of this current source only makes the NMOS easier to turn on. The maximum value of Vin is always Vdd+VT, and the mininum Vin is Vs+VT. So It just makes Vs lower when NMOS is off. Am I right? Thanks!
Vt(threshold voltage of nmos) is very low compared with Vin, which is neglected here for discussion. 60mA is ac component swing output signal across load 50 ohm.
I enjoy your lectures, the way you explain is very clear. Thanks for uploading.
00:02 Op-Amp is a block with a differential input and a single-ended output.
02:18 Op-amp gain can be calculated using differential pair analysis.
04:55 The Op-Amp has a gain of 50 and an output impedance of 12.5 kilohms.
07:21 Using a transistor as a current source to make a basic op-amp.
09:44 Op-Amp design involves various components working together for signal conversion.
11:51 Design considerations for driving a load with an op-amp.
14:28 Op-Amp gain can be improved using cascode configuration.
16:41 Cascode current mirror improves output resistance and current matching.
19:15 Total gain is GM 1 times the output resistances of the components.
21:38 Biasing methods affect op-amp performance.
23:44 Designing a current source to feed the transistor.
25:59 Consider resistive load for efficient design
Crafted by Merlin AI.
Prof: Good for what ?!!
Op-amp: I'll show you 5:30
underrated comment 🤣🤣🤣
someone should desing a circuit to replicate that ngl
😂😂😂
This video got me through my assignment XD Thank you so much!
Key moments: 9:44 *What are the roles of each components*
Like this course very much!! Thanks for sharing these lectures!!
5:34 to 5:37, Illuminati confirmed
hahaha
@@AliHajimiriChannel Professor, you're awesome!
iluminati mosfet noises
Very nice explanation, Thanks.
13:27, Hi Professor
What do you mean by "if we want to get 3V swing", we should let the current source be 60mA?
Do you mean that if we want leg room of the input of this source follower to be as large as possible?
As I understand, increasing the current of this current source only makes the NMOS easier to turn on. The maximum value of Vin is always Vdd+VT,
and the mininum Vin is Vs+VT. So It just makes Vs lower when NMOS is off.
Am I right? Thanks!
And if we have 60mA here, we get actually much higher swing(Voutmax-Voutmin) than 3V.
Vt(threshold voltage of nmos) is very low compared with Vin, which is neglected here for discussion. 60mA is ac component swing output signal across load 50 ohm.
Awesome lecture, thank you.
Should it not be Vt plus VGS, and not Vt plus 2*VGS?
Very effective and thanks for uploading, please do explain about offset and noise reduction techniques in the opamp.
12:35 doesn't professor say it wrong? Isn't it a common source amplifier that he draw?
No, it is correct. It is a common drain (source follower) stage that is used as a buffer.
Why Vid/2?
5:35 aliens invaded.
But where in this basic op-amp is "+" and "-" input, which one is which ???
Vi"N" is the negative (-) and Vi"P" is the positive (+)
Watch it again before 2 stage opamp and final revision
What is zemin?
Transconductance unit, Current (A)/Voltage (V)
9:50
2:10