38:00
Lecture 1 Introduction to the course
Satish Kashyap
54:14
Lecture 2 Negative feedback amplifiers-basic concept, frequency and time domain behavior
50:52
lecture 3 Negative feedback amplifier nonidealities-Finite dc gain; additional poles and zeros
55:00
Lecture 4 Effect of additional poles in time and frequency domains
Lecture 5 Negative feedback systems-Effect of additional poles and zeros
57:59
Lecture 6 Realizing negative feedback systems with opamps
54:50
Lecture 7 DC negative feedback around opamps; Fully differential opamps
52:02
Lecture 8 Components available on a CMOS IC
55:07
Lecture 9 Assignment 1 discussion
55:43
Lecture 10 Assignment 1 discussion
42:01
Lecture 11 Random and systematic mismatch, process variations
49:50
lecture 12 MOS large signal and small signal models
54:04
lecture 13 MOS small signal model; mismatch in MOS transistors
34:32
lecture 14 AC small signal model of the MOSFET; concept of fT
36:57
lecture 15 Resistor noise model
55:41
lecture 16 MOSFET noise mode; BJT small signal and noise model
55:21
lecture 18 Assignment 2 discussion
32:58
Lecture 19 Assignment 2 discussion
36:46
lecture 20 Common source amplifier-dc and small signal analysis
35:09
lecture 21 Common source amplifier-noise, and ac analyses
52:06
lecture 22 Quiz 1 discussion; Assignment 3 discussion
52:09
lecture 23 Common source amplifier
53:54
lecture 24 Common source amplifier; Miller effect
50:14
lecture 27 Common gate amplifier-ac analysis
50:28
lecture 29 Power, bandwidth, and signal to noise ratio; Impedance and frequency scaling of circuits
51:13
lecture 30 Biasing transistors at a given current
51:28
lecture 31 Biasing transistors at a given current
56:35
lecture 32 Biasing arrangements; current mirror; common drain amplifier
54:51
lecture 33 Simple current mirror; cascode current mirror
53:39
lecture 34 Amplifiers biased at a constant current
56:21
lecture 35 Differential pair-introduction
55:04
lecture 36 Differential and common mode half circuits
51:49
lecture 37 Differential pair with passive and active loads
57:19
lecture 38 Differential pair with active load-gain, output resistance, CMRR
55:34
lecture 39 Quiz II discussion
54:46
lecture 40 Differential pair frequency response, noise
57:20
lecture 41 Differential pair noise, offset, slew rate
41:07
lecture 42 Effects of opamp slew rate, Assignment 6 discussion
39:31
Lecture 43 Telescopic cascode opamp
46:44
Lecture 44 Folded cascode opamp-dc gain
47:34
Lecture 45 Telescopic cascode opamp frequency response
45:01
lecture 46 Telescopic and folded cascode opamp-noise, mismatch, slew rate
56:36
lecture 47 Two stage opamp-topology, frequency response
53:30
lecture 48 Two stage opamp-frequency response, noise
1:05:02
lecture 49 Accurate biasing circuits; Two stage opamp slew rate
43:25
lecture 50 Fully differential opamps, common mode feedback
41:36
lecture 51 Fully differential opamps, common mode feedback, CMFB loop stability
42:30
lecture 52 Fully differential two stage opamp, common mode feedback
1:00:43
lecture 53 Course summary
