|
Date |
Topic |
Reading |
Section C Lecture Recordings |
1 |
01/22/20 |
KCL, KVL, Thevenin and Norton Theorems (Notes) |
Link |
|
2 |
01/24/20 |
Two-port networks (Notes) |
Link |
|
3 |
01/27/20 |
Large & Small-signal models - General concept (Notes) |
Link |
|
4 |
01/29/20 |
Diode device structure, large-signal model & DC analysis (Notes) |
Link |
|
5 |
01/31/20 |
Diode small-signal models and analysis (Notes) |
Link |
|
6 |
02/03/20 |
MOS technology & terminal I-V behavior (Notes) |
Link |
|
7 |
02/05/20 |
DC analysis of circuits with MOSFETs (Notes) |
Link |
|
8 |
02/07/20 |
DC analysis, continued (Notes) |
Link |
|
9 |
02/10/20 |
Small-signal model of MOSFET (Notes) |
Link |
|
10 |
02/12/20 |
CS amplifier - DC behavior (Notes) |
Link |
|
11 |
02/14/20 |
AC (linear) model of CS amp (Notes) |
Link |
|
12 |
02/17/20 |
Voltage gain of CS amp (continued from previous class) (Notes) |
|
|
13 |
02/19/20 |
Terminal impedances of MOSFETs (low-freq.). Input and output resistance of CS amp. (Notes) |
Link |
|
14 |
02/21/20 |
Using Gm, Rin and Rout to find gain of CS amp ("alternative method"). (Notes) |
Link |
|
15 |
02/24/20 |
Analysis of CS amp with source degeneration (Notes) |
Link |
|
16 |
02/26/20 |
Analysis of CG amplifier (Notes) |
Link |
|
17 |
02/28/20 |
Analysis of CD amplifier (Notes) |
Link |
|
18 |
03/02/20 |
BJT regions of operation. I-V equations for forward active region. (Notes) |
Link |
|
|
03/04/20 |
MIDTERM 1 (7-8 PM) |
|
|
19 |
03/06/20 |
DC analysis of circuits with BJTs. (Notes) |
Link |
|
20 |
03/09/20 |
BJT small-signal model. Voltage gain of CE stage. (Notes) |
|
|
21 |
03/11/20 |
BJT terminal impedances (Notes) |
|
|
22 |
03/13/20 |
Emitter degenerated CE amp (Av, Rin, Rout) (Notes) |
Link |
|
|
Spring Break (3/14/20 - 3/22/20) |
|
|
|
23 |
03/23/20 |
CB and CC amps (Notes) |
Link
Gain Derivation and Exploration of BJT Amplifiers |
Lecture Link |
24 |
03/25/20 |
Frequency response. Transfer functions. (Notes) |
Link |
Lecture Link |
|
03/27/20 |
EOH. Lectures cancelled. |
25 |
03/30/20 |
Complex numbers. Bode plots. (Notes) |
Link |
Lecture Link |
26 |
04/01/20 |
Bode plots(Continued). Transistor Circuits Frequency Response. (Notes) |
Link(1) Link(2) Link(3)
|
Lecture Link |
27 |
04/03/20 |
Procedure to derive the approximate transfer function directly from the circuit schematic. Miller's Theorem. Open circuit time constants. (Notes) |
Lecture Link |
28 |
04/06/20 |
Frequency response of CE and CS amps.(Notes) |
|
Lecture Link |
29 |
04/08/20 |
Frequency response of CB/CG amps. Frequency response of cascaded CS/CE amps.(Notes are included in Lecture 27&28) |
|
Lecture Link |
30 |
04/10/20 |
Introduction to feedback. Properties of negative feedback.(Notes) |
|
Lecture Link |
31 |
04/13/20 |
Previous topic, continued. Brief introduction to positive feedback. |
|
Lecture Link (Password: u5+?=7Qn) |
|
04/15/20 |
MIDTERM 2 (7-8 PM) |
|
|
32 |
04/17/20 |
Stability of systems with negative feedback.(Notes) |
Link |
Lecture Link |
33 |
04/20/20 |
Stability of systems with negative feedback.(Notes) |
Lecture Link |
34 |
04/22/20 |
Previous topic, continued (includes loop gain and phase margin).(Notes) |
Lecture Link |
35 |
04/24/20 |
Examples: feedback and stability analysis |
Lecture Link |
36 |
04/27/20 |
Introduction to CMOS logic. RC delay nodel for CMOS inverter.(Notes) |
Link |
Lecture Link |
37 |
04/29/20 |
Transistor sizing(Notes) |
Lecture Link |
38 |
05/01/20 |
PDN and PUN design for complementary static logic gates(Notes) |
Link |
Lecture Link |
39 |
05/04/20 |
Transistor sizing in combinational logic gates(Notes) |
Lecture Link |
40 |
05/06/20 |
Review |
|
Lecture Link |
|
|
Final Exam (7PM-10PM) |
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