ECE 342: Electronic Circuits

Number Date Topic Lecture Notes Section E Lecture Recordings
1 1/19 KCL, KVL, Thevenin and Norton Theorems Hanumolu Notes
Kim Notes
Zhou Notes
Lec1 Recording
2 1/21 Two-port networks Hanumolu Notes
Kim Notes
Zhou Notes
Lec2 Recording
3 1/24 Large & Small-signal models - General concept Hanumolu Notes
Zhou Notes
Lec3 Recording
4 1/26 Diode device structure, large-signal model & DC analysis Hanumolu Notes
Zhou Notes
Lec4 Recording
5 1/28 Diode small-signal models and analysis Hanumolu Notes
Zhou Notes
Lec5 Recording
6 1/31 MOS technology & terminal I-V behavior Hanumolu Notes
Kim Notes(lec6-8)
Zhou Notes
Lec6 Recording
7 2/2 DC analysis of circuits with MOSFETs Hanumolu Notes
Kim Notes(lec6-8)
Zhou Notes
Lec7 Recording
8 2/4 DC analysis, continued Hanumolu Notes
Kim Notes(lec6-8)
Zhou Notes
Lec8 Recording
9 2/7 Small-signal model of MOSFET Hanumolu Notes
Zhou Notes
Lec9 Recording
10 2/9 CS amplifier - DC behavior Hanumolu Notes
Zhou Notes
Lec10 Recording
11 2/11 AC (linear) model of CS amp Hanumolu Notes
Zhou Notes
Lec11 Recording
12 2/14 Voltage gain of CS amp (continued from previous class) Hanumolu Notes
Zhou Notes
Lec12 Recording
13 2/16 Terminal impedances of MOSFETs (low-freq.). Input and output resistance of CS amp Hanumolu Notes
Zhou Notes
Lec13 Recording
14 2/18 Using Gm, Rin and Rout to find gain of CS amp ("alternative method") Hanumolu Notes
Zhou Notes
Lec14 Recording
15 2/21 Analysis of CS amp with source degeneration Hanumolu Notes
Zhou Notes
Lec15 Recording
16 2/23 Analysis of CG amplifier Hanumolu Notes
Zhou Notes
Lec16 Recording
17 2/25 Analysis of CD amplifier Hanumolu Notes
Kim Notes
Zhou Notes
Lec17 Recording
18 2/28 BJT regions of operation. I-V equations for forward active region Hanumolu Notes
Kim Notes
Zhou Notes
Lec18 Recording
  3/2 Midterm Exam 1 (7-8PM)  
19 3/4 DC analysis of circuits with BJTs Hanumolu Notes
Zhou Notes
Lec19 Recording
20 3/7 BJT small-signal model. Voltage gain of CE stage Hanumolu Notes
Zhou Notes
Lec20 Recording
21 3/9 BJT terminal impedances Hanumolu Notes
Zhou Notes
Lec21 Recording
22 3/11 Emitter degenerated CE amp (Av, Rin, Rout) Hanumolu Notes
Zhou Notes
Lec22 Recording
  3/12 - 3/20 Spring Break  
23 3/21 CB & CC amps Hanumolu Notes
Zhou Notes
Lec23 Recording
24 3/23 Frequency response. Transfer functions Hanumolu Notes
Zhou Notes
Lec24 Recording
25 3/25 Complex numbers. Bode plots Hanumolu Notes
Zhou Notes
Lec25 Recording
26 3/28 Transistor intrinsic capacitances Hanumolu Notes
Zhou Notes
Lec26 Recording
27 3/30 Procedure to derive the approximate transfer function directly from the circuit schematic. Miller's Theorem. Open circuit time constants Hanumolu Notes
Zhou Notes
Lec27 Recording
28 4/1 Frequency response of CE and CS amps Hanumolu Notes
Zhou Notes
Lec28 Recording
29 4/4 Frequency response of CB/CG amps. Frequency response of cascaded CS/CE amps. Hanumolu Notes
Zhou Notes
Lec29 Recording
30 4/6 Introduction to feedback. Properties of negative feedback Hanumolu Notes
Zhou Notes
Lec30 Recording
  4/8 EOH  
31 4/11 Previous topic, continued. Brief introduction to positive feedback. Zhou Notes Lec31 Recording
  4/13 Midterm Exam 2 (7-8PM)  
32 4/15 Stability of systems with negative feedback Hanumolu Notes Lec32 Recording
33 4/18 Stability of systems with negative feedback Hanumolu Notes
Zhou Notes
Lec33 Recording
34 4/20 Previous topic, continued (includes loop gain and phase margin) Hanumolu Notes
Zhou Notes
Lec34 Recording
35 4/22 Examples: feedback and stability analysis Hanumolu Notes
Zhou Notes
Lec35 Recording
36 4/25 Introduction to CMOS logic. RC delay nodel for CMOS inverter Hanumolu Notes
Shanbhag Notes
Zhou Notes
Lec36 Recording
37 4/27 Transistor sizing Hanumolu Notes
Shanbhag Notes
Zhou Notes
Lec37 Recording
38 4/29 PDN and PUN design for complementary static logic gates Hanumolu Notes
Shanbhag Notes
Zhou Notes
Lec38 Recording
39 5/2 Transistor sizing in combinational logic gates Hanumolu Notes
Zhou Notes
Lec39 Recording
40 5/4 Review Zhou Notes Lec40 Recording
  5/10(main) or 5/11(conflict) Final Exam (7-10PM)