ECE 342: Electronic Circuits

            Topic             Prof. Hanumolu     Prof. Radhakrishnan    
1 Introduction Lec-1B Lec-1C
2 KVL/KCL & Thevenin/Norton TheoremsLec-2B Lec-2C
3 Dependent and Independent Sources]Lec-3B Lec-3C
4 Linear/Nonlinear Systems, Incremental Analysis Lec-4B Lec-4C
5 Incremental Models Lec-5B Lec-5C
6 Incremental Models Contd Lec-6B Lec-6C
7 MOS transistor Lec-7B Lec-7C
8 MOS Regions of Operation Lec-8B Lec-8C
9 MOS DC Analysis Lec-9B Lec-9C
10 Common Source Stage Lec-10B Lec-10C
11 Common Source Amplifier Gain] Lec-11B Lec-11C
12 Common Source Amplifier Gain Contd.Lec-12B Lec-12C
13 Common Source Amplifier Gain Contd.Lec-13B Lec-13C
14 MOS Terminal Impedances Lec-14B Lec-14C
15 Alternate Gain Calculation Method Lec-15B Lec-15C
16 Alternate Gain Calculation Method Examples]Lec-16B Lec-16C
17 CS/CG/CD Stages Lec-17B Lec-17C
18 CS/CG/CD Contd. Lec-18B Lec-18C
19 BJTLec-19B Lec-19C
20 BJT Incremental Model Lec-20B Lec-20C
21 CE Amplifier with degenration] Lec-21B Lec-21C
22 BJT Terminal Impedances Lec-22B Lec-22C
23 BJT Amplifier stages Lec-23B Lec-23C
24 Frequency Response - Bode Plots I Lec-24B Lec-24C
25 Frequency Response - Bode Plots II Lec-25B Lec-25C
26 Frequency Response - Bode Plots IIILec-26B Lec-26C
27 CE/CS Stage Frequency Response Lec-27B Lec-27C
28 Frequency Response - Associations Poles to NodesLec-28B Lec-28C
29 Frequency Response - Associations Poles to Nodes Lec-29B Lec-29C
30 Feedback Lec-30B Lec-30C
31 Feedback Contd.Lec-31B Lec-31C
32 Feedback Contd.Lec-32B Lec-32C
33 Feedback and Stability Lec-33B Lec-33C
34 Feedback and Stability Contd.Lec-34B Lec-34C
35 CMOS Logic Gate Design
36 CMOS Logic Gate Design Lec-36B Lec-36C
37 CMOS Sizing Lec-37B Lec-37C