- Introduction to Simple Analysis of the MOSFET 3 Terminal Device
- Making gates out of MOSFETs

1. Introduction, Ohm's Law and Sign Conventions
2. Kirchoff's Laws, Voltage and Current Divider, and Node Voltage Method
3. Node Voltage continued, Superposition, Transformation Theorems, Simulation, and Strain Gauge
4. More Node Voltage and Thevenin Equivalents, and Intro to Op-Amps
5. Introduction to Op-Amps
6. Introduction to Op-Amps (Cont.)
7. Op-amps in Saturation and with Positive Feedback, and MyDaq
8. Capacitors and Inductors, Node Voltage with Capacitors and Inductors, and Setting Up and Solving ODEs
9. DE Review, Solving RC and RL Circuits
10. LC, RLC Circuits, and Introduction to Phasors and Impedance
11. Phasors, Impedance,Transfer Functions, Filters, and Bode Plots
12. Transfer Functions, Filters and Bode Plots
13. Bode Plot Example, Intro to Integrated Circuits and Digital Logic (Part I)
14. Power, Intro to Integrated Circuits and Digital Logic (Part II)
15. Introduction to Simple Analysis of the MOSFET 3 Terminal Device
16. Power in Digital Circuits, CMOS and Introduction to Diodes
17. Tradeoffs in Digital Circuits (Power, Speed, Cost) and Diodes
18. Intro to Semiconductor Physics, PN Junctions and Chip Manufacturing
19. Overview of Course, Power, Speed and Efficiency

Original Course Name: EE40 - Introduction to Microelectronics.