Lecture Description
- Introduction to Simple Analysis of the MOSFET 3 Terminal Device
- Making gates out of MOSFETs
Course Index
- Introduction, Ohm's Law and Sign Conventions
- Kirchoff's Laws, Voltage and Current Divider, and Node Voltage Method
- Node Voltage continued, Superposition, Transformation Theorems, Simulation, and Strain Gauge
- More Node Voltage and Thevenin Equivalents, and Intro to Op-Amps
- Introduction to Op-Amps
- Introduction to Op-Amps (Cont.)
- Op-amps in Saturation and with Positive Feedback, and MyDaq
- Capacitors and Inductors, Node Voltage with Capacitors and Inductors, and Setting Up and Solving ODEs
- DE Review, Solving RC and RL Circuits
- LC, RLC Circuits, and Introduction to Phasors and Impedance
- Phasors, Impedance,Transfer Functions, Filters, and Bode Plots
- Transfer Functions, Filters and Bode Plots
- Bode Plot Example, Intro to Integrated Circuits and Digital Logic (Part I)
- Power, Intro to Integrated Circuits and Digital Logic (Part II)
- Introduction to Simple Analysis of the MOSFET 3 Terminal Device
- Power in Digital Circuits, CMOS and Introduction to Diodes
- Tradeoffs in Digital Circuits (Power, Speed, Cost) and Diodes
- Intro to Semiconductor Physics, PN Junctions and Chip Manufacturing
- Overview of Course, Power, Speed and Efficiency
Course Description
Original Course Name: EE40 - Introduction to Microelectronics.
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