| 3 | Course content | From Physics to Electrical Engineering - Lumped matter discipline
- Batteries, resistors, current sources and basic laws
- I-V characteristics and modeling physical systems
Basic Circuit Analysis Methods
- KCL and KVL, voltage and current dividers
- Parallel and serial resistive circuits
- More complicated circuits
- Dependent sources, and the node method
- Superposition principle
- Thevenin and Norton method of solving linear circuits
- Circuits involving diode.
Analysis of Non-linear Circuits
- Toy example of non-linear circuit and its analysis
- Incremental analysis
- Introduction to MOSFET Amplifiers
- Large and small signal analysis of MOSFETs
- MOSFET as a switch
Introduction to the Digital World
- Voltage level and static discipline
- Boolean logic and combinational gates
- MOSFET devices and the S Model
- MOSFET as a switch; revisited
- The SR model of MOSFETs
- Non-linearities: A snapshot
Capacitors and Inductors
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