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Lecture
Circuit Characterization: Microwave Components and Impedance Matrix
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Thévenin-Norton Theorems
Explains the Thévenin and Norton theorems for simplifying electrical circuits with equivalent sources and impedances.
AC Circuits: Complex Impedance Analysis
Covers the analysis of AC circuits, focusing on complex impedance and phase differences between current and voltage.
Quadripoles and Frequency Response
Covers quadripoles, impedance matrices, reciprocity, and frequency response in circuits.
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Explores Kirchhoff's laws in DC circuits, resistor analysis, and capacitor behavior.
Impedance Matching and Wireless Communication
Explores impedance matching in passive RF circuits and wireless communication principles, covering analog and digital modulation, power efficiency, and noncoherent detection.
Circuit Analysis: Thevenin and Norton Theorems
Explores circuit analysis using Thevenin and Norton theorems to simplify complex circuits for analysis.
Noise in Two-port Networks
Covers the analysis of noise in two-port networks, Y-parameters, substrate resistance extraction, and the noise factor.
Electrical Circuits Basics
Introduces the basics of electrical circuits, covering elements, laws, Ohm's law, and series/parallel connections.
Linear Circuits in Sinusoidal Regime
Explores linear circuits in sinusoidal regime, covering phasors, impedance, power calculations, Thevenin/Norton equivalents, and frequency analysis.
Electric Circuits: Analysis and Applications
Covers the analysis of electric circuits using Kirchhoff's laws and Ohm's law to determine currents, voltages, and power.
