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Lecture
Circuit Characterization: Microwave Components and Impedance Matrix
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Related lectures (32)
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Apparent and True Power: Transformer
Explains apparent and true power in circuits, power factor, transformers without load resistors, and transformers with load resistors.
S-Domain Circuit Analysis: Part 2
Delves into s-domain circuit analysis, covering theorems, analysis methods, and stability concepts.
Step Response of RLC Circuits and Quadrupoles
Analyzes the step response of RLC circuits and introduces the concept of quadrupoles.
Microwave Circuit Characterization: Elements and Models
Covers the characterization of microwave circuits and the concept of characteristic impedance.
AC Circuits Analysis: Impedance and Admittance
Explores AC circuits analysis, focusing on impedance, admittance, phasors, and sinusoidal quantities.
Impedance Networks
Explores impedance networks, Kirchhoff's laws, and voltage/current dividers in complex circuits.
Laplace Transforms: Circuit Analysis
Explores Laplace transforms in circuit analysis, emphasizing pole-zero diagrams and s-domain concepts.
Basic Concepts: Electric Circuits
Introduces the fundamental concepts of electric circuits, including basic elements and Kirchhoff's laws.
Analysis of Circuits with Dependent Sources
Explores the analysis of circuits with dependent sources, node-voltage analysis, Thévenin equivalent circuits, and OPAMP fundamentals.
Circuit Analysis: Thevenin and Norton Equivalents
Explores Thevenin and Norton equivalents, mesh and nodal analysis, and planar circuits.
