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Lecture
Circuit Analysis: Simplification and Solution
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Related lectures (31)
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Microscopic Aspects of Resistance
Explores the physics behind bad conductors, charge carrier scattering, and Ohm's law in circuits with resistors and capacitors.
Circuit Analysis: Simplification and Equations
Focuses on simplifying circuits and solving complex circuit equations using Kirchhoff's laws and matrix representation.
Circuit Analysis: Thevenin's Theorem
Explores circuit analysis using Thevenin's theorem to simplify complex circuits into equivalent ones with a single source and resistor.
Signal Processing Fundamentals
Covers the basics of signal processing and electric circuits.
AC Circuits: Complex Impedance Analysis
Covers the analysis of AC circuits, focusing on complex impedance and phase differences between current and voltage.
Circuit Fundamentals: Kirchhoff's Laws
Covers the basics of electric circuits and Kirchhoff's laws for circuit analysis.
Electric Circuits: Ideal Sources and Circuit Elements
Explores ideal sources, circuit elements, and circuit analysis in electric circuits.
Analysis of Capacitors in DC Circuits
Explores capacitor charging processes, Kirchhoff's Voltage Law in circuits, differential equations, time-dependent characteristics, and analysis of capacitors in parallel and series arrangements.
Noise in Two-port Networks
Covers the analysis of noise in two-port networks, Y-parameters, substrate resistance extraction, and the noise factor.
Laplace Transforms: Circuit Analysis
Explores Laplace transforms in circuit analysis, emphasizing pole-zero diagrams and s-domain concepts.
