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Lecture
Superposition Principle: Circuits Analysis
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Related lectures (32)
Single-Phase Sinusoidal Circuits
Covers peak, mean, and rms values, average power, phase advance, and sinusoidal circuits.
Kirchhoff's Laws and DC Circuits
Explores Kirchhoff's laws in DC circuits, resistor analysis, and capacitor behavior.
Basic Concepts: Electric Circuits
Introduces the fundamental concepts of electric circuits, including basic elements and Kirchhoff's laws.
Electric Circuits: Ideal Sources and Circuit Elements
Explores ideal sources, circuit elements, and circuit analysis in electric circuits.
Fundamental Theorems: Linear Circuits
Covers fundamental theorems in linear circuits, including superposition and source conversion.
Circuit Analysis: Thevenin and Norton Theorems
Explores circuit analysis using Thevenin and Norton theorems to simplify complex circuits for analysis.
Matrix Representation: Circuit Equations
Covers the process of writing circuit equations in matrix form and solving for currents using the inversion method.
Fundamental Theorems of Circuits and Systems
Explores fundamental theorems of circuits, superposition, source substitution, and Thévenin and Norton equivalents.
Electricity Basics: Parallel Circuits
Covers the fundamental properties of parallel circuits and the concept of equivalent resistance.
Transforming Sources: Voltage to Current
Demonstrates transforming voltage sources into current sources and simplifying circuits for efficient analysis.
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.
Electrotechnique: Basics and Applications
Covers the basics of electrotechnique, including linear elements, current regimes, power types, and practical applications.
Thevenin and Norton Theorems in Alternating Regime: Superposition Principle
Explores Thevenin and Norton theorems in alternating regime, emphasizing superposition principle and complex time domains.
Electrotechnique: Basics and Applications
Covers the basics of electrotechnique, including linear elements, regimes, power types, and practical applications.
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.
Electric Circuits: Analysis and Applications
Covers the analysis and applications of electric circuits, focusing on circuit components and behavior.
Thevenin and Norton Theorems
Covers the Thevenin and Norton theorems for simplifying complex circuits into equivalent sources and internal resistances.
Three-Phase Circuits: Power and Step Response Analysis
Explores power in three-phase systems and step response analysis of RC and RL circuits.
AC Circuits Analysis: Impedance and Admittance
Explores AC circuits analysis, focusing on impedance, admittance, phasors, and sinusoidal quantities.
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