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Lecture
Introduction to LEM and Equivalent Circuits
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Related lectures (32)
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Thevenin and Norton Theorems
Covers Thevenin and Norton theorems for simplifying complex circuits into equivalent ones.
Fundamental Theorems: Linear Circuits
Covers fundamental theorems in linear circuits, including superposition and source conversion.
Circuit Analysis: Thevenin and Norton Equivalents
Explores Thevenin and Norton equivalents, mesh and nodal analysis, and planar circuits.
Short-Circuit Currents Calculation
Covers the calculation of short-circuit currents in electrical networks and the equivalent models of components.
Resonators: Eigenvalue Problem and Single Mode Solutions
Explores resonators' equation of motion, stress effect on frequency, and single mode solutions.
Circuit Connectivity: Series and Parallel Elements
Explores circuit reorganization, series elements, equivalent circuits, and voltage dividers for better connectivity understanding.
Analysis of Circuits with Dependent Sources
Explores the analysis of circuits with dependent sources, node-voltage analysis, Thévenin equivalent circuits, and OPAMP fundamentals.
Transforming Sources: Voltage to Current
Demonstrates transforming voltage sources into current sources and simplifying circuits for efficient analysis.
Modeling the electrical activity of the neuron
Explores the modeling of neuron electrical activity, including ion channels and concentrations, Nernst equation, and resting potential.
DC Circuits: Resistors Grouping
Explains resistor grouping in DC circuits, calculating equivalent resistance and current distribution.
