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Related lectures (32)
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Load Cell Experiment: Design and Simulation
Covers the design and simulation of a load cell experiment using LTspice XVII.
Experimental Results Presentation: Tabor Experiment Analysis
Covers the analysis of experimental results from the Tabor experiment, focusing on voltage measurements and circuit design.
Fundamental Theorems: Linear Circuits
Covers fundamental theorems in linear circuits, including superposition and source conversion.
Analysis and Resolution Methods
Covers the analysis of circuits, real voltage and current sources, and circuit processing.
Thevenin and Norton Theorems in Alternating Regime: Superposition Principle
Explores Thevenin and Norton theorems in alternating regime, emphasizing superposition principle and complex time domains.
Thevenin and Norton Theorems
Covers the Thevenin and Norton theorems for simplifying complex circuits into equivalent sources and internal resistances.
Thévenin-Norton Theorems
Explains the Thévenin and Norton theorems for simplifying electrical circuits with equivalent sources and impedances.
Superposition Principle: Circuits Analysis
Covers the superposition principle in circuit analysis, simplifying complex circuits for easier evaluation through individual component analysis and result summation.
Instrumentation Amplifiers & Current Sources
Explores instrumentation amplifiers, precision current sources, and practical exercises in LTSpice.
AC Circuits Analysis: Impedance and Admittance
Explores AC circuits analysis, focusing on impedance, admittance, phasors, and sinusoidal quantities.
MOS Transistor Modeling: EKV Charge-based Model
Explores the EKV charge-based model for MOS transistors, emphasizing its application in low-voltage and low-power circuit design.
Transforming Sources: Voltage to Current
Demonstrates transforming voltage sources into current sources and simplifying circuits for efficient analysis.
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