Lectures related to Impedance and Kirchhoff Laws

Linear Circuits in Sinusoidal Regime

Explores linear circuits in sinusoidal regime, covering phasors, impedance, power calculations, Thevenin/Norton equivalents, and frequency analysis.

Impedances and Impedance Networks

Covers the representation of impedances, voltage and current dividers, and impedance networks in electrical engineering.

Analog Structures: Summary of Operational Amplifiers

Covers the summary of operational amplifiers, transconductance amplifiers, and analog structure models.

Analog Electronics: Resistors & Fundamental Laws

Covers the basics of analog circuits, including resistors and fundamental laws like Ohm's law and Kirchhoff's laws.

AC Circuits: Complex Impedance Analysis

Covers the analysis of AC circuits, focusing on complex impedance and phase differences between current and voltage.

Electrical Circuits Basics

Introduces the basics of electrical circuits, covering elements, laws, Ohm's law, and series/parallel connections.

Thevenin and Norton Theorems in Alternating Regime: Superposition Principle

Explores Thevenin and Norton theorems in alternating regime, emphasizing superposition principle and complex time domains.

CS Stage: Load and Linearization

Explores load impedance, current sources, linearity, and gain optimization in CS stages.

Basic Concepts: Electric Circuits

Introduces the fundamental concepts of electric circuits, including basic elements and Kirchhoff's laws.

Laws of Kirchhoff: Reminder and Examples

Covers the laws of Kirchhoff, current and voltage dividers, and circuit simplifications.

Kirchhoff's Laws and DC Circuits

Explores Kirchhoff's laws in DC circuits, resistor analysis, and capacitor behavior.

AC Circuits Analysis: Impedance and Admittance

Explores AC circuits analysis, focusing on impedance, admittance, phasors, and sinusoidal quantities.

Superposition Principle: Circuits Analysis

Covers the superposition principle in circuit analysis, simplifying complex circuits for easier evaluation through individual component analysis and result summation.

AC Circuits: Complex Representation

Covers the complex representation of AC circuits and the concept of phase difference.

Electrotechnique: Basics and Applications

Covers the basics of electrotechnique, including linear elements, current regimes, power types, and practical applications.

Electrotechnique: Basics and Applications

Covers the basics of electrotechnique, including linear elements, regimes, power types, and practical applications.

Single-Phase Sinusoidal Circuits

Covers peak, mean, and rms values, average power, phase advance, and sinusoidal circuits.

Charge capacitive et resistive

Explores the temporal variation of load voltage in a complex transmission line example.

Resistance in Conductors

Explains the concept of resistance in conductors and its relationship with current and voltage.

Linear Algebra: Matrices and Vector Spaces

Covers matrix kernels, images, linear applications, independence, and bases in vector spaces.