Lectures related to Transformers: Principles and Applications in Electrical Machines

Transformer: Single and Three-Phase

Covers the basics of transformers, including single-phase and three-phase configurations, levels of electricity network, and special transformers.

Apparent and True Power: Transformer

Explains apparent and true power in circuits, power factor, transformers without load resistors, and transformers with load resistors.

AC Circuits: Complex Impedance Analysis

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

Magnetic Circuits: Understanding Inductance and Maxwell's Equations

Explains magnetic circuits, focusing on inductance and Maxwell's equations in electromechanical systems.

AC Circuits Analysis: Maxwell's Equations to Impedance

Explores AC circuits analysis, from Maxwell's equations to impedance and experimental phase shifts verification.

Electromagnetism: UNIL-208

Covers Lenz's law, induced voltage, and electromagnetic circuits.

Short-Circuit Currents Calculation

Covers the calculation of short-circuit currents in electrical networks and the equivalent models of components.

Magnetic Circuits and Transformers

Explores magnetic circuits, transformers, impedance calculations, and losses in transformer elements.

Three-Phase Circuits: Power and Step Response Analysis

Explores power in three-phase systems and step response analysis of RC and RL circuits.

Economic Dispatching: Marginal Costs and Power Plants

Covers economic dispatching, marginal costs, symmetrical components, and power flow optimization in electrical networks.

Electric Machines: Asynchronous Machine Principles

Explains the principles and functioning of asynchronous machines, focusing on their structure, operation, and key concepts like slip and torque generation.

Circuit Analysis: Thevenin and Norton Theorems

Explores circuit analysis using Thevenin and Norton theorems to simplify complex circuits for analysis.

Basic Concepts: Electric Circuits

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

Energy in Inductance & Capacitance

Explores energy storage in coils, magnetic fields, and capacitors, emphasizing the oscillation and decay of energy in circuits.

S-Domain Circuit Analysis: Part 2

Delves into s-domain circuit analysis, covering theorems, analysis methods, and stability concepts.

Kirchhoff's Laws and DC Circuits

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

Electromagnetism Fundamentals

Introduces the fundamentals of electromagnetism, covering magnetic flux, inductance properties, energy transformations, and practical applications.

Electric Generators and Transformers

Explores electric generators, transformers, induction, and transmission of power in AC systems.

Electrical Circuits and Systems Fundamentals

Introduces the fundamentals of electrical circuits and systems, covering signal processing, Fourier Transform, and circuit analysis methods.

Electric Circuits: Analysis and Applications

Covers the analysis of electric circuits using Kirchhoff's laws and Ohm's law to determine currents, voltages, and power.