Lectures related to Induction Motor: Torque Calculation

Induction Motors: Operating Principles

Explores the operating principles of induction motors, focusing on torque characteristics, starting methods, and power balance.

Noise in Two-port Networks

Covers the analysis of noise in two-port networks, Y-parameters, substrate resistance extraction, and the noise factor.

Characteristics of Torque in Induction Motors

Explores the torque characteristics of induction motors and their operational principles.

Calculation of Short-Circuit Currents

Explores the calculation of short-circuit currents in electrical networks, emphasizing symmetrical systems and nodal impedances.

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.

Step Response of RLC Circuits and Quadrupoles

Analyzes the step response of RLC circuits and introduces the concept of quadrupoles.

DC Motors: Excitation and Induced Voltage

Covers the principles of DC motors, excitation types, induced voltage equations, power balance, and operating modes.

Balancing and Shielding in Electronic Circuits

Explores non-ideal components, filters, impedance parameters, and shielding methods in electronic circuits.

Circuit Analysis: Thevenin and Norton Theorems

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

Equations of a Motor: Parameter Relationship and Elimination

Explains the relationship between parameters in motor equations and how to eliminate them.

Power Network State Estimation

Covers power network state estimation, telemetry-based state estimation, and loss calculation.

Fundamental Theorems of Circuits and Systems

Explores fundamental theorems of circuits, superposition, source substitution, and Thévenin and Norton equivalents.

Quadripoles and Frequency Response

Covers quadripoles, impedance matrices, reciprocity, and frequency response in circuits.

Induction Motors: Starting Methods and Characteristics

Discusses asynchronous induction motors, focusing on their starting methods and characteristics, including star-delta and auto-transformer techniques.

Exergy and Electrical Motors: Fuel Cell Insights

Discusses exergy, electrical motors, and introduces fuel cells, focusing on their efficiency and operational principles.

Electromagnetic Coupling in Asynchronous Machines

Explores the electromagnetic torque and slip in asynchronous machines, along with absorbed current and power factor.

Circuit Characterization: Microwave Components and Impedance Matrix

Explores microwave circuit characterization, impedance matrices, and transmission line T circuits.

Direct Current Machines: Principles and Applications

Provides an overview of direct current machines, covering their principles, construction, and applications in various fields.

Two Port Circuits: Phase Shifters and Attenuators

Explores two-port circuits, emphasizing phase shifters and attenuators, including design principles and practical examples.

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.