Lectures related to Asynchronous Motor: Examples of Implementations

Direct Current Machines: Principles and Applications

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

Basic Elements of Electric Machines

Covers the basic elements of electric machines, including magnetic circuits and different types of motors.

Synchronous Motors: Permanent Magnet Applications and Characteristics

Discusses the principles and applications of synchronous motors with permanent magnets, focusing on their operation and performance characteristics.

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.

Induction Motors: Starting Methods and Characteristics

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

Asynchronous Motor: Electronic Control

Covers voltage/frequency variation in big engines and vector control for synchronous and asynchronous motors.

Rotating Field, Torque Generation

Explains the interaction of rotating fields in motors and the conditions on supply frequencies.

Permanent Magnet Synchronous Motor

Explores the Permanent Magnet Synchronous Motor, focusing on power balance, torque characteristics, and an example with a BMW 130i.

Synchronous Motors: Basics and Applications

Explores the basics and applications of synchronous motors, highlighting their evolution in different industries.

Fundamentals of Electric Machines: Electromagnetic Principles

Explains the fundamental principles of electric machines and the generation of electromagnetic torque.

Electric Propulsion: Fundamentals and Applications

Covers the principles and applications of electric propulsion in various fields.

Induction Motors: Equivalent Impedance and Operation Modes

Covers the principles of operation of induction motors, starting methods, and operation modes.

DC Motors: Excitation and Induced Voltage

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

Stepper Motors: Types and Functionality

Covers the principles and types of stepper motors, including reluctance, electromagnetic, and Lavet motors, and their applications in technology.

Synchronous Motor: Film

Covers the structure and operation of synchronous motors, focusing on permanent magnets and control methods.

Stepper Motor: Principles and Applications

Covers the principles and applications of stepper motors, focusing on a hybrid stepper motor with a 1.8-degree step size.

Synchronous Motor: Structure

Explores the structure and design considerations of synchronous motors, including winding configurations and rotor designs.

Variable Voltage and Frequency Power Supply: Part 1

Discusses the principles of asynchronous motors powered by variable voltage and frequency.

Synchronous Motor, Electric Drives

Explores synchronous motors in electric drives, covering auto-commutation, rotor position detection, sensor options, and commutation modes.

Movement Planning: Hierarchical Motor Control

Explores movement planning and execution, focusing on hierarchical motor control and the implications for clinical interventions.