Induction Machine for Beginners and Professionals

Three-phase Induction motor From Theory to Laboratory

What you'll learn
- Understand the Principles of Voltage and Torque Production
- Explain, Analyse, and Interpret how a rotating magnetic field in three-phase systems is produced
- Understand the Construction of a Three-Phase Induction Motor
- Demonstrate a Strong Grasp of the Theory of Operation
- Differentiate Between Squirrel Cage and Slip-Ring Induction Motors Demonstrate the ability to wire the motor in both star (Y) and delta (Δ) configurations
- To assimilate the concept of slip speed
- Derive the Equivalent Circuit from the Theory of Operation
- Interpret the power flow diagram to identify input power, losses, and output power.
- Develop the torque-speed curve and explain its key features, including operating regions.
- Understand how to determine the parameters of squirrel cage and slip-ring induction motors using analytical methods and laboratory experiments.
- Develop a simulation model to accurately represent the behavior of a three-phase induction motor.
- Recognise the necessity of appropriate starting techniques for three-phase induction motors, especially in high-power and loaded-start conditions.
- Describe conventional speed control methods and determine their appropriate use based on performance requirements and motor characteristics.
- Use NEMA class knowledge when designing or specifying motors in technical documents.

Requirements
- DC Circuit Analysis,
- AC circuits Analysis,
- Magnetic circuit fundamentals

Description
Master the Three-Phase Induction Machine — From Fundamentals to Simulation!

Welcome toThe Three-Phase Induction Machine Course!If you’ve ever wanted tounderstand, analyse, and simulateone of the most widely used machines in the world of electrical engineering, this course is your ultimate guide.

Whether you’re astudent,engineer, orindustry professional, this course will take you from thecore conceptsof induction machines toreal-world applicationsandMATLAB/Simulink simulations— all explained step-by-step in an easy-to-follow format.

What You’ll Learn

Thesecrets behind rotating magnetic fieldsand how they produce torque

How tomodel and analysean induction motor using itsequivalent circuit

Thepower flowandtorque–speed characteristicsthat define performance

How todetermine motor parametersand validate them practically

How tosimulate and analyseinduction motors usingMATLAB/Simulink

starting and speed control techniques

The differentmotor classesand where each one excels

Course Structure

The course is divided into 7 clear, engaging chapters — each with focused video lessons, practical examples, and hands-on demonstrations:

Chapter 0:Prerequisite Material Review

Chapter 1:Rotating Magnetic Field

Chapter 2:Construction, Theory of Operation, and Equivalent Circuit

Chapter 3:Power and Torque–Speed Characteristics

Chapter 4:Motor Parameter Determination

Chapter 5:Induction Motor Simulation Using MATLAB/Simulink

Chapter 6:Starting and Conventional Speed Control Techniques

Chapter 7:Motor Classes

At the end, you’ll take acomprehensive quizto test your knowledge and reinforce everything you’ve learned.

Why Take This Course?

Learnstep-by-step with clear explanations and visuals

Apply theory toreal industrial problems

Gainhands-on MATLAB/Simulink experience

Build the foundation foradvanced motor control, drives, and automation

Perfect forstudents, practising engineers, and researchers

By the End of This Course, You’ll Be Able To:

- Explain and analyse how a three-phase induction motor works- Determine key performance characteristics and parameters- Build and simulate induction motor models in MATLAB/Simulink- Confidently apply your knowledge to real engineering systems

Who this course is for:
- Electrical Engineering students or professionals
- A professional, or just curious about how electricity powers our world, this course is designed for you.
- Aerospace engineering students or professionals
- Automatic control engineering students or professionals
- General Engineering Students
- Mechanical engineering students or professionals
More Info