Modelling Motors in COMSOL MultiphysicsPublished 7/2026
Created by Rahul Krishna Bhat
MP4 |
Video: h264, 1920x1080 |
Audio: AAC, 44.1 KHz, 2 Ch
Level: Beginner |
Genre: eLearning |
Language: English + subtitle |
Duration: 17 Lectures ( 1h 38m ) |
Size: 2 GB
Learn how to model Permanent Magnet Motors (PMMs), induction motors, magnetic gears and axial flux motors What you'll learn⚡ Building a basic permanent magnet motor (PMM) model
⚡ Computing the electromagnetic losses and temperature rise in a PMM
⚡ Getting the torque speed curve of a squirrel cage induction motor (SQIM)
⚡ Obtaining the dynamic response of a SQIM
⚡ Simulating a magnetic gear in 3D and finding the transmitted torque
⚡ Modeling an Axial flux motor in 3D
Requirements❗ No pre-requisite. Some exposure to Finite Element Method (FEM) would be an advantage.
DescriptionThe electric motor has acquired universal importance due to wide adoption of electric vehicles (EVs). Acquiring the skillset of analysis and design of different types of motors becomes essential for electrical engineers. COMSOL Multiphysics is a software which provides the flexibility to model different kinds of rotating machines, get insights into the working of the machines as well as experiment with various driving methodologies along with performance assessment. This course is designed with all these factors in mind.
This course will empower you to model different types of motors. We will begin with the basics of modeling a Permanent Magnet Motor (PMM), and get insights into the electromagnetics of torque production. The tutorials will progressively build up by examining the synchronous torque, induced stator coil voltages, iron and copper losses and getting the temperature rise in the motor. We will learn how to obtain the torque speed curve of an induction motor and get its dynamic response. Finally, you will learn how to model magnetic gears and axial flux motors.
Course structureSection 1: Modeling a PMM✨ Learn the basics of torque production and stator excitation
✨ Obtaining synchronous torque and induced stator coil voltages
Section 2: Electromagnetic-Thermal analysis of PMM✨ Finding the electromagnetic losses
✨ Examining the temperature rise in the motor due to power losses
Section 3: Modeling a Squirrel Cage Induction Motor (SQIM)✨ Extracting the torque speed curve of a SQIM
✨ Simulating the dynamic response of SQIM
Section 4: Modeling a Magnetic Gear✨ Examining the transmitted torque of a magnetic gear in 3D
Section 5: Modeling an Axial Flux Motor✨ Simulating an axial flux motor and getting its dynamic response
*Subtitles are available for all lectures in English[US].
Why take this courseThis course enables you to model different kinds of motors, all consolidated in one place. It covers radial as well as axial flux machines. You will learn the nuances of modeling synchronous response, dynamic response with 2D as well as 3D geometries, which pose significant challenges to new users.
DisclaimerThis course is not affiliated with, endorsed by, or sponsored by COMSOL AB. COMSOL Multiphysics® is a registered trademark of COMSOL AB. For support and licensing, please visit the COMSOL official website.
Who this course is for⭐ Students
⭐ Research Scholars
⭐ Professionals
⭐ Engineers
⭐ People interesting in motor modeling in 2D and 3D
⭐ Beginners to COMSOL Multiphysics
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