Free Download Modelling Transformers in COMSOL Multiphysics
Published 1/2026
Created by Rahul Krishna Bhat
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Level: Intermediate | Genre: eLearning | Language: English | Duration: 13 Lectures ( 1h 15m ) | Size: 1.9 GB
Learn multiphysics analysis of Transformers. This course has nothing to do with Optimus Prime !
What you'll learn
✓ Finding magnetizing and leakage inductance of a transformer
✓ Extracting the parasitic capacitance matrix of the transformer
✓ Connecting the transformer FEM model with a circuit such as rectifier and filter
✓ Computing Iron and copper losses in the transformer
✓ Determine the temperature rise due to electromagnetic losses
✓ Examining the stresses and deformation in the transformer due to electromagnetic forces
✓ Extracting material property data using curve digitizer
✓ Solving convergence issues by rectifying BH curves
✓ Using data from manufacturer's datasheet to model the material behaviour and electromagnetic losses
✓ Obtaining Effective BH curve model from the original material BH curve
Requirements
● Introductory familiarity with COMSOL. Basic exposure to FEM would be advantageous.
Description
This course delves deep into various aspects of transformer modelling. It covers electromagnetic analysis, electromagnetic loss calculation, coupled electromagnetic-thermal analysis, electromagnetic-structural analysis and finally, various aspects of magnetic material non-linearity modelling.
It is structured in the form of simple tutorial videos demonstrating how to extract magnetizing and leakage inductances, parasitic capacitances, FEM-circuit coupling with rectifier and filter, iron and copper loss calculation, thermal analysis, structural analysis and BH curve modeling.
A basic e-core transformer geometry is used for ease of understanding. Each consecutive tutorial builds up on the previous step to develop a comprehensive understanding of transformer multiphysics simulations. For more complex geometries, the approach and procedure for simulation remains the same as discussed in this tutorial series.
Course structure
• Section 1: Electromagnetic analysis
Extracting the Magnetizing and Leakage inductance of the transformer
• Section 2: Electrostatic analysis
Obtaining the parasitic capacitance matrix of the transformer
• Section 3: FEM-Circuit coupling
Connecting the transformer model with a rectifier and filter
• Section 4: Loss calculation
Finding the Iron and Copper losses in the transformer
• Section 5: Thermal Analysis
Determine the temperature rise due to electromagnetic losses
• Section 6: Structural Analysis
Examine the stresses and deformation due to electromagnetic forces in the transformer
• Section 7: Magnetic non-linearity modeling
Extracting curve data from graph using curve digitizer, rectifying B-H curve to solve convergence issues, using loss data from material datasheet and obtaining Effective B-H curve model from original B-H curve
Why take this course
This course takes a systematic approach to learning multiphysics simulation of transformers. The gradual build up of learning makes the topic very accessible. I have put my heart and soul in making of this course, using my insights to include all the intricacies and nuances I would have been delighted to learn as a beginner, all in one place.
Disclaimer
This 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
■ Industry professionals
■ People interested in multiphysics simulation of transformers
Homepage
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