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image for course Motor Modeling with Simscape Electrical

Motor Modeling with Simscape Electrical

Learn to create a lumped-parameter model of an electric motor using Simscape Electrical and connect it to a closed-loop controller built using Motor Control Blockset. Then, incorporate finite element data and loss modeling to increase the model fidelity.

Course modules

Course Overview

An overview of the course.

Lessons:
  • Course Overview Video
  • Learning Outcomes and Prerequisites

Combining Simscape Motors with Simulink Controllers

How to unlock the power of Simscape Electrical and Motor Control Blockset.

Lessons:
  • Motor Modeling Basics
  • Local Solvers in Simscape
  • Connecting a Simulink Controller
  • Chapter Summary

Increasing Model Fidelity

Implementing finite element data for motors and switching devices for converters.

Lessons:
  • Parameterizing a Motor Using Finite Element Data
  • Increasing Inverter Fidelity
  • Chapter Summary

Loss Modeling

Model iron losses and develop a thermal model for your motor.

Lessons:
  • Iron Loss Modeling
  • Thermal Modeling
  • Chapter Summary

Conclusion

Learn about additional resources and give feedback on the course.

Lessons:
  • Additional Resources
  • Survey

Format:Self-paced

Language:English

Language

  • Hands-on exercises with automated feedback
  • Access to MATLAB through your web browser
  • Shareable progress report and course certificate

Introduction to Motor Control

Learn the basics of creating models and designing controllers for electric motors using Motor Control Blockset.

Power Electronics Simulation Onramp

Learn the basics of simulating power electronics converters in Simscape.

Power Systems Simulation Onramp

Learn how to progressively build and validate power systems using Simscape Electrical.

Introduction to Motor Control

Learn the basics of creating models and designing controllers for electric motors using Motor Control Blockset.

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