Upcoming MATLAB and Simulink Webinars

Field-Oriented Control Made Easy


Field-oriented control design with Simulink lets you use simulation to design, tune, and verify motor control algorithms. In this webinar MathWorks engineers will design and test sensorless field-oriented control for an induction motor.

During the demonstration, we will show how Simulink can be used to:

  • Model a traction electrical drive
  • Design field-oriented controller, including current, torque, and flux loops
  • Develop PWM logic for driving the inverter
  • Design an observer algorithm for estimating rotor position and velocity
  • Model Park and Clarke transforms
  • Automatically tune controller gains in current, flux, and speed loops during one simulation run
  • Verify controller performance through closed-loop simulations

Please allow approximately 45 minutes to attend the presentation and Q&A session. We will be recording this webinar, so if you can't make it for the live broadcast, register and we will send you a link to watch it on-demand.

About the Presenter

Sabin Carpiuc is a developer in the Simscape group at MathWorks in Cambridge, United Kingdom. His research interests include physical modeling, electric machines and power electronics, automotive electric traction drives, model predictive control and optimization, constrained control and automotive control systems. Sabin holds a Ph.D. degree in systems engineering from the ''Gheorghe Asachi'' Technical University of Iasi, Iasi, Romania. Prior to MathWorks Sabin was with the Hybrid Electric Vehicle Business Unit of the Powertrain Division of Continental Automotive Romania.

Zhao Wang is a developer in Controls & Identification group at MathWorks in Natick, MA. Zhao focuses on power electronics control and motor control. Zhao holds a Ph.D. degree from University of Notre Dame in Electrical Engineering with a focus on power system analysis and control.

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