Skip to content
MathWorks - Mobile View
  • Accedere al proprio MathWorks AccountAccedere al proprio MathWorks Account
  • Access your MathWorks Account
    • Il Mio Account
    • Il mio Profilo utente
    • Associa Licenza
    • Disconnettiti
  • Prodotti
  • Soluzioni
  • Università
  • Assistenza
  • Community
  • Eventi
  • Acquista MATLAB
MathWorks
  • Prodotti
  • Soluzioni
  • Università
  • Assistenza
  • Community
  • Eventi
  • Acquista MATLAB
  • Accedere al proprio MathWorks AccountAccedere al proprio MathWorks Account
  • Access your MathWorks Account
    • Il Mio Account
    • Il mio Profilo utente
    • Associa Licenza
    • Disconnettiti

Video e Webinar

  • MathWorks
  • Video
  • Home Video
  • Cerca
  • Home Video
  • Cerca
  • Contatta l’ufficio addetto alle vendite
  • Software di prova
27:50 Video length is 27:50.
  • Description
  • Related Resources

Field-Oriented Control Made Easy

Overview

Field-oriented control is a popular means of controlling brushless motors used in automotive, industrial, aerospace, and consumer applications. Motor Control Blockset for Simulink speeds up the development of a field-oriented controller by helping you to verify control algorithms using simulation and generate compact and efficient code for a microcontroller. In this session, MathWorks engineers will walk you through a reference example of field-oriented control algorithm simulation and code deployment to a TI C2000 microcontroller for a permanent magnet synchronous motor (PMSM).  During the demonstration, we will show how Motor Control Blockset can be used to:

  • Parameterize a PMSM model by running instrumented tests on a motor
  • Model motor and inverter dynamics at different levels of fidelity
  • Design a field-oriented controller, including current, and torque/speed loops using a quadrature encoder or Hall sensor
  • Show sensorless control using a flux observer
  • Demonstrate field weakening control to exceed the rated speed of the motor
  • Use automatic PID tuning to set the controller gains for current and speed loops
  • Verify controller performance through closed-loop simulations
  • Generate code for a Texas Instruments C2000 microcontroller and operate the current loop of the PMSM at 20 kHz

Recorded: 9 Jun 2020

Related Products

  • Motor Control Blockset
  • Embedded Coder
  • Simscape Electrical
  • Simulink Control Design

Learn More

Frequently Asked Questions
Field-Oriented Control
Field-Weakening Control

3 Ways to Speed Up Model Predictive Controllers

Read white paper

A Practical Guide to Deep Learning: From Data to Deployment

Read ebook

Bridging Wireless Communications Design and Testing with MATLAB

Read white paper

Deep Learning and Traditional Machine Learning: Choosing the Right Approach

Read ebook

Hardware-in-the-Loop Testing for Power Electronics Control Design

Read white paper

Predictive Maintenance with MATLAB

Read ebook

Electric Vehicle Modeling and Simulation - Architecture to Deployment : Webinar Series

Register for Free

How much do you know about power conversion control?

Start quiz
Related Information
Related Information
Motor Control, Part 6: 10 Practical Considerations for Implementing FOC with Simulink (17:42)

Feedback

Featured Product

Motor Control Blockset

  • Request Trial
  • Get Pricing

Up Next:

47:13
From PID Control to Adaptive Control: Systematically...

Related Videos:

32:32
Simulink to AUTOSAR Code Made Easy
4:56
Automatic Tuning of a Helicopter Flight Control System
17:08
Simulating a Multi-Stage Rolling Mill Process, Part 3:...
2:13
What Is Simulink Control Design?

View more related videos

MathWorks - Domain Selector

Select a Web Site

Choose a web site to get translated content where available and see local events and offers. Based on your location, we recommend that you select: .

  • Switzerland (English)
  • Switzerland (Deutsch)
  • Switzerland (Français)
  • 中国 (简体中文)
  • 中国 (English)

You can also select a web site from the following list:

How to Get Best Site Performance

Select the China site (in Chinese or English) for best site performance. Other MathWorks country sites are not optimized for visits from your location.

Americas

  • América Latina (Español)
  • Canada (English)
  • United States (English)

Europe

  • Belgium (English)
  • Denmark (English)
  • Deutschland (Deutsch)
  • España (Español)
  • Finland (English)
  • France (Français)
  • Ireland (English)
  • Italia (Italiano)
  • Luxembourg (English)
  • Netherlands (English)
  • Norway (English)
  • Österreich (Deutsch)
  • Portugal (English)
  • Sweden (English)
  • Switzerland
    • Deutsch
    • English
    • Français
  • United Kingdom (English)

Asia Pacific

  • Australia (English)
  • India (English)
  • New Zealand (English)
  • 中国
    • 简体中文Chinese
    • English
  • 日本Japanese (日本語)
  • 한국Korean (한국어)

Contact your local office

  • Contatta l’ufficio addetto alle vendite
  • Software di prova

MathWorks

Accelerating the pace of engineering and science

MathWorks è leader nello sviluppo di software per il calcolo matematico per ingegneri e ricercatori

Scopri…

Scopri i nostri prodotti

  • MATLAB
  • Simulink
  • Software per studenti​
  • Supporto hardware
  • File Exchange

Prova o Acquista

  • Download
  • Software di prova
  • Contattaci
  • Prezzi e licenze
  • Come acquistare

Impara ad utilizzare i nostri prodotti

  • Documentazione
  • Tutorial
  • Esempi
  • Video e Webinar
  • Formazione

Ricevi supporto tecnico

  • Aiuto all'installazione
  • MATLAB Answers
  • Consulenza
  • License Center
  • Contatta l'assistenza

Informazioni su MathWorks

  • Lavora con noi
  • Sala stampa
  • Missione sociale​
  • Casi dei clienti
  • Informazioni su MathWorks
  • Select a Web Site United States
  • Centro di fiducia
  • Marchi
  • Informativa sulla privacy
  • Antipirateria
  • Stato dell'applicazione

© 1994-2022 The MathWorks, Inc.

  • Facebook
  • Twitter
  • Instagram
  • YouTube
  • LinkedIn
  • RSS

Unisciti alla discussione