Vector Control of Drives

Slides for the workshop (July 24-26, 2019)

Summary Slide for July 24, 2019 (Click  Office presentation icon here)

Summary Slide for July 26, 2019 (Click  Office presentation icon here)

Course Learning Objectives

  • Understand the applications for accurate torque, speed and position control
  • Understand the requirement on electromagnetic torque produced by ac machines
  • Understand Induction Machines in Phase Quantities
  • Understand Dynamic Analysis and Modeling of Induction Machines using d-q Axes Theory
  • Understand Qualitatively the Vector Control and modeling of Induction Motor Drives
  • Understand the Mathematical Description Vector Control and modeling of Induction Motor Drives
  • Understand the Effects of Errors in Motor Parameter Estimation
  • Understand Doubly-Fed Induction Generators and how to control them
  • Understand Voltage Vector Pulse-Width Modulation
  • Understand Direct-Torque Control and Sensor-less Drives
  • Understand Permanent-Magnet and Synchronous Drives
  • Understand Switched-Reluctance Drives

Course Description

Each session covers the following topics: Note: Some topics have one or more modules

  1. Introduction and Applications
  2. Induction Machine Equations in Phase Quantities
  3. Dynamic Analysis of Induction Machines in Terms of dq-Windings
  4. Vector Control of Induction Motor Drives
  5. Mathematical Description of Vector Control
  6. Detuning Effects in Induction Motor Vector Control
  7. Dynamic Analysis of Doubly-Fed Induction Generators and their Vector Control
  8. Space-Vector Pulse-Width Modulated Inverters
  9. Direct Torque Control and Encoder-Less Operation of Induction Motors
  10. Vector Control of Permanent Magnet Synchronous-Motor Drives
  11. Switched-Reluctance Motor Drives

Course Slides

Labs

Latest lab manual can be found here.

Click here for instructions to install Sciamble Workbench.

Click here to buy complete electric drives laboratory lab kit.

Electric Machines & Drives

Electric Machines and Drives   Electric Machine Design

Vector Control of Drives   FEA for Machine Design

Analysis and Control : Simulation and Lab Implementation

Textbook

Advanced Electric Drives: Analysis, Control, and Modeling Using MATLAB/Simulink

Author: Mohan
ISBN: 978-1-118-48548-4
Publisher: Wiley

Complete Solution Manual for the Advanced Electric Drives: Analysis, Control, and Modeling Using MATLAB/Simulink: To receive a copy of the entire solutions manual, contact John Wiley & Sons and register as a faculty member.