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

## 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.

## Course Description

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

- Introduction and Applications
- Induction Machine Equations in Phase Quantities
- Dynamic Analysis of Induction Machines in Terms of dq-Windings
- Vector Control of Induction Motor Drives
- Mathematical Description of Vector Control
- Detuning Effects in Induction Motor Vector Control
- Dynamic Analysis of Doubly-Fed Induction Generators and their Vector Control
- Space-Vector Pulse-Width Modulated Inverters
- Direct Torque Control and Encoder-Less Operation of Induction Motors
- Vector Control of Permanent Magnet Synchronous-Motor Drives
- Switched-Reluctance Motor Drives

## 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