Skip to content

Latest commit

 

History

History
146 lines (114 loc) · 6.21 KB

File metadata and controls

146 lines (114 loc) · 6.21 KB

Table of Contents

Content Home

All lecture content sans the assignment(s) and important announcmenets will be hosted on the lectures Github Page which you can find it here.

A Gentle Introduction

Welcome to the lecture materials for use in B.Sc - Drive Technology where our focus will be on the topics of:

  1. Fundamentals on poly-phase systems,
  2. Magnetic Circuits,
  3. Transformers,
  4. How Energy is Converted
  5. DC Drives,
  6. Induction Drives,
  7. Synchronous Drives,
  8. Solid-state Commutation Drives.

Lecture Information

The details of the lecture are given below.

DESCRIPTION VALUE
Program Name Bachelor's program "Mechatronics Design and Innovation"
Module Name Antriebstechnik
Semester 5
Room Lecture Room
Assessment(s) Individual Assignment (40 %) Final Exam (60 %)
Lecturer Daniel McGuiness
Software Python
Hardware -
SWS Total 2
Total Units 30
ECTS 5
Lecture Type ILV

Assignments

There will be one (1) assignment and one (1) exam for this course.

The grade breakdown is as follows:

DEFINITION GRADE (%)
Individual Assignment 40
Final Exam 60
Sum 100

Individual Assignment

An individual assignment will be given to you to work on. This assignment will consist of questions pertaining to concepts and applications of electric drives.

The grade breakdown is as follows:

DEFINITION GRADE (%)
Report Style 15
Q1 - Magnetic Materials 15
Q3 - 3-Phase Induction Drives 15
Q4 - Single Phase Transfomer 15
Q5 - Single Phase Transfomer 15
Q6 - DC Drives 10
Correct use of symbols and Nomenclature 10
Sum 100

NOTE: The assignment is individual and is not meant to be worked as a group.

Final Examination

The final exam will focus on all the content taught in the lecture. The exam will have three (3) questions and you will have 90 mins to solve them. You are allowed to take a calculator but a formula sheet will not be allowed.

The Lecture Structure

As it currently is, the lecture covers topic a general breath of electrical machines from their conceptual understanding to industrical practices of production, material understanding, theoretical modelling.

The structure of the lecture is shown below.

ORDER TOPIC DESCRIPTION SESSION
1 Introduction Discussion of the lecture structure and what will be covered 1
2 Return to Fundamentals A quick view on mathematical necessity for poly-phase circuit analysis 1
3 Magnetic Circuits and Materials Magnetic Materials and Inductance 1
4 Transfomer Construction, Analysis and operation 2
5 Electromechanical Energy Conversion Energy co-energy, flux-linkage, etc. 2-3
6 Rotating Magnetic Fields MMF, waveforms, space harmonics 3
7 DC Drives Construction, operation, connection types 4
8 Polyphase Induction Drives Construction, operation, concepts, parameter analysis 4-5
9 Single-phase Induction Drives Construction, operation, starting methods 5-6
10 Linear Induction Drives Construction, operation, concepts, applications 6
11 Synchronous Drives Construction, rotor types, characteristics, salient design 6-7
12 Solid-state Commutation Drives Construction, types, control 7

Code Supplement

The Code supplement is a Github webpage dedicated to hosting all the relevant code used in the lecture as it is not feasible to fit all the content of the code to the slides and it is easier to share this way.

Visit the Code Supplement Website

Reading List

The following materials are recommend reading for the coure but by no means are they mandatory.

TITLE AUTHOR PUBLISHER
Advanced electric drives: analysis control and modeling using MATLAB/Simulink Mohan, Ned John Wiley & Sons (2014)
Analysis of electric machinery and drive systems Krause, Paul C. et. al. Vol. 2 IEEE Press (2002)
Design of rotating electrical machines Pyrhonen Juha et. al John Wiley & Sons 2013
Electric Machinery Fundamentals (5th Edition) Stephen J. Chapman. McGraw Hill (2012)
Electric Motors and Drives: Fundamentals Types and Applications Hughes A. et. al. Newnes 2019
Electrical Machines and Drives: Fundamentals and Advanced Modelling Melkebeek A. Springer 2018
Electrical machines, drives, and power systems Wildi T. Pearson Education 2006
Fundamentals of Electrical Drives Veltman A. et. al. Springer 2007

For academic references regarding the industrial applications and the current state of the art, Elsevier and IEEE Journals are always a great place to look for.

– DTMc