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EE595S Homepage

Electric Drive Systems

Anouncements:

· Final Exam Information

1. 7 questions (3 prior material, 4 new material)

2. You will need a calculator (No PDA or computer allowed)

3. You may bring a clean copy of “Analysis of Electric Machinery and Drive Systems”

4. You may bring a clean copy of Chapters 1-3, “Analysis and Design of Permanent Magnet Synchronous Machines”

5. You may bring a clean copy of Chapters 4-5, “Techniques for Analysis and Design of Electromechanical Systems”

6. The papers we covered at the end of the course are all fair game, and you will not be allowed to bring these.

7. With regard to the papers, make sure you understand them and could duplicate steps in derivations etc.

8. The exam will last two periods (120 minutes).

Administrative

· Course Syllabus

· Course Information Slides

Exam Dates

· Exam 1: Lecture 17 (September 30, 2005 for on-campus students)

· Exam 2: Lecture 31 (November 4, 2005 for on-campus students)

· Exam 3: Final Exams Week (Wednesday, December 14, 2005, from 8-10 am for on-campus students)

Lectures

· Lecture Topic 1 - Reference Frame Theory

· Lecture Topic 2 – Fully Controlled 3-Phase Bridge Inverters

· Lecture Topic 3 – PMSM (Standard QD Model)

· Lecture Topic 4 – PMSM (Alternate QD Model)

· Lecture Topic 5 – Brushless DC Motor Drives

· Lecture Topic 6 – Current Regulated Brushless DC Motor Drives

· Lecture Topic 7 – Induction Machines

· Lecture Topic 8 – Induction Motor Drives

· Lecture Topic 9 – Adaptive MTPA Drives

Exam Solutions

Exam 1 Solution Exam 2 Solution

Homework

· Homework 1 Homework 2 Homework 3 Homework 4 Homework 5 Homework 6 Homework 7

Homework Solutions

· Homework 1 Homework 2 Homework 3 Homework 4 Homework 5

Homework 4 (Numerics)

Labs

· Lab 1: Introduction to ACSL

o Lab 1 Lecture Notes

o Lab 1 – Example

§ dcdc1.cmd

§ dcdc1.csl

o Lab 1 - Project

· Lab 2: More ACSL Features

o Lab2 Lecture Notes

o Lab 2 – Basketball Example

§ basket.csl

§ basket.cmd

o Lab 2 – Squarewave Example

§ square.csl

§ square.cmd

o Lab 2 – Average Value DC/DC Converter Example

§ adcdc1.csl

§ adcdc1.cmd

§ adcdc.mac

o Lab 2 – Project

§ adcdc2.csl

§ adcdc2.cmd

§ ddcdc1.csl (UPDATED 9/2/05 at 2 pm)

§ dcdcc1.cmd

§ ddcdc.mac

· Lab 3: Three Phase Bridge Inverters

o Lab 3 Lecture Notes

o Sine Triangle Code

§ Invert1.csl

§ Invert1.cmd

o Space Vector Code

§ Invert2.csl

§ Invert2.cmd

o Macros

§ 3p_modulators

§ 3p_passive_loads

§ tools

· Lab 4: PMSM Characterization

o Lab 4 Lecture Notes

o Motor Data

o Experimental Data for Off-Campus Students

· Lab 5: Elementary PMSM Drive

o Lab 5 Lecture Notes

o 3p_modulators

o rotor_dynamics

o qd_transformations

· Lab 6: Genetic Optimization

o Lab 6 Lecture Notes

· Lab 7

o Lab 7A: Medium Frequency PMSM Characterization

o Lab 7B: Rotor Position Calibration Notes

· Lab 8: PMSM

o Switching Frequency Effects in PMSM Drives

o Lab 8 Experimental Data

· Lab 9: IM Characterization

o Lab 9 Lecture Notes

o Lab 9 Steady-State Data

o Lab 9 Transient Data (This includes steady – state plus transient data)

· Lab 10: IM Indirect Field Oriented Control

o Lab 10 Lecture Notes

o Lab 10 Data

o Lab 10 Group Reports

1. Project10_AK_BD

2. Project10_CH_JS_AS

3. Project10_CRV_AC

4. Project10_DW

5. Project10_JT_GM

6. Project10_MAO_JP_KR

Course Material & Resources

ACSL Manual

Techniques for Analysis and Design of Electromechanical Systems

Title

Chapter 4 Chapter 4 Figures

Chapter 5 Chapter 5 Figures

Analysis and Design of Permanent Magnet Synchronous Machines

Old Exams

These exams are in no way guaranteed to be representative of future exams. Looking at

them couldn’t hurt; but it may (or may not) help.

· EE595s – Exam1 – Fall 2001

· EE595s – Exam 2 – Fall 2001

· EE595s – Exam 1 – Fall 2003