EE4800/5800 Advanced Electric Machinery
University of Colorado at Denver and Health Sciences Center
College of Engineering and Applied Science
Term: Spring 2011
Course dates/days/times: MW 5:00-6:15pm
Course location: Plaza M104
Office Hours: TBD
Website: http://blackboard.cuonline.edu
Professor: Jaedo Park, Ph.D.
Office location: NC2620
Phone: (303) 352-3743
Email address: jaedo.park@ucdenver.edu
Course Design
Catalog Description: In-depth theoretical principles, physical insight and analysis techniques for
electromechanics and electric machines are covered focused on rotating machinery. The course
is advanced sequel of EE3164 Energy Conversion. Topics include magnetic circuits, electromechanical energy conversion principles, various electric machine definitions such as DC,
induction, synchronous machines, variable-reluctance and stepper motors, their properties and
analysis, software tools, and examples. Semester Hours: 3 to 3.
Prerequisite: EE3164 Energy Conversion or equivalent.
Energy conversion concepts which include theory of transformers, basic rotating electric
machines, and applications of each machine. Topics include fundamental magnetic circuits, AC
single- and three-phase circuits, transformer operation principles and analysis, electric machine
operation principles, characteristics, equivalent circuits and analysis for induction and
synchronous machines.
Instructor Description: This course requires fundamental understanding on electric machinery
taught in EE3164 Energy Conversion. Graduate/senior standing.
Course Objectives: By the end of the course, students will be able to understand
• Principles of electro-mechanics in depth
• Analytical techniques for electric machinery
• Synchronous, induction, DC, variable-reluctance and stepper motors
• Single- and two-phase motors
Requirements
Required Texts:
• Electric Machinery 6th ed
By A. E. Fitzgerald, C. Kingley, Jr., and S. D. Umans.
McGraw Hill, ISBN 0-07-366009-4
Recommended Texts:
• Electric Machinery and Power System Fundamentals
By Stephen J. Chapman
Last Revised: January 16 2011,3:59 PM
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•
McGraw Hill, ISBN 0-07-366009-4
Electrical Machines, Drives, and Power Systems
By Theodore Wildi
Prentice Hall, ISBN 0-07-112179-X
Assignments and Examinations:
• Assignments – There will be several homework assignments during the course.
Assignments will be due one week from the day assigned unless noted otherwise.
• Examinations – There will be two mid-terms and one final exam. All exams will be
closed-book, closed-notes. The mid-term exams will be in-class, final exam will be
administered during finals week. A letter-size paper (one sides) with equations will be
allowed during the exams and will be handed in with exam. Open book, open note quiz
will be given after every chapter.
Assessment Design
Grades:
• Grades will be determined using either one of the following weights whichever gives
higher grade.
Weights A
Weights B
Assignments/Quizzes
25%
25%
Exam I
25%
15%
Exam II
25%
15%
Final
25%
45%
Total
100%
100%
•
The final letter grade will be determined as follows. Scores will be rounded up to the
nearest percentage.
A
B
C
D
F
100-90%
89-80%
79-70%
69-60%
59-0%
•
Make sure your work is neat and legible.
Course Policies:
• Class attendance is expected of all students.
• Homework assignments will be accepted in class only, unless noted otherwise. Late work
will be accepted with 20% penalty if submitted BEFORE its solution is posted.
• There is NO make-up exam except the documented cases, such as medical emergency
with a written doctor’s excuse, notified no later than the day of the exam.
• There will be ONE chance to make-up lowest
• Graded works will be returned in class directly to the student only.
• Students should frequently check their UCD email since any class announcement will be
sent to their UCD email account through Blackboard.
• Cheating in any shape or form will not be tolerated and could result in a failing grade for
the course. It will also be subject to disciplinary action per the College of Engineering
and Applied Science Committee on Discipline.
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Course Communication
•
•
•
Office hours
Blackboard
E-mail. Put “[EE4800/5800]” in the subject.
Course Topics
The following is a tentative sequence of course topics.
Class
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Date
01/19/11
01/24/11
01/26/11
01/31/11
02/02/11
02/07/11
02/09/11
02/14/11
02/16/11
02/21/11
02/23/11
02/28/11
03/02/11
03/07/11
03/09/11
03/14/11
03/16/11
03/21/11
03/23/11
03/28/11
03/30/11
04/04/11
04/06/11
04/11/11
04/13/11
04/18/11
04/20/11
04/25/11
04/27/11
05/02/11
05/04/11
05/09/11
Topic
Introduction
Ch. 1 Magnetic Circuits and Magnetic Materials
Ch. 3 Electromechanical-Energy-Conversion Principles
Ch. 4 Introduction to Rotating Machines
Review
Midterm 1
Ch. 5 Synchronous Machines
Ch. 6 Polyphase Induction Machines
Spring Break, No class
Review
Midterm 2
Ch. 7 DC Machines
Ch. 8 Variable-Reluctance Machines and Stepping Motors
Ch. 9 Single- and Two-Phase Motors
Review I
Review II
Final
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Students called for military duty
If you are a student in the military with the potential of being called to military service
and/or training during the course of the semester, you are encouraged to contact Paul Rakowski.
Students with disabilities
Students with disabilities requiring accommodations, please contact the Office of Disability
Resources & Services located in NC#2514 phone 303.556.3450, TTY 303.556.4766. The Staff
will assist you in both determining reasonable accommodations as well as coordinating these
accommodations.
Last Revised: January 16 2011,3:59 PM
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