Introduction to

1
Introduction to
BEE3163 ELECTROMECHANICAL SYSTEMS

• AHMAD NOR KASRUDDIN
• Ext 0196342665
• kasruddin_at_ump.edu.my

2
COURSE INFORMATION

• Course
• BEE 2123 Electromechanical Systems
• Year / Semester 3 / 2
• Credit 3 Credit Hours
• Status Faculty Course
• Contact Hours
• Lecture 3 Hours
• Lab 2 Hours

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SYNOPSIS

• This subject introduces students to the
  mathematical analysis and design of
  electromechanical systems using MATLAB/Simulink.
• The students will learn the engineering
  computation using MATLAB/Simulink,
  electromechanical system dynamics, energy
  conversion, electromechanical analogies, and
  feedback control.
• The students will also expose to the
  electromechanical systems in automotive area. The
  students will be having a group discussion in
  analysis, design, and implementation of advanced
  state-of-the-art electromechanical systems of
  electrical machines.

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GENERAL OBJECTIVES

• At the end of this course, the students should be
  able to
• Demonstrate the application of theoretical
  results in analysis, design and deployment of
  electromechanical systems.
• Cover emerging software and hardware
  developments.
• Develop the rigorous theory of electromechanical
  systems.
• Develop strong problem solving skills in
  electromechanical systems.
• Stimulate new advances in the analysis and design
  of state-of-the-art electromechanical system.
• Apply the concept of electromechanical systems in
  automotive area.

5
TEACHING METHODS

• The theoretical aspects will be covered through
  lectures, class discussions, tutorials and
  quizzes. Audio visual aids, samples and models
  will be used when required.

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COURSE OUTLINE

• The course will cover -
• Introduction (6 Hours)
• Electromechanical System Dynamics, Energy
  Conversion, and Electromechanical Analogies (6
  Hours)
• Introduction to Feedback Control of
  Electromechanical Systems (6 Hours)
• Direct Current Machines (9
  Hours)
• Induction Machines (3 Hours)
• Synchronous Machines (3 Hours)
• Electromechanical Systems in Automotive Area
  (9 Hours)

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CO (CHP1)

• Introduction (6 Hours)
• Mechatronics and Emerging Trends in Engineering
• Basic Foundations
• Introduction to MATLAB/Simulink
• Engineering Computations using MATLAB
• Analysis and Modeling of Dynamic Systems Using
  MATLAB

8
CO (CHP2)

• Electromechanical System Dynamics, Energy
  Conversion, and Electromechanical Analogies
  (6 Hours)
• Mathematical Models and System Dynamics
• Energy Conversion
• Electromechanical analogies

9
CO (CHP3)

• Introduction to Feedback Control of
  Electromechanical Systems (6 Hours)
• Continuous-Time Electromechanical Systems and
  Analog PID Controllers
• Analog Control of Permanent Magnet Direct Current
  Motor
• Electromechanical Systems with Digital PID
  Controllers
• Control of Permanent Magnet Direct Current Motor
  Using Digital Controller

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CO (CHP4)

• Direct Current Machines (9 Hours)
• Introduction
• Doubly Excited Transducer and Introduction to
  Fundamental of Alternating Current and Direct
  Current Electric Machines
• Separately Excited Direct Current Machines
• Shunt Connected Direct Current Machines
• Series Connected Direct Current Machines
• Compound Connected Direct Current Electric
  Machines
• Permanent Magnet Direct Current Machines
• Modeling and Analysis of Permanent Magnet Direct
  Current Generators

11
CO (CHP5)

• Induction Machines (3 Hours)
• Introduction
• Voltage, Flux Linkage, and Torque Equations for
  Three Phase Induction Machines Dynamics in the
  Machines Variables
• Mathematical Models of Three Phase Induction
  Machines in the Arbitrary, Stationary, Rotor, and
  Synchronous Reference Frames

12
CO (CHP6)

• Synchronous Machines (3 Hours)
• Introduction
• Synchronous Reluctance Motors
• Permanent Magnet Synchronous Machines
• Conventional Three Phase Synchronous Machines
  Dynamics in the Machines Variables, and in the
  Rotor and Synchronous Reference Frame

13
CO (CHP7)

• Electromechanical Systems in Automotive Area (9
  Hours)
• Electrical Systems and Circuits
• Starter Motors and Circuits
• Alternators and Changing Circuits

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COURSE ASSESSMENT

• Quizzes - 10
• The quizzes will be performed with / without
  prior notice
• For evaluation purposes or to check balance
• Test - 30
• 2 or 3 regarding to the students performance
• All sections at the same time
• Presentation/Assignment - 10
• With / without group
• Subject Laboratory - 10
• The lab will be scheduled once for every
  fortnight for each section sandwich with tutorial
• Final Examination - 40
• Chapter 1 - 7
• TOTAL 100

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REFERENCES

• Any reliable sources http//elearn.ump.edu.my/stu
  dy.cfm
• Stephen J. Chapman Electric Machinery and Power
  System Fundamentals, International Edition,
  McGraw-Hill, New York, 2002.
• Theodore Wildi Electrical Machines, Drives, and
  Power Systems, 5th Edition, Prentice Hall, New
  Jersey, 2002.
• A.E. Firtzgerald Charles Kingsley, Jr. Stephen
  D. Umans Electric Machinery, 6th Edition,
  McGraw-Hill, New York, 2003.
• E. G. Stocks J. N. Hoopers Electrical
  Machines, 1st Ed., Thomson Learning, London,
  2001.
• Charles I. Hubert Electric Machines, 2nd
  Edition, Prentice Hall, New Jersey, 2002.
• Ryff, Peter F. Electric Machinery 3rd Edition,
  Prentice Hall, New Jersey, 1998.
• Nagrath I. J., Kothari D. P. Electric
  Machines, 2nd Edition, McGraw-Hill, New Delhi,
  1997.

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Lecture and Lab Schedule (E17LB, E17LBD E16LB)

• Monday
• 2 Hours (01100 1250)
• WDK 31
• Tuesday
• 1 Hour (1000 1050)
• ZDK16
• Friday
• 1 Hour (0800 0950)
• FKE16

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POLICIES

• Attendance Policies
• "Petikan dari Bahagian VIII 8.(1)(i) Peraturan
  Akademik KUKTEM 2004
• Each student is compulsory (100) to attend all
  classes including lectures, tutorials,
  laboratories, and fieldwork for each registered
  class, including the first class session, in
  order to verify registration with instructors,
  and to complete all work assigned for the course.
• If students do not attend the class and do not
  give prior notification to the instructor of
  acceptable reasons for absence, the student shall
  be dropped from the course or 0 marks will be
  granted for that particular courses.
• Instructors of courses are not obligated to
  provide make-up opportunities for students who
  are absent, unless the absence has been
  officially approved. An officially approved
  absence, however, merely gives the individual who
  missed the class an opportunity to make up the
  work and in no way excuses him from the work.

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POLICIES

• Classroom Conduct
• All students in the class must treat others with
  civility and respect and conduct themselves
  during class sessions in a way that does not
  unreasonably interfere with the opportunity of
  other students to learn.
• Failure to comply with this requirement may
  result in points being deducted from a students
  final numerical average/soft skills.

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POLICIES

• Homework and assignments will be given and it
  will be sure that they are handed on-time.
• A penalty of 50 deduction will be imposed for
  any late assignment handed.

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ACADEMIC HONESTY

• Your written assignments, lab and examinations
  must be your own work.
• Academic Misconduct will not be tolerated, and
  all cases will be forwarded to the Board of
  Examination, for further actions.

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Questions ???
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ASSIGNMENT 1

• Name
• Current GPA / CPA
• Parents Occupation
• Household Income / month
• Sibling / th in Family
• Hobby
• Books
• Music
• Movies
• Others
• Why Electrical Engineering?
• Why UMP?
• What do you know about Electrical Machines?
• What do you know about Power Electronics?
• What do you know about Electrical circuit?
• What do you know about Mechatronics?
• How do you see yourself in 5 years?
• What is your vision in life?