Uitm-fkestudent.handbook._final Edited Version _13 Dis. 2011-Edit

7/22/2019 Uitm-fkestudent.handbook._final Edited Version _13 Dis. 2011-Edit

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STUDENTSHANDBOOK

FACULTY OF ELECTRICAL

ENGINEERING

Edition

September 2011

THE BEST

EVERLIFE@FKE THEBEST

Edition:

September 2011

The Best Everlife@

FKE The Best


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CONTENTS

Description Page

Background of The Faculty 3

Vision of The Faculty 3

Mission of The Faculty 3

Functions of the Faculty 3

Centers For Studies In The Faculty 4

Programmes Offered 4

Organizational Chart of Faculty of Electrical Engineering 5

List of Top Management of Faculty Members 6

Head of Centers For Studies 7

Coordinator Programmes Center For Studies 8

List Of Administrators 9

Programmes of Education Objectives 10

Programmes Outcomes 10-11

Programmes Structure

Program Structure For EE210 14





Course Decriptions

Course Description for EE210 34





Academic Regulation 78

Grading/Assessment Policy 80

Industrial Training 83

Final Year Project 85

Students Affair 86

List Of Lecturers 90

List Of Laboratories 97

Acknowledgement 99


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BACKGROUND OF THE FACULTY

Universiti Teknologi MARA is an institution of higher learning that offers professional

programmes which integrate science, industry and technology. During its earlyestablishment in 1968, the Faculty of Electrical Engineering was one of the departmentsin the School of Engineering. The department started off by offering Advanced Diploma inElectrical Engineering followed by the Diploma in Electrical Engineering in 1976.

In August 1996, the Department of Electrical Engineering was upgraded to the Faculty ofElectrical Engineering and the Advanced Diploma Programme was renamed as theBachelor of Engineering with Honours (Electrical). When ITM obtained its university statusin August 1999 (the university was formally known as Institut Teknologi MARA), thefaculty started to offer the post graduate programmes namely Master of Science inElectrical Engineering by research and Doctor of Philosophy in Electrical Engineering.

VISION OF THE FACULTY

To be a renowned faculty based on academic excellence. This in line with the vision ofthe nation in becoming a dynamic, progressive and global player in the field of electricalengineering through the world class programmes offered in order to produce electricalengineers who are competitive, global and ethical.

MISSION OF THE FACULTY

To uphold and to enhance the intellectual level of the nation in electrical engineering thatto assimilate spiritual and noble values through the transfer of knowledge, research workand community service based on moral values and professional ethics of an engineer.

FUNCTIONS OF THE FACULTY

The main functions of the faculty in upholding the government policy towards establishingUniversiti Teknologi MARA as a premier university are as follows:

a) Teaching and Learning to produce professional workforce in the area of electricalengineering.

b) Research and Consultancy to foster a strong relationship with the industry in orderto enhance the knowledge and expertise in the current technology through researchand consultancy.

c) Publication to transfer and contribute to the pool of knowledge through itspublications.

d) Community Serviceto serve the community, in tandem with its social obligation tothe nation.


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CENTRES FOR STUDIES IN THE FACULTY

There are five Centres for Studies in the faculty namely :

a) Centre for Electronic Engineering Studiesb) Centre for Power Engineering Studiesc) Centre for Systems Engineeringd) Centre for Communications Engineering Studiese) Centre for Computer Engineering Studies

PROGRAMMES OFFERED

The faculty offers the following programmes:

a) PhD in Electrical Engineering (EE990)b) MSc. In Telecommunications and Information Engineering (EE770)c) Master of Science in Electrical Engineering (EE780)d) B.Eng (Hons.) Electrical Engineering (EE221)e) B.Eng (Hons.) in Electronics Enggineering (Communication) (EE240)f) B.Eng (Hons.)) Electronics Engineering (Instrumentation) (EE230)g) B.Eng (Hons.) Electronics Engineering (Computer) (EE250)h) B.Eng (Hons.) (Hons) Electronics Engineering (EE210)i) Diploma in Electrical Engineering (Electronics) (EE111)

j) Diploma in Electrical Engineering (Power) (EE112)k) Diploma in Electrical Engineering (Instruments) (EE113)


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ORGANIZATIONAL CHART FACULTY OF ELECTRICAL ENGINEERING

DEAN

Deputy Dean(Research&

IndustryLinkages)

Deputy Dean(Academic)

Deputy Dean(Student Affairs)

DeputyRegistrar

HeadMicrowaveTechnology

Center

HeadCenter for

CommunicationEng. Studies

HeadCenter for

Electronic Eng.Studies

HeadCenter for

Computer EngStudies

HeadCenter for

System EngStudies

HeadCenter forElectrical

Power Eng

CoordinatorProgram EE240

Coordinator

Program EE210

Coordinator

Program EE221

Coordinator

Program EE230

Coordinator

Program EE250

HeadNano-Technology

Center

HeadGERCCenter

Human Resource& Administration& Services Unit

CoordinatorFranchiseProgram

CoordinatorPLK

Program

HEPAUnit

AcademicUnit

Deans Secretary Committee

Research &IndustrialLinkages

HeadPost Graduates

Studies

AcademicStaff

AcademicStaff

AcademicStaff

AcademicStaff

AcademicStaff

Coordinator

(By Cooursework)

Coordinator(By Research)


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LIST OF TOP FACULTY MANAGEMENT MEMBERS

DeanProfessor Dr. Mohd Nasir Taib

03-55435051/5052

Deputy Dean (Academic)

Assoc. Prof. Datin Dr. Wahidah Mansor

03-55435035

Deputy Dean (Research & Industry Linkages)Assoc. Prof. Dr. Habibah Hashim

03-55435044

Deputy Dean (Student Affairs)Dr Ahmad Asari bin Sulaiman

03-55435105
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HEADS CENTERS FOR STUDIES

Center for Computer Engineering StudiesAssoc.Prof. Ruhani Ab Rahman03-55435084

Center for System Engineering Studies

Dr. Rosidah Sam03-55436081

Center for Electronic Engineering StudiesEncik Uzer Mohd Noor03-55436044

Center for Electrical Power Engineering StudiesDr Ahmad Farid Abidin03-55436076

Center for Communication Engineering StudiesDr.Mohd Tarmizi Ali03-55436017
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COORDINATORS CENTER FOR STUDIES

Bachelor of Engineering(Hons) Electrical (EE220)

Puan Norulhuda AbdulRasheid03-55435003

B. Eng (Hons) Electrical(EE221)

Assoc. Wan Norainin WanAbdullah03-55435016

B. Eng (Hons) (Hons) in

Electronic Engineering(EE210)

Dr. Wan Fazlida HanimAbdullah03-55436031

B. Eng (Hons) Electronic

Engineering(Instrumentation)(EE230)

Assoc. Prof. Rosni AbuKassim03-55435021

B. Eng (Hons) ElectronicEngineering

(Communication)(EE240)

Dr. Azita Laily Yusof03-55436015

B. Eng (Hons) ElectronicEngineering

(Computer)(EE250)

Dr. Norliza MuhammadZaini03-55435106

Off Campus for DegreeProgram

Assoc. Prof. RosnaniYahya03-55435078

Franchise for DegreeProgram

Assoc.Prof. AisahMohamed03-55435060
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ADMINISTRATORS

Head/Deputy Registrar (Administration & Services)Puan Sadiyah Alimon03-55435103

Assistant Registrar (Academic Unit)Puan Shamsiah Shamsudin03-55435029

Senior Executive Officer(Academic Unit)Encik Nasri Talib03-55435080

Senior Executive Officer( Students Affair)Encik Abbas Naim

03-55435111

Executive Officer(Academic Unit)Puan Nor Faizah Hamdan

03-55435062

Executive Officer(Administration & Services)Puan Haslina Ramli

03-55435129

Executive Officer (Research& Industry Linkages)Puan Tumirah Buniran

03- 55435025

Executive Officer(Students Affair-Soft Skills)Encik Aswat Kidam

03-5543
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PROGRAMME EDUCATIONAL OBJECTIVES FOR DEGREE PROGRAMMESFACULTY OF ELECTRICAL ENGINEERING, UNIVERSITI TEKNOLOGI MARA

After 3 to 4 year upon completing the programme, our graduates will beelectrical/electronic engineer who will be

PROGRAM EDUCATIONAL OBJECTIVES

PEO1 Successful in their career and continously contribute towardsengineering profession in related field of electrical/electronicengineering practices

PEO2 Engage in multidisciplinary professional field within a global andsocietal context

PEO3 Continuously undertake personal development through advanceddegree, research, consultancy and/or professional studies

Upon completion of the programme, students should attain the following :

PROGRAMME OUTCOMES FOR EE210

PO1 Ability to apply science and engineering fundamentals.

PO2 Ability to present and exchange ideas effectively, in written and oralforms.

PO3 Ability to apply specialized knowledge in electronic engineering.

PO4 Ability to identify, formulate and solve electronic engineering

problems.

PO5 Ability to utilize a systems approach to design and evaluate

operational performance.

PO6 Ability to use the techniques, skills, and modern engineering tools

necessary for electronic engineering practices.

PO7 Ability to recognize and apply the ethical standards in professional

work.

PO8 Ability to sustain lifelong learning.

PO9 Ability to apply managerial, entrepreneurship and leadership skills.

PO10 Ability to work independently and in a team on electronic

engineering or multi-disciplinary projects.

PO11 Ability to identify and realize the role of electronic engineering

profession with respect to societal and environmental issues


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PO1 Ability to apply science and engineering fundamentals

PO2 Ability to express ideas effectively, in written and oral form

PO3 Ability to apply in-depth knowledge in one or more specializationsPO4 Ability to identify, formulate and solve electrical engineering

problems

PO5 Ability to utilize systems approach to design and evaluateoperational performance

PO6 Ability to use the techniques, skills, and modern engineering toolsnecessary for engineering practices

PO7 Ability to recognize and apply ethical standards in professional work

PO8 Ability to manage information and engage lifelong learning

PO9 Ability to apply managerial, leadership and entrepreneurship skills

PO10 Ability to work as both an individual and in a team on electricalengineering projects

PO11 Ability to identify and realize the role of electrical engineeringprofession with respect to societal issues


PO1 Ability to acquire and apply science and engineering fundamentalsPO2 Ability to express ideas effectively, in written and oral form

PO3 Acquiring in-depth technical knowledge in systems engineering andother related fields.

PO4 Ability to identify, formulate and solve engineering problems.

PO5 Ability to utilize systems approach to design and evaluateoperational performance

PO6 Ability to use the techniques, skills, and modern engineering toolsnecessary for engineering practices

PO7 Ability to recognize and appreciate importance of ethical standardsin professional work (Ability to recognize and apply ethical standardsin professional work.

PO8 Ability to acquire lifelong learning (manage information and engagein lifelong learning)

PO9 Ability to apply managerial or entrepreneurship skills (managerial,entrepreneurship and leadership skills)

PO10 Ability to work as both an individual and in a team on systemsengineering projects

PO11 Knowledge of contemporary issues, and appreciation of diversity,sustainable development and intellectual areas


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PO1 Ability to apply science and engineering fundamentals (LO1)

PO2 Ability to express ideas effectively, in written and oral form (L04)

PO3 Ability to apply in-depth knowledge in one or more specializationsPO4 Ability to identify, formulate and solve engineering problems (LO3)

PO5 Ability to utilize a systems approach to design and evaluateoperational performance (LO3)

PO6 Ability to use the techniques, skills, and modern engineering toolsnecessary for engineering practices (LO2)

PO7 Ability to recognize and apply ethical standards in professional work(LO6)

PO8 Ability to engage lifelong learning (LO7).

PO9 Ability to apply managerial, leadership and entrepreneurship skills(LO8)(LO9).

PO10 Ability to work as both an individual and in a team on electricalengineering projects (LO5).

PO11 Ability to identify and realize the role of engineering profession withrespect to societal issues (LO6)


PO1 Ability to apply science and engineering fundamentals

PO2 Ability to express ideas effectively, in written and oral form

PO3In-depth technical knowledge in computer engineering and otherrelated fields

PO4 Ability to identify, formulate and solve engineering problems

PO5Ability to utilize a systems approach to design and evaluateoperational performance

PO6Ability to use the techniques, skills, and modern engineering toolsnecessary for engineering practices

PO7 Ability to recognize and apply ethical standards in professional work

PO8 Ability to engage in lifelong learning

PO9 Ability to apply managerial, entrepreneurship and leadership skills

PO10

Ability to work as both an individual and in a team on electronics

engineering projects

PO11Knowledge of contemporary issues and appreciation of globaldiversity and intellectual areas


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PROGRAMMES STRUCTURE


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PROGRAM STRUCTUREFOR B.ENG. (HONS) IN ELECTRONICS ENGINEERINGEE210

Study Plan ID: 4581

Part Component Code Course NameCredit

Unit

CONTACT HOURS TOTALCONTACT

HOURSL T P

1 UNIVERSITY HEP1 Co-Curriculum 1 1 2 0 0 2

1 UNIVERSITY BEL403 Language Enrichment 2 4 0 0 4

1 FACULTY MAT435 Calculus Ii For Engineers 3 3 1 0 4

1 FACULTY ELE421 Basic Electronics 3 3 1 0 4

1 FACULTY ELE411 Circuit Analysis I 3 3 1 0 4

1 FACULTY ESE461 Signals And Systems 3 3 1 0 4

1 FACULTY EEE410Electrical Engineering

Laboratory I1 0 0 3 3

Total 16 18 4 3 25


2 UNIVERSITY CTU551 Islamic And Asian Civilization 2 2 0 0 2

2 FACULTY ELE423 Intermediate Electronics 3 3 1 0 4

2 FACULTY ELE413 Circuit Analysis Ii 3 3 1 0 4

2 FACULTY ECM410 Communication Engineering 3 3 1 0 4

2 FACULTY ECE421 Digital System Fundamentals 3 3 1 0 4


Laboratory Ii1 0 0 3 3

Total 16 16 4 3 23


3 UNIVERSITY BEL422 Report Writing 2 2 0 0 2

3 FACULTY MAT455 Calculus Iii For Engineers 3 3 1 0 4

3 FACULTY ECE431 Computer Programming 3 3 1 0 4

3 FACULTY ESE439Instrumentation And Control

Systems3 3 1 0 4

3 FACULTY EPO460 Power Engineering 3 3 1 0 4


Laboratory Iii1 0 0 3 3

Total 16 16 4 3 23

4 UNIVERSITY APB1 Third Language I 2 2 0 0 2

4 UNIVERSITY CTU553 Ethnic Relations 2 2 0 0 2

4 FACULTY MAT575Introduction To Numerical

Analysis3 3 1 0 4

4 PROGRAM ECE521 Microprocessor System 3 2 0 2 4

4 PROGRAM ELE521Electronics Engineering

Materials3 3 1 0 4

4 PROGRAM ECM420 Electromagnetic Theory 3 3 1 0 4

Total 16 31 7 5 43


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5 UNIVERSITY APB2 Third Language Ii 2 2 0 0 2

5 UNIVERSITY QMT500 Statistics For Engineering 3 3 1 0 4

5 PROGRAM ELE541 Semiconductor Devices 3 3 1 0 4

5 PROGRAM ELE553 Integrated Circuit Design 4 3 0 2 5

5 PROGRAM ELE525Principles Of Applied

Electronics4 3 0 2 5

Total 16 48 10 9 67

6 UNIVERSITY APB3 Third Language Iii 2 2 0 0 2

6 UNIVERSITY ENT600 Technopreneurship 3 3 1 0 4

6 PROGRAM ELE551Embedded System Design

And Interfacing3 3 1 0 4

6 PROGRAM ELE571 Multimedia Systems 2 2 1 0 3

6ELECTIVE/MIN

OROption/Elective I 3 3 1 0 4

6 ELECTIVE/MINOR

Option/Elective Ii 3 3 1 0 4

Total 16 64 15 9 88

7 FACULTY EEE620 Industrial Training 4 0 0 8 8

7 FACULTY EEE610 Engineers In Society 3 3 1 0 4

7 PROGRAM ELE606Electronic Engineering

Project I2 1 0 3 4

7 PROGRAM ELE655Digital Design And Computer

Architecture4 3 0 2 5

7 PROGRAM ELE505Electronics Engineering

Design

2 1 0 2 3

7ELECTIVE/

MINOROption/Elective Iii 3 3 1 0 4

Total 18 75 17 24 116

8 UNIVERSITY BEL499Communication And

Interpersonal Skills2 2 0 2 4

8 PROGRAM ELE607Electronic Engineering

Project Ii5 0 0 15 15

8 PROGRAM ELE671Selected Topics For

Electronics Engineering3 3 1 0 4

8

ELECTIVE/

MINOR Option/Elective Iv 3 3 1 0 4

Total 13 87 20 43 150

TOTAL CREDIT UNIT 127 173 40 84 297


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LIST OF ELECTIVES

PART CODE COURSE NAMECREDIT

UNIT

CONTACT HOURS TOTAL

CONTACT

HOURSL T P

ELECTIVE I, II, III (MICROELECTRONIC)

6,7 ELE629 Analog Integrated Circuits 3 3 1 0 4

6,7 ELE643Semiconductor Manufacturing

Technology3 3 1 0 4

7 ELE641 Integrated Circuit Packaging 3 3 1 0 4

ELECTIVE I , II & III (CONSUMER ELECTRONIC)

6,7 ELE661 Acoustic 3 3 1 0 4

6,7 ESE563 Digital Signal Processing 3 3 1 0 4

6,7 ELE663Application Of Sensors And

Tranducers 3 3 1 0 4

6,7 ELE649 Photonic Devices And System 3 3 1 0 4

7 ELE667 Audio Systems 3 3 1 0 4

ELECTIVE IV(MICROELECTRONIC)

8 ELE675 Special Topic In Microelectronics 3 3 1 0 4

8 ELE653 Vlsi System Design 3 3 1 0 4

8 ELE647 Nanotechnology 3 3 1 0 4

8 ELE645Integrated Circuit Testing

Technology3 3 1 0 4

ELECTIVE IV (CONSUMER ELECTRONIC)

8 ELE677Special Topic In Consumer

Electronics3 3 1 0 4

8 ELE665 Automotive Electronics 3 3 1 0 4

8 ELE651 Engineering System Design 3 3 1 0 4


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PROGRAMME STRUCTUREFOR B. ENG. (HONS) ELECTRICAL - EE221

PART CODE COURSECREDIT

HOUR

TOTAL CONTACTHOURS TOTAL

CONTACT

HOURSS T L

1 HEP1 Co-Curiculum I 1 2 0 0 2

1 BEL403 Language Enrichment 2 4 0 0 4

1 EPO400 Electrical Practices 1 0 0 3 3

1 ELE422 Analogue Electronics 3 3 1 0 4

1 MAT435 Calculus II For Engineers 3 3 1 0 4

1 ESE461 Signals And Systems 3 3 1 0 4

1 ELE412 Circuit Analysis 3 3 1 0 4

1 EPO412Electrical Engineering

Laboratory I

1 0 0 3 3

TOTAL 17 19 4 5 28

2 HEP2 Co-Curriculum II 1 2 0 0 2

2 CTU551Islamic And AsianCivilisation

2 2 0 0 2

2 ECE422Digital ElectronicFundamentals

3 3 1 0 4

2 ESE439Instrumentation AndControl Systems

3 3 1 0 4

2 ECM410CommunicationEngineering

3 3 1 0 4

2 EPO460 Power Engineering 3 3 1 0 42 EPO422

Electrical EngineeringLaboratory II

1 0 0 3 3

TOTAL 16 16 4 323

3 HEP3 Co-Curriculum III 1 2 0 0 2

3 BEL422 Report Writing 2 2 0 0 2

3 MAT455 Calculus III For Engineers 3 3 1 0 4

3 ECE521 Microprocessor System 3 2 0 2 4

3 CTU553 Ethnic Relations 2 2 0 0 2

3 ECE431 Computer Programming 3 2 0 2 4

3 EPO430Electrical EngineeringLaboratory III

1 0 0 3 3

TOTAL 16 14 2 7 23

4 APB1 Third Language I 2 2 0 0 2

4 MAT575Introduction To NumericalAnalysis

3 3 1 0 4

4 EPO540 Electrical Machines 3 3 1 0 4

4 EPO525Electromagnetic TheoryFor Power Engineering

3 3 1 0 4

4 EPO520 Power System I 3 3 1 0 4

4 EPO560 Electrical EngineeringLaboratory IV

2 0 0 4 4


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PART CODE COURSECREDITHOUR

TOTAL CONTACTHOURS TOTAL

CONTACTHOURSS T L

TOTAL 15 13 3 4 20

5 KJM442 Heat And Fluid 3 3 1 0 4

5 APB2 Third Language II 2 2 0 0 2

5 EPO510 Power Electronics 3 3 1 0 4

5 EPO521Electrical EngineeringUtilization And Practice

3 3 1 0 4

5 EPO522 Power System II 3 3 1 0 4

5 ESE559Modern Control SystemIn Electrical Engineering

3 3 1 0 4

Total 17 17 5 0 22

6 APB3 Third Language III 2 2 0 0 2

6 ENT600 Technopreneurship 3 3 1 0 4

6 EPO561Electrical EngineeringLaboratory V

2 0 0 4 4

6 QMT500 Statistics For Engineering 3 3 1 0 4

6 EPO640 Electric Drives 3 3 1 0 4

6 EPO630 High Voltage 3 3 1 0 4

Total 16 14 4 4 22

7 EPO661Power EngineeringProject I

2 1 0 3 4

7 EPO660Electrical EngineeringLaboratory Vi

2 0 0 4 4

7 Elective I 3 3 1 0 4

7 Elective II 3 3 1 0 4

7 EEE610 Engineer In Society 3 3 1 0 4

7 EPO667 Industrial Training 4 0 0 8 8

Total 17 10 3 15 28

8 BEL499Communication AndInterpersonal Skills

2 3 0 0 3

8 EPO663Power EngineeringProject II

5 0 0 15 15

8 EPO666Selected Topics For

Power Engineering

3 3 1 0 4

8 Elective III 3 3 1 0 4

TOTAL 13 9 2 15 26

TOTAL CREDIT HOUR 127 112 27 53 192


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STUDY PLAN FORM (ELECTIVE LIST)- EE221

PART CODE COURSE NAMECREDITHOUR

CONTACTHOUR TOTAL

CONTACTHOURS T L

7 EPO610Power Filter AndCompensation

33 1 0

4

7 EPO620Artificial Intelligence InPower System

33 1 0

4

7 EPO611Digital Design UsingFPGA For PowerElectronics

33 1 0

4

Committee EPO621

Electrical EnergyEconomics And Planning

33 1 0

4

7, 8 EPO613Advanced Power

Electronics3

3 1 04

7.8 ECE627MicrocontrollerApplications

33 1 0

4

7.8 EPO622 Renewable Energy 3 3 1 0 4

7.8 EPO615 Pulse Power Technology 3 3 1 0 4

7.8 ESE563 Digital Signal Processing 3 3 1 0 4

7.8 ESE644Programmable LogicController AndAutomation

33 1 0

4

7.8 ESE646Thermal Comfort ControlFor Energy Efficiency

33 1 0

4

7.8 ESE683 Automation And Robotic 3 3 1 0 47.8 ECE663 Expert System 3 3 1 0 4

7.8 ECM616 Emerging Technology 3 3 1 0 4


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PROGRAMME STRUCTUREFOR B. ENG. (HONS) ELECTRONICS ENGINEERING (INSTRUMENTATION) - EE230


UNIT

CONTACT HOUR TOTALCONTACT

HOURSS T L

1 HEP1 Co-Curriculum I 1 2 0 0 2

1 BEL403 Language Enrichment 2 4 0 0 4

1 MAT435 Calculus Ii For Engineers 3 3 1 0 4

1 ELE421 Basic Electronics 3 3 1 0 4

1 ELE411 Circuit Analysis I 3 3 1 0 4

1ECE421

Digital SystemFundamentals

3 3 1 04

1 ESE461 Signals And Systems 3 3 1 0 4

1EEE410

Electrical EngineeringLaboratory I

1 0 0 33

TOTAL 19 21 5 3 29

2 HEP2 Co-Curriculum II 1 2 0 0 2

2 CTU551Islamic And AsianCivilazation

2 2 0 02

2 ELE423 Intermediate Electronics 3 3 1 0 4

2 ELE413 Circuit Analsysis II 3 3 1 0 4

2 ECM410 CommunicationEngineering

3 3 1 0 4

2 EPO460 Power Engineering 3 3 1 0 4

2 EEE420Electrical EngineeringLaboratory II

1 0 0 33

TOTAL 16 16 4 3 23

3 HEP3 Co-Curriculum III 1 2 0 0 2

3 BEL422 Report Writing 2 2 0 0 2

3 MAT455 Calculus Iii For Engineers 3 3 1 0 3

3ECE431 Computer Programming 3 2 0 2

4

3 ECM420 Electromagnetic Theory 3 3 1 0 4

3 ESE441 Control Systems Theory 3 3 1 0 4

3EEE430

Electrical EngineeringLaboratory III

1 0 0 33

TOTAL 16 15 3 5 22

4 APB1 Third Language I 2 2 0 0 2

4 CTU553 Ethnic Relations 2 2 0 0 2

4MAT575

Introduction To NumericalAnalysis

3 3 1 04

4 ECE521 Microprocessor System 3 2 0 2 4


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UNIT

CONTACT HOUR TOTALCONTACT

HOURSS T L

4ESE562

Signals And Systems:Analysis And Applications

3 3 1 04

4ECE551

Multimedia Systems AndApplications 3 3 0 1

4

TOTAL 16 15 2 3 20

5 APB2 Third Language II 2 2 0 0 2

5 QMT500 Statistics For Engineering 3 3 1 0 4

5ESE421

Principle Of MeasurementAnd Instrumentation

3 3 1 04

5 ESE652 4

5 ESE542 Control Systems Design 3 3 1 0 4

5 Elective I 3 3 1 0 4

TOTAL 17 17 5 0 22

6 APB3 Third Language III 2 2 0 0 2

6 ENT600 Technopreneurship 3 3 1 0 4

6 ESE522 Standard In Measurement 3 3 0 1 4

6 ESE643 Modern Control Systems 3 3 1 0 4

6ESE644

Programmable LogicController And Automation

3 3 3 1 4

6

ESE601

Systems Engineering

Laboratory 1 0 0 3 3TOTAL 15 14 3 4 21

7 EEE620 Industrial Training 4 0 0 8 8

7ESE602

Systems EngineeringProject I

2 1 0 34

7ESE623

Computer ControlInstrumentation

3 3 1 04

7 EEE610 Engineer In Society 3 3 1 0 4

7 Elective II 3 3 1 0 4

TOTAL 15 10 3 7 24

8 BEL499 Communication AndInterpersonal Skills

2 2 0 0 2

8ESE603

Systems EngineeringProject Ii

5 0 0 1515

8ESE604

Selected Topic ForInstrumentation

2 2 1 03

8 Elective III 3 3 1 0 4

TOTAL 12 7 2 15 24

TOTAL CREDIT HOUR 126 115 27 40 186


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UNIT

CONTACT HOUR

S T M

5, 6 Or 8 ECE661 Artificial Neural Network

5, 6 Or 8 ECE662 Fuzzy Logic

5, 6 Or 8 ECE663 Expert System

5, 6 Or 8 ECE684 Digital Image Processing

5, 6 Or 8 ECE685 Vision And Image System

5, 6 Or 8 ESE563 Digital Signal Processing

5, 6 Or 8 ESE624 Medical Instrumentation5, 6 Or 8 ESE646

Thro Termal Comfort Con ForEnergy Efficiency

5, 6 Or 8 ESE648 Advanced Control Systems5, 6 Or 8 ESE664 Random Signal Processing5, 6 Or 8 ESE683 Automation and Robotic5, 6 Or 8 ESE689 Practical Robotics 3 3 0 1


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PROGRAMME STRUCTUREFOR B. ENG. (HONS) ELECTRONICS ENGINEERING (COMMUNICATION) - EE240

PART CODECOURSE CREDIT

UNIT

CONTACTHOUR

STATUS PRA-SYARAT

L T P

1 HEP1 Co-Curriculum 1 1 2 0 0 NC

1 BEL403 Language Enrichment 2 4 0 0 C

1 MAT435 Calculus II For Engineers 3 3 1 0 C

1 ELE421 Basic Electronics 3 3 1 0 C

1 ELE411 Circuit Analysis I 3 3 1 0 C

1 ESE461 Signals And Systems 3 3 1 0 C

1 EEE410

Electrical Engineering

Laboratory I 1 0 0 3

C

TOTAL 16 18 4 3


2 CTU551Islamic And AsianCivilization

2 2 0 0C

2 ELE423 Intermediate Electronics 3 3 1 0 C ELE421

2 ELE413 Circuit Analysis II 3 3 1 0 C ELE411

2 ECM410CommunicationEngineering

3 3 1 0C

2 ECE421Digital SystemFundamentals 3 3 1 0

C

2 EEE420Electrical EngineeringLaboratory II

1 0 0 3C

TOTAL 16 16 4 3


3 BEL422 Report Writing 2 2 0 0 NC

3 MAT455 Calculus III For Engineers 3 3 1 0 C MAT435

3 ECE431 Computer Programming 3 2 0 2 C

3 ESE439 Instrumentation AndControl Systems

3 3 1 0 C ESE461

3 EEE430Electrical EngineeringLaboratory III

1 0 0 3C

3 EPO460 Power Engineering 3 3 1 0 C

TOTAL 16 15 3 5

4 MAT575Introduction To Numerical

Analysis3 3 1 0

C MAT455

4 ECE551Multimedia Systems And

Applications3 3 0 1

C

4 ECE521 Microprocessor System 3 2 0 2C ECE421/

ECE422


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UNIT

CONTACTHOUR

STATUS PRA-SYARAT

L T P

4 ECM511

Advanced Communication

Engineering 3 3 1 0

C ECM410

4 ECM420 Electromagnetic Theory 3 3 1 0 C MAT435

4 ECM540CommunicationEngineering Lab

1 0 0 4C

TOTAL 16 14 3 7

5 APB1 Third Language I 2 2 0 0 NC

5 QMT500 Statistics For Engineering 3 3 1 0 C MAT455

5 ECM521 Antenna and Propagation 3 3 0 1 C ECM420

5 ECM530Mobile Communication

Theory

3 3 1 0C

5 ESE563 Digital Signal Processing 3 3 1 0C

5 ECE503Computer EngineeringSystem Design

3 2 0 2C ECE521

TOTAL 17 16 3 3

6 CTU553 Ethnic Relations 2 2 0 0 NC

6 APB2 Third Language II 2 2 0 0 NC

6 ENT600 Technopreneurship 3 3 1 0 C

6 ECM640

Fiber Optic

Communication System 3 3 0 1

C

6 ECE541 Data Network I 3 3 0 1 C ECE421

6 ECM512 Digital Communications 3 3 1 0 C ECM410

TOTAL 16 16 2 2

7 EEE610 Engineers In Society 3 3 1 0 C

7 EEE620 Industrial Training 4 0 0 8 C

7 ECM606CommunicationEngineering Project I

2 1 0 3C

7 ECM604Selected Topics In

Communication2 2 1 0

C

7 APB1 Third Language III 2 2 0 0 NC

7 ECE522 Computer Organization 3 3 0 1 C ECE421

7 Elective I 3 3 1 0 C

TOTAL 19 14 3 12

8 BEL499Communication AndInterpersonal Skills

2 2 0 0NC

8 ECM650Communication Software

And Design2 1 0 3

C

8 ECM607CommunicationEngineering Project II 5 0 0 15

C


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UNIT

CONTACTHOUR

STATUS PRA-SYARAT

L T P

8 Elective II 3 3 1 0C ECM606

TOTAL 12 6 1 18

TOTAL CREDIT HOUR 128 115 23 52


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PARTCOMPO

NENKod

KursusCOURSE

CREDITHOUR

CONTACTHOUR

STATUSPRE-

COURSE

L T P

7, 8Elective/Minor

ECE642Fundamentals OfWireless Network

3 3 0 1 C ECE541

7,8Elective/Minor

ECE681Application OfDigital SignalProcessing

3 3 1 0 C ESE563

7, 8Elective/Minor

ECM613Special Topic I InCommunicationEngineering

3 3 1 0 C

7,8Elective/Minor

ECE643Fundamentals OfNetwork Security

3 3 1 0 C ECE541

7, 8 Elective/Minor ECM614

Special Topic Ii In

CommunicationEngineering

3 3 1 0 C

7,8Elective/Minor

ECM615Telecommunications Protocols AndStandards

3 3 1 0 C

7, 8Elective/Minor

ECM616EmergingTechnology

3 3 1 0 C

7,8Elective/Minor

ECM622SatelliteCommunication

3 3 1 0 C

7, 8Elective/Minor

ECM632ElectromagneticCompatibility

3 3 1 0 C

7,8 Elective/Minor ECM634 Broadband Network 3 3 1 0 C

7, 8Elective/Minor

ECM635 Digital Broadcasting 3 3 1 0 C

7,8Elective/Minor

ECM641Photonic And HighSpeed Technology

3 3 1 0 C

7, 8Elective/Minor

ECM651

PerformanceEvaluation OfCommunicationsNetworks

3 3 1 0 C

7,8Elektif/Minor

ECM652Voip (Voice OverInternet Protocol)

3 3 1 0 C


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PROGRAMME STRUCTUREFOR B. ENG. (HONS) ELECTRONICS ENGINEERING (COMPUTER) - EE250

No COURSE CODE

CREDITUNIT

L

ecture

T

utorial

Practic

al Pre-

requisite

Exam/No

Exam

SEM1

1 Co-Curriculum I 1 2 0 0

2LanguageEnrichment BEL403 2 4 0 0 E

3Calculus II forEngineers MAT435 3 3 1 0 E

4 Basic Electronics ELE421 3 3 1 0 E

5 Circuit Analysis I ELE411 3 3 1 0 E

6 Signals and Systems ESE461 3 3 1 0 E

5

ElectricalEngineeringLaboratory I EEE410 1 0 0 3 NE

TOTAL 16 18 4 3

SEM2

1 Co-Curriculum II 1 2 0 0

2Islamic and AsianCivilization I CTU551 2 2 0 0 E

3 Circuit Analysis II ELE413 3 3 1 0 E

4Digital SystemFundamentals ECE421 3 3 1 0

5IntermediateElectronics ELE423 3 3 1 0 E

6CommunicationEngineering ECM410 3 3 1 0 E

7

ElectricalEngineeringLaboratory II EEE420 1 0 0 3 NE

TOTAL 16 16 4 3

SEM3

1 Co-Curriculum III 1 2 0 0

2 Power Engineering EPO460 3 3 1

3 Report Writing BEL422 2 2 0 0 E

4Calculus III forEngineers MAT455 3 3 1 0 E

5ComputerProgramming ECE431 3 2 0 2 E

6Instrumentation andControl Systems ESE439 3 3 1 0 E

7

ElectricalEngineeringLaboratory III EEE430 1 0 0 3 NE

TOTAL 16 15 3 5


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SEM4

1 Third Language I 2 2 0 0 E

2 Ethnic Relations CTU553 2 2 0 0 E

3Introduction toNumerical Analysis MAT575 3 3 1 0 E

4

Microprocessor

System ECE521 3 2 0 2 ECE421 NE

5

ComputerEngineeringMathematics ECE500 3 3 1 0 E

6ElectromagneticTheory ECM420 3 3 1 0 E

7

ComputerEngineeringLaboratory ECE501 1 0 0 3 NE

TOTAL 17 15 3 5

SEM5

1 Third Language II 2 2 0 0 E

2Statistics forEngineers QMT500 3 3 1 0 E

3Data Structures andAlgorithms ECE532 3 3 0 1 ECE431 E

4Digital SignalProcessing ESE563 3 3 0 1 ESE461 E

5ComputerOrganization ECE522 3 3 0 1 ECE421 E

6Multimedia Systemsand Applications ECE551 3 3 0 1 NE

TOTAL 17 19 1 4

SEM6

1 Third Language III 2 2 0 0 E

2OperatingSystems ECE633 3 3 0 1 ECE532 E

4Technopreneurship ENT600 3 3 1 0 E

4

ComputerEngineeringSystem Design ECE503 3 2 0 2 ECE521 NE

5Parallel ComputerArchitecture ECE625 3 3 1 0 ECE522 E

6 Data Networks I ECE541 3 3 0 1 ECE421 E

TOTAL 17 17 2 3

SEM7

1

ComputerEngineeringProject I ECE601 2 1 0 3 NE

2 Industrial Training EEE620 4 0 0 8

4Engineer inSociety EEE610 3 3 1 0 NE

3Advanced DigitalSystems ECE621 3 3 0 1 E

5 Subdiscipline I 3 3 0/1 1/0

6 Elective I 3 3 0/1 1/0TOTAL 18 12 3 13


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SEM

8

1

Communicationand InterpersonalSkills BEL499 2 2 0 0 NE

2

ComputerEngineering

Project II ECE602 5 0 0 15 ECE601 NE

3

Selected Topicsfor ComputerEngineering ECE603 2 2 1 0 NE

4 Subdiscipline II 3 3 0/1 1/0

5 Elective II 3 3 0/1 1/0

TOTAL 15 10 3 15

GRAND TOTAL 132 120 23 51


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STUDY PLAN FORM (ELECTIVE LIST)- EE250CURRICULUM DETAILS FOR SUBDICIPLINE COURSES/ ELECTIVES

IMULTIMEDIA AND DATABASE MANAGEMENT SYSTEM

No Course CODE CreditUnit

Lecture Tutorial

PracticalTotal

ContactHour

1Advanced DatabaseManagement Systems ECE652 3 3 0 1 4

2Database ManagementSystem ECE651 3 3 0 1 4

3 Special Topic In Multimedia ECE658 3 3 0 1 4

4Advance InternetProgramming ECE653 3 3 0 1 4

5Special Topic In DatabaseSystems ECE659 3 3 0 1 4

6 Web Technologies ECE654 3 3 0 1 4

II - COMPUTER NETWORKING AND DISTRIBUTED SYSTEM

No Course CODECreditUnit

Lecture Tutorial PracticalTotalContactHour

1 Data Networks II ECE641 3 3 0 1 4

2Fundamentals Of NetworkSecurity ECE643 3 3 1 0 4

3Special Topics In DistributedSystems ECE649 3 3 0 1 4

4Fundamentals Of WirelessNetwork ECE642 3 3 0 1 4

5Special Topics In ComputerNetworking ECE648 3 3 0 1 4

III- DIGITAL SIGNAL PROCESSING AND COMPUTER VISION

No Course CodeCreditUnit


1Application Of Digital SignalProcessing ECE681 3 3 1 0 4

2 Vision And Image Systems ECE685 3 3 0 1 4

3 Real-Time Signal Processing ECE682 3 3 0 1 4

4 Digital Image Processing ECE684 3 3 0 1 4

5Special Topic In DigitalSignal Processing ECE688 3 3 0 1 4

6

Special Topics In Computer

Vision/ Pattern Recognition ECE689 3 3 1 0 47 Random Signal Processing ESE664 3 3 1 0 4


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IV - INTELLIGENT SYSTEM

No Course CODE Credit Unit Lecture Tutorial PracticalTotalContactHour

1 Expert System ECE663 3 3 0 1 4

2 Fuzzy Logic ECE662 3 3 0 1 4

3Artificial NeuralNetwork ECE661 3 3 0 1 4

4Special Topic InIntelligent Systems ECE668 3 3 0 1 4

V- SOFTWARE ENGINEERING



1CompilerConstruction ECE634 3 3 0 1 4

2SoftwareEngineering ECE632 3 3 0 1 4

3

Introduction ToAlgorithms ForParallel Computing ECE635 3 3 1 0 4

4Object OrientedProgramming ECE531 3 2 0 2 4

5

Object-OrientedSoftwareDevelopment ECE631 3 3 1 0 4

6

Special Topic InSoftwareEngineering ECE638 3 3 0 1 4


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VI- DIGITAL DESIGN AND COMPUTER ARCHITECTURE



1Computer DesignAnd Organization ECE622 3 3 1 0 4

2Embedded SystemsDesign ECE623 3 3 1 0 4

3MicroprocessorApplications AndOrganizations ECE624 3 3 0 1 4

4MicrocontrollerApplications ECE627 3 2 0 2 4

5

Special Topic In

ComputerArchitecture/Organization ECE628 3 3 1 0 4

6MicrocontrollerSystems Design ECE626 3 3 0 1 4

VII- COMPUTER GRAPHICS


Lecture Tutorial PracticalTotal

ContactHour

1Introduction ToComputer Graphics ECE671 3 3 1 0 4

2Special Topics InComputer GraphicsAnd Animation ECE678 3 3 0 1 4


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COURSE DESCRIPTION


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COURSE DESCRIPTION

FOR EE210: B.ENG. (HONS) IN ELECTRONICS ENGINEERING

Semester 1

1. Language Enrichment (BEL 403)

This is a course designed to reinforce students proficiency in the use of EnglishLanguage. It helps to consolidate the students skills in using parts of speech and verbtenses correctly in context. The students are also taught on how to write effectively usinghigh level grammatical structures and forms.

2. Calculus II for Engineers (MAT435)This course consists of three chapters: methods of integration, functions of two variablesand differential equations. In the first chapter, methods discussed are by parts,

trigonometric integrals, trigonometric substitution and integration of rational functions. Inchapter three, first and second order differential equations will be discussed. Applicationsin engineering and sciences will be covered for chapter two and three.

3. Basic Electronics (ELE421)

This course introduces solid state and some basic electronic devices made from itfollowed by the operating concepts of the electronic devices, their characteristics andapplications in simple electronic circuits. Application of Diodes, Bipolar JunctionTransistor (BJT), Metal Oxide Semiconductor Field Effect Transistor (MOSFET),Amplifiers.

4. Circuit Analysis I (ELE411)

The course covers the basic network theory. It deals with direct current (D.C.), basictheorem and electrical quantities relationship in circuit network, both in direct andalternating current. Magnetic circuits are also introduced.

5. Signals And Systems (ESE461)

This subject deals with basic concepts of linear system. The emphasis will be oncontinuous-time signals and systems, Fourier series, differential equations and Laplacetransform. The differential equations and Laplace Transform will be used in solving simple

circuit problems.

6. Electrical Engineering Laboratory I (EEE410)

This course provides the necessary hands-on experience relating to electrical circuits andconcepts taught in theoretical lectures. Familiarisation of basic Electrical Equipments,Logic gate and flip Flop, Counter, Rectifier Circuits, Clipping & Clamping Circuits,Characteristic of BJT Amplifier, Series RC Circuit, Magnetic Circuit, Three Phase Systems,Introduction to P-Spice Software, DC analysis of Electrical Circuits using P-SpiceSoftware, AC analysis of Electrical Circuits using P-Spice Software, Mini Projects


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Semester 2

1. Islamic and Asia Civilization (CTU551)

The course generally discusses the history and knowledge of civilization including: IslamicCivilization, Chinese Civilization, Indian Civilization and also issues surrounding the topicas well as importance of dialogues in the process.

2. Intermediate Electronics (ELE423)

This is a continuation course of Basic Electronics. The main bulk of the course deals withthe ac analysis of the general amplifiers which covers the multistage amplifier, differentialamplifier, Darlington amplifier, the frequency response and the application of theoperational amplifiers in linear integrated circuits.

3. Circuit Analysis II (ELE413)

The course covers six parts, mainly, A.C. network theory, resonant circuits, D.C. transient,2-port network, passive and active filter circuits. It introduces their basics and applications.

4. Communication Engineering (ECM410)

This subject introduces the basic idea of communication systems. It covers both analogueand digital communication theories and applications of the systems.Introduction to communication system, Electrical Noise, Amplitude Modulation (AM)theory, Frequency Modulation (FM) theory, Transmitter and receiver systems of AM andFM, Digital Communication System, Introduction to practical communication systems:

5. Digital System Fundamentals (ECE421)

This course introduces the basic building blocks of practical digital systems. It includestechniques necessary for the analysis and design of simple digital circuits, and theanalysis of sequential circuits. Students are also introduced to basic I/O devices and dataacquisitions.Number Systems and Codes, Logic Gates, Boolean Algebra, Simplification UsingBoolean Algebra, Combinational Logic Circuits, Introduction to Sequential Circuits,Structural and Behavioural models of logic circuits

6. Electrical Engineering Laboratory 2 (EEE420)

This course provides the necessary hands-on experience relating to electrical circuits and

concepts taught in theoretical lectures.DC and AC analysis on Multistage Amplifiers, OP-amp Characteristics, Z-parametersmodel of two-port network, Measurement of Modulation Index of an AM wave,Measurement of Frequency deviation and bandwidth of FM, Wave-observation of FMwave spectrum of symmetry, frequency spectrum.

Semester 3

1. Report Writing (BEL422)

This course introduces students to the practical aspects of preparing and presentingreports both orally and in the written form. Students are taught to employ the language


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skills and strategies necessary to write reports. Students will also be taught the skills ofadapting written texts for oral presentation.2. Calculus III for Engineers (MAT455)

This course consists of topics in partial derivative, multiple integral, vector analysis andinfinite series.

3. Computer Programming (ECE431)

This course introduces a disciplined approach to solving problems by applying softwaremethods. A popular structured language is studied and used to achieve this objective.Topics include the description of data types, control structures, functions, arrays andpointers, structures, file processing and object oriented programming.

4. Instrumentation and Control Systems (ESE439)

The first part of the course covers the elements of classical control systems and the

instrumentations involved. The discussions on the instrumentation are limited to thepractical transducers and the signal conditioning circuits. Second part of the course will befocused on the aspect of control systems including the mathematical modeling, analysison the system response.

5. Power Engineering (EPO460)

This subject has two major components; foundations in power system and introduction toelectrical energy and machines. The power system component covers an introductorysubject on generation, transmission and distribution of electrical energy. Major emphasiswill be on system representation, basic fault studies and low-voltage distributionsystem.The electrical energy and machines component covers three-phase calculations,

basic transformer theory and the common electric machines with major emphasis on DCmachines and introductory course on AC machines.

6. Electrical Engineering Laboratory III (EEE430)

This laboratory course provides students with practical hands such as on the electricaland electronics circuits, power engineering and control and instrumentation with theconcepts presented in class.

Semester 4

1. Third Language I

2. Ethnic Relations (CTU553)

This course explains the concept of basic ethnic relationships, culture and society,plurality of the Alam Melayu society and the need to mould society according to Malaysianvirtues.

3. Intro to Numerical Analysis (MAT575)

This course introduces the basic concept of numerical methods, scientific computing andapproximating. This includes the idea of an algorithm, rounding errors and errorestimation in general.


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4. Microprocessor System (ECE521)

This course provides students with the essential knowledge on microprocessor systemsand program design. The main topics provide guidelines on the operations of amicroprocessor. Review of Digital Logics and Number Systems, Software Systems andAssemblers, Introduction to Assembly Language and Programming, Introduction to 16-bitMicroprocessor, Logic and Bit Manipulation Instruction, Memory And I/O interfacing

5. Electronic Engineering Materials (ELE521)

This course covers the basic physics of electrons and carriers in solids andsemiconductors. It also covers the structure, classification, processing methods andphysical properties of electronic materials. Metals and alloys, Semiconductor, Ceramics,Composites: structures and classification, processing methods and their physicalproperties. The electrical properties shall include conductivity and dielectric.

6. Electromagnetic Theory (ECM420)

The course introduces basic electromagnetic theory through development of conceptsand formulation of general laws and their applications to specific problems. VectorAnalysis, Electrostatic Field, Magnetostatic Field, Varying Fields & Maxwells Equations,Plane Wave Propagations.

Semester 5

1. Third Language II

2. Statistics for Engineers (QMT500)

This course is designed to introduce various types of distribution, which are required forinferential statistics. Students are exposed to important aspects of statistical methodssuch as sampling theory, estimation theory, hypotheses testing and analysis of variances.In addition, this course introduces the basic concepts of correlation and regression.

3. Semiconductor Devices (ELE541)

This course provides basic understanding of the semiconductor physics leading to theoperation of junction and field-effect devices. Device operation, physical behaviour andelectrical properties of solid-state devices are covered: Junction Devices, Field Effect

Transistor (FET), and Optoelectronic Devices.

4. Integrated Circuit Design (ELE553)

The course covers on MOS manufacturing process, semiconductor devices, CMOScharacteristics, combinational logic circuits design, sequential logic and arithmetic circuitsdesign.MOS Manufacturing Process, MOS Transistor Theory, CMOS Circuit Characterizationand Performance Estimation, Circuit Simulation, Designing Combinational Logic Circuits,Static CMOS Design, Ratioed Logic-Pseudo NMOS, Dynamic CMOS Design, DesigningSequential Logic Circuits, Designing Arithmetic Building Blocks


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5. Principles of Applied Electronics (ELE525)

This course covers the essential knowledge and ideas of electronics in practice. It coverscircuit design using operational amplifier (op-amp), design of active filters, oscillators andpower amplifier circuits.

Semester 6

1. Third Language III

2. Technopreneurship (ENT600)

Behind every successful technology company is a visionary, effective and efficienttechnopreneur. In this course, students will be exposed to entrepreneurship and applytheir entrepreneurial skills in developing an advanced technology that could be a basis forthe creation and development of a technology-based venture. This subject is designed toinculcate the entrepreneurial skills to the students and promote the development of

technology-based entrepreneurship knowledge.

3. Embedded Systems Design and Interfacing (ELE551)

This course will expose students to the fundamentals of embedded system hardware andfirmware design. A typical microcontroller (e.g. PIC) will be studied. The topics that will becovered are microcontroller architecture, hardware and software applications, serial andparallel I/O, timing, interrupts, LCD, keypads and A to D conversion. Theassembler/simulator package to develop application programs that perform variety oftasks will also be discussed. The course culminates in a term project designed,constructed, programmed, and tested by the student.

4. Multimedia Systems (ELE571)

This course is intended to give students an introduction to multimedia systems and anunderstanding of the multimedia data types, how to handle, store, and transmitmultimedia data. Topics related to multimedia operating and communication systems willalso be covered. It is also aimed to give the participants a chance to build a multimediaapplication using a Multimedia Application Development tool.

Semester 7

1. Industrial Training (EEE620)

The industrial training is intended to expose the students to professional engineeringpractice for the duration of 8 to 10 weeks. Each student will be assigned to a supervisor inthe working place to give guidance. Students are required to submit a formal report andlog book based on the work done during training. Selected lecturers will be assigned tovisit the workplace to ensure students have undergone and obtained sufficient trainingexposure.

2. Engineers in Society (EEE610)

This course has been designed to accommodate the Engineer in Society syllabus of theInstitution of Engineers (IEM), Malaysia and Board of Engineers (BEM), Malaysia. Pre-selected engineering management topics from the original IEM/BEM syllabus have been


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omitted and other relevant topics are covered in both the examinable and nonexaminable sections of the syllabus. Examinable topics includes a wide range ofmanagement theories, concepts, Rules and Regulations, Acts, By-laws, Code ofPractices, Local and International Standards and other related inter-relationships betweenthe current role of the practicing consultants and supervising engineers and the societyand environment at large. The non-examinable topics will cover on engineering currentissues faced by engineers, society and environment related to engineering progress anddevelopment. Lectures for the examinable topics would be conducted in a similar manner.

3. Electronic Engineering Project I (ELE606)

The course is intended for students to take an individual project, which will be supervisedby a member of the faculty with relevant expertise. The selected project will be a technicaltopic in electrical and electronics engineering. This course also introduces the students tothe principles and techniques of scientific research. Students are required to conduct alibrary search and literature review for a project selected. In addition, students areexpected to do project planning and preliminary experimental, computer simulation and

theoretical investigation of the project. At the end of the course the students are expectedto prepare a project proposal under the guidance of supervisor to be evaluated.

4. Digital Design and Computer Architecture (ELE655)

This course is to provide an understanding of the advanced digital design and computerarchitecture. The course reviews on combinational logic circuits design, sequential logiccircuits design, arithmetic building blocks design and memory structures. It focuses oncomputer architecture and micro- architecture. It also discusses on the memory systemand microprocessors advanced micro-architectures.(Strong emphasis on usage of hardware-description language.)

5. Electronic Engineering Design (ELE505)

This course will implement the Capstone Design mission which will involve students incollaborative design project that require them to frame a design problem, exploresolutions, develop a single solution, and communicate these results in oral presentationsand written reports. It aims to provide a comprehensive design experience for students ina team-oriented format and to expose the students to various economic, ethical, andsocial effects related to their design projects.

Semester 8

1. Communication And Interpersonal Skills (BEL499)

This course aims to provide students with the job-search, job-application, interview,communication and interpersonal skills essential for their personal and professionalgrowth in the workplace. Students are expected to learn the process of building andmaintaining interpersonal relationships at the workplace. They are provided with anexperiential learning opportunity to analyze verbal and non-verbal messages and the roleof personal identity in interpersonal communication.

2. Electronic Engineering Project II (EEE607)

This subject is intended to enable student to design, construct and testing of projectinvestigated in Project I. Student will submit a formal project report that will be based onwork done during Project I and Project II.


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3. Selected Topics for Electronic Engineering (ELE671)

This course provides an exposure to current technologies available in Malaysia industries.Every student will choose three different topics on subjects related to his/her discipline.The period for each topic is 14 lecture hours and 7 hours of tutorial or equivalent. Eachtopic will be conducted by a person from industry whom is very experienced in his/herown field. Some examples of the coverage for each topic include theoretical applicationsin industries, case studies, practical experiences, usage of high end equipment, etc.Determined by the appointed lecturers from industries but with approval by committeeappointed by Fakulti Kejuruteraan Elektrik, UiTM.

Semester 6 & 7 (Electives)

1. Analog Integrated Circuit (ELE629)

The course focuses on design of analog integrated circuits in MOS. The course will beginwith a review of MOS devices. Then the course will discuss analysis and design of basicMOS analog circuit building blocks such as single-stage and differential amplifiers, andcurrent mirrors as current sources. Noise, frequency response, stability, frequencycompensation will also be discussed, followed by the analysis and design of operationalamplifiers.(Strong emphasis on usage of custom EDA tools.)

2. Semiconductor Manufacturing Technology (ELE643)

The subject serves as an introduction to semiconductor manufacturing technology. Itcovers fundamental IC fabrication process steps and the integration of the steps for

different microelectronic device technology. Technology CAD simulation is implementedto aid learning of basic concepts. Technology trend in the semiconductor industry isintroduced.

3. IC Packaging (ELE641)

This course is designed to serve as an introduction, a review and an update of ICpackaging trends and assembly options. Introduction to Packaging and its Role inMicroelectronics and Microsystems, Packaging development, Assembly Process,Reliability, Flip chip and Tape Automated Bonding Processes

4. Acoustic (ELE661)

The course covers the basics of sound, acoustics and the electro-acoustic transducers.Topics that enhance the understanding of perceptions of sound will be covered in details.Basic Theory, Sound absorption, Room acoustics, Sound Isolation, Mechanical SystemNoise and Vibration, Speech privacy.

5. Digital Signal Processing (ESE563)

This course introduces the principles of digital signal processing. The students will beexposed to MATLAB mathematical software to generate computer implementations of thetechniques for signal and systems analysis and design.


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Discrete time linear time-invariant (LTI) signal processing systems, z-Transform, DiscreteFourier Transform, FIR Digital Filters, IIR Digital Filters

6. Application of Sensors and Transducers (ELE663)

This course will introduce students to the fundamental of sensor classifications andtransduction principles. Topics to be included are a few types of sensors that are used invarious technologies including optical, electrical, acoustical, thermal, magnetic,mechanical and chemical; concepts on signal conditioning; and recent trends in sensortechnologies. At the end of this course, students are exposed with projects on applicationof sensors based on the current situation in different fields such as scientific, industrialand consumer.

7. Photonic Devices & System (ELE649)

The course covers the basic principles of optoelectronic with emphasis on the operationof optoelectronic devices and their applications in different optoelectronic systems.

Review of Geometrical Optics, Dielectric Waveguides and Optical Fibers, Review ofSemiconductor Physics, Light Emitting Diodes, LASERS, Photodetectors, PhotovoltaicDevices, Optical Systems

8. Audio Systems

This course presents the basic in audio engineering system, component in audioengineering and the interconnection among the audio components.Basics of Audio engineering, Audio System Unit, Microphone Technology, Loudspeakers,Putting It All Together

Semester 8 (Electives)

1. Special Topics in Microelectronics (ELE675)

This course will cover selected advanced topic and techniques of current interest inmicroelectronics. The teaching and learning will focus on concepts not included in theexisting course syllabus and includes recent development and progress in the subjectarea.

2. Special Topics in Consumer Electronics (ELE677)

This course will cover selected advanced topic and techniques of current interest in

consumer electronics. The teaching and learning will focus on concepts not included inthe existing course syllabus and includes recent development and progress in the subjectarea.

3. VLSI System Design (ELE653)

The course focuses on the design of complex digital systems with an emphasis on hands-on chip design. It will cover both the bottom-up design approach and top down approach.It will cover the system level design for VLSI. This includes the circuits and performanceestimations, combinational and sequential logic circuits design, system designmethodology, data path subsystems, array subsystems and special purpose subsystems.The course will use hardware description language (HDL) and electronic designautomation (EDA) tools in designing digital systems such as simple Microprocessor.


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4. Nanotechnology (ELE647)

The course is an introduction to nanotechnology covering nanofabrication, nanomaterialsand its application. Introduction to Nanotechnology, Technologies for the Nanoscale,Nanoscale Manufacturing, Nanoscale Materials and Structures, Applications

5. IC Testing Technology (ELE645)This course provides fundamental knowledge in IC testing technology. The course coversComponent Test Techniques & Methods, Characterizations, Test Program Development,Troubleshooting, System Level Testing and Practical Test Engineering Issues. Studentswill be exposed to different types of digital IC testing methods. Real test issues arecovered.

6. Automotive Electronics (ELE665)

Course builds from the electrical principles and concepts through automobile semi-

conductors to microprocessors. Includes electrical measurement devices and wirerepairing, including copper/aluminum and weather pack service techniques through onbench and on-car practical exercises and homework. Students build personal testequipments in class and practice diagnostic procedures applicable to present and futureautomotive electronics systems.


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COURSE DESCRIPTION FOR EE221

Semester 1

1) Language Enrichment (BEL403)

This course is designed to remedy students weaknesses in the use of English and toupgrade their proficiency level. It covers the major aspects of grammar, reading, writing,listening and speaking.

2) Calculus II For Engineers (MAT435)

This course consists of three chapters: methods of integration, functions of two variablesand differential equations. In the first chapter, methods discussed are by parts,trigonometric integrals, trigonometric substitution and integration of rational functions. Inchapter three, first and second order differential equations will be discussed. Applicationsin engineering and sciences will be covered in chapters two and three.

3) Electrical Practices (EPO400)

This course combines lectures followed by laboratory practices in order to introducestudents a basic concept in electrical engineering theory, and at the same time to acquiresome skills in engineering practice. The knowledge gained in this course will helpstudents in theirs further courses registered in the faculty. This course combines lecturesfollowed by laboratory practices in order to introduce students a basic concept in electricalengineering theory, and at the same time to acquire some skills in engineering practice.The knowledge gained in this course will help students in theirs further courses registeredin the faculty.

4) Signals And Systems (ESE461)

This subject deals with basic concepts of linear system. The emphasis will be oncontinuous-time signals and systems, Fourier series and Laplace transform. The aboveconcepts are used in solving typical engineering problems.

5) Circuit Analysis (ELE412)

The course covers the basic network theory. It deals with direct current (D.C.), basictheorem and electrical quantities relationship in circuit network, both in direct andalternating current. Magnetic circuit and balanced 3-phase system are also introduced.

6) Analogue Electronics (ELE422)

This course introduces solid state and some basic electronic devices made from it,followed by the operating concepts of the electronic devices, their characteristics andapplications in simple electronic circuits.

7) Electrical Engineering Laboratory I (EPO412)

This course provides the necessary hands-on experience related to electrical circuits andconcepts taught in theoretical lectures.


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Semester 2

1) Instrumentation And Control Systems (ESE439)

This course covers the elements of classical control systems and the instrumentationsinvolved. The discussions on the instrumentation are limited to the practical transducersand the signal conditioning circuits. The second part of the subject focuses on the aspectof control systems including the mathematical modeling, analysis on the system responseand a brief discussion on the typical process controller.

2) Communication Engineering (ECM410)

This subject introduces the basic idea of communication systems. It covers both analogand digital communication theories and applications of the systems.

3) Digital Electronic Fundamentals (ECE422)

This course is to provide a clear understanding on the digital electronics and itsapplications. Students are also introduced to the basics of FPGA and VHDL modeling.

4) Power Engineering (EPO460)

This subject has two major components; foundations in power system and theintroduction to electrical energy and machines. The power system component covers anintroductory subject on the generation, transmission and distribution of electrical energy.Major emphasis will be on system representation, basic fault studies and low-voltagedistribution system. The electrical energy and machines covers three-phase calculations,basic transformer theory and the common electric machines with major emphasis on DCmachines and introductory course on AC machines.

5) Electrical Engineering Laboratory II (EPO422)

This laboratory course provides students with practical hands-on experience on theelectrical and electronics circuits with the concepts presented in class.

6) Islamic and Asian Civilisation (CTU 551)

The course generally discusses the history and knowledge of civilization including: IslamicCivilization, Chinese Civilization, Indian Civilization and also issues surrounding the topicas well as importance of dialogues in the process.

Semester 3

1) Report Writing (BEL422)

This course introduces students to the practical aspects of preparing and presentingreports both orally and in the written form. Students are taught to employ the languageskills and strategies necessary to write reports. Students will also be taught the skills ofadapting written texts for oral presentation.


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2) Ethnic Relations (CTU553)

This course explains the concept of basic ethnic relationships, culture and society, pluralityof the Alam Melayu society and the need to mould society according to Malaysian virtues.

3) Calculus III For Engineers (MAT455)

This course consists of topics in partial derivative, multiple integral, vector analysis andinfinite series.

4) Microprocessor System (ECE521)

This course provides students with the essential knowledge on microprocessor systemsand program design. The main topics provide guidelines on the operations of amicroprocessor.

5) Computer Programming (ECE431)

This course introduces a disciplined approach to solving problems by applying softwaremethods. A popular structured language is studied and used to achieve this objective.Topics include the description of data types, control structures, functions, arrays andpointers.

6) Electrical Engineering Laboratory III (EPO430)

This laboratory course provides students with practical hands on experience with theconcepts presented in class.

Semester 4

1) Introduction To Numerical Analysis (MAT575)

This course introduces the basic concept of numerical methods, scientific computing andapproximating. This includes the idea of algorithm, rounding errors and error estimation ingeneral.

2) Electrical Machines (EP0540)

This course examines the operating principles, the construction and performance of AC

electromechanical machinery. It covers all essential fundamentals but concentrated onthe use of appropriate equivalent circuits in the study of the steady state and quasi-steadystate characteristics of AC machines.

3) Power System I (EP0520)

This course aims to provide a solid foundation for the study of power system modeling andits analysis. Fundamentals of fault analysis and system protection are also covered.

4) Electrical Engineering Laboratory IV (EP0560)

This course provides the necessary hands-on experience relating to Power System 1 andElectrical Machines concepts taught in theoretical lectures.


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5) Electromagnetic Theory (Epo525)

The course introduces basic electromagnetic theory through development of conceptsand formulation of general laws and their application to specific problems.

Semester 5

1) Heat And Fluid (KJM422)

The scope of this course, thermodynamics and fluid mechanics is such that it can be usedfor the degree in electrical engineering. The contents are basically arranged in two parts.The first four topics present the basic thermodynamics including heat transfer, internalcombustion engines, gas power cycles, refrigeration and air conditioning. The remainingof the course deals with the basic of fluid mechanics. Topics included are laminar and

turbulence flow, fluid machines and their classification and other typical industrialapplications of fluid mechanics.

2) Modern Control System In Electrical Engineering (ESE559)

This course gives an introduction to control theory which covers mathematical modelingbased on electrical, mechanical (rotational) and servomechanism systems. Introductionto block diagram reduction, signal flow graph (Masons Rule) is also introduced. Analysisof control systems for the transient and steady-state response is also covered, up tosecond order systems. Stability and frequency response analysis using Bode plot,Nyquist and Nichols method. Use of software package Matlab/Simulink is introduced in

examples and exercises.

3) Power Electronics (EPO510)

The power electronics course covers power conversion circuits which include rectifiers,AC voltage controllers, DC choppers, switched-mode inverters, harmonics, semiconductordevices and switching circuits.

4) Electrical Engineering Utilization And Practice (EPO521)

This course covers power quality issues and industrial power system practices.

5) Power System II (EPO522)

The course serves as a good introduction to computer methods for power system analysisand control. It covers, among others, load-flow analysis, economic load dispatch, frequencyand voltage control and power system stability.

Semester 6

1) Technopreneurship (ENT600)

Behind every successful technology company is a visionary, effective and efficienttechnopreneur. In this course, students will be exposed to entrepreneurship and applytheir entrepreneurial skills in developing an advanced technology that could be a basis for


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the creation and development of a technology-based venture. This subject is designed toinculcate the entrepreneurial skills in students and promote the development oftechnology-based entrepreneurship knowledge.

2) Electric Drives (EPO640)

The course focuses on the analysis of the steady state operation of drive systems thatallows the specification of suitable converters and machines for the speed and positioncontrol system. Transient operation is discussed but not studied in detail.

3) High Voltage (EPO630)

Lectures delivered are augmented with written assignments as well as group assignmentfollowed by a mini seminar and individual oral test. Laboratory sessions may be includedfor strengthening students comprehension on subject matters.

4) Statistics For Engineers (QMT500)

This course is designed to introduce various types of distribution, which are required forinferential statistics. Students are exposed to important aspects of statistical methods suchas sampling theory, estimation theory, hypotheses testing and analysis of variances. Inaddition, this course introduces the basic concepts of correlation and regression.

5) Electrical Engineering Laboratory V (EPO561)

This course provides the necessary hands-on experience related to Electrical Drives,

Renewable Energy, High Voltage and Power System II concepts taught in theoreticallectures.

Semester 7

1) Power Engineering Project I (EPO661)

This subject is intended for students to take projects, which will be supervised by amember of the faculty. The selected project will be a technical topic in electrical andelectronics engineering. Students are required to conduct a library search and literaturereview for a project selected by students under the guidance of supervisor. In addition,

students are expected to do project planning and preliminary experimental, computersimulation and theoretical investigation of the project.

2) Electrical Engineering Laboratory VI (EPO660)

This course provides the necessary hands-on experience relating to Power Electronics,Power Drives, High Voltage and Power Utilization concepts taught in theoretical lectures.

3) Industrial Training (EPO667)

This course is intended to enable student to experience 2 months industrial training inindustries. Student will submit a formal report that will be based on work done during thepractical training. An evaluation from the supervisor will be included in the report. Selected


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lecturers will be assigned to visit the workplace to monitor and interview the students andthe supervisor at the end of the training.

4) Engineer In Society (EEE610)

This course has been designed to accommodate the Engineer in Society syllabus of theInstitution of Engineers (IEM), Malaysia and Board of Engineers (BEM), Malaysia. Pre-selected engineering management topics from the original IEM/BEM syllabus have beenomitted and other relevant topics are covered. The topics include a wide range ofmanagement theories, concepts, Rules and Regulations, Acts, By-laws, Code of Practices,Local and International Standards and other related inter-relationships between the currentrole of the practicing consultants and supervising engineers and the society andenvironment at large. In addition it covers engineering current issues faced by engineers,society and environment related to engineering progress and development. Lectures forthe examinable topics would be conducted in a similar manner.

Semester 8

1) Power Engineering Project II (EPO663)

This subject is intended to enable students to design, to construct and to test projectsinvestigated in Project 1. Student will submit a formal project report that will be based onwork done during Project 1 and Project 2.

2) Communication And Interpersonal Skills (BEL499)

This course aims to provide students with the necessary skills to perform at employmentinterviews. Students are prepared to design resumes, write application letters and are

guided to answer questions posed at employment interviews. The course also providesstudents with communication and interpersonal skills essential for their personal andprofessional growth.

3) Selected Topics For Power Engineering (EPO666)

This course provides an exposure to current technologies available in Malaysian industries.Every student will choose three different topics on subjects related to his/her discipline.The period for each topic is 16 hours. Each topic will be conducted by lecturer fromindustry and who is very experienced in his/her own field. Some examples of the coveragefor each topic include theoretical applications in industries, case studies, practicalexperiences, usage of high end equipment, etc.

Semester 7 (Elective)

1) Artificial Intelligence in Power Systems (EPO 620)

This course will introduce students to the application of artificial intelligence in powersystem operations. This subject covers the development of Artificial Intelligenceapplications in power system operation.

2) Digital Design using FPGA for Power Electronics (EPO 611)


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This course will study a selected advanced topic and techniques of current interest inpower electronic. Teaching and learning will focus on concepts of applying FPGA indesigning power electronics controller. It is a hands-on subject.

3) Power Filter and Compensation (EPO 610)

This course covers introduction to non-linear loads, effect of harmonics in electric powersystem and various possible solutions for harmonics and reactive compensations.

Semester 7, 8 (Elective)

1) Programmable Logic Controller and Automation (ESE 644)

This course covers two types of system that are usually used in automation process. Thefirst part of the course will cover the controller design based on Programmable LogicController and the second part is based on industrial plug and play modules that utilizes

personal computer.

2) Advanced Power electronics (EPO 613)

This course covers the introduction to non-linear loads, effect of harmonics in electricpower system and various possible solutions for harmonics and reactive compensations.

3) Electrical Energy Economics and Planning (EPO621)

This subject introduces the economics aspects in power system in terms of its marketrequirement, effects of security and transmission to the electricity pricing and discussesthe issues of investments in power generation and transmission equipment.

4) Digital Signal Processing Fundamentals (ESE 563))

This subject introduces the principles of digital signal processing. The students will beexposed to MATLAB mathematical software to generate computer implementations of thetechniques for signals and systems analysis and design.

5) Microcontroller Applications (ECE 627)

This course covers the designing, development and testing of microcontroller basedsystem.

6) Renewable Energy (EPO622)

This subject introduces renewable energy resources, its basic concept, underlyingsciences and processes. This code assumes a solid understanding of the physicalsciences and mathematics including calculus. It covers: the basic physical sciences;renewable energy technologies; and energy storage and distribution system.

7) Pulse Power Technology (EPO615)

This course covers introduction to the pulsed power technology and its existing andpotential applications to the students.

8) Thermal Comfort Control For Energy Efficiency (ESE646)


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This course introduces the importance of thermal comfort with energy efficiency inbuildings. Energy efficient and thermal comfort control optimization strategies will also bediscussed. Malaysian code of practice on energy efficiency will also be discussed.

9) Automation And Robotic (ESE663)

This course covers the basic concepts in automation including the various types ofsensors, controllers and actuators used in automatic control systems. Students are alsointroduced to the fundamentals of robotics to help them understand its hardware and itsapplication.


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COURSE DESCRIPTION FOR EE 230

Semester 1

1) Language Enrichment (BEL402)

This course is designed to remedy students weaknesses in the use of English and toupgrade their proficiency level. It covers the major aspects of grammar, reading, writing,listening and speaking.

2) Calculus II for Engineers (MAT435)

This course consists of three chapters: methods of integration, functions of two variablesand differential equations. In the first chapter, methods discussed are by parts,trigonometric integrals, trigonometric substitution and integration of rational functions. Inchapter three, first and second order differential equations will be discussed. Applicationsin engineering and sciences will be covered in chapter two and three.

3) Basic Electronics (ELE421)

This course introduces solid state and some basic electronic devices made from it followedby the operating concepts of the electronic devices, their characteristics and applications insimple electronic circuits.

4) Circuit Analysis I (ELE411)

The course covers the basic network theory. It deals with direct current (D.C.), basictheorem and electrical quantities relationship in circuit network, both in direct and

alternating current. Magnetic circuit and balanced 3-phase system are also introduced.

5) Digital System Fundamentals (ECE421)

This course introduces the basic building blocks of practical digital systems. It includestechniques necessary for the analysis and design of simple digital circuits, and the analysisof sequential circuits. Students are also introduced to basic I/O devices and dataacquisitions.

6) Signals & Systems (ESE461)

This subject deals with basic concepts of linear system. The emphasis will be oncontinuous-time signals and systems, Fourier series and Laplace transform. The aboveconcepts are used in solving typical engineering problems. The students will be exposed toMATLAB mathematical software to generate computer implementations of the techniquesfor signals and systems analysis.

7) Electrical Engineering Laboratory I (EEE410)

This course provides the necessary hands-on experience relating to electrical circuits andconcepts taught in theoretical lectures.


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