College of Engineering

Department of Electrical Engineering

Academic Year 2017-2018

‫دليل قسم الهندسة الكهربائية‬

Department of Electrical
Engineering

College of Engineering

University of Baghdad

(Established at 1950)

(Academic Year 2017-2018)

Page 1 of 35
 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018

Message from the head of the Department of Electrical Engineering

Dr. Nizar Hadi Abbas

The Department of Electrical Engineering was established in 1950. So far, many

thousands of Electrical Engineers were graduated from this department and they
are working in Iraq and abroad. The electrical Engineer will study for 4-year
program and award B.Sc. degrees in electrical engineering, which is equivalent
to about 160 credit hours and done field training in their specializations. Electrical
Engineering offers a wide range of employment opportunities in different fields,
including, but not limited to electrical power generation and distribution,
installation, computer applications, IT, electronic circuit design and
communication systems.

Also, the Electrical Engineering Dept. awards (M.Sc. and Ph.D. degree in three
disciplines. Power and Machines; Electronics and Communications; and
Computer and Control.

The minimum period of the M.Sc. degree is 2 years and the period of the Ph.D.
degree is 3 years. These programs after the B.Sc. degree.

Dr. Nizar Hadi Abbas

Head of the Department of Electrical Engineering.

Page 2 of 35
 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
Contents

No. Contents Page No.

1. Message from the head of the Electrical Engineering 2
Department
2. The Former heads of the department 4
3. Staff of the Department of Electrical Engineering 5
4. Engineering Staff 7
5. Computer Technical Staff 7
6. Technical Staff 7
7. Administration staff 8
8. The Undergraduate Curriculum 9
9. First Year 10
10. Second Year 11
11. Third Year 12
12. Fourth Year 13
13. The Undergraduate Syllabus 14
14. First Year syllabus 14
15. Second Year syllabus 18
16. Third Year syllabus 21
17. Forth Year syllabus 25
18. The Postgraduate Curriculum 29
19. Master Curriculum 31
20. 1- Power and Machines, 2- Electronics and 31
Communications, 3- Computer and Control.
21. Ph.D. Curriculum 32
22. 1- Power and Machines, 2- Electronics and 32
Communications, 3- Computer and Control.
23. Graduation Photographs 34
24. Lab Photographs 34

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
The former heads of the department

No. Name Date

1. Dr. Slious Dano 1951-1960
2. Dr. Jalal AL-Salhi 1960-1963
3. Dr. Slious Dano 1963-1967
4. Dr. Salah AlSamari 1967-1969
5. Dr. Nazar Khalil Wafi 1969-1970
6. Dr. Mothana Kubba 1970-1970
7. Dr. Taha Al-Naami 1970-1973
8. Dr. Nazar Khalil Wafi 1973-1975
9. Dr. Mohammed Al-Hakak 1975-1980
10. Dr. Ali Al-killidar 1980-1981
11. Dr. Jafaar Alwash 1981-1985
12. Dr. Salih Al-Aragi 1985-1989
13. Dr. Ali Al-killidar 1989-2001
14. Dr. Nihad Al-Rawi 2001-2003
15. Dr. Kais Saaed Al-Sabagh 2003-2005
16. Sulaiman Murtdha Abbas 2005-2011
17. Dr. Dheyaa Jasim Kadhim 2011-2014
Dr. Mahmood A.K. Abdulsttar
18. 2014- 2016
Abdulsttar
19. Dr. Nizar Hadi Abbas 2016-Till Present Time

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
Staff of the Electrical Engineering Department

Scientific
No. Name ‫األسم‬ General Specialty
Degree
PhD., Prof.
1. Nazar Khalil Wafi ‫ نزار خليل وفي‬.‫د‬.‫أ‬ Communications
Emeritus
‫ علي عبد الصالح‬.‫د‬.‫أ‬ PhD., Prof.
2. Ali A. Al-killidar Machines
‫الكليدار‬ Emeritus
PhD., Prof.
3. Jafaar H. Alwash ‫ جعفر حميد علوش‬.‫د‬.‫أ‬ Machines
Emeritus
Saleem Mohammed
4. ‫ سليم محمد رضا‬.‫د‬.‫أ‬ Electronics PhD., Prof.
Ridha Ali Taha
5. Tariq Zeyad Ismaail ‫ طارق زياد‬.‫د‬.‫أ‬ Communications PhD. Prof.
‫إسماعيل‬
‫ صادق جاسم‬.‫د‬.‫م‬.‫أ‬ Computer and PhD. Assist.
6. Sadiq Jassim Abouloukh
‫أبواللوخ‬ Control Prof.
Computer and PhD. Assist.
7. Muna Hadi Saleh ‫ منى هادي صالح‬.‫د‬.‫م‬.‫أ‬
Control Prof.
Firas Mohammed ‫ فراس محمد‬.‫د‬.‫م‬.‫أ‬ PhD. Assist.
8. Power
Tuaimah ‫طعيمة‬ Prof.
Ibraheem Kasim ‫ إبراهيم قاسم‬.‫د‬.‫م‬.‫أ‬ Computer and PhD. Assist.
9.
Ibraheem ‫إبراهيم‬ Control Prof.
Electronics and PhD. Assist.
10. Dheyaa Jasim Kadhim ‫ ضياء جاسم كاظم‬.‫د‬.‫م‬.‫أ‬
Communications Prof.
PhD. Assist.
11. Zainab Tawfeeq Baqer ‫ زينب توفيق باقر‬.‫د‬.‫م‬.‫أ‬ Computer
Prof.
Computer and PhD. Assist.
12. Nizar Hadi Abbas ‫ نزار هادي عباس‬.‫د‬.‫م‬.‫أ‬
Control Prof.
Mohammed Nadhim Electronics and PhD. Assist.
13. ‫ محمد ناظم عباس‬.‫د‬.‫م‬.‫أ‬
Abbas Communications Prof.
14. Mahmood A.K. ‫ محمود عبدالقادر‬.‫د‬.‫م‬ Communications PhD.
Abdulsttar ‫عبدالستار‬ Lecturer
15. Fadhil Abbas Mahdi Al- ‫ فاضل عباس‬.‫د‬.‫م‬ Power PhD.
Qrimli ‫القرملي‬ Electronics Lecturer
‫ باسم محمد حسن‬.‫د‬.‫م‬ Power and PhD.
16. Bassim. M. H. Jassim
‫جاسم‬ Machines Lecturer
Hanan Mikhael D. Power and PhD.
17. ‫ حنان ميخائيل داود‬.‫د‬.‫م‬
Habbi Machines Lecturer
Computer and PhD.
18. Asmaa Hameed Rasheed ‫ أسماء حميد رشيد‬.‫د‬.‫م‬
Control Lecturer

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
Rabab Hameed Shghedl PhD.
19. ‫ رباب حميد شغيدل‬.‫د‬.‫م‬ English
Al-Darraji Lecturer
‫ مرتضى جواد‬.‫د‬.‫م‬ Electronics and PhD.
20. Moretadha Jawad Kazim
‫كاظم‬ Communications Lecturer
‫ إسماعيل شنان‬.‫د‬.‫م‬ Electronics and PhD.
21. Ismael Shanan Desher
‫دشر‬ Communications Lecturer
Abdul-Sattar Abdul- ‫ عبدالستار‬.‫د‬.‫م‬ PhD.
22. Mathematics
Jabbar Wais ‫عبدالجبار ويس‬ Lecturer
Electronics and PhD.
23. Ali Tweij Shaheen ‫ علي طويج شاهين‬.‫ د‬.‫م‬
Communications Lecturer
Taghreed M.Ali ‫ تغريد محمدعلي‬.‫م‬ Computer and M.Sc.
24.
A.Awahhab Al-Rufaye ‫عبدالوهاب‬ Control Lecturer
Saif Al deen Abdul ‫ سيف الدين عبد‬.‫م‬ Electronics and M.Sc.
25.
Ameer ‫االمير‬ Communications Lecturer
Electronics and M.Sc.
26. Zainab Ibrahim Abbood ‫ زينب إبراهيم عبود‬.‫م‬
Communications Lecturer
Nadia Qasim Computer and M.Sc.
27. ‫ نادية قاسم محمد‬.‫م‬
Mohammed Control Lecturer
Ali Razooqi Hussein Al- ‫ علي رزوقي‬.‫م‬.‫م‬ Electronics and M.Sc.,
28.
lami ‫حسين الالمي‬ Communications Assist. Lect.
Thamir Mosa Ibrahim ‫ ثامر موسى‬.‫ م‬.‫م‬ M.Sc.,
29. Mechanical Eng.
Al-Korbasy ‫إبراهيم‬ Assist. Lect.
‫ إيناس حامد‬.‫ م‬.‫م‬ M.Sc.,
30. Enas Hamd Ibraheem Nuclear
‫ابراهيم‬ Assist. Lect.
31. Ahmed Muhsin ‫ أحمد محسن‬.‫ م‬.‫م‬ Power and M.Sc.,
Abdulmajeed ‫عبدالمجيد‬ Machines Assist, Lect.
32. Mostafa Abdl Jabbar ‫ مصطفى عبد‬.‫ م‬.‫م‬ Computer and M.Sc.,
‫الجبار‬ Control Assist. Lect.
Computer and M.Sc.,
33. Mohanad Azeez Joodi ‫ مهند عزيز جودي‬.‫ م‬.‫م‬
Control Assist. Lect.
Huda Manhee ‫ هدى منهي‬.‫ م‬.‫م‬ Power and M.Sc.,
34.
Abdulabbas ‫عبدالعباس‬ Machines Assist. Lect.
Power and M.Sc.,
35. Raed Fouad Abbas ‫ رائد فؤاد عباس‬.‫ م‬.‫م‬
Machines Assist. Lect.
Computer and M.Sc.,
36. Farah Mahdi Ali ‫ فرح مهدي علي‬.‫ م‬.‫م‬
Control Assist. Lect.
Abdullah Mohammed Computer and M.Sc.,
37. ‫ عبدهللا محمد‬.‫ م‬.‫م‬
Abdulhadi Zyarah Control Assist. Lect.

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018

Power and M.Sc.,

38. Ammar Falah Mahmood ‫ عمار فالح محمود‬.‫م‬.‫م‬
Machines Assist. Lect.
M.Sc.,
39. Rawad Luay Khaleel ‫ رواد لؤي خليل‬.‫م‬.‫م‬ Computer
Assist. Lect.
Power and M.Sc.,
40. Akram Noori Merzah ‫ أكرم نوري مرزه‬.‫م‬.‫م‬
Machines Assist. Lect.
Farooq Abdulghafoor ‫ فاروق عبدالغفور‬.‫م‬.‫م‬ Electronics and M.Sc.,
41.
Khaleel ‫خليل‬ Communications Assist. Lect.

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
Engineering Staff

No. Name
1. Shatha Akram Mahdi
2. Souad Hassan Frhan
3. Ansaf Jassim Naseef
4. Nadhal Mohammad Ali
5. Rawnaq Jawad Bakir
6. Shurooq Faysal Najem
7. Salam Jassim Mohammed
8. Atyaf Saadi Madhloom

9. Ahmad Mohammad

10. Hafssa Amer Jasim

Computer Technical Staff

No. Name
1. Maysson Ghani Muhsin
2. Widad Aziz Hassan

Technical Staff
No. Name
1. Faris Mustafa Duhi
2. Amal Tarish Zeboon
3. Salma Kadhem
4. Ekhlas Abd Al-Razak
5. Balsam Mahde Dawood
6. Najat Hadi
7. Ahlam Shkara
8. Emad Ahmed
9. Ahmad Ubeid
10. Hasna Wannas

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018

Administration staff
No Name
.
1. Shatha Kadhum Jasim

2. Hwshiar Abdulhameed

3. Nagham Tariq Allawi

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
The Undergraduate Curriculum
The annual system of study is followed in the department. The following is the
curriculum of the department for the four years of study.

First Year

First Semester Second Semester

No. Subject Hours Hours Units

Theoretical Tutorial Practical Theoretical Tutorial Practical

GE101 Mathematics 3 1 - 3 1 - 6
I
EE102 Computer I 1 1 - 1 1 2
GE103 English I 1 1 - 1 1 - 2
GE104 Fundamental 2 1 - 2 1 - 4
of
Mechanical
Engineering
GE105 Engineering - 1 2 - 1 2 2
Drawing
EE106 Electrical - 1 4 - 1 4 4
Engineering
Laboratories
EE107 Fundamentals 3 1 - 3 1 - 6
of Electrical
Engineering
EE108 Electronic 3 1 - 3 1 - 6
Physics
EE109 Digital 2 1 - 2 - 2 5
Techniques
GE110 Arabic 1 1 - 1 1 - 2
Language
GE111 Sports - - 1 - - 1 -
Total 16 10 7 16 9 9 39
33 34

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
Second Year

First Semester Second Semester

No. Subject Hours Hours Units

Theoretical Tutorial Practical Theoretical Tutorial Practical

EE201 Computer II 1 1 - 1 1 - 2
GE202 Human Rights 1 1 - 1 1 - 2
Electrical
EE203 2 1 - 2 1 - 4
Machines I
Numerical
EE204 Methods and 2 - - 2 - - 4
Statistics
EE205 Electromagnetics 3 - - 3 - - 6

EE206 Electronics I 2 1 - 2 1 - 4
Electrical
EE207 3 1 - 3 1 - 6
Circuits
Electrical
EE208 Engineering - 2 6 - 3 6 6
Laboratory
GE209 Mathematics II 3 1 - 2 2 - 5

GE210 English II 1 1 - 1 1 - 2

GE211 Sports - - 1 - - 1 -
Total 18 9 7 17 11 7 41
34 35

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
Third Year

First Semester Second Semester

No. Subject Unit
Hours Hours
Theoretical Tutorial Practical Theoretical Tutorial Practical
Antenna & wave
EE301 2 1 - 2 1 - 4
Propagation
EE302 Electronics II 2 1 - 2 1 - 4
Engineering
EE303 2 1 - 2 1 - 4
Analysis
Electrical Power
EE304 2 1 - 2 1 - 4
I
Electrical
EE305 2 1 - 2 1 - 4
Machines II
Communications
EE306 2 1 - 2 1 - 4
I
Electrical
EE307 Engineering - 2 6 - 2 4 5
Laboratory
Advanced
EE308 2 - 1 2 - 2 4
Microprocessor
Control System
EE309 2 - - 2 - - 4
Design I
GE310 English III 1 1 - 1 - 2
GE311 Sports - - 1 - - 1 -
Total 17 9 7 16 9 7 39
33 32

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
Fourth Year

First Semester Second Semester

No. Hours Hours
Subject Unit
Theoretical Tutorial Practical Theoretical Tutorial Practical
Control
EE401 3 0 - 2 1 - 5
Engineering II
Engineering
EE402 1 - 2 1 - 2 4
Project
Digital System
EE403 3 0 - 2 1 - 5
Design (DSD)
Communications
EE404 2 - - 2 - - 4
II
Electrical Power
EE405 3 0 - 2 1 - 5
II
Power
Electronics and
EE406 3 - - 2 1 - 5
Special
Machines
Computer
EE407 1 1 2 1 1 2 4
Networks
Electrical
EE408 Engineering - 2 4 - 2 6 5
Laboratories
Digital Signal
EE409 Processing 1 1 - 1 1 - 2
(DSP)
GE410 English IV 1 1 1 1 2
GE411 Sports - 1 - - 1 -
Total 18 5 9 14 9 11 41
32 34

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
The Syllabus
The following is the syllabus of the subjects in the department curriculum.

First Year syllabus

GE101 - Mathematics I
Limits and continuity, Transcendental functions, Differentiations and
applications, Techniques of integrations, Further applications of integration,
Conic sections and polar coordinates, Vectors and the geometry of space, Vector
valued functions and motion in space, Determinants, Matrices.

EE102 - Computer I
Flowchart Techniques, Programming languages, how to use, run programs,
Compiler overview, Programming in C++ (input and output), Type casting
functions, Arithmetic and logical operators, precedence of operators. Other
arithmetic operations with different statements. C++ program control and
structured programming selections. If statement, nested if statement, if-else if
ladder else, Switch-case statements, nested switch-case statement. Counter
controlled and sentinel-controlled repetition. Loops, for statement, for with no
body and for loop variations. The do-while and while loops. Skipping loop
iterations break and continue and exit () function. User defined functions
creation, categorized Prototype, local, global, and static variables in functions.
Function with no argument and no return value, Function with no argument but
return value, Function with argument but no return value, Function with argument
and return value, Recursion call a function from a same function, Function C++
return by reference, 1-D array creation, initialization and processing. 2-D array
creation, initialization and processing. String - character array initialization and
processing. C++ pointers/ pointer variable definitions and initialization,
Relationships among pointers, arrays and strings. User defined data types, C++
structures. Using array structure to represent lists and tables of values. Union, bit
manipulations and numerators. C++ programming files I/O, file operations.

GE 103 - English I
The aim of this course is to empower students with the language and life skills
they need to carry out their career goals. To this end it provides ample
opportunities for students to build awareness and practice language in real-life
scenarios. The integrated skills approach of the course develops the student's self-
confidence to survive and succeed in professional and social encounters within
an English-speaking global community. The program consists of 60% General
English taken from New Headway Plus [Student's Book and Workbook with key
for Beginner Level] by John and Liz Soars (2010) and 40% English for Specific

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
Purposes taken from Electricity and Electronics by Marija Krznarić (2014). The
topics to be covered throughout the academic year are Hello, Your World, All
about you, Family and Friends, The Way I live, Every day, My favorites, Where
I live, Times past, We had a great time, I can do that!, Please and thank you, Here
and now, It's time to go!, The Engineering Profession, The Structure of Matter,
The Electric Current, The Effects of an Electric Current, Electric Circuits,
Conductors, Insulators, Semiconductors, Batteries and Capacitors, Process
Control Systems, Machine Translation-Yes or No, From Camera to Screen, The
Cathode Ray Tube, Radio Communications, and How Robots Make Our Lives
Easier.

GE- 104 Fundamentals of Mechanical Engineering

Statics
1-General Principles
2-Force Vectors
3-Equilibrium of a Particle
4-Force System Resultants
5-Equilibrium of Rigid Body
6- Structural Analysis
7-Friction
Dynamics
1- Kinematics of a Particle
2- Kinetics of a Particle: Force and Acceleration
3- Kinetics of a Particle: Work and Energy
4- Kinetics of a Particle: Impulse and Momentum
Thermodynamics
1- Introduction and Definitions
2- Pressure, Energy and Applications
3- Ideal gases
4- Ideal gases Applications
5- Work and heat
6- First Law of Thermodynamics
7- Second Law of Thermodynamics
Strength of Materials
1- Introduction and Definitions
2- Simple Stress and Strain
3- Shearing Force and Bending Moment Diagram
4- Bending
5- Deflection of Beams
6- Torsion

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
GE105 - Engineering Drawing
See Mechanical Engineering Department Syllabus

EE106 - Electrical Engineering Laboratory

1. Experiments covering material on fundamentals of electrical engineering.
2. Experiments covering material on computer I

EE107 - Fundamentals of Electrical Engineering

Introducing the SI units. Resistance-resistivity, temperature coefficient of
resistance, series and parallel connection, star/delta & delta/star transformation,
ohms law, Kirchhoff’s law. D.C. Network. Theorems for dependent &
independent source Substitution and reciprocity theorems). Magnetic circuits,
Kirchhoff’s laws (Thevenin, Norton, Superposition, maximum power transfer,
Millman, Hysteresis & eddy current losses. Basic electromagnetic- self and
mutual inductance in D.C. circuits. Basic electrostatics- capacitors in D.C.
circuits. Alternating voltage & current, single phase circuits, complex notations
and phasor diagram. Network theorems for dependent and independent source.
Power calculations and P.F. correction, resonance circuits and passive filters.

EE108 - Electronic Physics

Electron Ballistics; Atomic Structure and Band Theory; Electrical Conduction in
Metals; Semiconductor Physics; P_N Junction: pn junction at open circuit,
forward bias, diffusion & recombination current components at forward bias,
reverse bias, pn junction band diagram, depletion layer capacitance, diffusion
capacitance, tunneling phenomenon, avalanche and zener breakdowns, Diode
Applications: the diode as a circuit element, the diode as a non-linear device,
static & dynamic resistance of the diode, piece-wise linear equivalent circuits,
clipping circuits, clamping circuits, rectifier circuits, voltage regulation and ripple
factor, the harmonic components in rectifier circuits, Inductive filters, capacitive
filters, L-section filters, π-section filters, multiple L-section filters, d.c. power
supplies, regulator circuits using zener diodes, regulator circuit stability, voltage
multipliers, function generation; Other Devices: light emitting diodes, solar cells,
photo diodes, pin diodes, semiconductor lasers, bipolar transistor (BJT), common
base dc c/cs, common base amplifier, common emitter dc c/cs, low frequency
small signal model, thyristor basic c/cs, triggering the SCR, SCR turn-off, other
device structures.

EE109 - Digital Techniques

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
Introduction to digital techniques; System of numbers; numbers base
conversions, Binary representation of signed numbers; Binary arithematics;
Binary Codes; BCD arithematics; Logic gates; Universal building blocks;
Boolean algebra: canonical and standard forms, Karnough map and Quine
Mcclusky; Arithmetic circuits; Comparator circuits and code converter;
Multiplexer and demultiplexer; Encoder and decoder; Sequential logic circuit:
types of Flip-Flops, counters and shift registers.

GE 110 - Arabic Language

،‫ األندلسي‬،‫ االسالمي‬،‫ماهية اللغة وتطورها؛ مستويات النظام اللغوي؛ عصور األدب العربي (الجاهلي‬
‫ الحديث)؛ قواعد في اإلمالء؛ الضاد والظاء؛ قواعد كتابة الهمزة؛ العدد وكيفية كتابته وإعرابه؛‬،‫العباسي‬
‫الفعل وأنواعه والفاعل وعمله؛ المبتدأ والخبر؛ بعض األغالط اللغوية الشائعة؛ دروس في بالغة القرآن؛‬
‫ماهية األسلوب وكيفية تغيير المعنى بتغيير أماكن اللفظ؛ عالمات الترقيم‬

GE 111 - Sports

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
Second Year syllabus

EE201 - Computer II
Computer data representation systems. Unsigned integers, signed integers,
floating point values. Addressing modes, visual model of microprocessor.
Machines & assembly language programming for IBM PC. Computer Bus:
classifications &types, timing diagram, decoding of address, computer
performance measurement. MIPS, CPI, IPC, Statistics, Amdahl's law, Arithmetic
Logic Unit (ALU). (Gates & MUX). CPU, example CPU: 8086/8088, 80286,
80386, 80486 & Pentium, Interfacing microprocessor, line drivers, transceivers,
latches & interrupt (programmed & hardware), transducers, relay drivers, motor
drivers, opt-isolators, ADC, DAC, I/O interfacing. Memory and interfacing.
Instruction design, control unit design & CPU design. MCU: example PIC
microcontrollers family, architecture, practical circuits.

EE 202 - Human Rights

Chapter 1: human rights.
Section 1: evolution of the concept of human rights
Section II: human rights in international conventions and covenants.
Chapter II: democracy.
Section 1: evolution of the concept of democracy.
Section II: forms of democratic governance.
Section III: democratic governance.
Section IV: the benefits of democracy.
Section v: criticisms of democracy.
Chapter III: Covenant of Caliph Imam Ali Ibn Abi Talib (peace be upon him) to
his Alderman of Egypt the Companion Malik Al-Ashter (may Allaah be pleased
with him)

EE 203 - Electrical Machines I

Types of transformers, principle of operation, transformer losses, ideal
transformer, real transformer, transformer voltage regulation, transformer
efficiency, open circuit and short circuit test, per unit calculation, three phase
transformers, parallel operation of transformers, autotransformers, current and
voltage transformers. General d.c. machine principle, d.c. machine construction,
windings, calculation of M.M.F., armature reaction, commutation, d.c.
generators, parallel operation of d.c. generators, d.c. machines losses and
efficiency, principle of operation of motors, speed calculation, torque calculation,
starting of d.c. motors, types of motors, speed control, testing of d.c. machines.

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018

EE204 – Numerical Methods and Statistics

Solution of Non-linear Equations: Method of Halving the Interval (Bisection
method), Method of linear Interpolation (Method of false position), Newton’s
Method

Solving sets of linear equations: Gauss and Gauss-Jordan methods, LU

Decomposition, Gauss-Seidel Method

System of Non-Linear Equations: Newton-Raphson’s Method

Numerical interpolation: Linear Interpolation, Quadratic Interpolation

Least squares date fitting: Linear Least Squares Approximation

Numerical integration: Trapezoidal rule

Numerical Differentiation

Finite difference and their application: Interpolation using newton –gregory

forward polynomial, Error of Interpolation using newton –gregory backward
polynomial

Numerical solution of Differentiation equations: Euler and modified Euler

Method, Runge-Kutta method

Multistep methods to solve Differential Equations: Adams-Moulton method

Basic probability concepts, Random variables and probability distributions,

Expectations and moments, Functions of random variables, Some important
discrete distributions, Some important continuous distributions

EE205 – Electromagnetics
Vector analysis; vector algebra, vector components and Coordinate systems;
Coulombs law and electric field intensity; Electric flux density, Gausses law and
divergence; Energy and potential; Conductors, dielectric and capacitance;
Electrostatic fields; Electromagnetic field; Maxwell's equation.

EE206 - Electronics I
BJT operation; Biasing techniques for stabilizing Q-point, in BJTs; BJT
equivalent circuits: h–Parameter model, π- model and Ebers-Moll model; FET

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
operation; Biasing techniques for stabilizing Q-point, in FETS; FET equivalent
circuits; Constant current source and level shifter Single and multi stage
amplifiers; Power amplifier: class A, class B and class C amplifier; Tuned
amplifier; SCR & UJT; Logic gates design; IC fabrication.

EE207 - Electrical Circuits

Two Port Networks, ( Z, Y. H and ABCD) parameters and the relation between
them, inter connected 2-port network; Operational Amplifier, Transfer
characteristic of operational amplifier, its applications and cascaded op. amp.
Circuits; Active Filters, Low pass filter (LPF) design, frequency response for
amplitude LPF, High pass filter (HPF) design, frequency response for amplitude
HPF, Band pass filter (BPF) design, frequency response for amplitude BPF, Band
reject filter circuit and its frequency response for amplitude Band reject filter;
Bode Plot, K gain factor, Integral and Derivative factors, First order factor,
Second order factor and Frequency response; Routh's Stability Criterion, Locus
Diagram. Mutual Inductance, Three Phase Circuits (balanced and unbalanced),
Transient Analysis of First and Second Order Circuits for dc and ac, Laplace
Transform and its Applications in Circuits Analysis.

EE208 - Electrical Engineering Laboratory

1. Measurement Lab.
2. DC Machines Lab
3. Multisim Lab.
4. Experiments covering material on computer II

GE209 - Mathematics II
Briefed syllabus: Multiple integrals, Infinite sequences and series, Fourier series,
Partial derivatives, first order Ordinary Differential Equations (ODEs), second
order Ordinary Differential Equations (ODEs), Higher Order Linear
Ordinary Differential Equations (ODEs), Systems of Ordinary Differential
Equations (ODEs), Laplace Transforms (one sided).

GE 210 - English II
The course empowers students with the language

GE 211 - Sports

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
Third Year syllabus

EE301 - Antenna & Wave Propagation

Fundamentals of electromagnetic waves and Maxwell’s equations and
introduction to antenna; Isotropic point radiator and antenna parameters: Gain,
efficiency, input impedance, and radiated power; Hertezian Dipole; Loop
antenna; Finite length dipole: λ/4, λ/2, λ ,2λ, Nλ wavelength dipole; Array of
point source; Array factor and pattern Multiplication; Hallen’s equation; Methods
of Moments and solution of Hallen’s equation; Helical antenna; smith chart and
impedance matching; Microstripe patch antenna; Microwave antennas; Reflector
type antenna and radar equation; Electromagnetic waves Fundamentals and wave
equation; Propagation in a lossless medium; Wave propagation in a conducting
medium; Reflection by a perfect conductor; Reflection by a perfect dielectric;
Radio wave propagation and polarization; Ionospheric propagation; Tropospheric
scatter propagation; Ground wave propagations; Space wave and surface wave;
Propagation over a plane earth; Propagation loss and power Budget calculations;
Receiver input power & Receiver noise; Transmission lines; Propagation filters;
Wave guides; Rectangular wave guide: TE, TEM, and TM modes.

EE302 - Electronics II
Basic IC amplifier stages at low frequencies: bias techniques for ICs, Differential
amplifier using BJTs, JFETs and MOSFETs with passive and active loads, output
stages; Operational amplifier characteristic using bipolar and BiMOS circuits;
Frequency response of amplifiers; Feedback amplifier; Op-amp applications:
linear and non
linear applications; Linear oscillators; Wave shaping and waveform generators:
comparators, regenerative comparators, square wave and triangular wave
generators; Multivibrators: Transistor based and IC based Multivibrators; Analog
Multipliers; Phase Locked Loop (PLL).

E303- Engineering Analysis

Briefed syllabus: Signals and systems, Linear time-invariant systems, Fourier
analysis for continuous-time signals and systems, Filtering, Sampling, The
Bilateral Laplace transform, Z-transform.

EE304 – Electrical Power I

General background; elements of power system; Radial, Parallel, Ring and
interconnected systems; transmission line constants, performance of transmission
line (short, medium and long), general 2 port constants (ABCD constants); power
circle diagram; Corona; overhead transmission line insulators; sag and stress

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Department of Electrical Engineering
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calculation; conductors types and performance of underground cables; economic
operation of power system.

EE305 - Electrical Machines II

1. Introduction to machinery principles
2. AC machinery principles: generation of alternating emf, MMF of distributed
windings in AC machines, MMF of distributed windings in AC machines,
rotating mmf waves in AC machines,
3. Synchronous generators: construction, synchronous generator equivalent
circuit and phasor diagram, power and torque, measuring model parameters,
synchronous generators operating alone, parallel operation of synchronous
generators and effect of salient poles
4. Synchronous motor: principle of operation and equivalent circuit, steady state
synchronous motor operation, torque –speed characteristics, effect of load
changes, effect of field current changes, the synchronous capacitor and starting
of synchronous motor
5. Three phase induction motor: construction and basic concepts, equivalent
circuit of three phase induction motor, power and torque of three phase induction
motor, torque speed characteristics of three phase induction motor & starting of
three phase induction motor, speed control of three phase induction motor,
determination circuit model parameters of three phase induction motor and the
three-phase induction generator
6. Single phase induction motor: revolving field theory and cross field theory,
starting of single-phase induction motor, the circuit model of single-phase
induction motor and other types of motors: reluctance motor, stepper motor.

EE306 - Communications I
Signals; Amplitude Modulation: (Normal AM, DSB-SC, SSB-SC, VSB and
QAM) modulator and demodulator, AM Heterodyne receiver; Frequency
Modulation: NBFM, WBFM, FM detection methods (PLL, zero crossing and
frequency discriminator ). FM Heterodyne receiver; Frequency Division
Multiplexing (FDM); Noise: Thermal noise, noise in AM and noise in FM.
Discrete modulation; Digital modulation; Baseband modulation: PCM, Noise in
PCM and probability of error in PCM; DM and ADM. Time Division
Multiplexing (TDM); Band pass digital communication: OOF, ASK,
(PSK,BPSK,QPSK, 8PSK,16PSK), FSK, NCPFSK and CPFSK and (QAM,
8QAM, 16 QAM……. 256 QAM); B.W in digital systems; Introduction to
OFDM;

EE307 - Electrical Engineering Laboratory

1. AC Machines Lab.

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Department of Electrical Engineering
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2. Electronics Lab.
3. MATLAB Lab.

EE308 - Advanced Microprocessor

Pipeline, Instruction level parallelism processors. Pentium processors. Advanced
assembly language, BIOS system interrupt and BIOS function calls. Cache
memory. DMA, Serial RAM, Flash RAM, Parallel processing, parallel
computing, DFS: file allocation table (FAT), media format, hard drive, hard
media, sector, cluster, track, CD/DVD drive, media, format (FAT, FAT32,
NTFS), Remote data exchange devices: (Bluetooth, IR, Other adapters). Special
purpose processor, new processor: (Mobile processor, monitoring processor).
Exploring new advances and technologies in microprocessor.

EE309 - Control System Design I

Introduction to control engineering and definitions of basic concepts of control
systems, open-loop closed-loop control systems and their differences.
Different examples of control systems, classification of control systems, feedback
characteristics and effects of feedback.
Mathematical modeling of dynamic systems: introduction, transfer function,
Impulse-response function, automatic control systems
Mathematical models of physical systems: differential equations of physical
systems, mechanical translation systems and gear trains.
Mathematical models of electrical systems.
Derivation of transfer functions.
Block diagram algebra
Signal flow graphs.
Mason’s gain formula
Feedback characteristics of control system: effect of negative feedback on
sensitivity, bandwidth, disturbance, linearization effect of feedback.
Control components: servomechanisms.
Time-domain analysis: Time domain performance criteria, characteristic
equation of feedback control systems, transient response of first order systems.
- Transient response of second order systems.
- Transient response of higher order systems.
- Steady-state error and static error constant in unity feedback control system,
error criteria, generalized error constant.
- Time domain specifications.
- Stability analysis in s-domain: stability and algebraic criteria, concept of
stability necessary conditions of stability.
- Routh’s stability criterion.
- Application of Routh’s criterion to linear feedback system, Relative stability by
shifting the origin in s-plane.

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Department of Electrical Engineering
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Root locus technique: root locus concepts.
Rules of construction of root locus.
Determination of roots from locus of specified open-loop poles and zeros, effect
of adding open-loop poles and zeros on root locus.
Frequency Domain Analysis: Frequency domain specifications.
- Logarithmic plots (Bode plots).
- Example of Bode plots of a control system.

GE 310 - Sports

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
Fourth Year syllabus

EE401- Control Engineering II

Unit-I
FREQUENCY DOMAIN STABILITY ANALYSIS AND NYQUIST CRITERION:
Introduction for frequency domain stability analysis, Poles and zeros of open loop and closed
loop systems, Nyquist criterion, Nyquist plot, Relative stability.

Unit-II
DESIGN OF FEEDBACK CONTROL SYSTEMS: Introduction to design – compensation
techniques – P, PI, PD and PID controllers - Lead, Lag and Lead - Lag compensation. Design
of Lead, Lag and Lead-Lag compensators in time domain using root locus and in frequency
domain using Bode diagrams. Design of P, PI, PD and PID controllers. Zeigler-Nichols method
of tuning PID controllers.

Unit-III
NON LINEAR SYSTEMS: Introduction to nonlinear systems, Types of nonlinearities,
describing functions, describing function analysis of nonlinear control systems.

Unit-IV
SYSTEM MODELLING USING STATE VARIABLES APPROACH FOR
CONTINUOUS TIME SYSTEM: Concept of state, state variable, state vector and state
space. State variable representation of continuous time systems, transfer function from the state
variable model- state variable model from transfer function –Bush or companion form –
controllable canonical form –observable canonical form – Jordan canonical form –
Diagonalization - state diagram.

Unit-V
STATE VARIABLE ANAYSIS FOR CONTINUOUS TIME SYSTEM: Solution of linear
time invariant state equation – state transition matrix – properties - computation of state
transition matrix by Laplace, state transition matrix and Cayley Hamilton theorem. Response
of homogeneous and non homogeneous systems. Tests for controllability and observability for
continuous time systems – Time varying case, minimum energy control, time invariant case,
Principle of Duality.

Unit-VI
DESIGN OF MODERN CONTROL SYSTEMS: Pole-placement design, State observer
design, Equivalent frequency-domain compensator, Reduced-order observer.

EE402 - Engineering Project

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
Prepared by the academic staff.

EE403 – Digital System Design (DSD)

Sequence generators: design and applications; Analysis and design of
synchronous state machines; Analysis and design of asynchronous state
machines: timing problems in sequential logic circuits; A/D and D/A converters:
types of error in converters, circuits, design of open-loop and feedback
techniques; Logic families: principles and characteristics of different logic
families (TTL, ECL, MOSFET, and I2L); Semiconductor memory circuits:
memory classification, memory architecture, implementation and applications;
Programmable Logic Devices (PLDs): principles and design of array logic
circuits, mask and field PLDs, sequential PLDs, complex PLDs, VLSI FPGAs;
Hardware design of microcomputers.

EE404 - Communications II
Information Theory, Source of information, Entropy, Channel capacity, Source
Coding Theorem, Mathematical model of information source, Huffman coding,
Shannon-Fano codes, Types of errors, Data compression. Channel Coding,
Taxonomy of codes, Spread Spectrum Systems: Introduction, Types of Spread
Spectrum Techniques, Direct sequence spread spectrum, Frequency hop spread
spectrum, Hybrid direct sequence/frequency hop spread spectrum, &
Representation of spread spectrum systems; General Principles of CDMA,
CDMA Transmission Channel Models, Examples for CDMA Systems. Wireless
Ad-hoc Networks: Introduction to Ad hoc networks, MAC in Ad hoc network,
Routing in Ad hoc network, Clustering in Ad hoc network, Power control in Ad
hoc network, QoS of Ad hoc network, Applications of Ad hoc networks; Mobile
Communication Systems: The Cellular Concept System, Design Fundamentals,
Frequency Reuse, Channel Assignment Strategies, Handoff Strategies,
Interference and System Capacity, Trunking and Grade of Service, & Improving
Capacity in Cellular Systems.

EE405 - Electrical Power II

Evolution of electric power systems; Power system representation; Per unit
system; Balanced and unbalanced faults, Symmetrical fault calculations.
Symmetrical components, Unsymmetrical faults; Synchronous machine in power
system; Power system stability; Power system load flow problems. Direct
methods involving inversion of the nodal admittance matrix, iterative methods
Gauss-Seidal method, Newton Raphson method; Power system protection
including generator protection, transformer protection, and transmission line
protection, different types of relay construction and operation. Grounding types.

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018

EE406 - Power Electronics and Special Machines

Power and Electronics Relationships: Introduction to Power Semiconductor
Devices: Thyristors; Triac; Diac; GTO; BJT; IGBT; MOSFET; Optocouplers.
Types of firing circuits; Pulse transformers; Free Wheeling Diode; Snubber
circuits; thyristor cooling. Converters: series and parallel connection of
Thyristors, Thyristor Valves; controlled and uncontrolled Rectifiers; single and
three-phase. Force Commutated; Line Commutation Overlap Circuits.
Harmonics in Converter Circuits: Methods of Reducing Harmonics PWM
Harmonics Calculation. DC to AC PWM Inverters: single and three-phase; UPS.
DC choppers and SMPS. AC to AC converters: AC Voltage Controllers;
Cycloconverters. Introduction to speed control of DC and AC machines.
Introduction to the principles of operation of the following types of machines;
Single-phase series motor; Stepper and Servo motors. Shaded-Pole-Motors;
Reluctance Motor; Permanent Magnet Machines; Solid Rotor Machine; Duel Fed
Induction Machine; Model of High power small size Machines using Nano
technology materials.

EE407 - Computer Networks

Introduction to Computer Network, OSI model, Data flow in OSI model,
Introduction to the TCP\IP model, Performance: Bandwidth, Throughput,
Latency, Processing time, transmission time, Propagation time, Queuing time.
Physical Layer, Data Link Layer, Network Layer, Transport Layer, Application
layer, Introduction to Queuing Theory (Little's Law, m\m\1 queue, Scheduling:
FIFO, Priority, Round Robin and Waited Fair Queuing WFQ), Introduction to
Network Security.

EE408 - Electrical Engineering Laboratory

1. AC Machines Lab.
2. Control Lab.
3. Electronics Lab.
4. Power Electronics Lab.

EE 409 - Digital Signal Progressing (DSP)

Definition; Introduction to digital signal processing; scope of DSP; types of
response; sampling and A/D conversion; basic types of digital signals; Linear-
Time-Invariant (LTI) systems; impulse response of the systems; linear
convolution; difference equation; Discrete Fourier Series (DFS); periodic
convolution, properties of DFS; Discrete Fourier transform (DFT); circular
convolution; properties of DFT; frequency response of LTI systems; inverse of

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
DFT; Fast Fourier Transform (FFT); Analog filter Design; type of filter
responses; Butterworth and Chebyshev filters;; design procedure; Digital Filter
Design; Infinite Impulse Response (IIR) filter design; Design of IIR using
bilinear transformation; design of IIR using digital transformation; Finite
Impulse Response (FIR) filter design; design of FIR using window method;
applications of IIR and FIR filters; introduction to Orthogonal Frequency
Division Multiplexing (OFDM); applications of DSP;

GE 410 - Sports

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018

M.Sc. Course Subjects: All Fields

No. Course Power and Course Electronics and Course Computer and
Number Machines Number Communication Number Control
1. EE 501 Generalized EE 522 Microelectronics EE 541 Optimal Control
Machine Engineering
Theory
2. EE 502 Machine EE 523 Nano Technology EE 542 Digital Control
Design and applications Systems
3. EE 503 Power EE 524 Reversible and EE 543 Non-Linear
Electronics Quantum Control
Computing
4. EE 504 AC. and DC. EE 525 Advanced Digital EE 544 Robust Control
Drives System Design
(ADSD)
5. EE 505 Special EE 526 Digital EE 545 Image Processing
Purpose Communication I
Machines
6. EE 506 Power System EE 527 Digital EE 546 FPGA
Components Communication II
Modeling
7. EE 507 Power System EE 528 Data EE 547 Petri-Net
Control Communication Technique
and Networks
8. EE 508 Power System EE 529 Optical and satellite EE 548 Advanced
Dynamics Communications Operating
Systems
9. EE 509 Power System EE 530 Optoelectronics EE 514 Optimization
Protection Engineering Techniques
10. EE 510 Power System EE 531 Microwave and EE 515 Modern Control
Reliability Telecommunication Theory
Engineering
11. EE 511 Power System EE 532 Advanced Digital EE 532 Advanced Digital
Stability Signal Processing Signal Processing
(ADSP) (ADSP)
12. EE 512 Reactive EE 533 Advanced EE 533 Advanced
Power Computer Computer
Control Networks Networks
(R.P.C.)
13. EE 513 Optimal EE 534 Wireless Networks EE 534 Wireless
Power Flow Networks
14. EE 514 Optimization EE 535 Mobile EE 535 Mobile
Techniques Communication Communication
System System
15. EE 515 Modern EE 536 Statistical DSP EE 536 Statistical DS
Control
Theory

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Department of Electrical Engineering
Academic Year 2017-2018
16. EE 516 Computer EE 537 Advanced EE 537 Advanced
Aided Design Microprocessors Microprocessors
in Power
System
17. EE 517 Artificial EE 538 Embedded System EE 538 Embedded
Intelligence Design System Design
(A.I.)
18. EE 518 Expert EE 517 Soft Computing EE 517 Soft Computing
Systems
19. GE 519 Mathematics GE 540 Advanced GE 540 Advanced
Mathematics Mathematics
20. GE 520 English (1st GE 520 English (1st GE 520 English (1st
Semester) Semester) Semester)
21. GE 521 English (2nd GE 521 English (2nd GE 521 English (2nd
Semester) Semester) Semester)
22. EE 541 RF Circuit Design
I
23. EE 542 RF Circuit Design
II

Note: SIX subjects plus English will be selected for each Semester.

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
M.Sc. Course Subjects: All Fields
1st Semester 2017-2018
No. Course Power and Course Electronics and Course Computer and
Number Machines Number Communications Number Control
1. EE 501 Generalized EE 525 Advanced Digital EE 533 Advanced Computer
Machine System Design Networks
Theory (ADSD)
2. EE 515 Modern EE 526 Digital EE 541 Optimal Control
Control Communication I Systems
Theory
3. EE 503 Power EE 541 RF-Circuit Design I EE 547 Petri-Net Technique
Electronics

4. EE 514 Optimization EE 514 Optimization EE 514 Optimization

Techniques Techniques Techniques
5. GE 540 Advanced GE 540 Advanced GE 540 Advanced
Mathematics Mathematics Mathematics
6. EE 511 Power EE 536 Statistical DSP EE 536 Statistical DSP
System
Stability
7. GE 520 English (1st GE 520 English (1st GE 520 English (1st Semester)
Semester) Semester)

‫ للفصل الدراسي الثاني‬2017-2018 ‫للعام الدراسي‬

M.Sc. Course Subjects: All Fields
2nd Semester 2017-2018
No. Course Power and Course Electronics and Course Computer and
Number Machines Number Communications Number Control
1. EE 509 Power System EE 534 Wireless Networks EE 534 Wireless
Protection Networks

2. EE 504 AC. and DC. EE 530 Optoelectronics EE 537 Advanced

Drives Engineering Microprocessors
3. EE 542 Digital Control EE 531 Microwave and EE 542 Digital Control
Systems Telecommunication Systems
Engineering
4. EE 512 Reactive EE 524 Reversible and Quantum EE 546 FPGA
Power Control Computing
(R.P.C.)
5. EE 505 Special EE 542 RF Circuit Design II EE 543 Non-linear
Purpose Control
Machines
6. EE 517 Artificial EE 530 Optoelectronics EE 517 Artificial
Intelligence Engineering Intelligence
(A.I.) (A.I.)
7. GE 521 English (2nd GE 521 English (2nd Semester) GE 521 English (2nd
Semester) Semester)

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018

PhD. Course Subjects: All Fields

Course Power and Course Electronics and Course Computer and

No.
Number Machines Number Communication Number Control
Advanced Advanced Advanced
1.GE601 GE601 GE601
Mathematics Mathematics Mathematics
Advanced
Computer
2. EE602 Applied EE621 Adaptive DSP EE635
Security Course
Electromagnetics
Advanced Advanced Optical EE636 Computer
3. EE603 EE622
Electrical Drive Communications Vision
Advanced Advanced Mobile
4. EE604 Electrical EE623 and Communications EE637 Multimedia
Machines and Networking
Advanced Power Optimization EE638
5. EE605 EE624 Multi rate DSP
Electronics Techniques
Flexible A.C.
Coding and data EE610 Nonlinear
6. EE606 Transmission EE625
compression Control System
System (FACTS)
Generalized
Research EE639 Optimal Control
7. EE607 Machine Theory EE626
Methodology Theory
II
High Voltage Adaptive Signal Discrete Event
8. EE608 EE627 EE640
Engineering Processing Simulation
Nonlinear Control Advanced digital EE621
9. EE609 EE628 Adaptive DSP
System system design
Optimal Power Advanced Photonic EE641 Fractional
10. EE610 EE629
Flow Engineering Control
Reversible &
Power Plant EE642
11. EE611 EE630 Coding theory Quantum
Control
Computations
Power System EE643 Pattern
12. EE612 Pattern Recognitions EE643
Operation Recognitions
Power System EE644 System &
13. EE613 EE631 Digital IC design
Planning Identification
Advanced
14. EE614 Reactive Power EE632 Image Radar
Control
Microwave Device +
15. EE615 Soft Computing EE633 Wireless
Communications
Multirate Digital
16. EE616 The Smart Grid EE634
Signal Processing
High Voltage
17. EE617
Direct Current

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018
Transmission
(HVDC)

Multivariable and
18. EE618 Robust Control

English (1st English (1st English (1st

19. GE 619 GE 619 GE 619
Semester) Semester) Semester)
English (2nd English (2nd English (2nd
20. GE 620 GE 620 GE 620
Semester) Semester) Semester)

Notes:
1. SIX subjects plus English will be selected for each Semester. The PhD
study is suspended for this academic year and will be resumed soon

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018

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 College of Engineering
Department of Electrical Engineering
Academic Year 2017-2018

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