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Department of Electrical Engineering The department was first established in 1950 to award B.Sc. degrees in electrical engineering to specialized engineers to work in different fields like electricity generating stations and electrical network or wired and wire den communication system. The department award B.Sc. degree often a 4-years program. The department award M.Sc. degree often 2 years program often the B.Sc. degree.
The heads of the department
No. Name Date 1. Dr. Sirous Dano 1951-1960
2. Dr. Jalal AL-Salhi 1961-1963
3. Dr. Sirous Dano 1963-1967
4. Dr. Salah AL-Samari 1967-1969
5. Dr. Nazar Al-Wafi 1969-1969
6. Dr.mothana Coba 1969-1970
7. Dr.Taha Al-Naami 1970-1973
8. Dr. Nazar Al-Wafi 1973-1975
9. Dr.Mohammed Al- Hakak 1975-1980
10. Dr.Ali Al-killidar 1980-1982
11. Dr.Jafaar Alwash 1982-1986
12. Dr.Salih Al-Aragi 1986-1989
13. Dr.Ali Al-killidar 1989-2001
14. Dr.Nihad Al-Rawi 2001-2003
15. Dr.Kais Saaed Al-Sabaak 2003-2005
16. M.Sc. Solaman Abas 2005-Present Time
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Staff of the Electrical Engineering Department
Scientific Degree General Specialty Name No.
Ph.D., Prof. Communications Nazar.K.AL-Wafi 1.
Ph,D., Prof. Dean of the College
Power Ali A.AL-Kiliddar 2.
Ph.D., Prof. Machines Jafer.Alwash 3.
Ph.D., Prof. Control Ismaiel.Abduliah 4.
Ph.D., Prof. Computer Baqer.AL-Hashmi 5.
Ph.D., Prof. Electronics Saleem.Ridha 6.
Ph.D., Prof. Power Nuhad.AL-Rawi 7.
Ph.D., Prof. Communications Waleed.AL-Jawher 8.
M.Sc., Assist. Prof.(Head of the Department)
Electronics Sulaiman.M.Abbas 9.
M.Sc., Assist. Prof. Power Hassen.Kubba 10.
M.Sc., Assist. Prof. Machines Mahde.Ibrahim 11.
Ph.D., Assist. Prof. Power Mohammed.Hadi 12.
M.Sc., Assist. Prof. Mathematics Omer.Mohammed 13.
Ph.D., Assist. Prof. Power Ali.Mutasher 14.
Ph.D., Assist. Prof. Communications Tariq.Zeyad 15.
M.Sc., Assist. Prof. Electronics Nuhea.A.Sahib 16.
Ph.D., Lect. Electronics Sadeq.Jassim 17.
M.Sc., Lect. Computer and Control Dia.Jassim 18.
M.Sc., Lect. Computer and Control Nazar.Hadi 19.
Ph.D., Lect. Computer Zaneb.Tawfeeg 20.
Ph.D., Lect. Power Firas.Mohammed 21.
Ph.D., Lect. Power Electronics Fadhel.Abbas 22.
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Scientific Degree General Specialty Name No.
M.Sc., Assist. Lect. Computer Thamer.Mousa 23.
M.Sc., Assist. Lect. Computer and Control Tagred.M.Ali 24.
M.Sc., Assist. Lect. Power and Machines Bassem. M.Jassim 25.
M.Sc., Assist. Lect. Mathematics Nethail.M.Humadi 26.
M.Sc., Assist. Lect. Electronics and Communications
Faiz.Diab 27.
M.Sc., Assist. Lect. Computer and Control Mostafa.A.Jabbar 28.
M.Sc., Assist. Lect. Power and Machines Hanain.Michael 29.
M.Sc., Assist. Lect. Nuclear Enas.Hamed 30.
M.Sc., Assist. Lect. Power and Machines Ahmed.Muhsen 31.
M.Sc., Assist. Lect. Computer and Control Ndia.Qassim 32.
M.Sc., Assist. Lect. Electronics and Communications
Mohammed.Nadhum 33.
M.Sc., Assist. Lect. Electronics and Communications
Ali.T.Shaheen 34.
M.Sc., Assist. Lect. Computer and Control Ahmad.Freidoon 35.
M.Sc., Assist. Lect. Electronics and Communications
Murtadha.Jawad 36.
M.Sc., Assist. Lect. Electronics and Communications
Ismaieel.Shanan 37.
M.Sc., Assist. Lect. Electronics and Communications
Saifuldeen.A.Mohammed
38.
Engineering Staff
No. Name 1. Azhar Aziz 2. Shatha Akram 3. Hala A.Aziz 4. Nawal A.Jaber 5. Shroq Faisal 6. Salam Jassim Mohammed 7. Salam Jassim Naseef 8. Raied Fuad 9. Noor Ahmaed 10. Nafal Samir
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No. Name 11. Nukui Kadhim
12. Lala Jawad
13. Huda Manhi
14. Shahad Mujeeb
15. Maysoon A.Gahi
16. Widad A.Aziz
17. Farah Mahdi
18. Aliaf Sadi
19. Taqreed Jabbar
20. Ensaf Jassim
21. Nadhal M.Ali
22. Mohmood Theeb
Technical Staff
No. Name 1. Faris Mustafa 2. Amil Tarish 3. Raeeda Jabbar 4. Salma Kadhem 5. Eklas A.Razak 6. Balsam Mahdi 7. Najat Hadi 8. Ahlam Shkara 9. Emad Ahmaed 10. Ahmead Ubeid 11. Zahra Muslem
Administration Staff
No. Name 1. Shatha Kadhem 2. Wiam Qasim 3. Seenai Hmoud 4. Senai Ghazi
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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 1st Semester Hours/Week
2nd Semester Hours/Week
Code Subject Units Theo. Tuto. Lab. Theo. Tuto. Lab.
EG101 Mathematics I 6 3 1 - 3 1 - GE102 Computer Science 4 1 1 2 1 1 2
GE103 English Language 4 2 - - 2 - -
EE104 Fundamental of mechanical Engineering
4 2 1 - 2 1 -
EE105 Engineering Drawing 2 - 1 2 - 1 2
EE106 Electrical Engineering laboratory
2 - 1 2 - 1 2
EE107 Fundamentals of Electrical Engineering
6 3 1 - 3 1 -
EE108 Solid State Electronics 6 3 1 - 3 1 - EE109 Digital Techniques 4 1 1 - 1 1 2 GS110 Freedom and
Democracy 2 1 1 - 1 1 -
Total 40 16 7 8 16 7 10
Total hours per week 31 33
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SECONDE YEAR 1st Semester Hours/Week
2nd Semester Hours/Week
Code Subject Units Theo. Tuto. Lab. Theo. Tuto. Lab.
EG202 Architecture 4 1 1 2 1 1 2
GS203 Human Rights 2 1 1 - 1 1 -
EE204 Electrical Machines I 4 2 1 - 2 1 -
EE205 Numerical Methods 4 2 - - 2 - -
EE206 Theory of Electromagnetic Field
4 2 1 - 2 1 -
EE207 Electronics I 4 2 1 - 2 1 - EE208 Electric Circuits 6 3 - - 3 - - EE209 Electrical Engineering
laboratory 6 - - 6 - - 6
GE210 Mathematics II 6 3 1 - 3 1 -
Total 40 16 6 8 16 6 8
Total hours per week 30 30
THIRD YEAR 1st Semester Hours/Week
2nd Semester Hours/Week
Code Subject Units Theo. Tuto. Lab. Theo. Tuto. Lab
.
EE301 Antenna and Propagation
6 3 - - 3 - -
EE302 Electronics II 6 3 1 - 3 1 - EE303 System Analysis 4 2 1 - 2 1 -
EE304 Electrical Power I 4 2 1 - 2 1 - EE305 Electrical Machines II 4 2 1 - 2 1 -
EE306 Communication and Noise
6 3 1 - 3 1 -
EG307 Electrical Engineering laboratory
6 - - 6 - - 6
EG307 Economics 2 1 1 - 1 1 -
EE308 Computer Networks 2 1 1 - 1 1 -
Total 40 17 7 6 17 7 6
Total hours per week 30 30
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The Syllabus The following is the syllabus of the subjects in the department curriculum.
FIRST YEAR GE 101 Mathematics Functions (domain, range, operations , fast drawing), Limits (continuity, derivative, integration), Trigonometric functions & their inverse , Areas , volumes, & other integration applications, integration methods, determinants , matrices , vector, & complex numbers.
GE 102 Computer science Programming by C: Identifiers, variables, functions ,types, expressions, statements, input and output, functions, calling functions, values assignment, arithmetic operations, justification and precision, input and output formats, macros definition, functions with arguments, logical values and relational operators, control statements, , prefix and postfix operators ,character I/O getchar, putchar , selection statements (if- and if-else), conditional operator, switch and break statements, dealing with menus, logical operators, bitwise operators, comma operator, continue statement, arrays (1D,2D and character), pointers, files( sequential and random), introduction to object-oriented programming.
FOURTH YEAR 1st Semester Hours/Week
2nd Semester Hours/Week
Code Subject Units Theo. Tuto. Lab. Theo. Tuto. Lab.
EE401 Control 6 3 - - 3 - -
EE402 Engineering Project 4 1 - 3 1 - 3
EE403 Electronics III 6 3 - - 3 - -
EE404 Communication II 6 3 1 - 3 1 -
EE405 Electrical Power II 4 2 1 - 2 1 -
EE406 Machines and Power Electronics
4 2 - - 2 - -
EG407 Microprocessor and Microprocessor Interface
4 2 1 - 2 1 -
EG408 Electrical Engineering laboratory
6 - - 6 - - 6
Total 40 16 3 9 16 3 9
Total hours per week 28 28
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EE 104 Fundamental of mechanical engineering STATICS, Forces:, Equilibrium, Friction: Moment of inertia:, parallel axes theorem, 2nd moment of area by integration, radius of gyration moment of inertia of composite area -DYNAMICS, Absolute motion: Relative motion, Kinetics: THERMODYNAMICS, Active materials & their specification, Open & closed system , Flow process. EE 105 Engineering drawing See Mechanical Engineering Department EG 106 Electrical engineering laboratory Experiments covering material on fundamentals of electrical engineering. EG 107 Fundamentals of electrical engineering Basic concepts, analysis of D.C. circuits, Alternating Quantities, Resonance circuits, magnetic circuits. EG 108 Solid state electronics Electron ballistics, Atomic structure , Photons and Quantum theory, Physics of semiconductors, P-N junction :operation and characteristics, capacitances in diode, Diode applications (rectifiers, clipping circuits, clamping circuits),filters and smoothing circuits, Light-emitting diode, Tunnel diode, solar cells, backward diode, shottky diode, PIN diode. EG 109 Digital Techniques Introduction to digital techniques, system of numbers, numbers base conversions, Binary representation of signed numbers: Binary arithmetic’s, logic gates, Boolean algebra: canonical and standard forms , Karnough map, arithmetic operations, code conversion, multiplexer, demultiplexer, decoder, encoder, Sequential logic circuit, counters and shift registers. GE 103 English Language
SECONDE YEAR GE 101 Mathematics II
Vectors in 3-space and in n-space, linear dependence, the scalar and vector products, and linear independence, scalar and cross products , radar functions, velocity and acceleration and the unit radios T.N.B., Functions of several variables limit,continuity,chain rules. Multiple
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integrals, volumes, surface area, integrals in general coordinator systems, line and surface integrals, Green’s theorem, sequence and series, several lets of convergence power series and Taylor series,fourier series, vector fields, ordinary differential equations, of the first and second order. GE 202 Computer architecture & operating systems Introduction to computer system, system organization, the microprogramming level, the conventional machine level, the operating system machine level. EE 204 Electrical Machines I Generators, D.C Motors, Transformer (single phase and three phases).
EE 205 Numerical Methods Error, Solution of non-linear equations, Solving sets of linear equations-matrix notation, solving set of set of nonlinear equations, , Numerical interpolation, Numerical differentiation and integration, solving set of system of nonlinear equations. EE 206 Theory of electromagnetic field Coordinate system analysis, electric field analysis, and Maxwell’s equation. EE 207 Electronics I BJT stability: biasing techniques for stabilizing Q-point; BJT equivalent circuits, FET: operation, equivalent circuits, Multi-Two stage amplifier, Class-C-amplifier, Tuned amplifier, SCR & UJT, Introduction to semiconductor laser, Basic IC biasing techniques. EE 208 Electric Circuits Transient Analysis (t-domain, D-operator's-domain) , Stability, Frequency response, Bode plot, 2-port networks, transmission line, Operational Amplifier, Active Filters, Three-phase system. EE 209 Electrical engineering laboratory Experiments covering material on AC circuit, logic gates, D.C. machines, and electronic circuits
THIRD YEAR EE 308 Computer Networks Network Communication, Network Topologies, network types, network reference model (network protocols), OSI reference model & its
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layers , TCP / IP reference model & its layers , Routing & Routing algorithms, network performance. EE 302 Electronics II ANALOG ICs, Basic IC amplifier stages at low frequencies, application to CMOS and BiMOS circuits, Differential amplifier using BJTs, JFETs and MOSFETs with passive and active loads, Frequency response of amplifiers, Feedback amplifier, ., Operational amplifier characteristic:-using bipolar and BiMOS circuits, Analog Multipliers, Op-amp applications: analog computers, log and exponential amplifiers. Linear oscillators, Multivibrators. EE 305 Electrical Machines II Three phase induction motors-3-phase a/c winding-the rotating electromagnetic field-the equivalent circuit-performance, other modes of operation-starting, Single phase induction motors-main and auxiliary windings-the doubt revolving field theory -the equivalent circuit-performance calculations, Three phase synchronous machines-basic theory of operation –voltage & torque equations for cylindrical rotor machines -voltage & torque equations for salient pole machines. Methods of starting synchronous motors. EE 306 Communications I Analogue modulation and digital modulation techniques with noise effect on both types. EE 307 Electrical engineering laboratory Experiments on material given in courses electronics ,machines ,communications. EE 301 Antenna & Propagation Antanna, Wave propagation Maxwell’s equation and electromagnetic waves in free space, guided waves. EE 303 System Analysis Linear systems, analysis by Fourier series-trigonometric Fourier series-exponential Fourier series-Fourier series of discrete data-application, Fourier transform and applications, Laplace transformation-Laplace transform-inverse Laplace transform-applications, Z-transform, inverse Z-transform-applications, Complex variables, state variables, complex variables, Partial differential equations.
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EE 304 Electrical Power I general background, elements of power system, Radial, Parallel circuit system, Ring, Interconnected systems, transmission line constants ABCD, Corona, types and performance of insulators, conductors types and performance of underground cables. Statistic and economic engineering Statistic: Introduction, counting, probability, random variables, discrete distributions, some distributions of continuous variables, variables and graphs, curve fitting and it’s the method of least squares, correlation theory, multiple and partial correlation ,Economic replacement model, cost control and quality control, basic methods of engineering economic studies. Summer Training
FOURTH YEAR EE 401 Control Mathematical representation of control system, , Block diagram & B.D reduction, Multivariable systems and transfer matrices, Revision of Laplace transform & inverse Laplace transform, Time domain analysis of system response, transient response, Routh –Harwitz stability criterion, The root –locus method, Frequency domain analysis of control system, Bode diagram, Polar plots, Nyquist stability criterion, frequency response, Root locus approach to control system design, ),Cascade compensation using frequency response plots, , Nonlinear control system analysis by describing function, Discrete-time control systems, Time response of sampled data control systems, stability of sampled data systems, PID controllers analysis and tuning, analysis of control system in state space. EE 402 Engineering Project Theoretical or experimental investigation of a problem of applied nature in electrical engineering or related areas. The group should submit a dissertation on the project which is discussed before staff committee. EE 403 Electronics III Sequence generators design and analysis of synchronous state machines, design and analysis of asynchronous state machines timing problems A/D and D/A converters principles and characteristics of different logic families Semiconductor memories, Some types of array logic circuits, PLA, FPLA, PAL, FPGA, Hardware design of microcomputers.
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EE 405 Electrical power II Power system representation, the per unit system, Balanced and unbalanced faults,-symmetrical fault calculations, symmetrical components, unsymmetrical faults. Power system dynamics, synchronous machine in power system, steady state stability, transient & dynamic, power system load flow problems, direct methods involving inversion of the nodal admittance matrix, iterative methods gauss-seidal method ,Newton Raphson method, convergence Protection-current transformer, different types of relays, circuit breakers. EG 408 Electrical engineering laboratory Experiments on material given in courses power electronics, control, electronics, machines. Machines and power Electronics Power Electronics, Types of material, Convertors, Harmonics in convertor, Application of thrusters, Machines, Single phase series motor, Schrage motor. EG 407 Microprocessor and microprocessor interface Part A: Introduction to the up, the up and its architecture, addressing modes, data movement instruction, arithmetic and logic instructor, program control instruction, programming the up, Part B: up chips and buses, examples up chip, examples of buses, interfacing. EE 404 Communication II Measure of Information, Information content of a message, Encoding of the source, capacity of discrete memory less channels, channel coding, viterbi algorithm (optimum decoding), basic construction of a satellite, the transponders of a satellite, type of waveforms of the satellite communication, direct sequence spread spectrum, frequency hopped spread spectrum, what is the internet, connecting to the internet, the world wide web, the basic of the local area network, Digital signal processing, filtering and transformation.
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Postgraduate Curriculum
M.Sc. Courses; Computer and Control
Units Hours Subject Code
2 2 Mathematic GE 501
2 2 DSP(I) EE 502
2 2 Image Processing EE 503
2 2 Modern Control EE 504
2 2 Data Structure EE 505
2 2 Optimization EE 506
1 1 English GE 507
13 13 Total
2 2 A.I EE 508
2 2 Computer Network EE 509
2 2 Numerical Analysis EE 510
2 2 Digital Control EE 511
2 2 Optimum Filtering EE 512
2 2 DSP(2) EE 502
1 1 English GE 507
13 13 Total
GE 501 Mathematic: PART A Set theory: Mapping; The integrnece; Modulation; Group theory; Semi groups, Groups, Sub groups, Abelian groups, The order of agroup ,The period of an element in a group, Counting principle, Permutation groups, Ring theory, Special classes of rings, Integrals domain, Division rings Fields. GE 501 Mathematic: PART B View of matrix analysis, Matrix functions, Solution of systems of linear equations by state space concept, Solution of systems of second- order differential equations, Solution of systems of non linear equations (time varying system of equation) system, Solution of difference equations, Applications in net works. EE 502 DSP (I) Fast Fourier transform (1D,2D,3D) .Convolution :circular &linear (1D,2D,3D), Wavelet(1D,2D,3D),Real-Solution code, Analogue & digital filtering.
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EE 503 Image Processing Image enhancement, Image restoration, Histogram, Image compression: a-lossless b-lossy, Transformation Fourier -wavelet DCT .Low pass filtering edge detection. EE 504 Modern Control State space representation of system .Transfer function matrix, Solution of the state equation, Properties of state transition matrix, Methods for the determination of the state transition matrix, Realization of Linear systems .Controllability and absorbability, Controller design by state feed back .equivalent systems, Observer design .The separation principle .Transfer function of closed loop systems, Stability analysis .Introduction to linear time varying system.
EE 505 Data Structure Introduction to data structure, Arrays as sequential lit, Stake & queue, Linked list (simple linked list), Graph &binary Tree. EE 507 English Scientific topics in English language. EE 506 Optimization Formulation of optimization problems, Analytical methods for non linear programming, linear programming, Dynamic programming, Iterative methods, for non linear programming.
EE 508 A.I
Fuzzy algebra &fuzzy operations, Fuzzy- based solution of system problem, Fuzzy –based solution of control systems, Neural networks , Neural networks in solution of systems, Neural networks in solution of control systems, Fuzzy neural theory & applications.
EE 509 Computer Network Properties LAN, LAN topologic, WAN, circuit- packet- framer lay, ATM. Routing, Methods Error directional correction codes , Communication cannels , Protocols & protocol architectures , Protocols key functions.
EE 510 Numerical Analysis Solution of non- liner equation, Solution of linear equation, Eigen value problem, Numerical integrate, Differential equations.
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EE 511 Digital Control Problem definition .The sampling process .Data extrapolation .The pulse transfer function .closed loop systems .The modified Z-transform & its inverse .Time response stability analysis .State space representation of discrete-time system .Solution of the state equation .Discretization of continuous - time state equation .Controller design .State estimation. EE 512 Optimum Filtering Linear compiner: single I/p linear combiner with desired res- ponce & error, The derivation of the winner – Hoff equations in matrix form, The Z- Transform in optimum filtering (frequency domain interpretation), Application of optimum filtering, Adaptive differential pulse code modulation (speech coding), AR modeling, Linear predictive coding (LPC), ADPCM for speech coding. EE 502 DSP (II) Introduction to mat lab, I: simulation II: simulink; Fourier transform, Convolution, Correlation wavelet transform, Radon transform 2D&3D. Plots, Numerical solution of differential equation &numerical integration using mat lab, Design simple communication &control system using mat lab .Vector quantization by using: I: Euclidean distance weight function , II: Negative distance weight function. III: Manhattan distance weight function, Compression process of speech signal, clusters.
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M.Sc. Power and Machines
Units Hours Subject Code
2 2 Mathematics GE 501 2 2 Reliability EE 514
2 2 General Theory of Machine EE 515
2 2 Power Electronics EE 516
2 2 Stability EE 517
2 2 Modern Control EE 506
1 1 English GE 507
13 13
Total
2 2 A.I EE 508
2 2 CAD EE 518
2 2 Dynamics EE 510
2 2 Digital Control EE 511
2 2 Protection EE 519
2 2 Special Machines EE 513
1 1 English GE 507
13 13
Total
EE 514 Reliability Probability theory, the most important methods, path tracing methods, Markov process, Fault tree analysis. EE 515 General Theory of Machine Generalized machine theory, Matrix analysis of electrical machines , Matrix representation of D.C machines, Induction machines & synchronous machines. EE 516 Power Electronics Rectifiers (single- phase single diode ,single- phase bridge, Three – phase bridge 3-phase half wave pulse, Converters, single –phase single thryster, Single –phase bridge, 3 phase half wave 6 pulse, 3 phase bridge, 3 phase half wave 6 pulse.
EE 517 Stability Analysis of electrical system operation, General consideration, Practical steady – state stability criteria Steady-state stability of electrical system, Simplified criteria of transient &resultant stability of the simplest electrical system.
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EE 506 Modern Control State space representation of system, Transfer function matrix , Solution of the state equation, Properties of state transition matrix Methods for the determination of the state transition matrix, Realization of Linear systems, Controllability and observability, Controller design by state feed back, equivalent systems, Observer design, The separation principle, Transfer function of closed loop systems, Stability analysis Introduction to linear time varying system. EE 508 A.I Fuzzy algebra &fuzzy operations, Fuzzy- based solution of system problem, Fuzzy –based solution of control systems, Neural networks , Neural networks in solution of systems, Neural networks in solution of control systems, Fuzzy neural theory & applications.
EE 518 CAD Computer modeling of electrical power system elements, Advanced computer methods in load flow studies, Optimal load flow, Network graph, Computer method in stability studies, Sparsity techniques, Storage requirement saving. EE 510 Dynamics Computer modeling of electrical power system elements, Advanced computer methods in load flow studies, Optimal load flow, Net work graph, Computer methods in stability studies, Sparsity techniques, Storage requirement saving. EE 511 Digital Control Problem definition, The sampling process, Data extrapolation, The pulse transfer function, closed loop systems, The modified Z-transform & its inverse, Time response stability analysis, State space representation of discrete-time system .Solution of the state equation, Discretization of continuous- time state equation, Controller design .State estimation. EE 519 Protection
Distance protection of T.L, Differential protection of generator. Transformer, Auto transformer, Bus bar, Carrier protection using T.L of power system. EE 513 Special Machines Fundamental of ferromagnetism permanent magnetic motor, solid rotor motor, the two phase servomotor & tachogenerator, Stepping motor.
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M.Sc. Electronics and Communication
Units Hours Subject Code
2 2 Microelectronics EE 520
2 2 Mathematics GE 501
2 2 DSP(I) EE 502
2 2 Probability EE 516
2 2 DSD EE 517
2 2 Digital Communication (I) EE 521
1 1 English GE 507
13 13
Total
2 2 Optoelectronics EE 508
2 2 Computer Network EE 518
2 2 A.I EE 510
2 2 Optimum Filtering EE 511
2 2 Digital Communication (II) EE 522
2 2 DSP(II) EE 513
1 1 English GE 502
13 13
Total
EE 520 Microelectronics Basic fabrication principles of integrate circuit .Component device design IC .oscillator design transducer design .Switched capacitor filters .ASIC design .BICMOS design .SOI power devices. of equation) system, Solution of difference equations, Applications in net works. EE 502 DSP (I) Fast Fourier transforms (1D, 2D, 3D). Convolution: circular & linear (1D, 2D, 3D), Wavelet (1D, 2D, 3D), Real-Solution code, Analogue & digital filtering. EE 516 Probability Random digital singles, Basic measures of R.S. Random DSP, Response of linear processors. En simple average, Time averages, Finite sequences, Autocorrelation, Cross- correlation.
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EE 517 Advanced Digital System Design Algorithmic state machines: design & principles, Micro processor versus state machine controlled digital systems, Top –down design method of logic circuits, testing & reliable design of logic circuits. EE 521 Digital Communication (I) Element of digital communication system, Modulation & demodulation of digital signal, Principles of detection, Matched filter detection, Characteristics & signal design for band limited channel ( design of band limited signals for no inter simple interference, Partial response channel. EE 508 Optoelectronics Opto. Electronic processes (radiation, transition, optical injection) Opto electronic devices (solar cells, Photo diodes, Hetero structures , Semiconductor, Optical transmitters, Optical receivers. EE 518 Computer Network Properties of LAN, LAN topologics. WAN: circuit- packet- framer lay ATM. Routing, Methods Error detectional correction codes Communication cannels, Protocols & protocol architectures, Protocols key functions. EE 510 A.I Fuzzy algebra &fuzzy operations, Fuzzy- based solution of system problem, Fuzzy –based solution of control systems, Neural networks , Neural networks in solution of systems .Neural networks in solution of control systems, Fuzzy neural theory &applications. EE 511 Optimum Filtering Linear compiner: single i/p linear combiner with desired res- ponce & error. The derivation of the winner – Hoff equations in matrix form, The Z-Transform in optimum filtering (frequency domain interpretation).Application of optimum filtering, Adaptive differential pulse code modulation (speech coding), AR modeling, Linear predictive coding (LPC), ADPCM for speech coding. EE 522 Digital Communication(II) Linear equalization (peak distortion. Mean square error criterion), Non linear equalization (decision feed back equalization), Adaptive equalizer (LMS algorithm), Maximum like LaHood estimation, Viterbi algorithm.
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EE 513 DSP (II) Introduction to mat lab; I: simulation, II: simulink ,Fourier transform, Convolution, Correlation wavelet transform, Radon transform 2D&3D, Plots, Numerical solution of differential equation &numerical integration using mat lab , Design simple communication & control system using mat lab .Vector quantization by using: I: Euclidean distance weight function ; II: Negative distance weight function; III: Manhattan distance weight function, Compression process of speech signal, Clustering.
Finaly the department has six courses in Ph.D. including:
1- Power. 2- Machines. 3- Control. 4- Computer science. 5- Communications. 6- Electronics.