Electrical Engineering    (EE)

 

Course offering in the Second semester 092 ( February 2010 )  :

 

 

EE 200 - Digital Logic Circuit Design (3-3-4)

Number systems & codes. Logic gates. Boolean Algebra. Karnaugh maps. Analysis and synthesis of combinational systems. Decoders, multiplexers, adders and subtractors, PLA's. Types of flip-flops. Memory concept. Counters. Registers. Introduction to sequential circuit design.

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EE 201 - Electric Circuits I (3-3-4)

Basic laws: Ohm's, KVL, KCL. Resistive networks. Circuit analysis techniques: nodal and mesh analysis. Network theorems: Thevenin's, Norton's, source transformations, superposition, maximum power transfer. Energy storage elements. Phasor technique for steady-state sinusoidal response. Important power concepts of ac circuits. Transient analysis of first-order circuits.

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EE 203 - Electronics I (3-3-4)

Diodes: models and circuit analysis. Diode applications (rectifiers and others). Transistors: bipolar junction, junction field effect and metal-oxide-semiconductor field effect (BJT, JFET & MOSFET). DC and small signal AC analysis. Amplifier configurations. Differential Amplifiers. Digital logic families (TTL, ECL, I2L, and CMOS circuits).

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EE 204 - Fundamentals of Electrical Circuits (2-3-3)

(Non EE students)

Basic laws: Ohm's, KVL,KCL. Resistive networks, mesh and node equations. Network theorems. Inductance and capacitance. Sinusoidal analysis and phasor methods. Power concepts of AC circuits. Polyphase circuits.

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EE 205 - Electric Circuits II (3-0-3)

Analysis of three-phase networks. Time domain solutions of second order circuits. State equations for linear circuits. Computer-aided circuit analysis. Frequency domain analysis and Bode plots. Network analysis in the S-domain. Mutual inductance and transformers. Two port networks.

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EE 207 - Signals and Systems (3-0-3)

Fourier series. Fourier transform. Laplace transform. Linear circuits and systems concepts. Impulse response. Convolution. Transfer function. Frequency response. State space representation. Introduction to sampling of analog signals. Introduction to difference equations and z-transform.

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EE 303 - Electronics II (3-3-4)

Amplifier frequency response. Linear and nonlinear op amp applications. Nonideal characteristics of op amps. Multistage amplifiers. Active filters. Feedback: Circuit topologies and analysis. Oscillators.

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EE 306- Electromechanical Devices (2-3-3)

(Non EE-Students)

Magnetic circuits. Transformers. Concepts of electric machines. DC generators and motors operation. 3 phase Induction motors. Motor starting. Synchronous machines. Parallel operation. Fractional Horsepower Motors.

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EE 315 - Probabilistic Methods in Electrical Engineering (3-0-3)

Fundamentals of probability theory. Single and multiple discrete and continuous random variables. Probability density function. Gaussian and other distributions. Functions of random variables. Joint and conditional probabilities. Moments and statistical averages. Central limit theorem. Random processes. Stationarity and ergodicity. Correlation function. Power spectrum density. Gaussian and Poisson random processes. Response of linear systems to random signals.

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EE 340 - Electromagnetics (3-3-4)

Coulomb's law. Gauss's law. Electric potential. Electric boundary conditions. Electric dipoles. Resistance, capacitance. Laplace's equation, Biot-Savart law, Ampere's law. Scalar and vector potentials. Magnetic boundary conditions, inductance. Time varying fields, Maxwell's equations. Plane wave propagation. Reflection and refraction. Poynting vector. Introduction to transmission line theory. Concept of radiation.

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EE 351 - Electrical Engineering Cooperative Work (0-0-9)

(AEE only)

A continuous period of 28 weeks spent in the industry working in any of the fields of electrical engineering. During this training period, the student is exposed to the profession of electrical engineering through working in many of its fields. The student is required to submit ,and present, a formal written report of his work.

 

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EE 360 - Electric Energy Engineering (3-3-4)

Magnetic circuits. Transformers. Concepts of electric machines, DC machines: motor and generator operation, speed control of motors, motor starting. Induction Machines: Motor Starting. Synchronous Machines. Parallel operation. Per-Unit Systems. Transmission Lines: parameters, current and voltage relations for short, medium and long lines, Performance characteristics, Transmission lines. Cables.

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EE 370 - Communications Engineering I (3-3-4)

Transmission of signals through linear systems. Hilbert transform. Representation of band-pass signals and systems. Amplitude modulation (AM, DSBSC, SSB, VSB). Signal spectrum. Angle modulation (PM, FM). Review of sampling theory. Pulse analog modulation. Pulse code modulation. Introduction to digital modulation schemes.

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EE 380 - Control Engineering I (3-3-4)

Introduction to feedback control systems. Block diagram and signal flow Graph representation. Mathematical modeling of physical systems. Stability of linear control systems. Time-domain and frequency-domain analysis tools and performance assessment. Lead and lag compensator design. Proportional, integral, and derivative control.

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EE 390 - Digital Systems Engineering (3-3-4)

Microprocessor hardware and software Models. Instruction sets. Assembly language programming and debugging. Memory and input/output mapping. Input and output instructions. Input/output Interfacing. Introduction to interrupts.

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EE 400 - Introduction to Telephone Switching and Telegraphic Analysis (3-3-4)

The telephone network: organization, routing. Local area design. The telephone set. Teletraffic analysis: blocking probability, traffic measurement, switch sizing. Switching techniques: crossbar, space and time switching. Telephone transmission: frequency and time multiplexing standards, transmission media, drop and insert concept. Conventional and common channel signaling. Current and future trends: cellular phones, ISDN, broadband ISDN and ATM switching.

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EE 407 - Microwave Engineering (3-3-4)

Introduction to rectangular waveguides. Limitations of low-frequency components. Microwave materials (semiconductors, ferrites, etc.). Microwave tubes and solid-state devices: klystrons, magnetron, Gunn, Impatt, etc. Microwave circuit design. Directional couplers. Power dividers, equalizers, phase shifters. Microwave integrated circuit design: filters and amplifiers. Applications of microwaves.

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EE 410 - Digital Image Processing (3-0-3)

Fundamentals of digital image processing. Image acquisition. Image display. Image transforms. Image enhancement. Image segmentation. Basics of image filtering and encoding. Industrial applications.

 

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EE 411 - Senior Design Project (1-6-3)

A comprehensive course that integrates various components of the curriculum in a comprehensive engineering design experience. Design of a complete project including establishment of objectives and criteria, formulation of design problem statements, preparation of engineering designs. The design may involve experimentation, realization and/or computer project are essential requirements for completion of the course. Team design projects, where appropriate, are highly encouraged.

 

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EE 422 - Antenna Theory (3-3-4)

Types of antenna. Antenna fundamental parameters. Transmission formula and radar range equation. Radiation integrals. Linear wire antennas. Antenna arrays. Synthesis of far field patterns by array factors. Design of Dolph-Chebyshev arrays. Broadband antennas and matching techniques. Methods of antenna measurements.

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EE 430 - Information Theory and Coding (3-0-3)

Concept of information and its measurement. Entropy source coding theorem. Huffman codes, LZW, arithmetic codes. Introduction to rate distortion theory. Channel coding theorem, channel capacity. Block codes: detection and correction. Linear codes, cyclic codes, hamming codes, BCH codes, encoding, and decoding algorithms. Introduction to convolutional codes

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EE 433 - Applied Control Engineering (3-3-4)

Introduction to process control. Feedback and feed forward control configurations. Modeling of dynamic systems: Time delays, high order systems, multivariable systems. Process identification. Analysis and controller design performances. PID controller tuning. Intelligent controller tuning. Advanced control techniques. Process interaction and decoupling control. Introduction to distributed computer control systems and digital control issues.

 

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EE 434 - Industrial Instrumentation (2-3-3)

Instrumentation and control. Signal and data acquisition and processing. Interfacing techniques. Physio-chemical principles of instrumentation. Force, torque, and pressure measurements. Temperature, flow, moisture, and humidity sensors. Digital transducers. Calibration techniques. Errors in measurements. Introduction to actuators. Norms and standardization. Introduction to intelligent instrumentation.

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EE 445 - Industrial Electronics (3-3-4)

555 timers. Optoelectronic sensors. Microswitches. Ultrasonic transducers. Thermal sensors. Strain gauges and instrumentation amplifiers. UJT, PUT, multilayer diodes. SCRS and TRIACS. Triggering and power control techniques. Solid state relays. Practical applications.

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Lab Manual: Download the Lab Manual (PDF). (Require ITC or STU Password)

 

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EE 446 - Programmable Logic Controllers (2-3-3)

Basic concepts of microcontrollers. The structure of programmable logic controllers: I/O, relays, counters and timers. Ladder diagram concept. PLC's intermediate and advanced functions, PLC's instruction sets and data manipulations. PLC's industrial applications in the process control.

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EE 456 Digital Communication Electronics (3-3-4)

Functional blocks of digital communication systems: PAM, PWM, PPM and PCM. Design of S/H circuits, A/D and D/A converters, and timing (clock generator) circuits. Circuit design using PLL, VCO and multipliers. Design of PAM, PPM, PWM andPCM transmitters and detectors. Special circuits for phase shift keying.

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EE 462 - Electrical Machines (3-3-4)

Electro-mechanical energy conversion principles. Generalized machine concepts. Steady state operation of DC, synchronous and induction machines. DC machine Dynamics. Fractional Horse power AC motors. Special types of machines.

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EE 463 - Power System Analysis (3-0-3)

Basic concepts of power systems. Per-Unit system. System modeling. Network calculations. Load flow analysis. Economic operation of power systems. Symmetrical three-phase faults. Symmetrical components. Unsymmetrical faults. Introduction to power system stability.

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EE 465 - Power Transmission & Distribution (3-0-3)

Fundamental concepts for transmission lines· Transmission line parameters and constants· Underground cables· Construction of overhead lines· Sag and tension analysis and mechanical design. Transient overvoltage on transmission lines · Reactive compensation and natural loading.

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EE 466 - Power System Protection (3-0-3)

Introduction to protective relaying. Relay operating principles. Current and potential transformers. Overcurrent differential, distance and pilot protection · Protection of generators, motors, transformers, busbars and transmission lines. Protection aspects of power system phenomena.

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 EE 499   Special Topics in Electrical Engineering (3-0-3)

The contents of this course will be in one of the areas of interest in electrical engineering. The specific contents of the course will be given in detail at least one semester in advance of that in which it is offered.

 

 

All Electrical Engineering Courses   (Undergraduate Program )

 

 

 

 

Electrical Engineering (EE)

( Graduate Program )

 

Course offering in the Second semester 092 ( February 2010 )  :

 

 EE 522   Power System Dynamic Analysis                      (3-0-3)

Dynamic model of synchronous machines.  Excitation and governor systems.  Nonlinear and linear modeling of single machine infinite bus systems.  Stability analysis and control design.  Direct method of stability determination.  Multimachine system modeling.  Power system dynamic equivalents.

Prerequisite:   EE 520 or equivalent

  

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EE 530   Radiation and Propagation of Electromagnetic Waves       (3-0-3)

Review of Maxwell’s equations and solutions. Electromagnetic waves in lossy, and anisotropic media. Waves at plane boundaries. Guided waves. Duality, uniqueness, image theory, equivalence principle, and reciprocity. Introduction to radiation and scattering. Problem formulation using Green’s function and integral equations.

Prerequisite:   EE 340 or equivalent

 

 

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EE 541   Design of Digital Systems     (3-0-3)

Hardware organization of digital systems. Synchronous sequential machines. Arithmetic and logic units: high speed addition, multiplication and division algorithms and implementation. Control units: control, status, timing and clocking schemes and circuits. Digital memories. System controllers using RAMs, ROM, PAL, and FPLAs. Iterative networks and modular design procedures.

Prerequisite:   EE 390 or equivalent

 

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EE 545   Advanced Analog Electronics   (3-0-3)

Small-signal equivalent circuits and noise models of active devices. Design and analysis of linear wide-band low-noise feedback amplifiers. High frequency design using operational amplifiers and operational transconductance amplifiers. Application of specialized electronic systems in analog signal processors. Introduction to emerging technologies and advanced topics from recent literature.

Prerequisite:   EE 303 or equivalent

 

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EE 550   Linear Control Systems     (3-0-3)

State space representation of systems. Theory of multivariable systems. Jordan canonical forms. Transformation matrices. Realization theory. Controllability and observability. Stability. State estimators. Output and state feedback. Compensation. Decoupling and model matching. Introduction to optimal control.

Prerequisite:   EE 380 or equivalent (crosslisted with SE 507)

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EE 552   Optimal Control Theory and Applications   (3-0-3)

Nonlinear optimal control of continuous-time systems.  Minimum time and constrained input problems.  Linear quadratic regulator.  Optimal output-feedback.  Optimal state estimation.  Linear quadratic Gaussian design. Case studies.

Prerequisite:   EE 550 or equivalent (crosslisted with SE 514)

 

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EE 556   Intelligent Control   (3-0-3)

Intelligent control strategies: Expert systems, Fuzzy logic control, Neural networks. Optimization control techniques: genetic algorithms, simulated annealing, tabu search. Hybrid systems. Applications

Prerequisite:   Consent of the Instructor (Not to be taken for credit with SE 571)

 

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EE 570   Stochastic  Processes     (3-0-3)

Review of fundamentals of probability, Sequences of random variables and convergence, Stationarity and ergodicity; second-order properties and estimation; Gaussian random processes, Poisson and renewal processes, Markov processes. Queuing Theory. Applications to communications and signal processing.

 

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EE 573   Digital Communications II     (3-0-3)

Review of digital  transmission over AWGN channels. Spectral analysis of digital signals. Digital, transmission over band-Limited channels. Intersymbol Interference. Signal design for band-Limited channels. Channel equalization. Adaptive equalizers. Characterization of fading multipath channels. Performance of digital transmission over fading channels. Diversity techniques. Spread spectrum. Multi-user communication. Overview of Advanced Communications Systems (satellite, mobile, optical, ...)..

Prerequisite:   EE 571

 

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EE 575   Information Theory     (3-0-3)

Measures of information, Entropy, Source Coding theory, Lossless data compression, Huffman Codes, Ziv-Lempel and Elias Codes, Arithmetic Codes, Run-length Encoding, Sources with memory, Lossy data compression, Rate distortion theory, Mutual Information, Memoryless channels, Channel capacity, Channel coding theory, Differential Entropy, Capacity of AWGN channels.

Prerequisite:   EE 370 or equivalent,  EE 315 or equivalent

 

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EE 577    Wireless and Personal Communications     (3-0-3)

The Cellular concept, Propagation modeling, Digital transmission techniques, multiple access techniques, Cellular frequency planning, Link control, Handoffs, Power control, Traffic capacity, Wireless networking, Privacy and security of wireless systems, Examples of current wireless systems standards.

Prerequisite:   EE 571

 

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EE 599   Seminar  (1-0-0)                                                                                                        

Graduate students working towards either M.S. In Electrical engineering, M. S. In Telecommunication Engineering, or Ph.D. degrees, are required to attend the seminars given by faculty, visiting scholars, and fellow graduate students. Additionally, each student must present at least one seminar on a timely research topic. Among other things, this course is designed to give the student an overview of research in the department, and a familiarity with the research  methodology, journals and professional societies in his discipline. Graded on a Pass or Fail basis.

 

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EE 610   M.S. Thesis     (0-0-6)

 

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EE 623   HVDC Transmission System     (3-0-3)

Comparison between AC and DC transmission.  Converter circuit configuration.  Converter operation and analysis.  Misoperation of converter.  Harmonics and filters.  Ground return.  Integration of HVDC links into power systems.  AC-DC load flow, short circuit and stability calculations.

Prerequisite:   EE 460 or equivalent

 

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EE 631   Microwave Measurements   (1-6-3)

Microwave signal sources.  Waveguide components.  Network analyzer measurements. Scattering parameters of microwave planar transistors.  Doppler effect.  Time domain  reflectometry.  Microwave links.  Antenna impedance and pattern measurements. Microstrip transmission lines. Resonant cavities.

Prerequisite:   EE 405 or equivalent

 

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EE 633   Optical Fiber Communication     (3-0-3)

Dielectric slab waveguides. Classification of mode types. Parabolic two-dimensional media. Circular waveguides. Step-index and graded-index optical fibers. Effect of loss. Dispersion effects. Fabrication methods in integrated optics and optical fibers. Light sources. Couplers. Opto-electronic devices. Applications in communication systems.

Prerequisite:   EE 420 or equivalent

 

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EE 642   Analog VLSI Circuit Design     (3-0-3)

MOS and CMOS technology: building blocks, devices, capacitors and limitations. Operational amplifiers and other analog systems. Application to filter design and data converters. Layout considerations and CAD tools.

Prerequisite:   EE 542

 

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 EE 662   Adaptive Filtering and Applications   (3-0-3)

Introduction to adaptive Signal Processing.  Fundamentals of Adaptive Filter Theory.  The LMS Algorithm, LMS-based Algorithms.  Conventional RLS Adaptive Filtering.  Adaptive Lattice-based RLS Algorithms.  Fast Algorithms.  Implementation Issues.  Adaptive IIR filters.  HOS-based adaptive filtering.  Introduction to nonlinear filtering.  Applications to Echo cancellation, equalization, noise canceling and prediction.

Prerequisite:   EE 570 or equivalent

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EE  669   Special Topics in Signal Processing     (3-0-3)

The contents of this course will be in one of the areas of interest in signal processing.. The specific contents of the special topics of course will be given in detail at least one semester in advance of that in which it is offered. It is also subject to the approval by the Graduate Council.

Prerequisite:   Consent of the Instructor

 

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EE 672   Satellite Communications     (3-0-3)

Introduction to satellite communication systems. Satellite orbits. The satellite channel. Satellite links. Earth stations. Modulation and multiplexing. Digital modulation. Multiple access and demand assignment. Satellite cross links. VSAT and mobile satellite systems.

Prerequisite:   EE 571

 

 

EE 710   Ph.D. Dissertation     (0-0-12)

 

 All Electrical Engineering Courses   (Graduate Program )

 

 

 

 

Course offering in the Second semester 092 ( February 2010 ) :

College of Engineering Sciences  (CES):

·         Petroleum Engineering (PETE)

·         Chemical Engineering (CHE)

·         Mechanical Engineering (ME)

·         Electrical Engineering    (EE)

·         Civil Engineering (CE)

 

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College of Computer Sciences & Engineering  (CCSE):

·         Computer Engineering  (COE)

·         Systems Engineering   (SE)

·           Information and Computer Science (ICS)

 

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College of Industrial Management  (CIM)

 

·         Management Information System ( MIS )

·          Marketing  ( MKT )

·          Accounting ( Acct )

·         Finance (FIN)

·         Management ( MGT )

·         Economics  ( ECON)

 

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College of Environmental Design  (CED)

·         Architecture (ARC)

·         City & Regional Planning (CRP)

·         Construction Engineering & Management (CEM)

·          Architectural Engineering (ARE)

 

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College of Sciences  (CS)

·          Chemistry  (CHEM)

·         Earth Sciences  (ES)

·         Statistics

·         Mathematical  

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