8th. Semester Courses
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COURSE CODE
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DESCRIPTION
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EEE 402
Graduation Thesis
(0,2)1-5
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Engineering problems encountered in professional life would motif makers to devise solutions to provide, to provide a new scientific concepts to create
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ESC 482 Industrial Management
(3,0)3-3
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Definition of management, management process features, qualities which must be in administrators, functions which consist the process of management, table of management approaches, scientific management approach, management process approach, the bureaucracy approach
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ENG 402
Engineering Ethics
(2,0)2-2
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Introduction to ethical concepts. Professionalism and professional ethics codes. Ethics in design. Rights and responsibilities in business. Technical and ethical problems. Risk, safety and accident. Responsibility for scientific research. Experimental study responsibility. Printing and publication of research results in the powers and responsibilitie.
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EEE 460
Digital Signal Processing
(3,1)3.5-5
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Overview of digital signals and systems. Frequency and time representation of sampling, decimation, interpolation. Z-transform: Evaluation, region of convergence (ROC) and properties. Discrete time system structures: tapped delay line and lattice structures. Fast Fourier Transform (FFT). Digital filter design: Finite impulse response (FIR), infinite impulse response (IIR), windowing, Hilbert transform.
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EEE414 Microprocessors Laboratory
(3,1)3.5-5
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Programmable interface adapter devices (PIA). Multiplexed displays. A/D, D/A converters and their interfacing to the MPU. Subroutines. Utilization of the microprocessor stack. Interrupts. Interrupt based I/O, interrupt controllers. Serial I/O. Communications interface adapters, modems. Direct memory access. DMA controller devices. Comparison of DMA techniques.
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EEE 440
Medical
Electronics
(3,1)3.5-5
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The origin of the action potential, bioelectrical sources, and the main properties of biolectrical signals. Origin and properties of other physiological parameters. Electroneurographly, electrocardiography, electroencephalography, electromyography, electroretinography and evoked potentials. Other phsiological measurements: blood pressure, blood volume, blood flow, heart sound, respiratory system measurements.
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EEE442 Microelectronics Technology
(3,1)3.5-5
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Brief history of the microelectronics technology. Planar technology. microlitography. Thin films; Evaporation, sputtering and CVD techniques. Thermal oxidation of silicon. Doping techniques; diffusion, ion implantation and epitaxy. Process measurement and evalution techniques. Proess simulation; SUPREM. Process design: junction isolated bipolar IC and CMOS IC fabrication processes. Packaging. Yield analysis.
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EEE444
Electronics III
(3,1)3.5-5
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AND, OR, NAND, NOR, and derivative gates (XOR, XNOR). Regenerative circuits: Unstable, one stable and two stable oscillating Schimitt users and trigger circuits. Timers. Static and dynamic memories: RAM, ROM, EPROM, PLA etc A / D and D / A converters. MUX, DEMUX circuits
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EEE 446
High Frequency Electronics
(3,1)3.5-5
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System noise and inter-modulation distortion. Serial and Parallel Resonant Circuits and impedance matching structures; Single and double tuned transformers, High frequency oscillators; crystal oscillators and VCOs. Tuned amplifiers; Tuned amplifiers using IC blocks, crystal, ceramic and SAW fitler performances and the tuned amplifiers constructed with them,
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EEE 452
Electrical Machines Laboratory
(3,1)3.5-5
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Determining equivalent circuit parameters of single phase transformer. Determining equivalent circuit parameters of three phase induction motors and speed control. Computer aided speed control of three-phase induction machines fed from a cycloconverter. Heating in a loaded, single-phase induction machine. Determining synchronous generator characteristics. Starting of synchronous motors. Four-quadrant speed control of DC motors. Determining equivalent circuit parameters of a salient-pole synchronous machine
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EEE 454
Power Systems Laboratory
(3,1)3.5-5
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Analysis of energy systems, energy systems measurement and protection equipment tests are performed in this laboratory. To be used Electrical Machines and Power Electronics opportunities for energy system equipment, computer software laboratory opportunities for system solutions, relays measurement and test devices, test equipment, etc. grounding. are included, such as hardware
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EEE456
Protection at Power Systems
(3,1)3.5-5
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Errors and kinds of errors. Basic concepts. Introduction to protection sysyems. Current and voltage transformers. Overcurrent, differantial and empedance protection systems. Transformers, generators and line protection
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EEE 458 Special Electrical Machines
(3,1)3.5-5
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Synchronous induction motor. Doubly-fed induction motor. High-frequency motors. Linear machines. Braking motors. Motors with external rotors. Oscilating motors. Tambourine motors. Poly-phase commutator motors. Schrage motors. Single-phase commutator motors. Hysteresis motors. Explosion-proof electric motors
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EEE 462
Rf Electronics
(3,1)3.5-5
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Introduction to RF and wireless technology. Modulation and detection. Multiple access techniques and wireless standards. Tranceiver architecture. Low noise amplifiers and mixers. Oscillators. Power amplifiers
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EEE 464 Fiberoptic Communication
(3,1)3.5-5
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Review of optics: Ray theory, imaging, diffraction, etc. Lightvawe fundamentals: polarization, dispersion, critical angle reflections. Dielectric waveguides: Slaab waveguides, modes and coupling, integrated optic components. Optic fiber waveguides: Step-index fiber, Graded-index fiber, atennuation modes, pulse distortion, construction of optic fibers. Light sources: LED, laser principles, laser diodes, optical amplifiers, fiber laser. Light detectors, couplers connectors: Photodetection, splice connectors, source coupling. Distribution networks and fiber components: Couplers, switches, attenuators, circulators, polarizer, etc. Light modulation formats and optic heterodyne receivers
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EEE 468
Antennas and Propagation
(3,1)3.5-5
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Maxwell's equations, obtaining of wave equations, microwave spectrum and its application areas. Types and characteristics of the transmission line. Basic antenna concepts and definition of parameters, radiation event in antenna. Calculation of the power density and field intensity, Friss transmission equation and free space path loss
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EEE 466
Satellite Communication
(3,1)3.5-5
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Introduction to satellite communications. Structures and kinds of Satellite and satellite antennas. Basic concepts such as LNA, LNC, LNB, transponder, footprint. TV satellites, GPS satellites, special satellites. Orbits of satellites, satellite stations. Circuit-switched services, packet-switched services. Modulation techniques, multiplexing with code division. MPEG Distribution stations. DiSEq-C switch, cable types. Data broadcast, voice broadcast. VSAT-mobile communication systems. Software techniques in satellite systems. Modeling and simulation. Developments and applications for the future
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EEE 472 Digital Control Systems
(3,1)3.5-5
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The overall structure of the numerical control systems. z-transform. Discrete-time systems. Sampling. AD / DA converters, and the restructuring of of signals. Representation of numerical controlsystems with block diagrams. Open and closed loop systems. State-space analysis. Stability testing methods. Numerical design of controllers. Computer-aided applications
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EEE 474
Computer Controlled Systems
(3,1)3.5-5
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Modeling for control of systems. Z-transforms. Analysis of discrete-time systems. Design of discrete-time system, To determine the control law, The systems which make the state estimation, the regulator design. Shift pole in system models which are established with input-output relationships. Controllability and observability of discrete-time systems. System identification techniques, the least squares method, sequential and stochastic least squares method, maximum probability method. Adaptive self-adjusting control systems. Modeling of parasitic effects. Overview to continuous and discrete-time systems.
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EEE 476
Driver Systems
(3,1)3.5-5
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Speed control methods and applications for DC motors. Operation in four-quadrant. Speed control methods and applications for Asynchronous motor: speed control by voltage regulation, speed control by frequency, speed control by constant flux, speed control by rotor resistance. Inverters and pulse width modulation techniques. Operation principles of gradual motors. Operation principles of Reluctance motors
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EEE 482 Optoelectronics II
(3,1)3.5-5
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Optocouplers, optical components, adaptation of light emitters with photodetectors, source types of light emitters, optoelectronic circuits and systems
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EEE484 Nanotechnology
(3,1)3.5-5
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What is nanotechnology? Macro, micro and nano structures, synthesis methods of nano-structures, the methods used in the study of nanostructures, methods of microscopic, spectroscopicmethods, X-ray diffraction methods, Applications of nanotechnologies.
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EEE 486 Illumination Technique
(3,1)3.5-5
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Light theories. Eye, sensitivity and vision types. Light reflection, absorption and transmission phenomenon. Definition and methods of lighting terms. Internal lighting systems and calculations. Pre-project preparation fundamentals. Feeder, column and main-column line formation. Fundamentals of practical application project preparations. Low power-fact. correction methods in internal installations. Voltage-drop calculation for lighting systems. External lighting calculations
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EEE 492
Photovoltaic Energy Production
(3,1)3.5-5
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Electrical properties of the material; interaction of light with a solar cell; reflection, absorption, generation, separation and collection of carriers; doping levels and its effects, junction structures, voltage-current characteristics, structures of different photovoltaic cells; monocrystalline, semicrystalline, amorphous and other thin-film solar cells; optical concentration, module operation
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EEE 494
Electrical Plants
(3,1)3.5-5
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Production, transmission and distribution plants. The general structure of a production plant. electrical calculations of transmission lines, the nominal and equivalent circuits. Conductors. Insulators. The potential distribution in insulators. Poles and their selection. Disconnectors, circuit breakers. Short circuit current and its features. Calculation and selection of circuit breakers according to short circuit current account. Busbars and busbar systems. Measuring transformers. Grounding.
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