Giving importance to practice of electric-electronic systems which are used in industiral and private institutions
ESC 481
Introduction to Economy
(3,0)3,3
Introduction to economy, economical ideas, definition of economy and interest in other sciences, economical systems, issues ofpopulationand economic growth, Functioning of price mechanism, the laws ofsupply and demandand economicdecision units,production, production costs and factors of production,nature,labor, capital,and typesof undertakings, laborand unemployment problems, internationallaborflows,banks andmoney,inflation, deflation anddevaluation,foreign investment, multinational corporations, tradeexchanges,electronictrading
EEE 403
Engineering Design
(3,1)3.5-6
To be done a research study with reviewing all components which covers subject in a specific area of Electrical and Electronics Engineering
EEE 405
Occupational Safety in Electric
(3,1)3.5-5
Faults and Fault effects in Electrical Installations. Electrical current effects on human and fire danger. Low voltage network types and protection coordination. Protection precautions in low voltage networks: Low voltage, protection isolation, protection line, grounding, neutralizing, protections with fault voltage and fault current. Grounding systems: grounding, active part grounding, lightning protection grounding. Electrode types: strip, plate, special, and compound electrodes. Measurement and calculation grounding resistance. Over voltages in low-voltage systems and precautions taken to protect against them.
EEE 415
Web Technology and Applications
(3,1)3.5-5
Principles of data communications; information transfer, computer networks and their applications. Network structures, architectures and protocols. Open systems and the OSI reference model; services and network standardization. Communication systems: transmission media, analog and digital transmission. PSTN, modems, PCM, encoding and digital interface. Transmission and switching: FDM, TDM, modulation, circuit, packet and message switching. The store and forward concept. Networking characteristics. Storage, delay, multiplexing, bandwidth sharing and dynamic bandwidth management, QoS. Channel organization, framing, channel access control. PSPDN and integrated digital network concept: ISDN. LANs, MANs and WANs. ATM and gigabit networking. Communication models. De-facto standards. The Internet open architecture and the protocol suite. Modern applications of networking.
EEE 413 Artificial Neural Networks
(3,1)3.5-5
As a motivation, biological neural systems. Definition of Artificial Neural Networks (ANN). Supervised and unsupervised learning. Adaptive linear element. Mean square learning rule. Design of linear associative memory. Multi-layered perceptron design. Back propagation algorithm. Radial based ANN. Dynamic ANN. Hopfield net, cellular ANN. KohonenSelforganized map. Pattern, image, speech processing and control with hardware and software realization of ANN
EEE 417 Microcontrollers
(3,1)3.5-5
Microcontroller families, Definition of PIC16F877, the most widely used microcontroller. The software development environment, MPLAB. The programming environment, PIC programming board and PIC experiment board. Commands for byte, commands for bit, data processing and control commands. Flash, RAM, addressing modes, the concept of changing the bank. Ports, special-purpose registers, the concept of cutting. The concept of environmental interface, environmental interrupts. Timers, counters. Capture, compare, pulse width modulation module. The serial communication. Analog-digital converter module, EEPROM, LCD. Applications; DC motors, step motors, servo motors, serial communication, RF communication
EEE 421
Integrated Circuits
(3,1)3.5-5
VLSI design techniques and foundations. ASIC design, gate-arrays, standard-cells. Full custom design approaches. Floorplanning in chip-level. Separation of the system building blocks. Standard cell placement & routing algorithms. Verification of design, logic simulation, timing simulation, transistor level simulation. Design techniques for regular building blocks: memory arrays, PLAs. Testable system design techniques. Reliability. Introduction of improving VLSI design techniques and tools
EEE 431
Microwave Techniques
(3,1)3.5-5
Definition of microwaves. Basic properties. Application areas. Historical perpectives. Circuit viewpoint TEM transmission lines in sinusiodal steady state and in transient regime. Smith chart. Impedance matching. Single and double stub matching. Field analysis of transmission lines and waveguides. TEM, TM and TE Waves. Parallel plate and rectangular waveguides. Waveguides modes of a coaxial line. Dielectric slab waveguides, surface waves. Stripline. Planar guiding structures: microstrip, coplanar lines, fin lines, etc. Microwave network analysis. Impedance and admittance matrices. Scattering paratmeters. ABCD matrix. Two-port networks
EEE 441
Biomedical Systems
(3,1)3.5-5
The physiological effects of electric current and electrical safety, measurement and evaluation systems with microprocessor. Clinical measurement systems. Electro-surgical and physical therapy systems. Radiologic and nuclear methods. The usage of computers in medicine. Computerized tomography. Advanced topics in medical electronics.
EEE 443
Electronics II
(3,1)3.5-5
Frequency response of amplifiers, feedback, stability in feedback amplifiers, pulse response of amplifiers, Wideband amplifiers, oscillators, active filters, Band off the filters, noise and distortion
EEE 445
Electronics Laboratory
(3,1)3.5-5
Electrical wave patterns, wave generators, pulse generators and studies, input-output characteristics of TTL and MOS gate and different applications, sequential circuits, counters, registers, memory units and practices, data conversion and communication
EEE 451
Power Systems Analysis II
(3,1)3.5-5
Economic operation of power systems; Symmetrical three-phase fault analysis; Symmetrical component theory; Unsymmetrical fault analysis; Fault analysis using bus admittance matrix method; Protection systems, overcurrent, directional, ratio, differential, distance and pilot relays; Stability analysis of power systems
EEE 453
Industrial Applications of Power Electronics
(3,1)3.5-5
The general definition and classification of semiconductor power converters; AC / DC, DC / AC, AC / AC and DC / DC converters; Distortions of input waveforms in power converters and solution of preventing these distortions; Power factor and harmonics; Various applications of converters in industrial systems; Motor control system (DC and AC current motors); Backup and uninterruptible power supplies (UPS); Battery charge circuits; Electrochemical applications, Electrical heating and melting (arc furnaces, electric welding, heating with induction); Static reactive power compensation; Power transmission with high voltage, domestical applications (heating and air conditioning systems); The fluorescent lighting systems which have high-frequency
EEE 455
Electrical Power Distribution
(3,1)3.5-5
ACsystems, one and three-phase AC systems, phase difference, star-delta connections, power in AC power systems, synchronous generators, synchronous reactance and short-circuit currents. Distribution transformers, equivalent circuits, voltage drop, short circuit voltage, connectivity features, overload, short circuit resistance, maintenance and operation. Features of the power cables. Types of MV and LV underground cables, types, shapes and calculation of cable cross – sections according to current strenght. HV, MV and LV overhead lines. Calculation of cable cross-section according to the voltage drop in Aluminum, copper and steel cored aluminum lines. Structure of distribution networks and voltage drop calculations. Busbars. Short-circuit calculations, the effects of short-circuit currents
EEE 457
Power Transmission Systems
(3,1)3.5-5
Balanced 3-phase system models of transmission systems. Modeling generators, transformers and loads as components of the system. Modeling of transmission lines. Examination of "conversion space" concept by Symmetrical components conversion. Asymmetric modeling of transmission systems with SM. Faults, short circuits, load flow
EEE 459 High Voltage Techniques
(3,1)3.5-5
Electrostatic Fields: basic electrode systems, approximate calculation of maximum electric field strength, electrode systems with multi-dielectrics, conformal mapping, numerical methods for electrostatic field calculations. Introduction to discharge phenomena: discharge phenomena in gases (Townsend and streamer theories); corona, lightning and surface discharges, discharge phenomena in solid and liquid dielectrics. Fundamentals of overvoltages and overvoltage protection. Generation and measurement of high voltages
EEE461 Digital Communication
(3,1)3.5-5
Review of probability and random variables. Random processes, stationarity, correlation, covariance and ergodicity concepts. Transmission of random processes through linear filters, power spectral density. Gaussian random processes, white noise, filtered noise and narrowband noise. Baseband pulse transmission and optimal (matched filter) receiver. Probability of error for pulse transmission. Nyquist criterion for distortionless binary transmission, partial response signaling, multi-level signaling and tapped delay line equalization. Geometric interpretation of signals, coherent detection of signals in noise. Digital modulation techniques such as PSK, FSK, QPSK and etc. Detection of the digitally modulated signals
EEE463
Radio and Tv Systems
(3,1)3.5-5
General receiver principles, superheterodyne receivers, selectivity, sensitivity, image frequency, receiver distortions. AM & FM broadcasting principles and systems, multiple carrier techniques and OFDM; PAL/SECAM/NTSC TV systems, PAL coding and decoding, picture artifacts, sampling and quantization of video signals, digital processing of video, video compression, MPEG, advanced TV systems, video recording, satellite and cable delivery of video signal.
EEE 465
Computer Communication
(3,1)3.5-5
Fundamentals of computer networks, architectures, topologies. Network hardware components in local network (LAN) and wide area networks (WAN), TCP / IP protocol, the features of OSI layers and principles of their operation. Simple and complex LAN installation and their cost-efficiency analysis. General features of network operating systems. Installation of network operating systems such as Windows NT 4.0, Windows 2000/2003 Server and Linux. Method of local computer networks, Management of users and groupsin local computer networks, server management features such as permissions and rights. Security in computer network
EEE 471
Process Control
(3,1)3.5-5
Basic principles of process control, Examination of behaviors of process systems, which are used in real life, by computer simulation, Modeling of process dynamic, P, PI, PID control of Process systems, Linearization of nonlinear equations, Simple differential equations in time domain, Laplace transformations, Transfer functions, Block diagrams
EEE 473
Industrial Automation Systems
(3,1)3.5-5
Programmable logic controllers; Hardware features; Memory areas; Writing programme; Command set and applications; Timing of program execution; Supervision and execution of the program; Usage of the analog input unit; usage of analog output unit; Usage of fuzzy logic unit; High-speed counter unit; Usage of PID controller unit; Usage of rotary position; Usage of the temperature control unit; Usage of the motion control unit; Usage of shaft control unit; Usage of position control unit; Programmable terminal unit and usage of integrated by PLC; PLC systems with big capacity; Remote-controlled PLC systems; PLC digital control applications; PLC analog control applications
Opto-electronic Devices: optical absorption in a semiconductor, photocurrent in a p-n diode, photoconductive detection, p-i-n detector, avalanche photo detector, phototransistor, Schottky detectors. Opto-electronic light emitters: light emitting diode and its performance, advanced LED structures, semiconductor lasers design-operation-structures. Optical communications: optical communication systems, information content and channel capacity, optical fibers, advanced devices
EEE 483
Semiconductor Thermoelectric Elements
(3,1)3.5-5
Semiconductor technology, The basics of semiconductor materials, electron and band theories, the classification of semiconductors, thermoelectric alloys, the Peltier and Seebeck event related to the theories, the theory and design of thermoelectric coolers, thermoelectric generators and design theory, other thermoelectric applications
EEE 485
Laser Theory
(3,1)3.5-5
Historical introduction to lasers, the basic concepts about lasers, electromagnetic theory and overview of Maxwell's equations, light reflection, refraction and absorption, quantum theory of the interaction of light with matter, laser oscillation and the cavities, progress of the laser beam, the Q-cycle and mode locking, laser types: gas, excimer, free electron, solid state and semiconductor lasers, optical phase alignment, introduction to photonic, fibe optic, optical detectors and modulators, scientific and industrial applications of lasers and photonics fotoniğin, ultrafast lasers and introduction to nonlinear optic
EEE491 Electromechanical Energy Conversion II
(3,1)3.5-5
Electromagnetic fields which are generated by the AC electrical machine wraps: pulsating and rotating magnetic fields, induction machines: equivalent circuit, the steady-state analysis, the speed control. Synchronous machines: equivalent circuit, the steady-state analysis, stability. Single-phase induction machines. Special electric machines.
EEE 493
Renewable Energy Systems
(3,1)3.5-5
Introduction to renewable energy resources with main emphasis on photovoltaic energy conversion. Solar insolation. Short review of semiconductor properties. Generation, recombination and the basic equations of the device physics. P-n junction and silicone solar cell. Efficiency limits, losses, and measurements. Current fabrication technologies. Design of cells and modules. Other materials. Applications.
