Web Site of the Department
Head of Department : Murat Saraçlar
Associate Department Heads : Günhan Dündar, Ali Emre Pusane
Professors : Burak Acar, Mehmet Akar, Levent Arslan*, Huriye Işıl Bozma Aydın, Mehmet Oğuzhan Çiçekoglu, Mustafa Kemal Cılız, Yağmur Denizhan, Günhan Dündar, Ayşın Ertüzün, Zeynep Yasemin Kahya, Ahmet Öncü, Mutlu Koca, Ali Emre Pusane, Murat Saraçlar, Arda Deniz Yalçınkaya, Avni Morgul*, Saban Selim Şeker*
Associate Professors : Sema Dumanlı Oktar, İbrahim Alpay Özcan, Ahmet Tekin, Heba Mohamed Yüksel.
Assistant Professors : İsmail Faik Başkaya.
Instructors : Kemal Ozanoğlu*, Yalçın Turgay.
Assistants : Utku Arda Akıncı, Çağatay Ateş, Ahmet Bilir, Ümit Develer, Ahmet Harun Eker, Serhat İşcan, İbrahim Kahraman, Mehmet Emre Korkmaz, Semanur Kumaş, Ahmet Sakal, Onur Tatar, Uygar Yıldız, Ramazan Yılmaz.
*Part-time
•Adjunct
† Professor Emeritus
The program in Electrical and Electronic Engineering is designed with the purpose of preparing students both for a career in Electrical Engineering profession and for further studies in applied and theoretical research.
The goal of the department is to graduate engineers with a strong level of knowledge in the basic areas of Electrical Engineering who are equipped with the capability and capacity to carry out research, and who maintain high professional ethics along with public awareness and environmental consciousness.
There are six tracks in the program: Electronics, Control Systems and Robotics, Communication Systems and Networks, Signal Processing, Electromagnetic and Optics, MEMS and Solid State Electronics. The course requirements for the Bachelor of Science Degree in Electrical and Electronic Engineering total a minimum of 135 credit hours of formal course work. The first five semesters are common to all Electrical and Electronic Engineering students with the aim of preparing the student to choose an appropriate specialization track. Each student is required to complete (i) the required courses and labs (if any) of the student's selected track, (ii) two courses from the pool courses of the student's selected track, and (iii) two courses from among the required courses (except the required labs) of the tracks that the student has not selected.
During the period of undergraduate study, the student must also work a minimum of 60 days in industry as a trainee.
Established
1912
ISCED Code
523
Educational goals and objectives
Graduates of the Department of Electrical and Electronic Engineering at Boğaziçi University will:
(i) have a strong background in basic sciences, mathematics and engineering to be successful in their graduate studies;
(ii) have broad skills and solid technical background to be successful in their professional careers;
(iii) have the combination of skills and orientations needed to perform successfully in increasingly more global working environments;
(iv) demonstrate commitment in ethical, societal, and ecological implications of engineering.
Admission and special requirements
Central University Entrance Examination
Acknowledgement of previous learning
Internal or external transfer students possible.
Erasmus and exchange opportunuties.
The acknowledgement of this learning is done according to the rules of the university.
https://www.boun.edu.tr/tr_TR/Content/Genel/Yonetmelikler_Ve_Yonergeler
Graduation requirements
The course requirements for the Bachelor of Science Degree in Electrical and Electronic Engineering total a minimum of 135 credit hours of formal course work. According to the curriculum the first five semesters are common to all students. Afterwards the student must choose a track for specialization, where he/she must take two required and two elective courses. The student must take also two courses from another track thus satisfying breadth as well as depth requirements. There is a one or two semester graduation project. During the period of undergraduate study, the student must also work a minimum of 60 days in industry as a trainee. Students do not have to submit petitions to graduate. At the end of each semester, the advisors investigate the transcripts of their advisees to see if any one of them is qualified to graduate. Those who have satisfied all requirements for graduation (including industrial internship) are listed and this list is presented to faculty members of the Department during a departmental meeting for their scrutiny. The list approved by the Department is then presented to the Executive Committee of the School of Engineering where the academic records of the students are double-checked. The names of those students who are approved by the Executive Committee are sent to the Registrar where their records and graduation requirements are checked one more time before the Registrar officially announces their eligibility for graduation.
Program learning outcomes
- An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics.
- An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors.
- An ability to communicate effectively with a range of audiences.
- An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts.
- An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives
- An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions.
- An ability to acquire and apply new knowledge as needed, using appropriate learning strategies.
TYYÇ Ulusal Yeterlikler
TYYÇ Alan Yeterlikleri
UNDERGRADUATE PROGRAM IN ELECTRICAL and ELECTRONIC ENGINEERING
First Semester |
Cr. |
Ects |
MATH 101 |
Calculus I |
4 |
6 |
MATH 201 |
Matrix Theory |
4 |
5 |
CHEM 105 |
General Chemistry |
4 |
6 |
EE 101 |
Orientation to EE |
3 |
6 |
EC 101 |
Principles of Microeconomics |
3 |
6 |
|
18 |
29 |
Second Semester |
Cr. |
Ects |
MATH 102 |
Calculus II |
4 |
6 |
CMPE 150 |
Intro. to. Comp. |
3 |
5 |
PHYS 121 |
Int to Mech. & Ther. |
4 |
8 |
EC 102 |
Princ. of Macroecon. |
3 |
6 |
EE 142 |
Digital Systems |
2 |
3 |
|
16 |
28 |
Third Semester |
Cr. |
Ects |
MATH 202 |
Differential Equations |
4 |
7 |
PHYS 201 |
Physics III |
4 |
6 |
EE 201 |
Electrical Circuits |
4 |
7 |
EE 271 |
Signals and Systems I |
3 |
6 |
HUM 101 /HSS |
Cultural Encounters I /HSS Elect. |
3 |
6 |
TK 221 |
Turkish I |
2 |
3 |
|
20 |
35 |
Fourth Semester |
Cr. |
Ects |
EE 214 |
Probability for EE |
3 |
6 |
PHYS 202 |
Physics IV |
4 |
6 |
EE 232 |
Electronic Devices |
3 |
6 |
EE 272 |
Signals and Systems II |
3 |
6 |
EE 244 |
Digital System Design |
3 |
4 |
TK 222 |
Turkish II |
2 |
3 |
|
18 |
31 |
Fifth Semester |
Cr. |
Ects |
EE 333 |
Electronics I |
3 |
6 |
EE 335 |
Electronics Lab I |
1 |
2 |
EE 351 |
System Dynamics and Control |
3 |
6 |
EE 363 |
Electromag. Field Theory |
3 |
6 |
EE 371 |
Communication Engineering |
3 |
6 |
HTR 311 |
Hist. of Turk. Rep. I |
2 |
3 |
|
15 |
29 |
Sixth Semester |
Cr. |
Ects |
EE 304 |
Energy Conversion |
3 |
6 |
EE -- |
Specified Elective1 |
3 |
6 |
EE -- |
Specified Elective1 |
3 |
6 |
-- -- |
Specified Elective2 |
3 |
6 |
HSS -- |
HSS Elective |
3 |
5 |
HTR 312 |
Hist. of Turk. Rep. II |
2 |
3 |
|
17 |
32 |
Seventh Semester |
Cr. |
Ects |
EE -- |
Departmental Elective |
3 |
6 |
EE -- |
Specified Elective1 |
3 |
6 |
EE -- |
Specified Elective1 |
3 |
6 |
COMP -- |
Comp. Elect. |
3 |
6 |
COMP -- |
Comp. Elect. |
3 |
6 |
|
15 |
30 |
Eighth Semester |
Cr. |
Ects |
EE -- |
Specified Elective1 |
3 |
6 |
EE -- |
Specified Elective1 |
3 |
6 |
EE 492 |
Project |
4 |
8 |
-- |
Restricted Elective3 |
3 |
5 |
-- |
Restricted Elective3 |
3 |
5 |
EE 400 |
Engineering Internship |
0 |
10 |
|
16 |
40 |
Total Credits.: 135
Total ECTS: 254
1 This specified elective must be chosen according to the following:
(a) the required courses and labs (if any) of the student's selected track,
(b) two courses from the pool courses of the student's selected track,
(c) two courses from among the required courses (except the required labs) of the tarcks that the student has not selected.
2 The specified elective must be an intermediate level computational engineering course and it can be one of the following:
CmpE 160 - Introduction to Object Oriented Programming,
CmpE 210 - Fundamentals of Object Oriented Programming,
IE 201 - Intermediate Programming,
EE 342 - Numerical Methods for EE or an equivalent course approved by the student's advisor.
The proposed tracks are as follows:
ELECTRONICS |
Required Courses |
EE 334 |
Electronics II |
EE 432 |
Digital Electronics |
Required Labs |
EE 336 |
Electronics Laboratory II |
EE 439 |
Advanced Electronics Lab. |
Pool Courses |
EE 433 |
Communication Electronics |
EE 437 |
Op Amps and Applications |
EE 438 |
Design with Integrated Circuits |
EE 443 |
Microprocessors |
EE 463 |
Antenna Theory and Design for Wireless Communications |
EE 537 |
Introductıon to VLSI Design |
EE 540 |
Advanced Digital Design |
EE 564 |
Optoelectronics and Photonics |
CONTROL SYSTEMS and ROBOTICS |
Required Courses |
EE 450 |
Control Technology and Design |
EE 453 |
Linear System Theory |
Required Labs |
|
None |
Pool Courses |
EE 443 |
Microprocessors |
EE 451 |
Introduction to Robot Control |
EE 454 |
Linear Multivariable Systems |
EE 457 |
Introduction to Optimization Theory |
EE 550 |
Artificial Neural Networks |
EE 552 |
Digital Control |
EE 553 |
Introduction to Nonlinear Control |
SCO 591 |
Nonlinear Dynamics and Chaos |
COMMUNICATION SYSTEMS and NETWORKS |
Required Courses |
EE 372 |
Random Signals |
EE 477 |
Introduction to Digital Communication |
Required Labs |
|
None |
Pool Courses |
EE 433 |
Communication Electronics |
EE 463 |
Antenna Theory and Design for Wireless Communications |
EE 470 |
Mobile Communication |
EE 473 |
Introduction to Digital Signal Processing |
EE 474 |
Introduction to Optical Fiber Communications |
EE 541 |
Computer Communication Networks |
EE 544 |
Digital Wireless Communication |
EE 545 |
Wireless Networks and Mobile Systems I |
EE 575 |
Network Security and Cryptography |
SIGNAL PROCESSING |
Required Courses |
EE 372 |
Random Signals |
EE 473 |
Introduction to Digital Signal Processing |
Required Labs |
|
None |
Pool Courses |
EE 475 |
Introduction to Image Processing |
EE 477 |
Introduction to Digital Communication |
EE 570 |
Subspace Methods in Signal Analysis |
EE 571 |
Bayesian Signal Processing |
EE 573 |
Pattern Recognition |
EE 574 |
Image Analysis |
EE 576 |
Machine Vision |
EE 578 |
Speech Processing |
APPLIED ELECTROMAGNETICS (and OPTICS) |
Required Courses |
EE 364* |
Applications of Electromagnetic Field Theory |
EE 461 |
Introduction to Optics |
Required Labs |
|
None |
Pool Courses |
EE 433 |
Communication Electronics |
EE 460 |
Remote Sensing |
EE 463 |
Antenna Theory and Design for Wireless Communications |
EE 470 |
Mobile Communication |
EE 474 |
Introduction to Optical Fiber Communications |
EE 562 |
Microwaves |
EE 564 |
Optoelectronics and Photonics |
MEMS and SOLID STATE ELECTRONICS |
Required Courses |
EE 330** |
Solid State Electronics |
EE 535 |
Introduction to MEMS |
Required Labs |
|
None |
Pool Courses |
PHYS 462 |
Solid State Physics |
|
EE 432 |
Digital Electronics |
|
EE 461 |
Introduction to Optics |
|
EE 536 |
Applications of MEMS |
|
EE 537 |
Introduction to VLSI Design |
|
EE 564 |
Optoelectronics and Photonics |
* EE 364 Applications of Electromagnetic Field Theory can be replaced by PHYS 402 Electromagnetism II under the condition that EE 463 Antenna Theory is taken from the pool.
**EE 330 Solid State Electronics can be replaced by PHYS 392 Physical Electronics II.
COURSE DESCRIPTIONS
EE 101 Orientation to Electrical Engineering (2+0+2) 3 ECTS 6
(Elektrik Mühendisliğine Yönlendirme)
Basic elements of electrical engineering: Devices, circuits, and systems. Interactions of these elements and engineering methods. Discussion of the social and ethical aspects of the engineering profession. Introduction to faculty members and research areas. General and departmental responsibilities of students. Formats, rules and conventions in technical writing. Oral and written presentation tools and techniques. Laboratory work.
EE 142 Digital Systems (2+1+0) 2 ECTS 3
(Sayısal Sistemler)
Number systems, Boolean algebra, logic networks and their simplification. Logic design with gates. Medium Scale Integration (MSI) and Large Scale Integration (LSI) technologies. Combinatorial and sequential circuits. Counter and shift registers.
EE 201 Electrical Circuits (4+1+0) 4 ECTS 7
(Elektrik Devreleri)
Circuit elements and Kirchhoff’s laws. Analysis of resistive circuits. Network theorems. Solutions of linear time-invariant differential equations. Analysis of first and second order circuits. Operational Amplifiers. Sinusoidal steady-state analysis. Power calculations and balanced three-phase circuits. Two-port networks.
EE 202 Electrical Circuits II (4+1+0) 4 ECTS 6
(Elektrik Devreleri II)
Analysis of electrical circuits in frequency domain. Solution of linear time-invariant circuits using Laplace transform. Formulation and solution of state equations. Two-port representations. Filter design.
Prerequisite: EE 201.
EE 205 Electrical Materials and Components (3+0+0) 3 ECTS 6
(Elektrik Malzemeleri ve Devre Elemanları)
Materials used in Electrical Engineering: Metals and alloys, plastics and ceramics, electrolytes and their electrical, mechanical and chemical characteristics. Electrical conductors; current density and current carrying capacity. Temperature dependence of conductivity in various materials. Electrical insulators, insulation breakdown. Basic passive electrical circuit components; characteristics, component values, ratings and tolerances. Active electronic components; characteristics, ratings and applications.
EE 210 Introduction to Electrical Engineering (ME, IE, CMPE) (3+0+0) 3 ECTS 6
(Elektrik Mühendisliğine Giriş)
Basic components and principles of electrical circuits: circuit elements variables and measuring devices. Kirchoff's laws, loop and nodal analysis. Network response to dc, exponential and sinusoidal excitation: switching networks, impedances, network functions, Fourier series, phasor methods, real and reactive power, powerfactor. Transformers and 3-Phase systems.
EE 212 Introduction to Electronic Engineering (CMPE) (3+0+0) 3 ECTS 4
(Elektronik Mühendisliğine Giriş)
Conduction mechanism in metals and semi-conductors. Doping in semi-conductors; p-n junction. Diode characteristics and applications. Power supplies. Bipolar junction transistor operation. Transistor characteristics, transistor biasing. JFET operation and biasing. MOSFET operation and biasing. Introduction to digital electronics. Logic families: RTL, DTL, TTL, ECL, NMOS and CMOS. MSI logic: Multiplexers, Decoders, etc. Memory circuits: ROM's and RAM's.
Prerequisite: EE 210.
EE 214 Probability for Electrical Engineers (3+1+0) 3 ECTS 6
(Elektrik Mühendisleri için Olasılık)
Fundamentals of probability. Random variables, probability distribution and density functions and some specific functions. Operations on one random variable: expectation, moments and transforms of random variables. Vector random variables, joint distribution and density functions. Statistical independence. Operations on multiple random variables.
EE 232 Semiconductors and Electronic Devices (3+0+0) 3 ECTS 6
(Yarıiletkenler ve Elektronik Aygıtlar)
Semiconductor properties. Current conduction mechanisms in semiconductors, pn junctions, operation of the pn junction diode. Diode types, operation of the Bipolar junction Transistor. Operation of the MOSFET. Other transistor types.
Prerequisite: Phys 201 or consent of the instructor
EE 241 Computer Tools for Electrical Engineers (1+0+3) 2 ECTS 4
(Elektrik Mühendisleri için Bilgisayar Araçları)
Matlab expressions, constants, variables, arrays. Graph plots. Procedures and functions. Matlab syntax. Graphic User Interface (GUI). Linear algebra using Matlab. PSpice overview, Circuit schematics, schematic rules and analysis types. Modeling with PSpice, mixed analog and digital simulation, measurement in PSpice. Programming in Labview.
EE 244 Digital System Design (2+0+2) 3 ECTS 4
(Sayısal Sistem Tasarımı)
Hardware description languages, digital logic synthesis, computer organization, arithmetic logic, memory and control units, mini and microcomputer systems. Field Programmable Gate Arrays (FPGA). Laboratory Work.
Prerequisite: EE 142.
EE 271 Signals and Systems - I (3+1+0) 3 ECTS 6
(Sinyaller ve Sistemler - I)
Continuous-time signals and systems, basic system properties. Linear time-invariant systems, convolution integral. Fourier series representation of periodic continuous-time signals. Fourier transform of continuous-time signals. Laplace transform. Application to electrical circuits.
EE 272 Signals and Systems - II (3+0+0) 3 ECTS 6
(Sinyaller ve Sistemler - II)
Discrete-time signals and systems, basic system properties. Linear time-invariant systems, convolution sum. Fourier series representation of periodic discrete-time signals. Fourier transform of discrete-time signals. Sampling. Z-transform. Discrete-time filters.
Prerequisite: EE 271
EE 303 Mathematical Methods in Electrical Engineering (3+1+0) 3 ECTS 4
(Elektrik Mühendisliğinde Matematiksel Yöntemler)
Vector spaces, subspaces. Linear dependence/independence, span, basis. Linear transformations, eigenstructure analysis. Matrix representations of linear transformations, change of coordinates. Analytic functions of complex variables. Contour integrals. Cauchy integral formula. Poles and residues. Partial derivatives. Total differential and total derivatives. Jacobean determinants.
Prerequisite: MATH 201.
EE 304 Energy Conversion (3+0+0) 3 ECTS 6
(Enerji Dönüşümü)
Energy technology and resources: Fossil fuels, nuclear, solar, and other types of energy. Three phase systems and magnetic circuits. Transformers: Ideal and physical models and equivalent circuit, and transformer testing. Electromechanical energy conversion. Efficiency and process performance. Sensors and actuators: Relays, stepper and positioning systems, switched reluctance machines, synchronous reluctance machines, direct current (DC) machines. Symmetrical alternating current (AC) synchronous machines. Symmetrical AC induction machines.
Prerequisite: EE 201.
EE 310 Illumination (3+0+0) 3 ECTS 4
(Aydınlatma)
Definitions and measurements in illumination. Illumination calculations. Light sources; Illumination design. Street, flood and novelty lighting. Wiring systems. Projects.
EE 330 Solid State Electronics (3+0+0) 3 ECTS 6
(Katı Hal Elektroniği)
Introduction to wave mechanics, physical statistics, crystal structure, band theory, relaxation phenomena and electronic conductivity. Application to semiconductors and semiconductor devices.
Prerequisite: EE 333.
EE 333 Electronics I (3+1+0) 3 ECTS 6
(Elektronik I)
Diode characteristics and applications. Power supplies. BJT characteristics. BJT biasing. Small-signal modeling and analysis. MOSFET characteristics and biasing. FET small-signal modeling and analysis. Multistage ampflifiers. Coupling techniques and frequency response. Differential amplifiers. High-frequency modeling of transistors.
Prerequisite: EE 201, EE 232.
EE 334 Electronics II (3+1+0) 3 ECTS 6
(Elektronik II)
Feedback and broadbanding techniques. Analog Integrated Circuits; OpAmps. Power amplifiers. Filters and oscillators. Regulated power supplies.
Prerequisite: EE 333.
EE 335 Electronics Laboratory I (0+0+2) 1 ECTS 2
(Elektronik Laboratuvarı I)
Transistor biasing. Measurement of transistor parameters. D.C. power supplies and stabilized circuits. Linear and nonlinear wave shaping.
EE 336 Electronics Laboratory II (0+0+2) 1 ECTS 2
(Elektronik Laboratuvarı II)
Single and multistage transistor amplifiers; feedback in electronic circuits and frequency response. Multivibrator circuits, Logic gates and operational amplifiers.
Prerequisites: EE 333.
EE 342 Numerical Methods for Electrical Engineering (2+0+2) 3 ECTS 6
(Elektrik Mühendisleri için Sayısal Yöntemler)
Data structures, structured programming. Numerical solution of multidimensional optimization problems, convergence properties, gradient and Newton methods. Solution of linear, nonlinear equations, and differential equations, numerical integration.
EE 351 System Dynamics and Control (3+1+0) 3 ECTS 6
(Sistem Dinamiği ve Denetimi)
Analysis of linear control systems by differential equations and transfer function methods using Laplace transforms. Stability of closed loop systems. Routh-Hurwitz criterion, root-locus diagrams. System analysis in frequency domain. Bode, polar plots and Nichols charts. Nyquist stability criterion. Introduction to design and optimization of linear control systems, compensation techniques.
Prerequisites: MATH 202, EE 201.
EE 363 Electromagnetic Field Theory (3+1+0) 3 ECTS 6
(Elektromanyetik Alan Kuramı)
Vector analysis for field theory. Static electric and magnetic fields. Time varying electric and magnetic fields. Maxwell's equations.
Prerequisites: PHYS 201, MATH 202.
EE 364 Applications of Electromagnetic Field Theory (3+0+0) 3 ECTS 6
(Elektromanyetik Alan Kuramının Uygulamaları)
Plane waves in different media, reflection and refraction. Transmission lines. Waveguides and cavity resonators. Antennas and radiating systems.
Prerequisite: EE 363 or consent of the instructor
EE 371 Communication Engineering (3+1+0) 3 ECTS 6
(İletişim Mühendisliği)
Building blocks of communication systems. Analog communication methods: Analog amplitude and phase/frequency modulation. Frequency division multiplexing. Sampling and quantization. Pulse transmission methods: pulse-code modulation, differential pulse-code modulation and delta modulation. Tine-division multiplexing. Digital modulation techniques: Digital amplitude and phase/frequency shift keying.
Prerequisite: EE 271 and (EE 272 or consent of instructor)
EE 372 Random Signals (3+1+0) 3 ECTS 6
(Rastgele Sinyaller)
Parameter estimation, Hypothesis testing. Estimation of random variables. Random processes, stationarity, independence and ergodicity, correlation function. Spectral characteristics of random processes. Linear systems with random inputs. Special classes of random processes: Markov, Wiener, Poisson and Gaussian processes. Markov Chains.
Prerequisite: EE 214 or consent of the instructor
EE 373 Signals and Systems (4+1+0) 4 ECTS 6
(Sinyaller ve Sistemler)
Continuous-time and discrete-time signals and systems, basic system properties. Linear time-invariant systems, convolution. Fourier series representation of periodic signals, Fourier transform of continuous-time and discrete-time signals. Discrete Time Fourier Transform (DTFT). Sampling and z-transform.
Prerequisites: Math 202, EE 201.
ENG 380-399 / 480 - 499 Special Topics in Engineering (3+0+0)3 ECTS 5
(Mühendislikte Özel Konular)
Special topics of current interest in engineering and technology.
EE 401 Electrical Machinery I (3+0+2) 4 ECTS 6
(Elektrik Makinaları I)
Basic principles of electromechanical energy conversion. Study of D.C. commutator machines. Generator and motor characteristics. Control of D.C. Motors. Efficiency, heating and ratings of D.C. machines. Special D.C. machines. General principles of transformers. Connection and parallel operation of single phase and three-phase transformers. Introduction to A.C. machinery. Laboratory.
Prerequisite: EE 304.
EE 402 Electrical Machinery II (3+0+2) 4 ECTS 6
(Elektrik Makinaları II)
Windings of A.C. machines. Electromotive and magnetomotive forces of A.C. windings. Construction and operation of three-phase induction machines. Single-phase induction motors and special types. Types and construction of synchronous machines. Voltage diagrams, characteristics and parallel operations of three-phase synchronous generators. D.C. and A.C. machine transients and dynamics. Laboratory.
Prerequisite: EE 304.
EE 411 Electrical Power Transmission (4+0+0) 4 ECTS 6
(Elektrik Enerjisi İletimi)
Long transmission lines; voltage and current equations; equivalent circuits and diagrams. Mechanical calculations. High voltage switchgear equipment. Stability. Traveling waves. Electrical and mechanical design of transmission lines. Applications.
Prerequisite: EE 201.
EE 412 Power Systems Behavior (3+0+0) 3 ECTS 5
(Enerji Sistemlerinin Davranışı)
Study of power system stability and the swing equation; power system fault calculations, relaying and protection. Study of synchronous generator transients, breaker application and selection , and voltage transients due to switching. Stability calculations in systems with various types of fault conditions.
Prerequisite: EE 411 or equivalent.
EE 413 Computer Analysis Methods for Power Systems (3+0+0) 3 ECTS 5
(Güç Sistemleri için Bilgisayar Analiz Yöntemleri)
Sparcity programming, solution methods for power on transmission networks, network fault and contingency calculations; off-line studies like unit-commitment and short-term load forecasting.
Prerequisites: EE 304.
EE 415 Power System Protection (3+0+0) 3 ECTS 5
(Güç Sistemlerinin Korunması)
General structure of distribution system components and basic concepts of power system protection. Design consideration of distribution systems and their effective operation. Detailed analysis of electric power distribution systems and reliability of protection systems.
Prerequisite: Consent of the instructor.
EE 431 Electronic Measurement and Instrumentation (3+0+0) 3 ECTS 6
(Elektronik Ölçme ve Ölçü Aletleri)
Units and principles of measurement. Error of measurement. Probability of error. Electronic measurements and electronic measuring instruments: Instrument amplifiers, signal sources, oscilloscopes, digital frequency meters, digital voltmeters. High frequency and microwave measurement techniques. Laboratory.
Prerequisites: EE 333, EE 335.
EE 432 Digital Electronics (3+0+0) 3 ECTS 6
(Sayısal Elektronik)
Basic waveshapes and fundamentals of digital electronics. Principles of Metaloxide Semiconductor (MOS) transistor, operation of MOS inverters and gate circuits (NMOS, CMOS). Principles of bipolar junction transistors (BJT), operation of BJT inverters and gate circuits (TTL, ECL, I2L), semiconductor memories.
Prerequisite: EE 333.
EE 433 Communication Electronics (3+0+0) 3 ECTS 6
(İletişim Elektroniği)
Introduction to wireless communication systems. Impedance matching techniques by using Smith Chart. Noise and distortion in HF systems and amplifiers. RF amplifier analysis and design using S-parameters. HF mixers and oscillators. Phase locked loops and frequency synthesizers. Modulator and demodulator design.
EE 435 Industrial Electronics (3+0+0) 3 ECTS 6
(Endustriyel Elektronik)
Review of four layer devices and their applications. Gate control techniques in power switching elements and their protection. Introduction to solid state energy conversion. AC/DC, AC/AC, DC/AC and DC/DC converters. Introduction to control of electrical drives. Industrial control systems. Relay circuits; ladder diagrams. Sequential control circuits. Case studies.
Prerequisite: EE 334.
EE 437 Op Amps and Applications (3+0+0) 3 ECTS 6
(İşlemsel Yükselteçler ve Uygulamaları)
Op-Amp fundamentals; linear Op-Amp circuits: DC sources, current to voltage converters, voltage to current converters, current amplifiers, difference amplifiers, instrumentation amplifiers, transducer bridge amplifiers. Active filters; practical Op-Amp limitations; stability and frequency compensation.
Prerequisite: EE 334.
EE 438 Design with Integrated Circuits (3+0+0) 3 ECTS 6
(Tümleşik Devreler ile Tasarım)
Nonlinear Circuit Applications: Voltage comparators, Schmitt triggers, precision rectifiers, analog switches, peak detectors, S/H circuits; signal generators: sine wave generators, multivibrators, IC timers, triangular wave generators, triangular-to-sine wave convertors, sawtooth wave generators, V/F and F/V convertors; D-A and A-D convertors: Basic DAC techniques, Bipolar DAC's, high resolution DAC's, DAC-based AD conversion, parallel A-D techniques, Integrating Type ADC's; logarithmic amplifiers: Log/Antilog amplifiers; Phase-Locked Loops.
Prerequisite: EE 334.
EE 439 Advanced Electronics Lab (0+0+2) 1 ECTS 3
(İleri Elektronik Laboratuvarı)
Active filters, phase locked loop (PLL) circuits, counters and dividers, sweep circuits. Function generators, multipliers, comparators and operational amplifier (Op-Amp) characteristics.
Prerequisite: EE 334.
EE 443 Microprocessors (3+0+2) 4 ECTS 6
(Mikro İşlemciler)
Elements of microprocessor systems, hardware and software analysis. Addressing techniques. Input-Output devices. Design of small microprocessor systems. Laboratory.
Prerequisites: EE 244, EE 333.
EE 450 Control Technology and Design (3+0+2) 4 ECTS 6
(Denetim Teknolojisi ve Tasarımı)
An overview of design techniques with particular interest to industrial requirements. Feedback implementation: Transducers, sensors and signal conditioning. Implementation of various types of control actions and servo control. Laboratory.
Prerequisite: EE 351.
EE 451 Introduction to Robot Control (3+1+0) 3 ECTS 6
(Robot Denetimine Giriş)
Description and classification of robots. A general view of mechanics and kinematics for joints, links and gripper. Inverse kinematics. Determination of dynamical models. State-space representation and linearization of nonlinear models. Control of robots. Independent joint control. Force control. Trajectory planning and control.
Prerequisite: EE 351
EE 453 Linear System Theory (4+0+0) 4 ECTS 6
(Doğrusal Sistem Kuramı)
Introduction to realization theory for single-input, single-output (SISO) systems. Solution of the state space equations. Structural properties: controllability, observability, detectability, stabilizability. State feedback design, observer design and design of observer based compensations for SISO systems.
Prerequisites: EE 351.
EE 454 Linear Multivariable Systems (3+0+0) 3 ECTS 6
(Çokdeğişkenli Doğrusal Sistemler)
Fundamentals of polynomial matrix theory. Finite and infinite pole/zero structure of transfer matrices. Realization theory: minimality and minimal realizations of transfer matrices. Linear state feedback design, linear quadratic regulator problem, design of observer-based compensators for multi-input, multi-output linear systems.
Prerequisite: EE 453.
EE 455 Application Development Using Java (3+0+0) 3 ETCS 7
(Java Programı ile Uygulama Geliştirme)
Introduction to the basics of object-oriented programming and Java including JVM (Java Virtual Machine) and development environments, and design of applications. Java language syntax, error handling and exceptions, utility classes, application programming interfaces including input-output streams, graphical user interface, abstract windowing toolkit and swing, event-handling. Design and development of applets, graphics, threads and multi-threading and networking using TCP and UDP.
EE 457 Introduction to Optimization Theory (3+0+0) 3 ECTS 6
(Eniyileme Kuramına Giriş)
Unimodal search, unconstrained optimization with respect to a single variable, optimization with respect to multiple variables, constrained optimization, calculus of variations, principles of optimality and dynamic programming, maximum principle, Kuhn-Tucker conditions for optimality.
Prerequisite: MATH 202.
EE 460 Introduction to Remote Sensing (3+0+0) 3 ECTS 6
(Uzaktan Algılamaya Giriş)
Physical bases of remote sensing. Radiation characteristics of natural phenomena. Sensors and platforms. Data interpretation and processing. Applications to crops and land use. Problems and prospects.
Prerequisite: Consent of the instructor.
EE 461 Optical Systems (3+0+0) 3 ECTS 6
(Optik Sistemler)
Optical elements and instruments. Geometrical optics: ray-tracing, aberrations, lens design, apertures and stops, radiometry, photometry. Wave optics: polarization, interference, wave-guiding, Fresnel and Fraunhofer diffraction, aberrations, image formation, resolution, and space-bandwidth product. Spatial Fourier transforms, spatial filtering, sources and detectors in optical systems. Fiber optics. Analysis and design of optical systems and application of physical concepts to engineering domains.
Prerequisite: EE 363 or consent of the instructor.
EE 463 Antenna Theory and Design for Wireless Communications (3+1+0)3 (ECTS: 6)
(Kablosuz İletişim için Anten Kuramı ve Tasarımı)
Antenna characteristics and measurement. Antenna arrays. Dipole antennas. Radiation pattern, input impedance self and mutual impedance for dipole elements and arrays. Aperture antennas. Printed antennas. Field equivalence principle. Unintentional radiation and coupling. Baluns for antennas. Far field radiation patterns for electric and magnetic current sources. Reflection, diffraction, scattering. Prerequisite: EE 363
EE 470 Mobile Communication (3+0+0) 3 ECTS 6
(Gezgin İletişim)
VHF and UHF communication in land-mobile communication. Channel characterization: fast and slow fading, frequency selectivity, delay spread and coherence bandwidth. Signal loss probability. Interference environments and its control. Frequency control. Diversity techniques for digital land mobile radio. Spatial distribution of offered traffic. Efficient spectral utilization. Capacity calculations and networking.
Prerequisites: EE 371, EE 372.
EE 471 Introduction to Network Security and Cryptography (3+0+0) 3 ETCS 7
(Ağ Güvenliğine Giriş ve Kriptografi)
Concepts of data and network security engineering. OSI (Open Systems Interconnection) security architecture. Attacks on cryptographic systems: DoS (Denial of Service), interception, fabrication, MoM (Modification of Messages), replay attacks. Symmetric and asymmetric cryptography. The concepts of public and private key cryptography. Secret key schemes: DES (Data Encryption Standards) and IDEA (International Data Encryption Algorithm). Public key schemes: RSA and El Gamal. Elliptic curve algorithms. Signature algorithms, hash functions, key distribution and identification schemes. Mathematical algorithms for attacking cryptographic schemes.
EE 473 Introduction to Digital Signal Processing (3+1+0) 3 ECTS 6
(Sayısal Sinyal İşlemeye Giriş)
Sampling and quantization schemes. Linear shift invariant systems, stability and causality. Two-dimensional systems and sequences. Flow graphs, digital filter design techniques, FIR and IIR filters. Computation of Discrete Fourier Transform (DFT), Fast Fourier Transform (FFT) techniques. Effects of finite register length. Estimation of power spectra. Discrete time random signals and systems.
Prerequisite: EE 272.
EE 474 Introduction to Optical Fiber Communications (3+0+0) 3 ECTS 6
(Optik Fiber İletişimine Giriş)
Optical fiber waveguides. Transmission characteristics of optical fibers. Optical fibers, cables and connections. Optical fiber measurements. Optical sources: Laser, LED. Optical detectors. Receiver noise considerations. Optical fiber systems.
Prerequisite: EE 271.
EE 475 Introduction to Image Processing (3+0+0) 3 ECTS 6
(İmge İşlemeye Giriş)
Digital images. Sampling and quantization of images. Color, stereo and video images. Arithmetic operations, gray scale manipulations, distance measures, connectivity. Image transforms. Linear and nonlinear filters. Image enhancement. Image restoration: degradation models, inverse filtering. Image segmentation. Image representation and description techniques.
Prerequisite: EE 272.
EE 477 Introduction to Digital Communications (4+0+0) 4 ECTS 6
(Sayısal İletişime Giriş)
Stochastic processes. Noise analysis in analog communication. Data transmission through AWGN channel, bandpass data transmission, equalization. Optimum receiver design, carrier and pulse synchronization. Error probabilities for binary/m-ary transmission. Carrier modulation: Amplitude Modulation (AM), Phase Modulation (PM), Frequency Modulation (FM), Quadrature Amplitude Modulation (QAM) and their performances. Entropy, quantization and rate distortion, information sources, channel capacity, coding.
Prerequisites: EE 371, EE 372
EE 479 Communication Laboratory (0+0+2) 1 ECTS 2
(İletişim Laboratuvarı)
Demonstration of fundamental signal processing techniques using software packages. Various analog and digital modulation schemes.
Prerequisites: EE 371, concurrent with 477.
EE 480-489 Special Topics (3+0+0) 3 ECTS 4
(Özel Konular)
Special topics in Electrical and Electronic Engineering selected to suit the individual interests of the students. The course is designed to give the student an opportunity to do independent work at an advanced level.
EE 490 Special Studies (3+0+0) 3 ECTS 4
(Özel Calışma)
Special topics in Electrical and Electronic Engineering selected to suit the individual interests of the students. The course is designed to give the student an opportunity to do independent work at an advanced level.
EE 491 Special Projects (3+0+0) 3 ECTS 6
(Özel Proje)
Individual project design or research will be the main topics. Students with special interest and qualifications may be permitted to take this course.
EE 492 Project (0+0+8) 4 ECTS 8
(Bitirme Projesi)
Listed under Engineering Core Courses.
EE 493-499 Special Topics (3+0+0) 3 ECTS 4
(Özel Konular)
Special topics in Electrical and Electronic Engineering selected to suit the individual interests of the students. The course is designed to give the student an opportunity to do independent work at an advanced level.