Electronics and Communication Engineering
Undergraduate Course Contents
FIRST YEAR – FALL SEMESTER
COURSE: ATA101 ATATÜRK İLKELERİ VE İNKİLAP TARİHİ I (ATATÜRK'S PRINCIPLES AND HIST. OF TURKISH REFORMS I) (2+0)
Course Contents: Characteristics of Turkish revolution, Organization of Anatolian revolution, Amasya Circular, Erzurum Congress, Sivas Congress, Forming Council of Representatives, Opening of Turkish Grand National Assembly; National Independence War: Occupation of İzmir; Forming Kuva-i Milliye, First and Second Battles of İnönü, Battles of Eskişehir-Kütahya, Battle of Sakarya, the Major Offensive; Mudanya Cease-fire Treaty; Abolition of the Sultanate; Lausanne Treaty.
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COURSE: CEN131 INTRODUCTION TO COMPUTER SCIENCE (2+2)
Course Contents: Number systems; Boolean algebra; Data Storage, memory, files, computer architecture, operating systems, networking and Internet, algorithms, programming languages, software engineering, data structures, database systems, artificial intelligence, theory of computation.
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COURSE: CEN133 ALGORITHMS AND PROGRAMMING I (3+2)
Course Contents: Processing simple forms of data. Number, expressions, simple programs. Programs are functions plus variable definitions. Conditional expressions and functions, Compound data: structures, lists. Natural numbers. Function composition. Self referential and mutual referential data. Development through iterative refinement. Abstracting design.Generative recursion. Syntax and semantics of Scheme programming language.
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COURSE: EEE101 INTRODUCTION TO ELECTRONICS ENGINEERING (2+0)
Course Contents: Engineering versus Science. SI-quantities and units. Resistors. Capacitors. Inductors. Semiconductors – discrete and integrated. Elements, circuits and systems. System design and datasheets. Introduction to project management.
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COURSE: MCS155 CALCULUS I (accelerated) (4+2)
Course Contents: Functions and Models, Limits and Derivatives, Differentiation Rules, Applications of Differentiation, Integrals. Applications of Integration, Techniques of Integration, Further Applications of Integration, Differential Equations, Parametric Equations and Polar Coordinates, Infinite Sequences and Series.
Text Books :
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George B. Thomas, Maurice D. Weir, Joel Hass, Frank R. Giordano: Thomas’ Calculus, 11th Ed., Addison-Wesley, 2004.
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H. Anton: Calculus, 6th Ed., John Wiley, 1999.
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Tom M. Apostol: Calculus, Vol.1 & 2, Blaisdell pub. Co., New York, 1961.
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E.Passow: Schaum’s outline of theory and problems, Mc-Graw-Hill, 1999.
COURSE: PHY155 GENERAL PHYSICS I (3+2)
Course Contents: Measurement; vectors. Motion in one dimension. Plane motion. Dynamics of particles. Work and energy. Collision. Kinetics of rotation. Oscillation. Inflection of the mass. Fluid mechanics. Heat and the first law of thermodynamics. Kinetic theory of gas. Second law of thermodynamics.
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COURSE: TUR101 TÜRK DİLİ I (TURKISH I) (2+0)
Course Contents: Language theories, classification of languages, Ural-Altaic language family, phonetics, morphology, syntax, semantics, phonetics of Turkish, structure of words, sentence structure, analysis of selected books.
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FIRST YEAR – SPRING SEMESTER
COURSE: ATA102 ATATÜRK İLKELERİ VE İNKİLAP TARİHİ II (ATATÜRK'S PRINCIPLES AND HIST. OF TURKISH REFORMS II) (2+0)
Course Contents: Declaration of Republic; Abolition of the Caliphate; Abolition of the Tekkes; Reforms: Dress, Calendar, Alphabet, Political and Justice System reforms, National Economy Policy, The Use of International Number System; International treaties signed by Turkish Republic (up to 1938); Atatürk's Fundamental Principles: Republicanism, Nationalism. Populism, Etatism, Secularism, Revolutionism.
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COURSE: CEN134 ALGORITHMS AND PROGRAMMING II (3+2)
Course Contents: Iterative and recursive programming techniques. Functions and parameter passing. Pointers and dynamic storage allocation. Multidimensional arrays. Record structures. File systems and file processing. Program specification, documentation and testing. Programming in C language.
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S. R. Lerman: The Problem Solving and Computation for Scientists and Engineers (An Introduction using C). Englewood Cliffs, N. J: Prentice-Hall, 1993.
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B. W. Kernighan, D. M. Ritchie: The C Programming Language. Englewood Cliffs, N. J: Prentice-Hall, 1988.
COURSE: CHE152 GENERAL CHEMISTRY (3+0)
Course Contents: Introduction to atomic theory, stoichiometry, electronic structure, molecular orbital properties of solutions, equilibrium chemical kinetics, thermodynamics and electrochemistry. Polymeres and their applications in electronics engineering: OLED (organic light emitting diyote) and Organic transistor.
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Jan C.A. Boeyens: Chemistry from First Principles. Springer, 2008.
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J.T. Moore, R.H.Langley: Chemistry for the Utterly Confused. MacGraw Hill, New York, 2007.
COURSE: EEE102 LOGIC DESIGN (3+2)
Course Contents: Logic gates: AND, OR, NOT, EXOR; Karnaugh diagram; combinational logic; Flip-Flops; registers; counters; memory unit; sequential circuits; programmable logic.
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COURSE: MAB156 CALCULUS II (accelerated) (4+2)
Course Contents: Coordinate systems. Curves and equations. Linear equations. Quadratic equations. Parametric equations. Polar equations. Space analytic geometry. Multi-variable functions.Limits and continuusness. Derivatives for multi-variable functions. Multiple intergration.
Text Books :
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George B. Thomas, Maurice D. Weir, Joel Hass, Frank R. Giordano: Thomas’ Calculus, 11th Ed., Addison-Wesley, 2004.
COURSE: PHY156 GENERAL PHYSICS II (3+2)
Course Contents: Charge and matters, The electric fields and Gauss’ law, Electrical potential, Capacitors and dielectrics, Current and resistance, Electromotive force and electric circuits Magnetic field and Ampere’s law, Faraday’s law, Inductance and L-C-R circuits. Magnetic properties of solids, Alternating Currents, Electromagnetic waves, Optics, Wave optics and interference. Diffraction.
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COURSE: TUR102 TÜRK DİLİ II (TURKISH II) (2+0)
Course Contents: Practice and training in written Turkish, fundamental rules, punctuation and dictation, styles of writing and composition, survey of the works of classical and contemporary Turkish writers, examples of scientific writing: reports, articles etc.
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SECOND YEAR – FALL SEMESTER
COURSE: CEN201 DATA STRUCTURES AND ALGORITHMS (3+2)
Course Contents: Data Types and Abstraction. Stacks, Queues and Deques. Ordered Lists and Sorted Lists .Hashing, Hash Tables and Scatter Tables Trees.Search Trees. Heaps and Priority Queues. Sets, Multisets and Partitions. Algorithmic Patterns and Problem Solvers. Sorting Algorithms. Graphs and Graph Algorithms. C++ and Object-Oriented Programming. The Features of C++: Variables, Parameter Passing, Pointers, Classes and Objects, Inheritance, Other Features. Object-Oriented Design : Abstraction , Encapsulation. Object Hierarchies and Design Patterns: Containers, Iterators, Visitors, Adapters, Singletons.
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COURSE: EEE211 CIRCUIT THEORY I (2+2)
Course Contents: Circuit variables, circuit elements. Simple resistive circuits. Techniques of circuit analysis: Kirchhoff’s laws, node voltage analysis, mesh current analysis, etc. Topology in circuit analysis. Memory elements: Inductance and capacitance. State variables and state equations. Response of first-order RL, RC circuits. Natural and step responses of second-order RLC circuits.
Text Books :
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L. O. Chua, J.A. Desoer and E.S. Kuh: Linear and Nonlinear Circuits, McGraw-Hill, New York, 1999.
COURSE: MCS201 LINEAR ALGEBRA (4+0)
Course Contents: Matrix algebra. Systems of linear algebraic equations. Eigenvalues and eigenvectors. Linear vector spaces. Introduction to differential equations. Ordinary linear differential equations. System of linear differential equations.
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D.C. Lay: Linear Algebra and Its Applications, 2nd Ed., Addison-Wesley, 2000.
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D.Zelinsky: A First Course in Linear Algebra, Academic Press, New York.
COURSE: ENG101 ADVANCED READING SKILLS I (4+0)
Course Contents: The aim of the course is provide the students with the learning environments in which they can develop academic reading skills that focus on the practices of how to understand and analyze a reading passage through using some reading strategies and how to deal with unknown vocabulary. This course is an advanced reading course emphasizing the importance of academic reading in an academic setting. This course is designed to allow students to explore and study the processes of constructing reading skills in defined academic contexts. Students will learn how to find the main idea of a text they read, skim and scan a passage, and how to gather information from different sources as well as making inferences, analyzing, summarizing and categorizing the information.
COURSE: PHY255 MODERN PHYSICS (3+0)
Course Contents: Atomic structure. Photons. Particles and waves. Heisenberg uncertainty relation, deBroglie, Schrödinger equation, laser, superconductivity.
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SECOND YEAR – SPRING SEMESTER
COURSE: EEE212 CIRCUIT THEORY II (3+0)
Course Contents: Sinusoidal steady state analysis, operational amplifier, power calculations, three phase circuits, coupling elements and coupled circuits, two port networks. Circuit analysis by Laplace Transformations.
Text Books :
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L.O Chua, J.A. Desoer and E.S. Kuh: Linear and Nonlinear Circuits, McGraw-Hill, 1987.
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J.A. Desoer and E.S. Kuh: Basic Circuit Theory, McGraw-Hill, 1969.
COURSE: EEE214 ELECTRONICS I (4+0)
Course Contents: Semiconductors and crystals, Miller indices. Intrinsic and doped semiconductors. Fermi-function. Carrier action: diffusion and drift. The pn-junction, diodes. Bipolar Junction Transistor, JFET, MOSFET.
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D. Neamen: Introduction to Semiconductor Devices, McGraw Hill, 2006.
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R. F. Pierret: Advanced Semiconductor Fundamentals, Prentice Hall, 2003.
COURSE: ENG102 ADVANCED WRITING SKILLS I (4+0)
Course Contents: This course is an introduction to academic writing that focuses on the practices of analysis and argument that provide the students with professional writing skills. This course is an advanced writing course emphasizing the importance of academic writing in an academic setting. In order to write well in their academic and professional lives, students will answer this question: What is academic writing? This course is designed to allow students to explore and study the processes of constructing writing skills in defined academic contexts. Students will learn how to write an essay and attain information about different essay types as well as learning to present an academic paper at the end of the course.
COURSE: MCS202 DIFFERENTIAL EQUATIONS (4+0)
Course Contents: Classification of differential equations. Initial and boundary value problems. Exact and separable differential equations. Linear and Bernoulli equation. Higher order differential equations: Homogenous linear equations with constant coefficient. The method of undetermined coefficients, variation of parameters, the Cauchy Eulerequation. Series solutions of linear differential equations. Bessel differential equations. The Laplace transform.
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COURSE: MEC204 COMPUTER AIDED ENGINEERING GRAPHICS (2+2)
Course Contents: Engineering graphics: principles of orthographic and auxiliary projections, pictorial presentation of engineering designs, dimensioning and tolerance, sectional and detail views, assembly drawings. Descriptive geometry. Engineering figures and graphs. Solid modeling introduction to computer-aided design and manufacturing (CAD/CAM) using numerically-controlled (NC) machines.
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C. Jensen, J. Helsel, D. Short: Engineering Drawing and Design, McGraw Hill Higher Education, 2007.
INDUSTRIAL TRAINEESHIP
Contents: 6 weeks of traineeship in industry in the field of electronics engineering to be absolved during lecture free times.
THIRD YEAR – FALL SEMESTER
COURSE: EEE301 TECHNICAL WRITINGS AND COMPOSITIONS (2+0)
Course Contents: History of Electronics Engineering and well known contributors to Electronics Engineering. Structure of the research papers and technical reports. Typical mistakes in report writings. Ethics, privacy, security and Copyright issues.
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COURSE: EEE311 ELECTRONICS LABORATORY I (0+2)
Course Contents: Diode I-V Curves; Zener diode, Bipolar Junction Transistor (BJT) Characteristics: DC Biasing; Amplifier Circuit; Field Effect Transistor (FET) Characteristics: DC Biasing; Small-Signal Model: Amplifier and Logic Gates.
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COURSE: EEE315 ELECTRONICS II (4+0)
Course Contents: Analog electronics --- diode biasing and applications, BJT and FET biasing, DC/AC analysis, Multistage amplifiers, Differential amplifiers, Operational amplifiers and applications, Frequency response of amplifiers, Active filters, Oscillators.
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COURSE: EEE317 ELECTROMAGNETICS I (4+0)
Course Contents: Electrostatic: Stock's and divergent theorems, static electrical fields, boundary condition problems, Gauss Law, potential theory. Magnetostatics: continuous electrical currents, ohm law and continuity theorem, joule law, static magnetic fields, magnetism in a free space, vector and scalar magnetic potential, Biot-Savart law, magnetic field and boundary conditions, inductance and inductors.
Text Books :
- Harrington: Time-Harmonic Electromagnetic Fields, IEEE Press Series on Electromagnetic Wave Theory, 2001.
COURSE: EEE319 SIGNALS AND SYSTEMS (3+0)
Course Contents: I/O definition and properties of continuous and discrete-time dynamic systems: Memory, causality, stability, linearity and time-invariant systems, impulse response, convolution. Fourier series and transform, discrete time Fourier Series and transform, Laplace transform and z-transform. Sampling and modulation.
Text Books :
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A.V. Oppenheim, A.S. Willsky with S.H. Nawab: Signals and Systems, Prentice Hall, 2nd ed., 1997.
COURSE: EEE321 COMPUTER AIDED CIRCUIT SIMULATION (2+2)
Course Contents: Numerical methods for integration: Euler, trapezoidal, Gear, Adams-Moulton. Newton-Raphson algorithm. Matrix solver: LU-Crout, SVD-decomposition. PSPICE fundamentals. QUCS.
Text Books :
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J. Vlach and K. Singhal (1983). Computer Methods For Circuit Analysis And Design, Van Nostrand Reinhold.
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Ron Kielkowsi: Inside SPICE: overcoming the obstacles of circuit simulation, McGraw-Hill, New York, 1994.
COURSE: MCS351 ENGINEERING MATHEMATICS (2+2)
Course Contents: General descriptions and basic concepts. First order ordinary differential equations and engineering applications. Linear differential equations of higher order and engineering applications. Application of linear differential equations of the 2nd order with constant coefficients. Solution of linear differential equations with exponential series. Systems of linear differential equations and engineering applications. Laplace transformation and applications.
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THIRD YEAR – SPRING SEMESTER
COURSE: EEE312 ELECTRONICS LABORATORY II (0+2)
Course Contents: Differential amplifier. OpAmp circuits. Instrumentation amplifier. Basic A/D and D/A converter circuits.
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COURSE: EEE316 ELECTRONICS III (4+0)
Course Contents: Digital electronics --- Power amplifiers, Tuned amplifiers, PLL and its applications. TTL, CMOS logic gates flip-flops, counter and divider circuits, A/D, D/A converters.
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COURSE: EEE318 ELECTROMAGNETICS II (4+0)
Course Contents: Electromagnetic energy: Magnetic energy and forces, Hall effect, time varying fields,Electromagnetic waves: Maxwell equations and boundary conditions, wave equation, time-harmonic fields, Maxwell equations, plane waves, Doppler effect, Polarization, dielectrics, good conductors, ionized gases, mean and instantaneous EM power, Pointing vector, reflection and diffraction, wave translation in parallel and micro strip mediums. Wave guides.
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COURSE: EEE320 MEASUREMENT TECHNIQUES (3+0)
Course Contents: Units and principles of measurement: voltage, current, power, resistance. Error of measurement. Error propagation. Electronic measurements and electronic measuring instruments: Instrument amplifiers, signal sources, oscilloscopes, digital frequency meters, digital multimeters, Sensors: analog and digital.
Text Books :
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Albert D. Helfrick, William D. Cooper: Modern Electronic Instrumentation and Measurement Techniques, Prentice Hall, 1989.
COURSE: EEE330 CONTROL THEORY (4+0)
Course Contents: Z-transform, description and analysis of discrete time and sampled-data systems. Stability, controllability and observability. Classical design methods. State-space design methods. Optimal Control, system identification and adaptive control.
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COURSE: EEE352 PROBABILITY AND RANDOM PROCESSES (3+0)
Course Contents: The classical finite space approach to probability, conditional probability. Bayes theorem. Independence of events. Some probability models. Measurable functions and random variables. Distributions. Discrete and absolutely continuous distributions. Transformations of random variables. Conditional distributions. Mathematical expectations: mean, variance, moment generating functions. Characteristics functions. Conditional expectation. Limiting distributions.
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FOURTH YEAR – FALL SEMESTER
COURSE: EEE411 TELECOMMUNICATION I (3+0)
Course Contents: Amplitude and angle modulation techniques: Amplitude Modulation, Double Side Band, Single Side Band, Vestigial Side Band, Quadrature Amplitude Modulation. Frequency Modulation, Pulse Modulation. Phase-locked loops. Super heterodyne receivers. Frequency division multiplexing. Television. Noise in CW systems.
Text Books :
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J. Proakis and M. Salehi (2005). Fundamentals of Communication Systems, Pearson-Prentice Hall.
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S. Haykin (2001). Communication Systems, Wiley.
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G. M. Miller (1988). Modern Electronic Communication, Prentice Hall.
COURSE: EEE415 MICROPROCESSORS (3+2)
Course Contents: Basic elements of microprocessor systems. Instruction formats. Addressing techniques. Assembler language- with examples from microprocessors. Detailed examination of addressing, instruction execution, data representation and program coding and debugging. Design of microprocessor based systems.
Text Books :
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Barry B.Brey (1997). The Intel Microprocessors: 8086/8088, 80186/80188 Pentium and Pentium Pro Processors Architecture, Programming and Interfacing, 4th Ed., Prentice-Hall.
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John B. Peatman (1997). Design with PIC Microcontrollers, Prentice Hall.
FOURTH YEAR – SPRING SEMESTER
COURSE: EEE412 TELECOMMUNICATION II (3+0)
Course Contents: Pulse modulation: Sampling process, pulse-amplitude modulation, time-division multiplexing, quantization, pulse-code modulation. Line codes. Baseband pulse transmission. Digital passband transmission. Introduction to information theory and error control coding.
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COURSE: EEE414 TELECOMMUNICATION LABORATORY (0+4)
Course Contents: Demonstration of fundamental signal processing techniques using software packages. Various analog and digital modulation schemes.
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COURSE: EEE492 SENIOR DESIGN PROJECT (0+6)
Course Contents: All students are required to complete a Project within one semester. The student has to consult the faculty members.
TECHNICAL ELECTIVE
Fourth Year – Fall Semester
COURSE: EEE 421 DIGITAL SIGNAL PROCESSING (3+0)
Course Contents: Discrete-time signals and systems. Discrete Fourier transform. Sampling and reconstruction. Linear time-invariant systems. Structures for discrete-time systems. Filter design techniques. Fast Fourier Transform methods. Fourier analysis of signals using discrete Fourier transform. Optimal filtering and linear prediction.
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