Courses

Introducing curriculum, functioning, units, regulations, systems and facilities within the scope of Orientation Program for new students enrolled to my university.

Compulsory

Basic computer literacy: terminology, system components and operation. Fundamentals of computer programming: sequence, decision, repetition, syntax, compilation, debugging and maintenance, procedures, parameters, arrays, searching, sorting, top-down structured design, and style.

Compulsory

Measurement and vectors, kinematics, Newton's laws, circular motion, gravitation, work and energy, conservation of energy, momentum, statics, rotational Motion, simple harmonic motion, wave motion, heat, the first law of thermodynamics, kinetic theory of gases, the second law of thermodynamics, entropy ( Related experiments ).

Compulsory

Career Management, Intelligence, Talent, Personality, SWOT Analysis, International Exchange Programs, Communication Skills, CV Preparation, Cover Letter Preparation, Recognition of Sectors, Entrepreneurship

Compulsory

General scope and responsibilities of electrical-electronic engineering, standards, units. Basic quantities used in electricity and electronics, basic circuit elements and their definitions. General information about electrical signals. Analog and digital quantities in terms of electricity and electronics. SPICE, Matlab and basic computer programs used in electrical-electronic circuits.

Compulsory

Foundations, coordinates and vectors, functions, limits, continuity, derivative, tangent lines, the mean value theorem, graphing, extreme values, optimization problems, linearization and differentials, integration, Riemann sums and definite integrals, the fundamental theorem of calculus, natural logarithm, exponential functions, inverse trigonometric functions, L'Hospital's rule, methods of integration, applications of integrals.

Compulsory

Number systems and coding. Boolean algebra. Combinational logic circuit elements. Boolean functions: Canonical expressions and reduction of Boolean functions, Quine McCluskey and Karnaugh Methods. Some practical combinational circuits: adders, encoders, multiplexers, ROM and programmable logical arrays. Sequential logic circuits: state table and state diagram. Flip-flops. Analysis of sequential logic circuits. Design of synchronous sequential logic circuits. Integrated sequential circuit components: registers, memories, counters.

Compulsory

What is Language? Relations of Language with the Concepts ""Thought"", ""Society"", Relations of Language with the Concepts ""Culture"", ""History"", Types of Language, History of Turkish Language I, History of Turkish Language II

Text Analysis

History of Turkish Language III

Text Analysis

Atatürk'a Approach to Turkish Language and Language Revolution in Turkey

Text Analysis

Phonetic Characteristic and Elocution of Turkish Language

Text Analysis

Examination

Writing Rules: ""de"" / ""ki"", Writing of Conjugation, Use of Correction Mark, Writing of Union Words

Application: Commonly Misspelled Words, Punctuation Marks

Narrative Disorders and Common Mistakes

Text Analysis

Subjective and Objective Narration, Types of Narration, Methods of Improving Thought in a Text

Text Analysis

Principles of Academic Writing

Text Analysis

Intellectual Writing Genres

Literary Genres: Story, Poetry and Novel

Text Analysis

Oral Expression and Types: Interview, Panel, Symposium, Conference.

Compulsory

Vector spaces, linear dependence and independence, bases, inner product spaces, Gramm-Schmidt orthogonalization, orthogonal projections, linear transformations and their matricesapplications in electrical fields and circuits. Matrices, elementary row/column operations, rank of a matrix, invertibility, row reduced echelon form, systems of linear equations, determinants, Cramer's rule, applications to electrical engineering problems. Lineer transformations in electrical engineering: Fourier series, eigenvalues, eigenvectors, diagonalization and its applications, linear transformations and their matrices. Example circuit and field problems, MatLab applications.

Compulsory

Simple present tense, have/has, there is/are, some/any, can/can't, present continuous tense, articles, prepositions, simple past tense, going to future, comparative adjectives.

Compulsory

Sequences and series, Taylor and Maclaurin series, lengths of plane curves, polar coordinates and complex numbers, lines, planes and quadric surfaces in space, functions of several variables, limits and continuity, partial derivatives, differentiability, the chain rule, directional derivatives, extreme values, multiple integrals, integrals in polar, cylindrical and spherical coordinates, line integrals and surface integrals.

Compulsory

Importance and Significance of Turkish Revolution, Ottoman Empire in The Contemporary Age and Reasons of Its Collapse, Efforts to Save the Empire; First Reforms, Nizâm-ı Cedit Reforms, II. Mahmut Reforms, The Tanzimat Period, Transition to Constitutional Monarchy; First and Second Constitutional Era, Ideological Movements in the Last Period of Ottoman Empire, Wars That Ottoman Empire Loined in the beginning of the 20th Century: The Tripoli War, the Balkan Wars and the First World War, its Reasons, Developments and Results, Ottoman Empire and War Fronts in the First World War and Its Results, Secret Agreements about the partition of Ottoman Empire, Armistice of Mondros and Reactions, Life of Mustafa Kemal Pasha, Occupation of Izmir by the Greeks and Reactions to the Occupation, Mustafa Kemal Pasha’s Arrival to Samsun and Organization Activities, Mustafa Kemal Pasha’s Organization efforts to National Resistance Movement: Amasya Circles, Erzurum and Sivas Congresses, Amasya Negotiations and Protocols, Meeting of the Last Ottoman Parliament in Istanbul, National Pact Desicions, Occupation of Istanbul by the Entente States and The Reaction Against the Occupation, Opening of the Grand National Assembly of Turkey in Ankara and its First Decisions and its applications, Uprising in the Period of National Struggle, Sharing Plans for Turkey and Treaty of Sevr, Turkish War of Independence, War Period; Establishment of National Army, Eastern Front; The Armenian Question and the Wars Made by the Armenians, The Birth of the Nationalist in the South Front and the War with the French, The Wars of the Regular Army in the Greek Front in the Western Front; the Battle of I. Inönü and Developments in Diplomatic field, II. Inönü War, Sakarya Battle, Grand Offensive, Great Victory, Political Struggle and Peace; Mudanya Armistice, Lausanne Peace Conference and Peace Treaty, Qualities and Objectives of Turkish Revolution, Reforms in Political Area, First Constitutions and Constitutional Amendments, Experiences Transition to Multi-Party Period and Reacitons Against Revolution, Constitutions Made in the Fields of Law, Education and Culture, Regulations in the Community, Development in the Economic Area, Turkish Foreign Policy During the Atatürk Period and Its Developments (1923-1932), Turkish Foreign Policy During the Atatürk Period and Its Developments (1932-1938), Turkish Foreign Policy in the Second World War and After the War, Transition to Multi-Party Period, Principles of Turkish Revolution.

Compulsory

Basic microprocessor architecture and operation principles. Memory and addressing. Memory design. Data, address and control buses. Interfaces. Parallel and serial ports, timers, interrupt controllers. Memory management units. Programming in assembly language. Microcontrollers and applications.

Compulsory

Electrical Circuit Elements, Current, Voltage, Electrical functions, Power, Energy, Series/parallel resistance circuits, Dependent sources, Kirchoff's current and voltage laws, Mesh currents method, Node voltages method, Source transformation, Thevenin-Norton theorem, Superposition, Maximum power Transfer theorem, Operational amplifiers, Dynamic circuit elements capacitor and inductor, Current and voltage waveforms, RC, RL and RLC circuits, sinusoidal steady state analysis, Resonance, Single and three phase circuits, Power in three phase systems.

Compulsory

Review of logic circuits. Combinational circuit design fundamentals: standards, circuit timings, PLDs, encoders, decoders, multiplexers, comparators, tri-state devices, adders, ALUs and others, design examples. Sequential circuit design fundamentals and applications: memory elements, state analysis, standards, PLDs, counters, shift registers, design methods and examples. Read-only memory (ROM), Read/Writable Memory, Static Random Access Memory, Dynamic Random Access Memory, Complex Programmable Digital Devices (CPLD), Field Programmed Gate Arrays (FPGA).

Compulsory

Polynomial Approximation and Interpolation. Numerical Integration. Systems of Linear Algebraic Equations in EE. Eigenvalues problems, Numerical Differentiation, Difference Formulas in EE. One and two Dimensional Initial Value Problems, one and two Dimensional Boundary Value Problems in EE.

Compulsory

Basic axioms, electric charge, Coulomb's Law, electrostatic field in free space, electrostatic energy, surface charges and Dirac distribution, dipoles, electrostatic field in a material medium. Constitutive equations and boundary conditions, Lorentz Force and magneto static field in free space, Biot-Savart's Law, Ampere formula, magneto static field in a material medium, magnetic energy, magnetic dipoles and permanent magnets, Maxwell's equations and electromagnetic fields, Faraday's induction, self and mutual inductance, electromagnetic energy, potential functions, special theory of relativity.

Compulsory

Words and phrases frequently used in communication in the business environment, Units and job descriptions in companies, Teamwork and things to consider in organizations.

Compulsory

Basic concepts of differential equations, first order differential equations, solutions of linear differential equations, linear equations with constant coefficients, Cauchy-Euler equations, systems of simultaneous linear differential equations, Laplace transforms, application to the solution of linear equations and linear systems, power series solutions of linear equations, introduction to partial differential equations, separation of variables.

Compulsory

Transformers and their connections, Node and network analysis, Networks, Complex frequency analysis, Applications of Laplace transform in electrical circuits, Transfer functions, Natural frequencies, Convolution in time and frequency domains, Frequency analysis for networks and Bode diagram, State variables and equations.

Compulsory

Time-domain Analysis: State Transition Matrix, Zero-State, Zero-Input Solutions, Stability, Controllability, Observability. s-domain Analysis: Transfer Function Matrix,Block Diagrams, Feedback, Closed-loop control systems. Stability. Bode analysis. Root-Locus method. w-domain analysis: Phasors, Power and Energy in Electrical Circuits.

Compulsory

p-n Junctions. Diode Model and Solving Diode Circuits, Applications: Rectifiers, Clippers etc. Small-Signal Analysis of Diode Circuits. Junctions, BJT Large and Small-Signal Models, Solution Techniques, Biasing and Analysis of BJT Amplifiers. MOSFET: Models, Solution Techniques, Biasing and Analysis of MOS Amplifiers, Current Mirrors . Logic Gates and Families; BJT and CMOS Inverters: Timing, Delay, Static and Dynamic Power Consumptions.

Compulsory

Classification of Signals and Systems: Continuous vs. Discrete-Time, Analog vs. Digital. System Properties, Impulse Response, Convolution Summation, Difference Equations and their Solutions. Solution of Discrete-Time State Equations, State Transition Matrix., Stability. Discrete-Time Fourier Transform, its Properties and System Applications, Frequency Domain Theorems.The Discrete Fourier Transform and its Applications. z-transforms, its Properties and Applications. Relation between Continuous-Time and Discrete-Time Transforms.

Compulsory

Wave equation, solution of two-dimensional wave equation, D'Alembert and Fourier methods. Effect of conductivity. Monochromatic waves. Helmholtz equation, Poynting Vector and average of electromagnetic energy. Plane waves, reflection and transmission of electromagnetic waves. Waveguides, TE, TM and TEM modes, rectangular and circular waveguides. Transmission lines, cavity resonators, antennas for field concepts. Electric and magnetic dipoles, array theory, effect of ground and image theory.

Compulsory

Fundamentals of probability, axioms, main features including conditional probability, Bayes rule, random variables and distributions, Binomial distribution, Poisson distribution, Gauss distribution, student t- distribution, average value and variations, constant and discrete random variables, compound probability. Density functions, random processes, random signals, noise, chaos and interference signals, random modeling, producing random signals on computer, abstract cross correlation functions and power spectrum, statistic, sampling hypothesis, estimation hypothesis, assumption tests and statistical significance, arguments, tests and results, preparing and conducting a survey.

Compulsory

High-Frequency Models of BJT, MOS and Frequency Analysis of Amplifiers. Op-Amps and Op-Amp Circuits, Feedback and Stability Considerations, Bode Plots. Non-Ideal Op-Amps. and Compensation. Multistage Amplifiers, Power amplifiers, Oscillators.

Compulsory

Magnetic circuits, Magnetic field energy, Electromagnetic conversion of force and torque in electromagnetic systems, Transformers, Construction of single-phase transformers, No-load state research, Loss and efficiency, Parallel operation of single-phase transformers, Three-phase transformers, AC machines, General structure of three-phase machines, Asynchronous Nominal characteristics of motors, Equivalent circuits of asynchronous motors, Torque curve, loss and efficiency, Operation of asynchronous motors, Circle diagrams, Synchronous machines.

Compulsory

Sampling theorem and types, pulse amplitude modulation, time division multiplexing, pulse duration, code and position modulations. Quantization, compressing/expanding. Analog/Digital converters, delta modulation. Base band data communication, intersymbol interference. Matched filter receiver. Digital modulation systems: Amplitude and phase shift keying techniques.

Compulsory

DC machines, Machine construction, Study and determination of electromotor force, Various types of wrappings, Armature reaction, Compensating wrappings, Machine excitation types, No-load and loaded states and characterizations of DC machines (Generator, motor and brake conditions), Starting and controlling RPM of DC motors, loss and efficiency of machines, parallel connection of DC generators, various applications of DC machines.

Compulsory

Elements of communication systems: Filters. Time/bandwidth relations. Energy and power spectral densities. Amplitude and phase distortions in linear systems. The techniques of linear modulation: Amplitude modulation, double sided modulation, single and vestigial sideband modulation. Angle modulation techniques: Phase and frequency modulation (PM, FM). The generation and demodulation of FM signals. FM stereo broad casting. Frequency division multiplexing (FDM). Superheterodyne receivers.

Compulsory

Current and voltage waves in TEM mode transmission lines, frequency and time domain analysis, power and energy flow, impedance matching. Waveguides and microstrip lines. Pulse transmission on lines. Basic principles of circuit analysis by s parameters. Basic properties of microwave radio propagation and antennas: basic types and arrays.

Compulsory

Transmission Lines, analysis and design of RF power amplifiers, PLL and frequency synthesizer, noise and distortion, oscillators; mixers, modulators and demodulators; transmitters, receivers; nonlinear modulation and demodulation; super-heterodyne receiver and duplexers.

Compulsory

This course includes Occupational Health and Safety which is very important concept in national and international fields. Legislation and practise is explained about Occupational Health and Safety in order to build awareness among students. Additionally, including global ethical principles and values, ethics theories, engineerin ethics and principles, examination and discussion of professional dilemma.

Compulsory

After a literature review, students will do research that will yield original results in hardware and / or software applications.

Compulsory

Introduction to Spice (LT-SPICE), MATLAB/MATHCAD programs, Identification of R, C, voltage and current sources in Spice program, Construction and analysis of RC circuits in computer environment, simulation and analysis of RLC circuits in computer environment, Analysis of diode circuits with Spice program, Identification of BJT and  MOSFET transistors in Spice program, DC analysis of BJT and MOSFET transistors in Spice program, Analysis of amplifier circuits in computer environment, Analysis of multistage amplifiers in computer environment, Simulation of op-amp circuits, Simulation of oscillator circuits, Analysis of digital circuits in computer environment, Analysis of circuits in MATLAB / MATHCAD environment.

Compulsory

An introduction to computer organization using assembly and machine language, computer arithmetic, data path and control, micro programming, instruction sets, addressing modes, memory systems and hierarchies, caches, I/O systems, interrupts, programming interrupts, RISC architectures, pipelining and other advanced techniques for performance improvements, parallel computing, interconnection networks, and multiprocessors.

Compulsory

The nature of information in organizations; an introduction to computer based systems and the extent to which they satisfy the information requirements of organisations. The impact of these systems on organisations and users. Detailed discussion about the various applications of computers in business and engineering applications. Analysis of system requirements and system development life cycle. Process and data modeling, relational data analysis.

Departmental Elective

Basic concepts of database systems; The relational model: domains and relations, data integrity, relational algebra, relational calculus, SQL; Database design: functional dependencies, normalization, entity/relationship model; File Structures, indexing and hashing; Data protection: recovery, concurrency, security, integrity; Views; Optimization; Distributed database systems; Object-oriented systems.

Departmental Elective

Analytical models in ECE, analytical-numerical methods, pure numerical approaches, Numerical techniques for Field and Network theories, validation, verification and accreditation, calibration, frequency and time-domain finite-difference methods, finite-element method, Method of Moments, Split-step Parabolic Equation method.

Departmental Elective

Random Processes, Noise Models: Gaussian-, White-, Narrowband- Noise in Analog Communication: Signal to Noise Ratio in Amplitude Modulation: Threshold Effect. Signal to Noise Ratio Comparisons of several Modulation Techniques. Noise in Exponential Modulation, Pulse Code Modulation Frequency Modulation, Threshold Effects. Correlated Digital Transmission Techniques, Partial Response Coding Techniques, their Spectral Properties.

Departmental Elective

Current and Voltage Sources, Current and Voltage References, Operational Amplifiers Applications, Operational Transconductance Amplifiers (OTA) Applications, Current Conveyors: Characterization and Applications, Active Filter and Oscillator Circuits, Analog Multiplier Circuits and Applications.

Departmental Elective

s-,z-, continuous frequency domain relations. Digital filter characteristics. IIR filters, impulse invariant, bilinear and integration techniques. FIR filters: windowing, frequency sampling. Frequency transformations. Controller design: controllability, state-feedback, controllers. Digital controller for death-beat response .Observers .Duality and separation principle-hardware implementation of bit-serial and distributed arithmetic digital components. Quantization effects.

Departmental Elective

Cyber security evolution process, security engineering, security assurance techniques, cyber attack detection systems, cyber warfare operational requirements, cyber warfare examples, firewalls, integration of cyber war assets, spyware and protection methods.

Departmental Elective

Engineering systems, fundamentals of electromagnetic compatibility. Electrical and Magnetic Dipoles, Electromagnetic interference (EMG), Bio-Electromagnetic (BEM), EMU in engineering: Electric, Industry, Computer. EMU in Industry: Automotive, Medical Electronic, Defence. Electromagnetic spectrum, EMU and noise, EMU and coupling, power distribution Systems and EMU, Power Qualities, EMU in Communication and Control Systems, EMU in Telemetry Systems, Fiber Optic Cabling and EMU, EMU and Internet, Electronic Espionage and EMU, EMU Standards, EMU-EMG Test and Measurements, EMU-EMG Test and Measurement environments, Open-air, screened room, non-reflecting room, EMG and safety , bonding, Filtering, Screening, Screening activity spreading and durability measurements, EMU and Computer Simulations, CE Brand, EMU and Authorized Institutions.

Departmental Elective

Basic computer communication structures. Circuit and Packet switching, Local and Wide Area Networks and their hardware. Protocols: OSI vs. TCP/IP. Frame Relay, Asynchronous Transfer Mode. User Datagram Protocol, Carrier Sense Multiple Access with Collision Detection, Medium Access Protocol. RoutingAlgorithms, Network Security, Encryption. Network performance Criteria. Virtual Private Network.

Departmental Elective

Fundamentals of radars, radar equation, accuracy, resolution, integration time, Doppler shift, total radar echo (radar waveform, noise, clutter and interference), radar signal processing, propagation, transmit and receive antenna systems, receiver-processor units, detection, tracking, classification and identification algorithms, radar surveillance, Microwave, HF, VHF radars, Synthetic Aperture Radar (SAR), Inverse Synthetic Aperture Radar (ISAR), Ground Probing Radar (GPR), Infrared (IR) sensor (thermal camera), profile radar, micro sensors, wide area surveillance, Future trends.

Departmental Elective

RF elements and equivalent circuits, RF resonance circuits, Impedance matching, RF filters, RF transistors, RF amplifiers, RF (large signal) power amplifiers.

Departmental Elective

VLSI Design Techniques and Foundations. ASIC design, Gate-arrays, Standard-cells. Full Custom design approaches. Floor planning at Chip-Level. Separation of System Blocks. Standard Cell Placement and Routing Algorithms. Verification of Design, Logic, Timing and Transistor Level Simulation. Design Techniques for building blocks: Memory Arrays, PLAs. Testable System Design Techniques. Reliability.

Departmental Elective

Characteristics and Behavioral models of OP-AMPs. OTA, OP-AMP and Operational Current Amplifier configurations, Power Stages, Amplifier Specifications, CMOS and BiCMOS design criteria, Electrical and Physical Design. Some Microelectronic Circuits: Comparators, Analog Multipliers, Oscillators.

Departmental Elective

Image Processing Applications and Basic Problems. Cameras, Perception, Human and Computer Vision Systems. Review of 2-D Systems and Transformations. Histogram-, Convolution-, Derivative-, Morphology-based Operations. Smoothing, Contour Representation. Basic enhancement and Restoration Techniques. Segmentation. Fundamentals of Image Coding and Compression.

Departmental Elective

Brief review of Biological Neural Systems. Definitions and Classification of Artificial Neural Networks (ANN). Supervised and Unsupervised Learning. Adaptive Linear Element (ADALINE). Mean Square Learning Rule, Design of Linear Associative Memory. Single and Multilayer Perceptron. Back Propagation Algorithm. Dynamic ANNs: Hopfield Net and Cellular Neural Networks (CNN). Self-Organising Maps and Applications.

Departmental Elective

Introduction to Energy Technique. Basic Concepts and Current Problems of Energy. Explanation of Symbols and Signs Used in Energy Systems. Identification of networks according to voltage levels, structures and load conditions. Selection criteria of line sections. Voltage drop and loss calculations in various types of medium and low voltage networks. Compensation calculations. Short circuit calculations.

Departmental Elective

Introduction to industrial electronics, Power diodes, Thyristors, Power Bipolar Transistors, Power MOSFETs, Insulated Gate Bipolar Transistors (IGBTs), Diode rectifiers, Single-phase and three-phase rectifiers, DC-DC converters, Power electronics inverters, AC-AC converters, Voltage regulators and power supplies, Motor drivers and control circuits

Departmental Elective

The subject, purpose and types of lighting, light and vision, spectral sensitivity of the eye, photometric quantities, important photometric laws, obtaining light distribution curves of different geometric surfaces, physiological optics principles, general properties of light sources, incandescent lamps, gas and mineral vapor discharge lamps, high pressure mercury vapor lamps, sodium vapor lamps and halogen type lamps, the working principles of electronic ballasts and magnetic ballasts, the examination of lighting devices and lighting systems, the transmission, absorption and reflection factors of materials used in lighting fixtures, the calculation of lighting on the computer using a package program, The scope of electrical indoor installations in general, examination of electrical indoor facilities regulation, examination of switches, sockets, cables, panels and switches used in the indoor plant. Examination of different light sources, ballasts, lighting styles.

Departmental Elective

Necessity of high voltages, electrode systems, approximate area calculation, dielectric losses, breakdown theories and experimental results in insulators, corona losses, impulse voltages, Internal and external overvoltages and protection against them, traveling waves and insulation coordination.

Departmental Elective

Review of Discrete Fourier series and transforms. Fast Fourier transforms. Filters and Approximations. Digital filter design techniques, finite and infinite impulse response filters. Hilbert transforms. Optimum windowing problem. Two dimensional signal processing and transforms. Stochastic signals. Auto correlation and power spectral density functions. Wiener and Kalman filtering.

Departmental Elective

Mobile Communication Multiplexing techniques e.g.: TDMA, FDMA, STM. Mobile Communication, GSM, Spread Spectrum, Frequency Hopping, Cell Layout and Cell Splitting. Communication in third generation computer networks. Fiber Optic Communication.

Departmental Elective