Curriculum

Course Code Course Name Credit Theoretical Lab/Practical ECTS
BİLG101 BİLİŞİM TEKNOLOJİLERİ 3 3 0 4
ELET123 SAYISAL ELEKTRONİK 4 3 2 0
SAYISAL ELEKTRONİK
INGL101 INTRODUCTION TO ENGLISH-I 3 2 2 4
The course introduces students with basic speech patterns at the elementary level. Through listening students will identify different sound rhythms and practice pronunciation of letters, words and phrases. Through speaking students will identify different register and use the given language in an appropriate way. In addition students will be able to define themselves or others, answer questions in the Present Simple tense, use the prepositions of place, and talk about their daily routines. Through reading students read paragraphs and simple texts to improve their general comprehension of the passages, and answer the given comprehension questions. Through writing, students will be able to compose guided,controlled paragraphs in the Present Simple tense, and recycle the obtained new vocabulary to produce their own sentences.
MATE101 CALCULUS-I 4 3 2 6
Calculus-I provides the methods of differential and integral calculus with applications in geometry, physics and engineering. Students in this course will learn how to use mathematical language needed for applying the concepts of calculus to numerous applications in science and engineering such as identifying types of functions, graph of functions, evaluating limit of functions, limit of elementary functions (polynomial, trigonometric, logarithmic, exponential,…), methods to solve the undefined limits (L’Hopitals Rule), continuous functions, evaluating derivative of functions, definition of derivative, derivative of elementary functions, derivative of product of two functions and division of functions, applications of derivative, evaluate integrals of functions, definition of the integral, integral of elementary functions, substitution method, integration by parts, integral of rational functions, application of the integral (finding the area) .
MATE121 LINEAR ALGEBRA 2 2 0 4
The aim of this course is to introduce the basic operations in linear algebra and applications in engineering problems; matrices, matrix properties and matrix operations: Addition, scalar multiplication, multiplication, transpose, solution of system of linear equations: Elimination method, Gauss Jordan forms, inverse method to solve linear systems, row reduced echelon forms, Gaussian elimination method, inverse and determinants: solving linear equations with determinant (Cramer's rule), use one row to evaluate determinant, minor, cofactor, adjoint matrix, identity matrix, square matrix of the matrices. Real vector spaces, vectors and their properties and applications in engineering: Addition, subtractions, dot product, scalar multiplication, cross product, basis, dimensions and subspace.
TARH100 MODERN TURKISH HISTORY 0 2 0 2
In this course, the basic concepts; internal and external factors leading to the disintegration of the Ottoman Empire, Ottoman reform and reform efforts, Tripoli and Balkan Wars, World War I, Mondros Armistice, peace treaties at the end of the war, the organizations established during the period of armistice, led by Mustafa Kemal Beginning of the War of Independence, Havza and Amasya Circulars, Congresses, National Pact, Opening of the Grand National Assembly, riots, the establishment and wars of the regular army, external relations and treaties of the Turkish Grand National Assembly, the Organization Law, the Battle of Sakarya and the Great Offensive The Peace Treaty, the Lausanne Peace Treaty and the abolition of the sultanate, the capital of Ankara, the proclamation of the republic, the 1924 constitution, multi-party system, secularization and modernization in law, nationalization in education and culture, socio-economic innovations, Atatürk's 6 principles, Atatürk's foreign policy , İnönü period and World War II, transition to the multi-party life.
UNIEXX1 UNIVERSITY ELECTIVE 3 3 0 4
Course Code Course Name Credit Theoretical Lab/Practical ECTS
BİLG112 INTRODUCTION TO PROGRAMMING 4 3 2 6
The course will introduce basic and fundamental programming constructs and techniques through using the C++ programming language in order to generate algorithmic solutions to problems. Upon completion of the course, students will learn an introduction to algorithms, solving problems by flowcharts and pseudo codes, header files, data types, arithmetic & logic operators, control statements (if, if/else, switch-case) and use them as inner statements, loop statements (while, do/while, for), functions, standard functions of programming language, random number generation and their area of use, user-defined functions, global and local variables, recursion, arrays, searching algorithms on arrays, sorting algorithms on arrays, pointers, pointer operators, using pointers with arrays and functions. In the laboratory hours, students are writing full programs or modifying existing programs for other solutions.
ELET102 DIRECT CURRENT CIRCUIT ANALYSIS 4 3 2 6
The course provides students with fundamental Concepts of Circuit Theory: Current, Voltage, Power and Energy as well as Definitions of Circuit Componentes: Voltage Current Sources; Resistors and Ohm's Law, Computation of Power over a Resistor, Setting Up Circuit Model, Kirchhoff's Current and Voltage Laws, Resistors in Series and Parallel Configuration; Voltage and Current-Divider Circuits, Ampermeter, Voltmeter and Ohmmeter Circuits, Wheatstone Bridge, Triangle-Star Transformation, Loop Currents and Node Voltages Techniques, Source Transformation, Linearity and superposition principles, source transformations, Thevenin's and Norton's Theorems, Maximum Power Transfer, Graf Theory. Inductance and capacitance, The natural and forced response of the first – order (RL and RC) circuits, Natural and step responses of second-order RLC circuits.
ELET124 MICROCONTROLLERS 4 3 2 6
The Microcontrollers course includes understanding of the main components and working principles of the microprocessor. Intel 80x86 family is used as a base microprocessor architecture. Course content includes understanding of the basic computer architecture, memory organization and memory interfacing, programming and debugging in assembly language, developing programs that perform unsigned arithmetic (addition, subtraction, multiplication and division), BCD, ASCII, logical and bitwise manipulation operations, performing input/output device programming in assembly language, input characters or strings from keyboard, output characters/strings to the screen, convert data to ASCII, packed BCD, unpacked BCD. Also understanding the properties and interfacing of the parallel and serial ports and the design and interfacing of microprocessor-based systems using the real-world example of the 80x86 IBM PC are in the scope of the course
ELET162 ELECTRICAL INSTALLATIONS-I 4 2 2 5
This course aims at teaching the basic concepts of electrical installations, materials and symbols, distribution systems, protection, safety, electrical installation and testing, oxidation and mechanical damage and elimination, applications of electrical installation projects and also general safety and first aid rules against electric shock. It also includes classification of electrical internal wiring, realization of electrical internal wiring under construction of a building, switch and socket types and working principles, drawing of single line and open diagrams, introduction of electrical internal installation materials, examination of the important articles of the Electricity Indoor Facilities Regulation, drawing strong and weak current column diagrams, project control, drawing of strong current column diagram, preparation of table loading table, fuse selection, wire cross section selection, voltage drop calculation.
INGL102 INTRODUCTION TO ENGLISH-II 3 2 2 4
INGL102 is the continuation of INGL101. The course integrates the four main skills at a higher elementary level for students. Through recessive skills, which are listening and reading, students identify different sound rhythms and practice the pronunciation of letters, words and phrases. Also, by reading higher level paragraphs and texts, students infer the meaning of new words by using their existing vocabulary. Through productive skills, which are speaking and writing, students identify different register and use the given language in an appropriate way. Furthermore, students use the Present Continuous and Past Simple tenses to participate in basic dialogues and daily exchanges, and express themselves effectively. Also, through writing, students produce their own sentences by recycling the obtained new vocabulary in guided, controlled paragraphs they compose.
TREG100 TURKISH LANGUAGE 0 2 0 2
This course examines basic areas of language and expression. In the first half of the course, the theoretical approach to language is formed and the spelling rules of the Turkish language are studied. In the latter part of the course, language and narrative errors are studied together with editing. In the second half of the course, formal writing, curriculum vitae, petition, evaluation of the columns in terms of language and style, types of written expression and practice; Turkish production and application of shooting attachments; Turkish grammar structure; It is aimed to teaching subjects like phonetics of Turkish to students.
Course Code Course Name Credit Theoretical Lab/Practical ECTS
ELET200 SUMMER TRAINING 6 0 0 6
Technician summer training is the thirty working days internship period in which the technician students are expected to apply their theoretical knowledge, which they acquired during their program studies, in a professional environment. Summer training can be performed at any institution which is involved in any of the electronics subdisiplines. During the training, the technician students encounter with the professional life tasks, so that they have a better chance to prepare themselves for the industries’ needs and decide on their exact field of professional interests. At the end of the thirty days of training, which is performed after the first year of the studies, the students write their summer training reports which summarize their internship experience
ELET201 ALTERNATIVE CURRENT CIRCUIT ANALYSIS 4 4 1 5
This course aims at teaching the impedance, admittance and Kirchhoff"s laws in the frequency domain, sinusoidal steady state analysis using the nodal and mesh techniques, sinusoidal steady state analysis using source transformation and superposition, Thevenin and Norton Equivalents in the frequency domain, instantenous power, average power and RMS value, maximum average power transfer, apparent power, power factor and the complex power, power factor correction, balanced Three-Phase voltages, balanced Three-Phase connections: Y-Y, Y-Delta, Delta-Delta, power in three-phase systems, mutual inductance and energy in a coupled circuitm linear transformers, ideal transformers, transfer function, the decibel scale and Bode plots, series and parallel resonance, passive filters active filters, properties of the Laplace transform, applicaton of the Laplace transform, application to integrodifferential equations and network stability.
ELET211 ROBOTICS 3 3 1 4
This course introduces fundamentals of robot control. Brief review about robots, hardware and robot problems will be explained to give a general idea about the use of robotics. Various types of basic sensors are also discussed under the issue of robot hardware. Agent function design will be taught to gain robot control algorithm development and design. Robot control programming with mostly used controllers and related programming language concepts will also be covered to improve hardware programming skills of participants of this course. Lectures give the background to the extensive hands-on practical work using the laboratories. A practical project will be performed to have an experience regarding control of a real robots with microcontroller.
ELET213 PROGRAMMABLE LOGIC CONTROLLERS 4 3 2 5
The aim of this course is to introduce programmable logic controllers. The basic architecture of PLCs and the commonly used input and outputs in such systems are included in the course. The relationship between the PLC operation and the logic gates are stated. The programming languages which are used in PLC are examined. Furthermore, the Ladder Diagram technique is developed involving internal relays, timers and counters. The course includes comparison and program control instructions. Both 16 and 32-bit operations are used in basic math instructions. It also includes examples of important industrial applications that use PLC.
ELET241 ANALOGUE ELECTRONICS 4 3 2 5
The aim of this course is to teach the junction field-effect transistors (JFETs): physical structure and modes of operation, input and output parameters and characteristics, JFET biasing configurations, fixed bias, self bias, Small-signal analysis of JET amplifiers, frequency response of BJT amplifiers, high-frequency BJT model, Miller’s theorem, high frequency response of commonemitter amplifier, bandwidth estimation, bode plots. high frequency response of JFET amplifiers, JFET model at high frequency, high frequency response of BJT amplifiers, broadband amplifier design, single-stage broadbanding techniques, gainbandwidth product, base compensation, cascade amplifiers, multistage amplifiers, BJT differential amplifier, differential and common-mode gains, biasing, current mirror, feedback amplifiers, the general feedback structure, properties of negative feedback: the four basic feedback topologies, the loop gain and stability problem.
ELET251 TRANSFORMER AND DIRECT CURRENT MACHINES 4 3 2 5
This course analyzes magnetic materials, magnetic parameters and magnetic properties of the materials. Application of soft magnetic materials and magnetic circuits are also involved in the course. Single phase transformers are analyzed in two categories such as ideal transformers and real transformers. Special purpose transformers such as auto-transformers and their power rating advantage are analyzed. This course also aims to examine three-phase transformers and their functions in power distribution systems. DC machinery fundamentals, simple rotating loop, power flow and losses of real DC machines, analysis of shunt and series connected DC machines and DC generator fundamentals also take significant part in the course.
Course Code Course Name Credit Theoretical Lab/Practical ECTS
ELET234 ELECTRONICS WORKSHOP 4 4 2 6
The course aims at teaching the electronic design techniques, circuit drawing using electronic circuit drawing programs and preparing printed boards, development of theoretical and practical skills expected by the industry, practical circuit installation and development, fault removal, conducting the printed board design and preparing events, soldering materials, important points to be noticed during soldering activities, soldering applications, PCB printed circuit preparing methods, PCB print out prepaing methods, installation of PCB materials, testing the circuit over PCB, fault detection on PCB and fault removal, cost calculations, determination of the environmental effects, following the project calendar and conducting team work. Eeach team must draw their own designs, prepare the feasibility studies, specifications and cost estimations, and submit the oral and written reports
ELET264 INDUSTRIAL NETWROKS 3 3 1 4
The content of this course includes basics of data transmission, paralel and series port systems, open and closed loop control systems, utilization purposes of computer networks, utilization purposes for companies, personal utilization purposes, computer networks based on their coverage areas, LAN, MAN, WAN, area networks based on transmission technologies, broadcast networks, switching networks, ISO-OSI type layers, relatioshships between layers, layer duties, multiplexers, bridges, gateways, switches, modems, toplogy logic and installation purposes, physical models of the topologies, linear toplogy, ring topology, star toplogy, tree topology, mesh topology, GSM and equipment making GSM systems, cells, base stations (BTS), Base Sation Controller (BSC), Network and Switching Subsystems (NCC), Mobile Services Communication Centrals (MSC), Subscriber Registration Center (HLR), Handover process, CAN-BUS, PROFI-BUS, MPI
ELETXXX AREA ELECTIVE 3 3 0 5
AREA ELECTIVE
ELETXXX AREA ELECTIVE 3 3 0 5
AREA ELECTIVE
ELETXXX AREA ELECTIVE 3 3 0 5
AREA ELECTIVE
Course Code Course Name Credit Theoretical Lab/Practical ECTS