Course Contents

ELECTRICAL-ELECTRONIC ENGINEERING DEPARTMENT COURSE CONTENTS

1ST GRADE FALL
		Theo .	App .		Credit		ECTS
EEM-101	INTRODUCTION TO ELECTRICAL-ELECTRONIC ENGINEERING	1	0		1		2
Electrical-Electronics Engineering and other engineering fields. The engineering profession and ethics. Areas of expertise of Electrical-Electronics Engineers. Engineering tools for Electrical-Electronics Engineers. Expectations of institutions from Electrical-Electronics Engineers (Seminar study). Engineering problem solving techniques. Teare and Ver Planck approach, Polya Approach. A case study on a real engineering problem. Engineering communication. Academic life skills and engineering career.

EEM-103	FUNDAMENTALS OF ELECTRICAL-ELECTRONIC ENGINEERING-1	2		0		2	4
Unit systems. Definition of electricity. Conductors and insulators. Effects of electric current. Definitions of current, voltage and resistance . Calculation of equivalent resistance. Effect of heat on resistance. Definition of direct current (DC). Kirchhoff's laws. Introduction of basic measurement principles and measuring instruments. Resistance Measurement with Wheatstone bridge. Electrical work and power. Conversion of electrical energy into heat. Voltage drop and energy loss in lines. Equivalent circuit of voltage source, series and parallel connection. Chemical effect of current, battery and accumulator. Maximum power theorem. Thevenin and Norton theorems. Superposition theorem. Capacitor, series and parallel connections and their behavior in DC . Magnetic circuits. Inductance , series and parallel connections and their behavior in DC .

MAT-161	MATHEMATICS-1	4		0		4	6
Basic Mathematics Topics, Limit and Continuity, Derivative, Indefinite Integral Course Plan Preliminary information: (Specially defined functions, trigonometry, inverse trigonometric functions, Complex numbers, logarithms) Limit, right and left limits, trigonometric limits, Continuity, uniform continuity, Derivative, general differentiation rules, Derivative of elementary functions, Derivative of logarithmic and exponential functions, higher order derivatives etc. , Geometric meaning of derivative and physical applications, Local and absolute extremes of a function, Rolle's Theorem, Mean Value Theorem, Indefinite Figures, L' Hospital theorem, Curve drawings, Indefinite Integral, Integration methods.

FIZ-111	PHYSICS-1	4		0		4	6
Physics and Measurement, Addition and Subtraction of Vectors, Multiplication of Vectors, Definitions of Squarel and Vector Product, Motion in One Dimension, Motion in Two Dimensions, Laws of Motion, Circular Motion and Application of Newton's Laws of Motion, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, Rotation of Rigid Objects About a Fixed Axis, Rolling Motion and Angular Momentum, Static Equilibrium

FIZ-105	PHYSICS LAB.-1	0		2		1	3
Basic Laboratory Principles, Basic Quantities, Unit Systems, Physical Measurements and Errors, Introduction to Laboratory Equipment, Free Fall Experiment, Simple Pendulum, Coefficient of Friction, Centripetal Force, Uniform Rectilinear and Accelerating Motion, Newton's Second Law of Motion, Conservation of Energy, Elastic Collision, Inelastic Collision

BMU-117	ALGORITHM AND PROGRAMMING	2		2		3	7
Introduction to programming. Algorithms and flow charts. Structure and features of C language. Variables, operators, and operation priorities defined in C language. Basic input/output functions. Conditional statements ( if , if -else, switch ). Conditional statements and sample programs. Loops ( for , while , do- while ), break, continue , goto statements. Arrays. Matrix operations. Character arrays. Library functions defined in C language. Functions and subprograms. Pointers .
YDI-107	ENGLISH-1	2		0		2	2
Greetings, names , and ages . Numbers. Days , months and seasons . This is ……, that is ….. What time is it. Action in Progress , Who …….. ?, What …… ?, Where . Talking about present habits , ideas , opinions . Propositions of time: at, on, in; talking about schedules and calendars.Abilities and inabilities : can, can't.A family tree . Possessive pronouns . Family members . Obligations prohibitions and lack of necessity : must , mustn't . obligations prohibitions and lack of necessity : don't / doesn't have to .

	1ST GRADE SPRING
					Theo .	App .			Credit				ECTS
	EEM-102		FUNDAMENTALS OF ELECTRICAL-ELECTRONIC ENGINEERING-2		2	0			2				5
	Why is Alternating Current (AC) used? Production of AC . Quantities defining our AC network. Rectification of AC . Average value and effective value. Phasor concept. Behavior of RLC elements in AC. Solution of AC circuits by graphical means, trigonometric operations and phasor diagram method. Behavior of circuits consisting of RLC elements in AC. Circuit solution by complex calculation. Series and parallel resonant circuits. Power and power compensation in AC circuits . Equivalents of circuits with unknown internal structure .
	MAT-162		MATHEMATICS-2		4	0			4				6
	Definite Integral and its applications, Sequences, Series, functions of several variables, Double Integrals and its applications. Course Plan Definite Integral, Applications of Definite Integral (Area-volume calculation), Applications of Definite Integral (arc length calculation-area of surfaces of revolution), Sequences, Series Positive series and convergence tests, Alternating series, Taylor, Maclaurain series, Functions of several variables, Limit continuity for functions of two variables, Partial derivatives, Chain rule, Complete differential , Derivative of implicit functions, Taking derivatives in any direction, Maximum, minimums, Area transformations, Geometric meaning of partial derivatives, Taking derivatives under integral sign, Double integrals, Document transformations, Applications of double integral (Area calculation-Volume calculation), Applications of double integral (Mass calculation-Finding the center of gravity-Moment of inertia)
	MAT-104		LINEAR ALGEBRA		2	0			2				4
	Introduction to matrix algebra, some special matrices, addition and multiplication operations on matrices and their properties, determinants, Laplace expansion, rank of a matrix , adjoint matrix, inverse of a matrix, systems of linear equations and solution methods, vector algebra, linear dependence and linear independence.
	FIZ-118		PHYSICS-2		3	0			3				5
	Electric Charge, Coulomb's Law, Electric Field, Gauss's Law, Electrical Potential, Capacitance and Properties of Dielectrics , Current, Resistance and Electromotive Force, Direct Current Circuits, Magnetic Field/Magnetic Field, Magnetic Properties Affecting Current Carrying Conductors, Magnetic Field and Magnetic Properties of a Current, Induction Electromotive Force, Magnetic Field Sources Biot-Savart Law, Magnetic Force Between Two Parallel Conductors, Ampere's Law, Magnetic Field of a Solenoid , Faraday's Induction Law, Motional EMK, Lenz's Law, Induction EMK's and Electric Fields, Inductance and Self- Inductance , RL Circuits, Energy in a Magnetic Field, Mutual Inductance , Oscillations in an LC Circuit, Alternating Current (AC) Circuits, AC Sources, Phasors , AC Circuit with Resistance, AC Circuit with Inductor , AC Circuit with Capacitor , RLC Series Circuit, Power in an AC Circuit, Resonance in a Series RLC Circuit, Transformers and Power Transmission, Maxwell's Great Equations, Electromagnetic Waves Maxwell's Equations and Hertz's Discoveries, Plane Electromagnetic Waves
	KIM-104		CHEMICAL		4	0			4				4
	Properties of matter, SI unit system, uncertainty and significant figures, mole concept. Molecular and ionic compounds, molecular weight, compound oxidation state, names and formulas. Chemical reactions and chemical equations, stoichiometry , solution reactions, determination of limiting compound. Nature of aqueous solutions, solution reactions, acid- base reactions, oxidation-reduction: balancing of oxidation-reduction reactions, oxidants and reducers, stoichiometry in aqueous solution reactions . General properties of gases: pressure simple gas laws, combined gas laws: ideal gas equation and general gas equation, applications of ideal gas equation, gases in chemical reactions, gas mixtures, kinetic theory of gases, real (non-ideal) gases. Terminology used in thermochemistry, heat, heat of reaction and calorimeter, work, first law of thermodynamics, heat of reaction: Hess's law: internal energy and enthalpy , indirect calculation of enthalpy , standard enthalpies of formation , fuels as energy source. Structure of the atmosphere, atmosphere as a source of chemical substances, nitrogen and its important compounds, environmental pollution containing nitrogen oxides, oxygen, ozone layer and the role of ozone layer, noble gases, carbon oxides, environmental problem caused by carbon dioxide ; warming of the world and greenhouse gas effect, hydrogen hydrogen Economy . Intermolecular forces and some properties of liquids, evaporation of liquids: Vapor pressure, some properties of solids, phase diagrams, van der waals forces, hydrogen bonding, chemical bonds in terms of intermolecular forces, crystal structures, energy change in the formation of ionic crystals. Arrhenius theory of acids, Bronsted-Lowry theory of acids and bases , ionization of water and pH scale, strong acids and bases, weak acids and bases, polyprotic acids, ions as acids and bases , molecular structure and acid-base behavior, Lewis acids and bases. Nuclear chemistry, radioactivity , radioactive isotopes, nuclear reactions and artificial radioactivity , rate of radioactive decay , energy of nuclear reactions, nuclear fission and fusion , applications of radioisotopes.
	KIM-109		CHEMISTRY LAB.-1		0	2			1				2
	aims to provide students with practical experience in basic laboratory techniques used in chemistry . For this reason, first of all, the rules for working safely in the laboratory and the procedures that students should take against possible accidents will be given to the students. The materials available in the laboratory and where they are used will be explained. Measuring and weighing procedures, types of solutions and methods for preparing these solutions, purification techniques of mixtures by crystallization and distillation , determination of melting and freezing points of pure substances, investigation of the reduction reaction of KMnO4 in acidic medium by titration , determination of the heat capacity of a metal by simple calorimetric method, determination of the formation ellipse of magnesium oxide , determination of the molecular weight of a solid substance by freezing point depression method, determination of the hydrate water in a substance containing crystal water, titrimetric determination of acetic acid in vinegar experiments will be performed by the students.
	FIZ-106		PHYSICS LAB.-2		0	2			1				2
	Basic Laboratory Principles, Introduction to Laboratory Equipment, Reading Resistance Values, Series-Connected Resistance Circuits, Parallel- Connected Resistance Circuits, Ohm 's Law, Kirchhoff's Law and Wheatstone Bridge, Kirchhoff's Law and Wheatstone Bridge, Biot-Savart Law, Magnetic Force, Faraday's Law of Induction
	YDI-108		ENGLISH-2		2	0			2				2
	Possession ( have , has got ). There is, there are , quantitative adjectives . Prepositions ( under , near , next ...). Making suggestions ( let's , shall , would ...). Making suggestions ( let's , shall , would ...). Asking for help (can you ...). Adverbs of Frequency ( never , always , often ...). present cont . Tense. General exercises on the previous subjects . General exercises on the previous subjects . Simple past tense. exercises with regular and Unregulative verbs on Simple past tense. past use of verb “ to be” with affirmative , negative and interrogative forms . General revision and exercises .

2ND GRADE FALL
					Theo .		App .			Credit			ECTS
MAT-271		DIFFERENTIAL EQUATIONS			4		0			4			5
Infinite series, properties and types. Convergence and convergence tests in infinite series. Power series, Taylor and Mac Lourin expansions. Fourier series. Definition and properties of Bessel , Gamma and Beta Special Functions. Complex Functions and Conformal (Angle Preserving) Mapping. Complex Integrals and Residue Theorem. First order ordinary differential equations and their applications. Applications of second order differential equations with constant coefficients. Higher order linear differential equations and their applications. Solution of linear differential equations in terms of power series. Laplace transform and its properties. Inverse Laplace transform and some applications. Partial differential equations and their applications.
MMÜ-203		COMPUTER AIDED TECHNICAL DRAWING		2				2			3			5
Introduction to computer aided drawing. Introduction to CAD drawing program. Basic two-dimensional drawing commands. Layers. Two-dimensional drawings and views. Section views. Dimensioning. Isometric perspective. Introduction to three-dimensional modeling. Wireframe modeling. Surface modeling. Solid modeling. Technical drawings required for Lighting Technique.
EEM-205		ELECTRICAL CIRCUITS LAB.		0			2					1	2
Explanations regarding experiments and laboratory rules by the laboratory manager. Experiment 1. Introduction of basic circuit elements to be used in laboratories. Experiment 2. Measurement of current, voltage and resistance with AVO meter. Average value and effective value. Experiment 3. Measurement of voltage, current, period and phase angle with oscilloscope . Experiment 4. Kirchhoff's Laws. Experiment 5. The Resistance Measurement with Wheatstone bridge. Experiment6. Behavior of RC and RL circuits in DC . Experiment7. Behavior of RC and RL circuits in AC. Experiment8 . Series and parallel resonant circuits. Experiment9. Thevenin theorem, Norton theorem and Superposition theorem. Experiment 10. Three phase system, star and delta connection
TRD-209		TURKISH LANGUAGE-1		2			0					0	2
What is language? The place and importance of language as a social institution in national life. The place of Turkish language among world languages. The development of Turkish language and its historical periods. The development of Turkish language and its historical periods. Sounds in Turkish and their GRADEification. Sound properties of Turkish and rules related to phonetics. Syllable information . Derivative suffixes of Turkish and their application. General information about composition, plan and application to be used in writing composition. General information about composition, plan and application to be used in writing composition. Writing a petition and CV. Spelling and punctuation.

AIT-201			ATATURK'S PRINCIPLES AND HISTORY OF REVOLUTION -1					2				0					0			2
Ataturk's Principles and the Purpose of Reading Revolution History and the Concept of Revolution. The reasons that prepared the collapse of the Ottoman Empire and the Turkish Revolution. The disintegration of the Ottoman Empire, the Tripoli War, the Balkan Wars, the First World War. The Armistice of Mudros. The situation of the country against the occupations and Mustafa Kemal Pasha's reaction, Mustafa Kemal Pasha's arrival in Samsun. The first step for the National Struggle, organization through congresses: Amasya, Erzurum and Sivas Congresses. Kuva-yi Milliye and Misak-i Milli. The opening of the Turkish Grand National Assembly. The Turkish Grand National Assembly taking over the management of the War of Independence. The Treaty of Sevres. Political events until the Sakarya Victory. Military developments until the Sakarya War. The Sakarya War and the Great Offensive. The Mudanya Armistice, the Lausanne Peace Treaty.
EEM-255					ELECTROMAGNETIC FIELDS 1			2					0			2				5
Concepts of electric field, electric flux density and electric force. Coulomb and Gauss laws. Conservation of charge law, conductivity. Electric flux density, polarization. Concepts of electrical susceptibility and permeability. Insulators, continuity conditions at the interface and stored energy. Potential energy of a charge distribution. Capacity (capacitor) calculation.
EEM-257			CIRCUIT THEORY					3				0					3			5
Introduction, two and four terminal passive circuit elements. Properties of linear two terminals. Circuit graph . Basic loop, basic sectioning equations and graph matrices. Active circuit elements and source functions, periodic and aperiodic functions. Circuit solution with loop equations. Circuit solution with nodal equations. Sinusoidal steady state. Phasors and phasor operations. Loop and nodal equations in sinusoidal steady state and m-parameter case. Power and average power relations in continuous sinusoidal case. Impedance and admittance calculation. Circuit theorems in continuous sinusoidal case. Three phase systems and symmetrical components. Circuit Parameters.
EEM-223		MEASURING						2				0					2			2
Basic principles of measurement. Measurement errors and their combination. Digital measuring instruments, their structures and working principles. Deviating (Analog) measuring instruments, their structures, working principles, equations and solutions. Structure, use and types of oscilloscope . Measurement of electrical quantities. Measurements by the equalization method. Electrical quantity measurement with bridges. Measurement of circuit elements by various methods. Electrical measurement of non-electrical quantities.
²CEK-207 (SOS-401)		INDUSTRIAL SOCIOLOGY						2				0					2			2
Some basic concepts related to Industrial Sociology, effects of industry and/or industrialization on social life, theories related to work organization in industrial organizations, theories related to labor movement and labor unions, industrial production systems, perspectives on contemporary industrial organizations, social structure and functioning of contemporary industrial organizations, factory ownership, managerial specialist, foreman, worker status and roles, place and importance of informal groups in industrial organizations, outline of industrialization of Turkey, outline of labor movement in Turkey, labor unions, employer unions, industrialization and social change.
²EGT-203		DEVELOPMENT AND LEARNING						2				0					2			2
Face to face interviews with students, explanations about the course, student responsibilities and evaluation of the course. Basic concepts related to development, development processes, continuity and discontinuity dilemma in development. Factors affecting development, principles, periods and developmental tasks of development. Physical development in prenatal and infancy. Physical development in early childhood and adolescence. Cognitive development. Personality development. Personality development. Moral development. Psychology of learning; basic concepts and factors affecting learning. GRADEical conditioning and operant conditioning theories. Social-cognitive theory and information processing theory. Weiner's causal inference theory.Gagne 's conditions theory of learning.
²TEB-291 (RTV-223)		ORAL EXPRESSION						2				0					2			2
The Use of Turkish Language in Oral Expression, Content of Oral Expression, Basic features of oral language and oral communication, Basic Features of Speaking Skills (Using Natural Language and Body Language), Basic Principles of a Good Speech ( Basic features of a good speaker; stress, intonation, pause, diction etc.), Unprepared and Prepared Speech (Selection and limitation of the topic; purpose, point of view, determination of main and side ideas, planning, writing the text; presentation of the speech), Types of Speech: Mutual conversations, interview, introducing yourself, answering questions, New Year, birth, holiday etc. Celebrating an important event, giving directions, talking on the phone, asking for a job, meeting/interviewing someone, Radio and Television Speech (Participating in culture and art programs as a speaker), Making an impromptu speech (Studies on speech samples and oral expression practices), Correcting Language and Expression Mistakes in Speech, Types and Features of Oral Expression-Conference-Open Session-Panel-Speech, Types and Features of Oral Expression-Symposium-Forum-Interview-Statement
²ISL-251		BUSINESS MANAGEMENT						2				0					2			2
Entrepreneurship concept , development of business plan, marketing and financial issues in enterprises, enterprises and quality, profit increasing techniques, human resources in enterprises. Competitive operations, decision making, operations strategy, process creation strategy, process analysis, performance and quality. Project planning and management. Technological environment, innovation and diffusion: technology change process, technology and competition, technology knowledge, technology strategy, technology use, organization for innovation.
²CAM-253		POLITICAL HISTORY						2				0					2			2
In this course, the development of political science and the history of political thought are examined and general information is given to students. In this context; After the concepts of politics and regime are examined in general, movements that affect political thought such as positivism and determinism , political approaches in theological understandings will be examined. Personalities such as Aristotle , Machiavelli , Nietsche , Schopenhauer , Marx, Weber , Bismarck and Hitler , who have influenced political thought and regime understandings, will also be discussed in this course and the basic philosophies of contemporary political movements will be conveyed to students.
ISL 451					ENTREPRENEURSHIP-1				2		0							2		2
It explains what needs to be done regarding pre-establishment research and how to establish the business, decisions to be taken after establishment, and how the business will gain a corporate structure in terms of management.

2ND GRADE SPRING
										Theo .					App .						Credit	ECTS
TRD-210				TURKISH LANGUAGE -2						2					0						0	2
Forms of expression in composition. Story, description. Essay, article. Noun conjugations in Turkish. Verb conjugations in Turkish. Words in terms of meaning and function - nouns, adjectives, adverbs. Pronouns, verbs, prepositions. Elements of a sentence. Sentence analysis and application. Reading and examining works related to the world of literature and thought. Reading and examining works related to the world of literature and thought. Rhetorical applications. Rules to be followed in the preparation of scientific articles. Expert report. Spelling and punctuation.
AIT-202				ATATURK'S PRINCIPLES AND HISTORY OF REVOLUTION -2						2				0							0		2
The strategy of the Turkish Revolution. Revolutions made in the political field: Proclamation of the Republic, abolition of the caliphate. The Progressive Republican Party and the Takrir-i Sükun Period. Revolutions made in the field of law. Revolutions made in the fields of education and culture. Revolutions made in the economic field. The attempt to transition to a multi-party system and some domestic political events. Revolutions made in the social and communal fields. Turkish foreign policy in the Atatürk period. Turkish foreign policy between the years 1923-1932. Turkish foreign policy between the years 1932-1938. Atatürk's principles: Republicanism, Nationalism. Populism, Statism. Secularism, Revolutionism.
EEM-232				PROFESSIONAL ENGLISH						3				0							3		3
Translation is made on the following topics and exercises are given on creating sentences with different structures. Shapes , Physical Descriptions , Matter , Molecules in Motion, Acids , Bases and Salts , Wave Motion, Generators and Faraday , Magnets and Magnetism , Conductors , semi- conductors and Insulators , Electrolysis , DC Motor, Process Control Systems
STAT-234				PROBABILITY AND STATISTICS						3				0							3		4
Transfer of the concept of probability and the basic information used in statistics. Course Plan Basic concepts of statistics, the concept of continuous and discrete random variables, analysis of the values of the random variable and frequency analysis, sample and population , measures of central tendency (arithmetic mean , geometric mean , harmony, measures of central tendency ( mode , median etc.), measures of central dispersion (standard deviation , variance , range ), quartiles deciles , ratio calculations, point and interval estimates for the population mean, estimation of the difference between two means , hypothesis testing and t-distribution, t- tests in independent samples and in paired samples, chi-square tests, comparison of variances and F distribution
EEM-236				CIRCUIT ANALYSIS						3				0							3		4
GRADEification and properties of electric circuits. State equations and their derivation. Solution method of Constant Coefficient Linear Circuits (CFLC); eigensolution, special solution, forced solution and exact solution. Laplace transform and its properties. Inverse Laplace transform. Definitions of electric circuit elements in s- domain and solutions of electric circuits. Solution of state equations in s- domain . Finding the state transition matrix using s- domain and eigensolution. Solution of switched circuits using t- domain and s- domain . Zero-pole distribution and response relation in s -plane. Transfer functions. Analysis of electric circuits with periodic input by Fourier series.
EEM-242				ANALOG ELECTRONICS-1						3				0							3		4
p and n type semiconductors. Investigation of p -n junction. Voltage-current characteristic curves of semiconductor diode. Zener diodes and zener diode voltage regulators . Clipper circuits, rectifiers, small signal analysis . Introduction to BJT and transistor structure. Biasing of common base , common emitter and common collector circuits . Transistor switching times . Investigation of transistor operating point and thermal stability. Field effect transistors .. Investigation of voltage-current eigen-curves in FETs . Investigation of Enhancement MOSFET and derivation of operating points. Depletion Examining the MOSFET and deriving its operating points. Examining CMOS and extracting operating points.
EEM-240				ELECTROMECHANICAL ENERGY CONVERSION						3				0							3		4
The place and importance of electromechanical energy conversion in Electrical-Electronics Engineering. Fundamental laws related to electromagnetism. Magnetic circuits. Air gap magnetic circuits. Magnetization curve. Behavior of magnetic circuits in alternating voltage. Hysteresis and eddy current losses. Voltage and magnetic energy in multi-excited magnetic circuits. Developments in permanent magnet magnetic circuits and analysis of these circuits. Concept of inductance and mutual inductance . Induced voltage and force in magnetic circuits. Concept of energy and co -energy. Concept of force and torque in an electromechanical system. Analysis of reluctance motor without rotor winding . Transformer; analysis of single and three phase transformers; obtaining equivalent circuit, calculation of equivalent circuit parameters; autotransformer , three phase transformer connections; voltage regulation ; instrument transformers.
EEM-226				ELECTROMAGNETIC FIELDS 2						2				0							2		3
Magnetic flux density and vector potential, Biot-Savart law. Ampere's law. Magnetic materials, magnetization. Magnetic field strength, magnetic susceptibility and permeability. Magnetic force and current on charges. Magnetic force between two closed circuits. Lorentz force and Hall effect. Motion of charged particles in a magnetic field. Faraday's law of induction. Lenz's law. induced electromotive force in a circuit . Laplace and Poisson equations.
EEM-228	MEASURING LABORATORY						0								2				1		2
Explanations regarding experiments and laboratory rules by the laboratory manager. Experiment 1. Investigation (introduction) and use of oscilloscope . Experiment 2. Measurement of power, energy and Cosφ . Experiment 3. Compensation in alternating current circuits (Power compensation ). Experiment 4. Measurement of current and voltage by equalization method and maximum power theorem. Experiment 5. Investigation and use of memory oscilloscope , obtaining a Hysteresis loop and measuring frequency by Lissajou curves. Experiment 6. Measurement of resistance, inductance , capacitance and mutual inductance by direct and bridge methods. Experiment 7. Analog-to-digital converters and digital measurement technique. Experiment 8. Measurement of non-electrical quantities by electrical means.
²IKT-252 (RTV-103)	ECONOMY						2								0				2		2
The course is taught in three stages. In the first stage, important principles of "Microeconomics" are briefly conveyed. In the second stage, more comprehensive general information about "Macroeconomics" is given. In the third and final stage of the course, information is given in the field of "Turkish Economy". Economics and economy; economic analysis tools; demand, supply and market, effects of price and income on demand and supply quantities; state in a mixed economy; consumer theory; production and costs; perfect competition and monopoly; market structures and imperfect competition; introduction to macroeconomics and national income; determination of national income; aggregate demand and aggregate supply; money and banking; central banking and monetary system; inflation and underemployment; open economy macroeconomics ; international monetary system; international trade; European Union; economic growth topics constitute the content of the course.
²CEK-252	OCCUPATIONAL HEALTH AND SAFETY						2								0				2		2
Social security and social support plans, development of health protection and retirement plan in Turkey, Turkish social security system, legal basis of social insurance, insured employee, social insurance financing
²ISL-256	INTELLECTUAL AND INDUSTRIAL PROPERTY						2								0				0		2
Research, publication principles, especially animal and human rights regarding developing technology, the place of environmental awareness in the application of bioengineering issues and important ethical concepts, legal and social sanctions. Intellectual property rights: National Regulations, Basic International Regulations to which Turkey is a Party, Industrial property rights: Brand, Patent, Utility Model, Industrial Design.
²SBI-206	TOTAL QUALITY MANAGEMENT						2								0				2		2
Historical chronological events that directly or indirectly affect total quality management. Elements of total quality management: Customer focus, Cooperation with suppliers. Leadership characteristics, development and participation of employees. Principles of learning organizations, Attitude of the institution towards learning. Uninterrupted learning process, benchmarking, Social responsibility. Total quality management in education. Contemporary teaching-Active learning. Project-based learning. Learning together model. Advanced learning strategies and thinking skills. Learning to learn, learning to think, lifelong learning. Quality board. Quality development teams. Teamwork. Strategic plan. Self-assessment . Creation of data collection methods and tools.
²CEK-256 (SOS-432)	SOCIOLOGY OF MANAGEMENT						2								0				2		2
Organization, coordination, bureaucracy, system approach in human relations. Administrative effectiveness, human factor in management, organizational effectiveness, renewing the organization, energizing the organization , making the organization efficient, making the organization healthy, utilization of human resources , motivation and social dimensions in management, subordinate-superior, vertical-horizontal and cross interactions in management.
ISL-452						ENTREPRENEURSHIP-2	2								0				2		2
To ensure that the entrepreneur is informed about the steps in the establishment of the business. In general, it is very difficult for businesses without a business plan to continue. Therefore, a detailed business plan and workshop .

²: 2nd grade social elective course

3RD GRADE FALL
		Theo .		App .		Credit		ECTS
EEM-303	ELECTRICAL MACHINES-1	3		0		3		5
Introduction to electrical machines; fundamentals of DC machines, steady and transient state analysis of linear DC motors; structure of DC machines; commutation in direct current machines ; armature reaction, armature structure in DC machines; expressions for torque and induced voltage, power flow and losses in DC machines; DC generators , equivalent circuits and types of DC generators and motors; mathematical model and transient state analysis of DC motors. Brushless DC machines.
EEM-305	POWER SYSTEMS-1	3		0		3		4
Introduction to Power Systems. Generation, transmission and distribution voltage levels. General structure, units and properties of an energy production facility. Nominal π, nominal T and equivalent circuits of short and medium length transmission lines. Mechanical structure of transmission lines. Conductors and properties. Stranded and bundled conductors. Cables and properties. Resistance, inductance and capacity calculations in conductors and cables. Insulators; structure, types and properties. Potential distribution in insulators. LV, MV, HV and EHV poles. Top forces. Selection criteria for poles . Pole calculation and selection in LV distribution lines. Power switches; disconnector types and properties. Breaker types, properties and breaking techniques. Busbars and busbar systems. Short circuit current and properties. Breaker calculation and selection according to short circuit current. Dimensioning of busbars and cables according to short circuit current.
EEM-309	PROFESSIONAL PRACTICE-1	0		2		1		2
The Professional Practice-1 course is conducted during weekly GRADE hours within the framework of the principles determined in the "Firat University Faculty of Engineering Practical Work (Internship) Directive" and "Intra-Department Student Internship Directive". According to the students' work performance at the internship site, 40% of the grade on the evaluation form filled by the workplace and 60% of the grade they received from their internship notebooks are taken into account to give midterm exam grades. Students present their work related to their internships to the relevant jury and students visually and verbally. At the end of the presentation, general exam grades are determined.
EEM-315	ANALOG ELECTRONICS-2	3		0		3		5
Properties and characteristics of operational amplifiers (OP-AMP). OP-AMP offset voltage and current and bias currents. Inverting and noninverting amplifiers. Differential and instrumentation amplifiers. Basic op- amp circuits. Oscillators and sinusoidal wave generators. Precision rectifiers, clippers and waveform generators. Comparators , logarithmic and antilogarithmic amplifiers. Large signal amplifiers; GRADE A, B and C operation and efficiencies. Regulated power supplies; shunt , series, current limiting and switching regulator circuits. UJT and its applications. Basic power electronics circuit elements.
EEM-335	LOGIC CIRCUITS	3		0		3		5
Number bases and their transformations, signed and unsigned numbers. Boolean algebra. Simplification of Boolean functions. Representation of Boolean functions on Karnaugh maps. Simplification of functions on Karnough maps. Simplification of Boolean functions by the table method . Combinational logic design. MSI and PLD elements (Collectors, decoders, encoders , data selectors, ROM, PLA, PAL). Synchronous sequential circuits, analysis and design. Registers, counters and memory units. Wave conduction counters and synchronous sequential logic applications. Digital electronic circuit technologies. Resistor- Transistor logic (RTL) circuits. Direct coupled transistor logic (DCTL) circuits. Diode- Transistor logic (DTL) circuits. Transistor-Transistor logic circuits (TTL). MOSFET logic circuits.
EEM-337	ELECTRICAL MACHINES	3		0		3		5
Introduction to electrical machines. Structure of DC machines. Armature reaction and commutation in DC machines. Equivalent circuits of DC machines. Brushless DC machines. Introduction to alternating current machines. Generation of rotating magnetic field. Torque, power flow and losses in AC machines. Asynchronous motors, equivalent circuit, torque and power. Torque-speed characteristics. Starting and speed control of asynchronous motors. Asynchronous generators . Single phase asynchronous motors. Synchronous generators . Synchronous generators Local and parallel operation. Synchronous motors. Stepper motors, operating principle and driver circuits. Magnet motors. Special motors.
EEM-333	AUTOMATIC CONTROL 1	3		0		3		4
System and control concepts, GRADEification of physical systems. Obtaining mathematical models of physical systems. Analogy principle and its applications for modeling systems in different energy modes . Open and closed loop systems and their properties. General control problems. Transfer functions, block diagrams, signal flow diagrams. State variable analysis. Stability of linear control systems. Time response analysis of control systems. Root locus. Frequency domain analysis of control systems. PID controller design by Ziegler-Nichols method.
EEM-343	ELECTRONICS LABORATORY 1	0		2		1		2
Explanations regarding experiments and laboratory rules by the laboratory head. Experiment-1: Obtaining the current-voltage characteristics of the diode and calculating the static resistance. Experiment-2: Examination of half-wave and full-wave rectifier circuits. Experiment-3: Examination of clipping and clamping circuits. Experiment-4: Zener diode voltage regulators . Experiment-5: Transistor amplifiers. Experiment-6: FET amplifiers and their applications. Experiment-7: E-MOS and D-MOS applications.
EEM-313	SIGNALS AND SYSTEMS	3		0		3		4
GRADEification of signals and systems, their properties. Stability in continuous-time systems. Finding the time response in systems defined by differential equations, zero state and zero input response. Convolution integral in continuous time, its properties, step and impulse response. Laplace transform and its properties of the region of convergence. Inverse Laplace transform, expansion to partial fractions. Definition of system function in continuous-time systems, concept of pole and zero. Systems defined by difference equations and discretization. Time response analysis of discrete-time systems. Z-transform, region of convergence and its properties. Inverse Z-transform, power series expansion, expansion to partial fractions. Definition of system function in discrete-time systems, concept of pole and zero, stability. Trigonometric and complex Fourier series representations. Phase and amplitude spectrum. Fourier transform properties, Parseval's theorem. Frequency response of continuous and discrete time systems. Discrete Fourier transform and its properties.
EEM-348	ELECTRICAL PLANTS		3		0		3	4
GRADEification of electrical installations, network structures. Production facilities. General structure, units and properties of an energy production facility. Transmission facilities. Mechanical structure of transmission and distribution facilities. Conductors and their properties. Stranded and bundled conductors. Cables and their properties. Insulators. Potential distribution in insulators. LV, MV, HV and EHV poles. Top forces of poles and selection criteria . Electrical structure of transmission facilities . Nominal π, nominal T and equivalent circuits of short and medium length transmission lines . Resistance, inductance and capacity calculations in conductors and cables . Instrument transformers. Structure and properties of LV distribution facilities. Fuses, switches, contactors and relays. Power switches: Disconnectors, breakers . Busbars and busbar systems. Overload and short circuit in electrical installations. Selection criteria of equipment .
³MEM-323	MATERIAL INFORMATION		2		0		2	3
Introduction to materials science. Material GRADEification. Solid solutions, phases, compounds in metallic materials. Crystallographic structure in materials. Hardness measurement methods. Mechanical properties in materials and methods of determining these properties. Material selection according to application areas. Corrosion and its applications. Electrical conductivity. Thermal conductivity. Effect of material microstructure on electrical conductivity. Effect of material microstructure on thermal conductivity. Semiconductors. Importance of material microstructure in semiconductivity . Magnetic materials and their applications.
³MMÜ-327	ENGINEERING MECHANICS		2		0		2	3
Definition and GRADEification of mechanics, its purpose, basic concepts. Principles of mechanics, Newton's laws, dimensional analysis, vectors, forces and moments. Balance, balance of plane and space systems. Centers of gravity, centers of gravity of linear elements. Geometric centers of plane surfaces, centers of volume, centers of mass. Moments of inertia, mass moments of inertia. Dynamic balance, force of inertia. Kinematics (displacement, velocity, acceleration). Derivatives of vector functions, absolute and relative motion. Coordinate transformations. Kinetics (force, mass, acceleration), equations of motion. Mechanics of electrical machines. Mechanics of transmission lines.
³BMU-341	ARTIFICIAL INTELLIGENCE		2		0		2	3
Introduction. Intelligent Agents. Problem solving methods. Knowledge and reasoning. Acting logically. Expert systems. Computational methods inspired by nature. Learning from experience. Statistical learning methods. Perception and vision. Natural language processing.
³CMU-387	HYDROLOGY		2		0		2	3
Basic concepts and methods in hydrology, hydrological cycle. Basic equations of hydrology, water balance of the earth. Precipitation, types of precipitation, measurement of precipitation. Formation of precipitation. Water vapor in the air, placement of rain gauges. Analysis of precipitation records, homogenization. Average precipitation, local distribution of precipitation, area-time analysis. Factors affecting evaporation, measurement, evapotranspiration . Infiltration and measurement, infiltration capacity, velocity and indices. Surface runoff, flow measurements. Analysis of data. Analysis of flow records, Flow continuity line, total flow line. Hydrographs. Hydrograph method, unit hydrograph theory and its derivation. Flow measurements in closed and open channels. Importance of hydrology for hydroelectric power plants.

	3RD GRADE SPRING
						Theo .		App .			Credit				ECTS
	EEM-304		ELECTRICAL MACHINES-2			3		0			3				4
	Introduction to alternating current machines; generation of the rotating field, winding structure, torque, power flow and losses in alternating current machines. Structure of asynchronous motor, equivalent circuit and torque. Transformer model of asynchronous motor. Analysis of power and torque-speed characteristics in asynchronous motors. Trends in asynchronous motor design and design GRADEes. Starting and speed control of asynchronous motors. Asynchronous generator . Single-phase asynchronous motors. Double rotating field theory of single-phase asynchronous motors. Starting of single-phase motors. Shaded-pole motors. Synchronous generators ; synchronous Equivalent circuits of generators , phasor diagram, power and torque expressions. Synchronous generators Local and parallel operation. Transient analysis of synchronous generators . Steady state analysis of synchronous motors. Starting of synchronous motors. Stepper motors.
	EEM-306		POWER SYSTEMS–2			3		0			3				4
	Structure of power systems. Single line diagram, impedance and reactance diagrams. Per- unit values, base value selection and changing of base value. Symmetrical three-phase faults in synchronous generators . A synchronous short circuit Investigation of generator . Reactances and short circuit currents of synchronous machines . Internal voltages of loaded machines under transient conditions, use of Thevenin equivalent circuit. Symmetrical components. Power in symmetrical components. Sequence impedances of circuit elements. Positive, negative and zero sequence circuits. Sequence circuits of unloaded generators and transformers. Asymmetrical and symmetrical faults in power systems. Effect of star point grounding on short circuits. Connection and calculation of series circuits according to fault types.
	EEM-308		POWER ELECTRONICS			3		0			3				5
	Basic principles of power electronics and introduction of basic elements of power electronics. Snubber circuits and their design. Drive circuits. Single-phase and three-phase AC chopper circuits. Operation of single-phase and three-phase controlled/uncontrolled rectifier circuits under various load conditions. Investigation of displacement, distortion and power factors in rectifiers. Thyristor DC chopper circuits. Single-phase inverters . Inverter analysis and methods for frequency/voltage control. Partial square wave ( Quasi-square) wave ) method. Pulse width modulation (PWM) technique. Inverters Harmonic analysis and definition of frequency ratio with modulation index. PWM generation in commercial inverters .
	EEM-344		COMPUTERIZED ANALYSIS IN ELECTRICAL-ELECTRONIC ENGINEERING			2		2			3				6
	Matlab package program. Error analysis, linear equation solutions. Linear solutions of equation sets. Iterative solution of equation sets. Solution of nonlinear equations. Interpolation . Numerical differentiation. Numerical integration. Solution of ordinary differential equations. Solution of partial differential equations. Curve fitting by the method of least squares.
	EEM-346		ELECTRONICS LABORATORY 2			0		2			1				2
	Explanations regarding experiments and laboratory rules by the laboratory manager. Experiment-1: Basic Op- amp properties. Experiment-2: Current voltage converters with op- amps . Experiment-3: Non-linear op- amp circuits. Experiment-4: Voltage and current regulators . Experiment-5: UJT and Opto-couplers .
	EEM-358		MICROPROCESSORS			2		2			3				6
	Introduction to microprocessors. Memory organization and op- code concept. 80286 microprocessor architecture. Address bus, register structure, segmented memory structure, addressing modes . Basic 80286 instructions. Stack and subroutines, array comparison, program control instructions, branch instructions. Digital/analog conversion (DAC) and 80286 microprocessor software programming examples. Analog/digital conversion (ADC), Introduction to interrupts, software interrupts, hardware interrupts. Microcontroller families, PIC microcontroller hardware structure, instructions applied on bytes and bits, data processing and control instructions. Flash, RAM, addressing modes , bank switching concept, ports, special purpose registers. Peripheral interface concept, peripheral interrupts. Timer concept, timer interrupts, counters, microcontroller programming examples. Applications to be done in the laboratory: Experiment 1: Memory and port applications with 80286 experimental set. Experiment 2: Stack and subroutine applications with 80286 experimental set. Experiment 3: Optical, ultrasonic with 80286 experimental set . sensor usage and DAC application. Experiment 4: ADC and interrupt applications with 80286 experiment set. Experiment 5: PIC microcontroller applications-1. Experiment 6: PIC microcontroller applications-2. Experiment 7: PIC microcontroller applications-3.
³EEM-354		ELECTRICAL ENERGY PRODUCTION SYSTEMS			2		0			2				3
Traditional and renewable energy sources. GRADEification of hydroelectric power plants (HES). Water intake structure in HES . Hydraulic turbines. Generators used in HES . Speed and voltage regulation in HES . Thermal power plants; furnace, boiler, pressurized steam systems, condenser and cooling towers. Nuclear power plants, structure and operating features. Reactor types. Moderator and control rods. Obtaining electricity from solar energy. Solar cell systems and solar solar power plants. Wind power plants, structural features and elements. Wind turbines and types, power calculation. Generators used in wind power plants . Power (diesel) power plants, operation and features. Fuel cells, operating principle and GRADEification. Hydrogen production and storage. Other electricity generation systems.
EEM-364		ELECTRICAL MACHINES LABORATORY 1			0		2			1				2
Explanations regarding experiments and laboratory rules by the laboratory manager. Bidirectional energy transfer to direct current - alternating current networks, Investigation of starting and braking of direct current motors , Measurement of basic quantities in electrical machines, Four-quadrant speed control of motor with thyristor drive system , Derivation of characteristic curves of direct current motors and generators , Derivation of equivalent circuit parameters of single-phase transformers, Display and examination of electrical quantities in computer environment with the help of DMS2, Speed and torque control in brushless direct current motors.
EEM-314		ANALOGUE COMMUNICATION			3		0			3				4
Introduction to communication systems. Issues to be considered in communication system design. General view of filters and derivation of filter transfer functions. Signals and modulation. Types of baseband signals. Need for modulation and GRADEification of modulation types. Advantages obtained by modulation. Amplitude modulation (AM) theory, types and derivation of mathematical equations. Amplitude modulator and demodulator circuits. Frequency modulation (FM) theory. Types of FM and derivation of mathematical equations, advantages and disadvantages. Phase modulation (PM) theory and general analysis. Areas of use of PM . Comparison of FM and PM . FM stereo broadcasting. Superheterodyne receivers.
EEM-312		ELECTROMAGNETIC WAVES			3		0			3				5
Maxwell's equations and derivation of wave equations. Basic concepts related to waves. Phase and group velocities, 3-dimensional wave propagation, wave propagation of vector quantities. Uniform plane waves propagating in space, insulators and conductors. Electromagnetic spectrum, characteristic impedance and wave number. Energy density and Poynting's theorem. Uniform plane waves propagating in good conductors and plasmas. Skin effect. Reflection and refraction in uniform plane waves. Fresnel equation and Snell's law. Calculation of reflection and transmission coefficients according to the change of electric field. Total reflection in non-uniform plane waves, reflection and refraction from the surface of a good conductor.
EEM-363		AUTOMATIC CONTROL-2			2		0			2				3
Design of control systems. Control structures and design criteria . Designs with proportional (P), proportional-integral (PI), proportional-derivative (PD), proportional-integral-derivative (PID) controllers. Phase advance, phase lag and phase advance-lag controller designs. Controller designs in time and frequency domains. Frequency domain comments. Computer aided controller design and applications. Controllability , observability .
³EEM-352				FILTER DESIGN METHODS		2	0		2				3
Filter types, low pass circuit functions, Hurwitz test, positive real functions. Time domain analysis, signal distortion, step and impulse responses. Butterworth , Chebyshev , inverse Chebyshev and elliptic filters. Implementation of input functions, canonical circuits, Foster and Cauer circuits . Frequency transformations. Zero shift, special poles. Active filters. General VCVS filters, biquad filters, higher order filters. Infinite gain multiple feedback band pass filters. Sensitivity, definitions and functions, root sensitivity, variations. Introduction to digital filters and their types.
³EEM-356				CONTROL CIRCUITS		2		0				2				3
Elements used in electrical control circuits, their properties and working principles. Current path and power circuits. Norms used in control circuits. Protection relays. Sample control circuits: Intermittent and continuous operation in three-phase asynchronous motors, changing the direction of rotation, starting with resistance, starting with reactance and auto transformer, star-delta starting, braking. Control with pneumatic and hydraulic systems.

4-1.BRANCH FALL
				Theo .		App .			Credit		ECTS
EEM-401		DESIGN IN ELECTRICAL-ELECTRONIC ENGINEERING		1		1			2		8
Introduction to engineering design. Example of engineering design process. Determination of design subject and formation of groups. Determination of project management and task distribution of team members. Theoretical information about design in Electrical-Electronics Engineering: Design tools and design factors, professional and social scope of design. Simulation standards, design models and optimal design principles. Concept of quality in design process. Problem determination, data collection, design development. Engineering economy. Reliability and decision making methods. Design experience on a team project. Presentation of interim reports. Completion of team projects. Presentation of final reports. Review of designs and oral presentation.
EEM-405		PROFESSIONAL PRACTICE-2		0		2			1		2
Professional Practice-2 course is conducted during weekly GRADE hours within the framework of the principles determined in the “Firat University Faculty of Engineering Practical Work (Internship) Directive” and “Intra-Department Student Internship Directive” . According to the students’ work performance at the internship site, 40% of the grade on the evaluation form filled by the workplace and 60% of the grade they received from their internship notebooks are taken into account to give midterm exam grades. Students present their work related to their internships to the relevant jury and students visually and verbally. At the end of the presentation, general exam grades are determined.
EEM-409		ELECTRICAL MACHINES LABORATORY 2		0		2			1		2
The laboratory manager will explain the experiments and laboratory rules. Experiment-1. Examination of three-phase asynchronous motor and generator , Experiment-2. Control of electrical drives. Experiment-3. Examination of single-phase asynchronous motor. Experiment-4. Starting of synchronous motors, Experiment-5. Examination of step motors. Experiment-6. Local and parallel synchronous motors . Generators Experiment-7. Determination of parameters and speed control of 3-phase asynchronous motor fed from inverter Experiment-8 Starting and speed adjustment methods of asynchronous motors.
EEM-455		PROTECTION IN POWER SYSTEMS		2		0			2		3
Overcurrents and overvoltages. Fundamental principles of protection. Relays: Working principles, GRADEification and characteristics. Relay settings and characteristics. Generator protections with overcurrent relays, impedance relays and differential relays. Power transformers. Overcurrent, earth, tank and differential protection in transformers. Relay coordination and selection of relay type. Directional protections. Distance protection relays. Protection of electrical installations against external overvoltages and lightning strikes: Lightning rods, protection lines, spark gaps ( electrifiers ) and surge arresters . Structure, working principles and selection of surge arresters .
⁴EEM-457	DYNAMICS OF ELECTRICAL MACHINES			2		0			2		3
Torque-speed characteristics of electric motors and work machines. Stable operating conditions of the system consisting of motor-work machine. Selection of motor type and power according to the work machine. Examination of electrical and mechanical quantities related to drive systems. Reduction of load moment and moment of inertia to the motor shaft. Starting and braking of DC motors. Dynamic behavior of single phase asynchronous motor. Starting, speed regulation and braking of AC motors.
EEM-459	COMMUNICATION SYSTEMS			2		0			2		3
Introduction to communication systems. Signals and modulation. Derivation of filters and their functions. Types of baseband signals. Need for modulation and GRADEification of modulation types. Amplitude modulation. Amplitude modulator and demodulator circuits. Frequency modulation. Phase modulation. Conversion of analog signals to digital signals, sampling, quantization , coding. Digital modulation theory. Pulse duration modulation. Pulse width modulation. Pulse code modulation. Wireless transmission of digital signals. Amplitude shift keying. Frequency shift keying. Phase shift keying.
⁴EEM-435	POWER ELECTRONICS SYSTEMS			2		0			2		3
three-phase six-step bridge inverters for star and delta connected R and RL loads, waveforms, harmonic spectrum. Switch mode power supplies (SMPS). Analysis and design of flyback converter . Isolated flyback converter . Analysis of forward converter . Isolated forward converter . Analysis of boost type converter . Control of SMPS . Resonant converters . Uninterruptible power supplies (UPS).
³EEM-326	LIGHTING TECHNIQUE AND INTERIOR INSTALLATION PROJECT			2		2			3		7
Introduction to lighting technique and interior installation project. Lighting types and lighting fixtures. Photometric quantities and photometric laws. Components of lighting, Light and vision. Light sources. Lighting calculation. Electrical interior installation materials. Characteristics and supply of 1/50 scale architectural application project to be drawn. Electrical interior installation open and single line connection diagrams. Application of electrical interior installation during the construction stages of a building. Important articles of Electrical Interior Installations Regulation. Drawing of electrical interior installation project of normal, ground and basement floors of a sample apartment. Project control. Drawing of high current column diagram, preparation of table loading table, fuse and conductor section selections, voltage drop calculation. Final control and delivery of the project.
⁴EEM-463	INDUSTRIAL AUTOMATION			2		2			3		7
Industrial Automation . Feedback control concept. Programmable Logic Controllers (PLC) in industrial automation. Sensors , transducers , transmitters , actuators and motion mechanisms used in automation sector. Industrial robots and their use in automation. Computer-aided process planning, numerical control, group technology, automatic storage, retrieval and transportation. Supervisory control and data acquisition (SCADA) system.
⁴EEM-453	INDUSTRIAL MEASUREMENT			2		0			2		3
Transducers , potentiometers , concepts of linearity and sensitivity in potentiometers , Linear variable differential transformers (LVDT), Pressure transducers: Bourdan tubes, bellows. Temperature sensors: Thermocouple ( thermocouple ), thermistor and resistive temperature sensors. Optical position measurement, velocity measurement. Fluid velocity measurement: Electroacoustic method, electromagnetic method, fluid velocity measurement using resistances that change with heat, velocity measurement with throat flowmeter . Strain-Gage : Weight and force measurements. Accelerometers . Moisture meters : Measurement of the amount of moisture in the air, measurement of the humidity of an industrial product. Photocells and photoelectric elements. Measurement of water pollution using photocells. Hall transducer , Piezo electric.
³EEM-465	DIGITAL SIGNAL PROCESSING			3		0			3		7
Discrete-time signals and systems. Analog/Digital, Digital/Analog transformation and its stages. Solution of linear constant coefficient difference equations. Z-transform, its properties and region of convergence. Inverse Z-transform. Solution of linear constant coefficient difference equations using Z-transform. Stability in discrete-time systems. Discrete-time system structures, frequency domain analysis of discrete-time signals. Discrete Fourier transform and its properties. Inverse discrete Fourier transform. Fast Fourier transform and its properties. Digital filter design techniques. Design of infinite-time impulse response filter (IIR). Design of finite-time impulse response filter ( FIR ).
⁴EEM-467	LOGIC CIRCUITS LABORATORY			0			2		1		2
Explanations regarding experiments and laboratory rules by the laboratory manager. Experiment 1: TTL and MOS gate characteristics. Experiment 2: Combinational circuit analysis. Experiment 3: Combinational circuit design. Experiment 4: Combinational circuit analysis and design with MSI circuit elements . Experiment 5: Design of addition, subtraction and comparison circuits with block structures. Experiment 6: Memory elements. Experiment 7: Synchronous sequential circuit analysis. Experiment 8: Synchronous sequential circuit design. Experiment 9: Asynchronous and synchronous sequential counter design. Experiment 10: Field programmable gate arrays.
⁴EEM-469	CONTROL LABORATORY			0			2		1		2
Explanations regarding the experiments and laboratory rules by the laboratory coordinator. Experiment 1: Basic mathematical operations and their characteristics used in continuous and discrete-time control systems. Experiment 2: Open and closed-loop control systems and stability. Experiment 3: Temperature control with time optimal (On/ Off ) controller. Experiment 4: Control of lighting systems with On/ Off controller. Experiment 5: PID controller characteristics and application to analog position control system. Experiment 6: Application of analog PID controller to speed control system. Experiment 7: Investigation of root locus curve with analog CE120 controller set and real-time observation of system variables in PC environment. Experiment 8: Discrete-time position and speed control of a DC motor. Experiment 9: Open loop speed control of three phase induction motor fed by inverter with PC. Experiment 10: Orbit error control of induction motor with PC.
4-1.BRANCH SPRING
				Theo .			App .		Credit		ECTS
EEM-400		HIGH VOLTAGE TECHNIQUE		3			0		3		4
Basic equations of static electric field. Electric field and potential calculations in planar, spherical and cylindrical electrode systems. Breakdown and economic investigation of electrode systems. Layered electrode systems. Fracture at boundary surfaces. Uniformly strained cable and capacitor bushings. Discharge phenomena in gases. Ionization and its types. Townsend Discharge Theory and Channel Discharge Theory. Corona phenomenon in transmission lines and calculation of corona losses. Insulation losses and their measurement. Generation of high alternating voltage and high direct voltage. Pulse generators and generation of high pulse voltages. Overvoltages and their properties. Traveling waves and their calculation. Insulation coordination.
EEM-402		LABOR LAW		2			0		2		2
Introduction to labor law, basic concepts and important laws. Application areas of labor law. Types of labor contracts. Jobs where labor contracts are prohibited. Rights and obligations of the employee and employer arising from labor contracts. Termination of labor contracts, working hours, leave and wages. Concept of social security. Trade union law. Collective labor agreement law. Strike and lockout. Right and interest disputes.
EEM-404		GRADUATION PROJECT		0			2		1		12
Determination of graduation project topics and distribution to student groups. Conducting graduation project studies within the framework of the principles determined in the “Fırat University Engineering Faculty Graduation Project Directive” and “Intra-Department Graduation Project Operation Directive” . Supervision of project studies by the manager. Explanations of project studies regarding experiments and laboratory rules by the laboratory manager. Preparation of graduation project in accordance with the writing rules. Presentation and submission of graduation project.
EEM-406		ELECTRICAL PLANTS LABORATORY		0			2		1		2
Explanations regarding experiments and laboratory rules by the laboratory manager. Experiment-1: Overcurrent protection in transformers. Experiment-2: Reactive power compensation . Experiment-3: Instrument transformers. Experiment-4: Obtaining electrical energy from solar energy. Experiment-5: Electrical control circuits. Experiment-6: Synchronous circuits operating in parallel with the network . generator . Experiment-7: Starting and speed adjustment methods for asynchronous motors. Experiment-8: Grounding measurements. Experiment-9: Measurement of surface leakage currents in high voltage insulators.
EEM-438	POWER ELECTRONICS LABORATORY			0			2		1		2
Explanations regarding experiments and laboratory rules by the laboratory manager. Experiment 1: Single-phase controlled and uncontrolled rectifiers. Experiment 2: Switched DC chopper circuit and turn-off snubber circuit design. Experiment 3: Investigation of multi-phase controlled and uncontrolled rectifiers . Experiment 4: Speed control of three phase induction motor fed by inverter . Experiment 5: Single and three phase AC chopper circuits, Induction motor speed control using AC chopper. Experiment 6: DC choppers. Experiment 7: Switch mode power supply (SMPS). Experiment 8: DC chopper with two thyristors . Experiment 9: Resonant DC chopper.
EEM-448	ENERGY DISTRIBUTION AND PROJECT			2			2		3		4
Drawing principles for a LV distribution project feeding a region consisting of distributed loads with two distribution transformers. Provision of 1/1000 scale zoning plan. Lighting features on roads, bends and junctions. Principles of placement of transformers. Determination of pole locations. Sample LV energy distribution project calculation and drawing: Calculation of pole powers, determination of line arrangements with moment and section calculations, section control according to heating and voltage drop, calculation of lighting voltage drop, transformer power calculation, single line diagram, LV pole calculation and selection, traverse types and selection. Route study, plan and profile of MV energy transmission lines. MV project drawing principles. 3 AWG conductor type projects.
⁴EEM-450	SPECIAL ELECTRICAL MACHINES			3			0		3		4
Areas of use of special electrical machines. GRADEification of special electrical machines, permanent magnets and their applications. Magnet excited, direct current and synchronous motors, equivalent circuits, structures and applications. Hysteresis and reluctance motors. Types, structures and control principles of stepper motors. Mass rotor induction machines. Linear motion machines, equivalent circuits, parameters and applications. Axial flux electrical machines. Behavior of special electrical machines under variable voltage and variable frequency. Field investigation for special electrical machines. Design principles of special electrical machines.
⁴EEM-452	INDUSTRIAL ELECTRICITY				3			0		3	4
Determination of student term paper topics. Electric furnaces: Resistance heating, arc furnaces, induction furnaces, induction heating. Temperature control. Light control. Phase control. PLC applications. Star/delta starting. Making homework presentations.
⁴EEM-454	POWER LINES ENGINEERING				3			0		3	4
GRADEification of transmission lines. Line head voltage and current equations. Equivalent p and equivalent T circuits of long transmission lines, special cases of long transmission lines. Four-terminal line parameters. Series and parallel connection of transmission lines. Mechanical calculation of transmission lines. Horizontal and vertical forces acting on conductors and poles. Range definitions. Different states equation. Critical range and critical temperature calculation. Up -Lift control. Calculation of expropriation and easement areas. Whipping. High voltage and very high voltage poles, their properties and basic structures.
⁴EEM-456	MODERN CONTROL METHODS OF ELECTRICAL MACHINES				3			0		3	4
DC motors and speed control. Analysis of DC motor drives. Analysis of two-quadrant DC chopper. Analysis of four-quadrant DC chopper. Closed-loop speed control of DC motors. Speed control of asynchronous motors. Control with frequency, closed-loop slip control, vector control. Cyclic Converter drives. Principle of slip energy recovery in wound rotor induction motors. Conventional Scherbius system. Use of cascaded static converters . Speed control of wound rotor induction motors by static control of rotor resistance.

4-2.BRANCH FALL
				Theo .			App .			Credit	ECTS
EEM-471	PROCESS AUDIT			2			0			2	3
Introduction to process control and concepts. Industrial processes and modeling. Obtaining mathematical models. Sensors and transducers. Basic control principles. Types of control. Industrial control and its organs. Design of feedback control systems. On- off , hysteresis control, P, PI, PD and PID controls. Time delay control.
⁴EEM-473	COMMUNICATION ELECTRONICS			2			0			2	3
Resonant circuits, impedance matching circuits. Power amplifiers. GRADE C power amplifiers. High frequency response of amplifiers. Tuned amplifiers. Wide band amplifiers. Basic amplitude modulated receiver circuits. Basic frequency modulated receiver circuits. Phase locked loop (PLL). Examination of linear PLL . PLL applications.
⁴EEM-475	INDUSTRIAL ELECTRONICS			2			0			2	3
Introduction to industrial electronics. Industrial project drawing principles and drawing standards. Current path diagram drawing. Control diagram drawing. System concept. Sensors in industry . Usage areas and features of sensors . Pneumatics and hydraulics. Use of inverters and converters in industry . Sample project drawing. Industrial control systems. Project drawing.
⁴EEM-429	DISPLAY SYSTEMS			2			0			2	3
Overview of TV systems. Conversion of image to electrical signal. Color television systems, PAL, SECAM and NTSC systems. Picture elements, liquid crystal display (LCD), plasma, OLED elements. Television cameras, charge-coupled (CCD) and CMOS picture elements. Digital image processing techniques. Image compression techniques, CCITT, JPEG and MPEG standards. Digital sound transmission. Digital television broadcasting. Analog and digital television receivers. Three-dimensional television broadcasting.
³EEM-477	MICROCONTROLLERS AND THEIR APPLICATIONS			2			2			3	7
microcontroller families and hardware architecture. Use of compiler for programming. Introduction to PIC application-development set and programming card. Instructions applied on byte and bit, data processing and control instructions. Flash and RAM memory, addressing modes , bank and page switching. Ports, special purpose registers, interrupts, peripheral interface. Timers, counters. Capture, compare, pulse width modulation. Serial communication. Analog-to-digital converter. EEPROM, LCD, DA motor, stepper motor, servo motor, serial communication and RF communication applications.
⁴EEM-481	OPTOELECTRONICS			3			0			3	7
Electromagnetic theory of light, wave and particle nature of light. Electronic and optical properties of semiconductors. Semiconductor photodetectors . Detection of optical radiation. Operating principles of optoelectronic circuits. Elements constituting optoelectronic circuits: LEDs, semiconductor lasers, LED arrays, photoresistors , photodiodes , phototransistors , multi-element photodetectors , LED circuits, semiconductor laser circuits, solar cells. Analysis of LED circuits, analysis of photodetector circuits, noise, analysis of optically coupled ( opto-coupler ) circuits. Applications of optoelectronic circuits. Infrared illumination and night vision systems. Infrared communication systems.
4-2.BRANCH SPRING
					Theo .			App .		Credit	ECTS
EEM-412			COMMUNICATION LABORATORY		0			2		1	2
Explanations regarding experiments and laboratory rules by the laboratory head. Experiment 1: Amplitude modulation. Experiment 2: Frequency modulation. Experiment 3: Sampling, time division multiplexing and pulse code modulation. Experiment 4: VOIP (Voice Over Internet Protocol) applications. Experiment 5: Radio-frequency modulation. Experiment 6: Spectrum analyzer. Experiment 7: GSM cellular communication applications.
EEM-444	NUMERICAL CONTROL				3			0		3	4
Continuous and discrete-time control systems. Conversion of continuous-time systems to discrete-time systems. Impulse transfer function (PTF). Starred Laplace transform. Transform from s -plane to z-plane. Stability of discrete-time systems. Transient and steady-state response and performance of discrete-time systems. Root locus ( root Discrete-time controller design with locus curves. Frequency response of discrete-time systems. Discrete-time controller design with Bode diagram. Time- optimal controller design of discrete-time systems by analytical method. State space model of discrete-time systems. Controller design with state feedback for discrete-time systems.
EEM-458	PROCESS CONTROL LABORATORY				0			2		1	2
Introduction to materials and systems used in process control. Weighing systems, dosing systems, edge control systems, winding and unwinding systems, speed control systems, position control systems, heating and cooling systems, pneumatic opening, closing and rotary systems. Hydraulic systems. Control Parameter setting according to Ziegler-Nichols Method. Simulation of control systems with CC Program .
EEM-460	MODERN PROJECTING SYSTEMS				2			2		3	4
Computer aided design (CAD) concept and its place in engineering. Flow path diagram, control diagram drawing. ANSI, IEC standards in projecting. Use of package programs for modern projecting systems.
⁴EEM-462	PROGRAMMABLE DIGITAL CONTROLLERS AND THEIR APPLICATIONS				2			2		3	4
Elements used in electrical control circuits, their properties and working principles. Current path and power circuits. Norms used in control circuits. Sample control circuits. PLC and its structure. Function of PLC and its place in industry. Concept of program and command. Advantages over GRADEical control systems. Types of programming. Programming with ladder diagram. Commands in ladder diagram. Timers and counters. Data transfer commands. Mathematical data processing commands.
⁴EEM-464	MEDICAL ELECTRONICS				3			0		3	4
Introduction to medical electronics. Fundamental ideas of medical devices. Sensors. Fundamentals of biopotentials , electrical behavior of excitable cells. Study of ENG, EMG, ECG, ERG, EEG and MEG . Measurement of blood pressure, flow and volume. Measurement of respiratory system. Clinical laboratory devices, medical imaging systems. Therapeutic and artificial devices, pacemaker. Hemodialysis , kidney stone crushing systems. Surgical cutting devices. Electrical safety. Physiological effects of electricity. Basic protection approach against shock. Testing of electrical systems. Biotelemetry .
⁴MMÜ-466	ROBOTIC SYSTEMS				3			0		3	4
Definition and GRADEification of robots. Characteristics of robots. Kinematics of robots. Rotational motions. Homogeneous transformations. Inverse kinematic transformations. Workspace analysis and trajectory planning. Differential motion and statics of robots. Manipulator dynamics. Lagrange equations. Control of robots. State equations. Stationary solutions. Linear feedback systems. Single-axis PID control. Special topics.

4-3.BRANCH FALL
		Theo .		App .		Credit	ECTS
EEM-479	ANTENNAS AND PROPAGATION	2		0		2	3
Maxwell's equations. Derivation of wave equations. Basic antenna theory, calculation of near and far fields of magnetic dipole . Hertzian dipole . Radiation, beamwidth , directivity, gain, efficiency, radiation resistance parameters of antennas and their calculations. Calculation of power density and field strength of antennas. Friss transmission equation and free space path loss. Thevenin and Norton equivalent circuits of antennas. Input impedance and impedance matching in antennas. Calculation of parameters of dipole , folded dipole , half wavelength, full wavelength, yagi -uda, patch , loop and helix antennas and use of Smith chart .
⁴EEM-483	SATELLITE COMMUNICATIONS	2		0		2	3
Introduction to satellite communication. Universal gravitation and Kepler's laws. Satellite orbits and their properties. Frequencies used in satellite communication. Structure of satellites and their placement in orbit. Determination of satellite orbit types. Longest communication time with satellite and its importance. Calculation of satellite's overnight stay. Speed and period of satellite in orbit. Antennas used in satellite communication and their calculations. Analysis of antenna beam angle, gain and dimensions. Calculation of azimuth and elevation angles and their use in antenna installation. Polarization concept in satellite antennas. LNB (low noise block), Diseqc (digital satellite equipment controller) systems. Cable types used in satellite systems. Studies on satellite systems in Turkey and Turksat satellites.

4-3.BRANCH SPRING
			Theo .		App .	Credit	ECTS
EEM-446	DIGITAL COMMUNICATIONS		3		0	3	4
Introduction to digital communication and necessity of digital communication. Definitions used in digital communication (bit, byte , boud , boud rate, channel capacity, etc. ). Bit error rate in baseband information transmission, bit error probability for binary signals. Relationship between error probability and signal to noise ratio. Digitization of analog signal. Sampling theorem. Quantization techniques. Pulse amplitude, pulse duration, pulse location and pulse code modulation. Delta, linear delta, adaptive delta, differential pulse code modulation techniques and their advantages. Coding of quantized signal. Decoding techniques and filters. Transmission of digital signals and line coding techniques. Intersymbol interference and pulse shaping. Amplitude, frequency and phase shift keying techniques and their types.
EEM-468	COMMUNICATION SYSTEM LABORATORY		0		2	1	2
Explanations regarding experiments and laboratory rules by the laboratory manager. Experiment 1: Obtaining antenna radiation diagram. Experiment 2: RFID application. Experiment 3: Radar applications. Experiment 4: Fiber optic communication applications. Experiment 5: Satellite communication applications. Experiment 6: Microwave applications. Experiment 7: Matlab Communication Toolbox applications.
EEM-470	MICROWAVE TECHNIQUE		3		0	3	4
Electromagnetic spectrum. Transmission lines and calculation of transmission line parameters. Lossless and lossy lines. Reflection and standing wave ratio in transmission lines. Smith chart applications. Impedance matching techniques. Rectangular and circular cross-section waveguides and their analysis. TE (transverse electric), TM (transverse magnetic) and TEM (transverse electromagnetic) modes in waveguides . Impedance concept in waveguides, attenuation factor. Cavity resonators . Microstrip lines. Microwave generators.
⁴EEM-472	FIBER OPTIC COMMUNICATION		3		0	3	4
Optical transmission, reasons for use and comparison with other transmission systems. Electromagnetic wave theory and propagation of light in optical waveguides. Plane and cylindrical waveguides. GRADEification of fibers, step and variable index fibers. Light, reflection and refraction, Snell's Law, refractive index. Fiber optic cable structure. Fiber optic transmission characteristics. Attenuation, absorption, scattering and bending losses in fiber optics . Light sources and properties. Definition and properties of laser light source. Laying of fiber optic cable, making connections, troubleshooting and elimination methods. Modulation and multiplexing techniques used in fiber optic communication. Fiber optic in computer networks . Network devices, NIC (network communication controller), repeater , hub , bridge , switch , router , gateway systems , use of fiber optic .
⁴EEM-474	COMPUTER COMMUNICATIONS		3		0	3	4
Computer networks, digital communication and general definitions. Coding techniques, error-aware and correcting coding. OSI reference model, layers and functions. Protocols, layer protocols, examination of TCP/IP protocol suite. Network, data link layers, header structures and addressing. Static and adaptive routing algorithms. Frame structures, MAC addressing structures. Computer network concepts; LAN , MAN, WAN topologies. LAN and WAN technologies. Network devices, NIC, Repeater , HUB, Bridge, Switch, Router , Gateway systems. Structured cabling techniques. Internet addressing, subnets, IP routing, internet service programs. Network operating systems, DNS, DHCP, FTP etc. server and network management software overview.
⁴EEM-476	WIRELESS COMMUNICATION		3		0	3	4
Wireless communication systems. Mobile communication systems. Cellular communication, capacity, frequency reuse and handover techniques . Structure of cellular communication systems, public telephone network and subsystems. Cell definitions, cell coverage, selection of cell groups and frequency reuse. Channel capacity and traffic calculation. Investigation of interference effects. Antennas and sector structure used in cellular communication systems. Propagation in mobile cellular communication systems . Modeling of digital radio frequency (RF) communication, source and channel coding, RF link structure, asymmetric links, forward link, backward link, traffic channels. Generation of conversation and realization of communication. Power control and network planning.

Electrical Electronics Engineering

Electrical Electronics Engineering

Electrical Electronics Engineering

Electrical Electronics Engineering

Course Contents