LIST of STUDY COURSES
offered in English for ERASMUS students visiting College Of Electronics
Direction of Study: Electronic Devices and Systems
Speciality, Specialization: Electronic Systems
Level: BSc, MSc
№ 
Course Name 
Language 
Annotation 
Semester 
ECTS 
Deprtment 
1 
Design in electronics 
English 
The aim of this lecturecourse is to study the principles of modeling of electronic components, electric circuits which build on this components, and processes in this circuits. Also students acquire the practical skills of circuit simulation program using for analysis of processes in electronic devices. Students study object and flat modeling in electronic, the based models of passive and active electronic components, modeling foundation of electric circuits in similar and hybrid coordinate basis. Students acquire also with based analysis techniques of processes in electric circuits and most using circuit simulation program. 
6 
3 
Промислової електроніки
(проф. Ямненко Ю.С.) 
2 
Theory of information and digital signal processing

English 
The discipline covers the questions connected with the information and its forms, quantitative measurement, probability and entropy (absolute, relative, combination), estimation of amount of information for ideal channel and under the noises, calculation of informational losses, calculation of the velocity of information transmission, channel bandwidth. Separate chapter contains coding procedures, idea of detection and correction of errors, estimation of redundancy construction of optimal nonregular codes using ShannonFano and Huffman methods, systematical (Hamming), cyclic codes, linear group codes. Second part devoted to DSP contains conception of discrete and continuous signals, digitization procedure, correlation and convolution, discrete spectral transforms (Fourrier, Hartley, Walsh, Hadamard), wavelet transforms at oriented basis, data compression, ways of digital signals transmission (amplitude, frequency, phase modulation and manipulation), SNR, increasing of information rate, noiseresistant signal transmission, construction of matched filters, new methods of DSP.

5,6 
6,5 
Промислової електроніки
(проф. Ямненко Ю.С.) 
3 
Theory of automatic regulation and control

English 
The discipline is one of the basic in studying for Master degree. It’s based on mathematical analysis, theory of electrical circuits, calculation of electromagnetic processes in electronic systems. As a result of discipline study students will be able to create the equations describing processes in electronic systems; to find transfer functions and time characteristics using Laplace transform, meshcurrent and nodepotential methods; to build and to analyse frequency characteristics; to investigate steadiness using different algebraic, frequency, and logarithmic criteria for open and closed loop systems, steadiness in pulse systems; to calculate transient and steady processes in continuous, linear and nonlinear systems of automatic regulation.

9 
4,5 
Промислової електроніки
(проф. Ямненко Ю.С.) 
4 
Electronic systems of regulation and control

English 
The discipline is one of the component of Master degree preparation. It’s included in the list of mandatory courses for specialty “Electronic system”. Discipline is based on previously studied courses like higher mathematics, theory of electrical circuits, theory of information and signal processing, power engineering, converters, modeling in electronics, electromagnetic technique, theory of automatic regulation. The aim of the discipline is obtaining of knowledge and skills in the field of design, construction, analysis of control systems for power converting devices, calculation of electromagnetic processes and estimation of steadiness of closed loop systems with different types of regulators. The discipline covers such questions as classification of closed loop electronic control systems, functional schemes and application; transfer functions of different links; types of sensors and regulators, kinds of modulation and their realization; methods of the calculation of the processes in electronic systems; modern mathematical base for analysis of the processes using discrete spectral transforms (Fourrier, Walsh, Hartley), transforms of discrete functions with mary argument in Galois field and their application for DSP; principles of multiscale wavelet analysis, methods of energyefficient control of electrical energy consumption. 
10 
6,5 
Промислової електроніки
(проф. Ямненко Ю.С.) 
Direction of Study: Electronics
Speciality, Specialization: Micro and nanoelectronics, Micro and nanoelectronic devices and systems, Physical and biomedical electronics, Electronic informational biomedical systems
Level: BSc, MSc
№ 
Course Name 
Language 
Annotation 
Semester 
ECTS 
Deprtment 
1 
Fundamentals of nanoelectronics 
English 
The goal of a course is to give the basics knowledge about fundamental physics of the nanoscaled systems, nanofabrication technologies, basic nanomaterials and nanostructures and their electronics properties. Physical fundamentals of nanoelectronics include the study of lowdimensional systems (from twodimensional electron gas in HEMT to zerodimensional objects, socalled quantum dots), new physical effects, emerging at nanoscale: overshoot of drift velocity, ballistic carrier transport, Coulomb blockade, quantum Holle effect, etc. Nanofabrication include the study of “topdown” and “bottomup” approaches and their realizations: methods of thin film deposition, scanning probe methods, nanolithography, selforganization techniques, etc. Study ofnanomaterisls and nanostructures include classification of nanomaterials and nanostructures; properties of porous silicon and aluminum oxide; structures, based on carbon: graphene, fullerenes, fullerite, nanotubes. Study ofelectronic properties of nanostructures include consideration of the nanoscaled fieldeffect transistors, structures with transverse electron transport (resonanttunneling diode, supperlatties); carbon nanostructures: graphene structures, transistor structures, based on carbon nanotubes, nonhomogeneous nanotubes, transmission lines, antennas and other components based on nanotubes, transistor nanosensors. Special attention is devoted to nanoeffects: conduction of ballistic contacts, magneto and electrostatics Aharonov–Bohm effect, resonant tunneling, singleelectron tunneling, etc. Consideration of molecular nanoelectronics structures ends up the given course. Course contents: Introduction to nanoelectronics; Electromagnetism; Basics of quantum mechanics; Application of quantum mechanics; Lowdimension nanostructures; Electron transport; Nanodevises; Nanofabrication. Practical training is conducted at the research laboratories equipped with submicron litography, Scanning Tunneling and Atomic Force Microscopes and NanoFab. 7 Semester; Credits 4,5; Lectures 27; Practical 9; Exam. 
1 
4,5 
Мікроелектроніки, Фізичної табіомедичноїелектроніки
(доц. Орлов А.Т.,
ас. Федяй А.В.) 
2 
VLSI design 
English 
This is a course in the field of Very Large Scale Integration (VLSI) circuit and systems design. Design and analysis of VLSI integrated circuits will be covered from a circuit design perspective. This course will focus exclusively on digital CMOS VLSI circuit design. Integrated circuit physical design flows will be presented. Electronic design automation principles will be covered through handson practice using VLSI CAD tools. 9 Semester; Credits 5,5; Lectures 18; Practical 9VLSI Design Labs 15; Project Work; Exam.

1 
5,5 
Мікроелектроніки
(доц. Орлов А.Т.) 
3 
Sensors design 
English 
The course provides a solid foundation in the practical techniques required in experimental laboratory work, the analysis of data and computer simulation techniques, including use of industrystandard packages.
Course contents: Sensor Principles and Applications; Sensor Simulation and Modelling;
ComputerAided Sensor Design; Sensor Systems and Testing.
10 Semester; Credits 2,5; Lectures 18; Practical 9; Sensors Design Labs 9; Exam.

2 
2,5 
Мікроелектроніки
(доц. Орлов А.Т.) 
4 
Micro & Nanoelectromechanical Systems 
English 
Course Content: Microtransducers; Material Properties Measurement; MEMS and NEMS Simulation; SystemLevel Simulation; Nano and Microsensors; Microfluidics; Biomedical Systems; Microactuators; Micromachining Technology; LIGA Technology for R&D and Industrial Applications; Interface Circuitry and Microsystems; RF MEMS and NEMS.
11 Semester; Credits 2,5; Lectures 18; Labs 9; Exam.

1 
5,0 
Мікроелектроніки
(доц. Орлов А.Т.) 
5 
Physics of Dielectrics 
English 
Course Contents: Types of polarization; Dipole moments and electrostatic problems;
Polarizability; Nonpolar dielectrics; Debye’s Theories; Theories of the static dielectric permittivity; Dielectric relaxation theory; Complex dielectric permittivity; Dielectric Spectroscopy; Liquid Crystals; Ferroelectrics and Semiconductors; Phase Transitions
of the first and second order/
5 Semester; Credits 3; Lectures 18; Practical 9, Labs 9; Exam.

5 
3,0 
Мікроелектроніки
(проф. Поплавко Ю.М.) 
6 
Microwave Engineering 
English 
This course introduces physical, circuit and technological foundations of fundamental microwave components design and application the components for development of microwave devices and systems. Students will gain knowledge and experience of: characterization and classification of microwave components, devices and systems; fundamental principles of microwave device development; microwave measurement techniques; proper selection and application of components for microwave device elaboration; trends of microwave systems progress. Syllabus: Evolution of modern microwave devices and systems: trends and currents. Basics of information transmission in microwave systems. Passive components of microwave devices. Fundamental modules of microwave systems. Transmitterreceiver microwave systems. Parameters and characteristics of microwave systems. Communication microwave systems. Radiolocation and radio navigation systems. Measurement techniques for microwave systems. Basics of electromagnetic compatibility. 
9, 10 
5,5 
Фізичної та біомедичної електроніки
(доц. Прокопенко Ю.В.) 
7 
Biomedical signal processing with applications 
English 
The course is devoted to fundamentals of theory and applications of continuous and digital signal processing to biomedical signal analysis. The aim of the discipline is to give students understanding of application of signal processing methods and strong background in using signal analysis, especially biomedical signals. The classification and parameters of signals, linear stationary digital systems are considered. The focus of the discipline is given to processing and analysis of discrete signals in linear stationary systems. We consider the representation of signals in Hilbert space, the concept of generalized signal decomposition and energy preserving transforms. We study the theoretical basis and practical application of classical and new methods for analysis of deterministic and random signals: spectral analysis, timefrequency analysis, wavelet transform, correlation and statistical analysis, modulation, filtration and pattern recognition of signals. Applications of signal processing techniques to electroencephalogram, electrocardiogram, heart rate variability signals, pulse oximetry signal, blood pressure monitoring signal etc. are considered. The particular features of biomedical signals analysis for diagnostical purposes are discussed.

5 
5 
Фізичної та біомедичної електроніки
(доц. Попов А.О.) 
8 
Digital Signal Processing 
English 
The course is devoted to fundamentals of theory and applications of continuous and digital signal processing. The aim of the discipline is to give students understanding of application of signal processing methods in physical and biomedical electronics and strong background in using signal analysis. The classification and parameters of signals, linear stationary digital systems are considered. The focus of the discipline is given to processing and analysis of discrete signals in linear stationary systems. We consider the representation of signals in Hilbert space, the concept of generalized signal decomposition and energy preserving transforms. We study the theoretical basis and practical application of classical and new methods for analysis of deterministic and random signals: spectral analysis, timefrequency analysis, wavelet transform, correlation and statistical analysis, modulation, filtration and pattern recognition of signals.

5 
5 
Фізичної та біомедичної електроніки
(доц. Попов А.О.) 
9 
Theory of electromagnetic field 
English 
The main distinction of this course is using approach from general to particular, as opposed to other common physical courses. All phenomena in this course are describing based upon the most general lows, Maxwell’s equations.
Educational material could be divided into the few topics as follows:
Basic equations of electromagnetic field: Maxwell’s equations, continuity equation, equation of energy balance; boundary conditions for electrical and magnetic field.
Stationary electrical and magnetic fields: methods of the electro and magnetostatics problems solution, selfconsistent problems, quasistationary fields.
Alternative fields, wave processes: wave equations for electromagnetic processes, harmonic waves, dispersion, plane wave in unbounded medium, polarization, waves in long lines, standing waves, operation conditions of the long line.
Waves near the interface: reflection and refraction, bloomed layers, properties of the multilayered structures, filters, mirrors, etc.
Waves in waveguides: general lows, dispersion, waveguides’ modes, different types of waveguides: rectangular, dielectric, strip waveguide; excitation in the waveguides.
Resonators: types of resonators, resonant modes, calculation of the resonant frequencies, Qfactor of resonators, etc.
Modeling of the elements of a waveguide: principles of matrix analysis of the devices, based on waveguides; scattering matrix.

5 
4 
Фізичної та біомедичної електроніки
(ас. Федяй А.В.) 
10 
Calculus mathematics (Numerical methods)

English 
This course introduces numerical techniques which are fundamental to a large class of computational problems in electronics. This discipline is designed to help students understand peculiarities, limitations and adaptation of numerical techniques for electronics problems. Students will gain experience of: selection of appropriate numerical method for given task guaranteeing proper requirements for its application to ensure convergence and stability; estimation of computation uncertainties; elaboration of algorithms for selected methods and software implementation; adaptation of complex software for given task. Syllabus: Introduction. Uncertainties of numerical computations. Interpolation. Numerical techniques of linear algebra. Numerical methods for nonlinear equations. Numerical evaluation of integrals. Numerical techniques of ordinary differential equations. Numerical techniques of optimization problems. Approximation. 
3 
6,5 
Фізичної та біомедичної електроніки
(доц. Прокопенко Ю.В.) 
11 
Microwave Microelectronics 
English 
Course Contents: Microwave transmission lines; Substrate materials properties; Simulation and CAD of the microwave circuits; Active components of the microwave integrated circuits; Resonant devices; Tunable microelectronic microwave devices; Microwave Monolithic integrated circuits design.

7 
5 
Мікроелектроніки
(проф. Поплавко Ю.М.) 
12 
Devices of digital electronics

English 
This course introduces the fundamentals, implementation and application principles of digital electronics, devices and integrated circuits. The major focus of the course is to expose students to the design process of combinational and sequential logic. The course provides students a cover of: Introduction to Boolean algebra: number systems and codes, binary arithmetic, fundamental Boolean algebra laws, construction of logic functions from truth tables, simplification of logical expressions, Karnaugh map. Logic elements (gates) and their truth tables: AND, OR, NOT, XOR. Logic families: nMOS, CMOS, RTL, DTL, TTL, ECL, I^{2}L. Combinational Circuits: encoders and decoders; multiplexers and demultiplexers; adders and subtracters; combinational multipliers; digital comparators. Sequential Circuits: flipflops (SR, T, JK, D); registers; counters. Memory: RAM, ROM, EEPROM, Flash. Students produce coursework to elaborate appropriate digital circuit in order to broaden knowledge and enhance research skills, and to demonstrate that they can construct practical outcomes from the theoretical knowledge learned during this course

8 
5 
Фізичної та біомедичної електроніки
(доц. Прокопенко Ю.В.) 
13 
Solid State Electronics

English 
This course introduces physical and technological foundations of fundamental solid state electronic devices and application of the devices for development of electronic circuits. The course aims to: develop basic semiconductor physics concepts, so students can better understand current and future devices; provide a sound understanding of current semiconductor devices and technology, so that their applications to electronic circuits and systems can be appreciated.Students will gain knowledge and experience of:characterization and classification of solid state devices; fundamental principles of semiconductor device development; proper selection and application of devices for electronic circuit elaboration; trends of solid state electronics’ progress. Students produce coursework to elaborate simple integrated circuit in order to broaden knowledge and enhance research skills, and to demonstrate that they can construct practical outcomes from the theoretical knowledge learned during this course. Syllabus: basic semiconductor concepts: intrinsic and doped semiconductors, drift, diffusion, generation, recombination, tunneling; pn and other junctions; diodes: rectifier diode, Zener diode, Schottkybarrier diode, varactor, photodiode, lightemitting diode, thyristor; bipolar junction transistor; fieldeffect transistors: junction field effect transistor, insulated gate field effect transistor (MOSFET); fundamentals of integrated circuits: technological basics, passive components, active components, interconnections, analog integrated circuits, digital integrated circuits.

6 
5 
Фізичної та біомедичної електроніки
(доц. Прокопенко Ю.В.) 
14 
Physics of electronics processes 
English 
The main goal of the given course is to give indepth knowledge in the field of electrons processes in the most important semiconductor devices.
Names and contents of the main topics are as follows:
Electrons’ states in crystals. Generalized states: dispersion low, effective electron mass, distribution of the energy states. Localized states and interface electron states.
Electrons’ states and conductance in solids: semiclassical equations of the carriers motion, role of collisions, drift and diffusion of the carriers.
Equilibrium state of the carriers: distribution function, calculation of equilibrium carriers concentration, metals’ and semiconductors’ conductivity, etc.
Dynamics of electrons’ states: Kinetic equation, collision integral, relaxation time approach, static conductivity, nonstationary drift dynamics, highfield conductivity. Driftdiffusion and MonteCarlo methods.
Carriers scattering. Impurity scattering. Phonon scattering: spectrum and types of phonons. Mean relaxations times.
Processes in high electric fields: Saturation of drift velocity in Ge, Si. Intervalley transitions in GaAs; negative differential conductivity. “Overshoot” of the drift velocity. Gann’s effect. Electrostatics ionization, Zener effect. Thermionic ionization. Autoelectronic emission, pointed cathode. Avalanche process.
Recombination processes: Dynamics and types of recombination processes in semiconductors, lifetimes.
Photoelectronic processes. Light absorption. Extrinsic and intrinsic photoeffect. Photodetectors.

6 
6 
Фізичної та біомедичної електроніки
(ас. Федяй А.В.) 
Direction of Study: Acoustic devices and systems
Speciality, Specialization: Acoustic devices and systems
Level: BSc, MSc
№ 
Course Name 
Language 
Annotation 
Semester 
ECTS 
Deprtment 
1 
Introduction to the technique of measuring 
English 
The basic operation of measuring instruments and measurement errors analysis is in focus. 
1 
4,5 
Акустики та акустоелектроніки
(доц. Родіонова М.В.) 
2 
Theory of electric circuits 1 
English 
Basic operation of electrical circuits are considered. Acquired experience in electrical circuits projecting work assignment. Operation of electrical components is stydied. 
3 
6,5 
Акустики та акустоелектроніки
(доц. Родіонова М.В.) 
3 
Theory of electric circuits 2 
English 
Transient processes in electrical circuits are stydied. We analyze the behavior of electrical circuits under various conditions. We study the basic “electric power” and the device performance. 
4 
5,5 
Акустики та акустоелектроніки
(доц. Родіонова М.В.) 
4 
Electro, radio acoustic materials 
English 
Structure of electric and acoustic material is considered. We study their structure and properties; the relationship of the elementary properties of the material and component properties based on them. 
2 
2 
Акустики та акустоелектроніки
(ас. Богданов О.В.) 
5 
Power electronics 
English 
We will study the scheme of power in the analog and discrete design. We analyze the properties of devices from different feeding conditions. We consider various schemes of the supply chain, depending on the characteristics of the consumer of energy. 
9 
3 
Акустики та акустоелектроніки
(доц. Родіонова М.В.) 
6 
Acoustic equipment of studios and apartments 
English 
We will study the modern devices for processing and transmission of acoustic signals. The analysis of optimal solutions, depending on functionality is considered. We’ll examine the impact of acoustic characteristics on a sound program. 
10 
6 
Акустики та акустоелектроніки
(ас. Богданов О.В.) 
7 
Electroacoustic devices 
English 
We will study the electroacoustic devices of receiving and radiation. The principles of their construction and operation features will be considered. Analyzes the major variants of electroacoustic devices will be maide. 
9 
3 
Акустики та акустоелектроніки
(ас. Богданов О.В.) 
Direction of Study: Telecommunications
Speciality: Telecommunication systems and networks
Level: BSc
№ 
Course Name 
Language 
Annotation 
Semester 
ECTS 
Deprtment 
1 
Introduction to the technique of measuring 
English 
The place of measurings in activity of specialist on telecommunications. Categories of the electronic measurings and facilities are for their realization. Technologies of application of measuring devices. Setting, properties and features of application of measurings generators. Methods of measuring of electric current and voltage. Electronic oscillographs. Digital virtual and real oscilografie. Methods of measuring of parameters of electric circles. Measuring of electric power. Computerization of measurings. 
1 
1,5 
Звукотехніки та реєстрації інформації
(доц. Швайченко В.Б.) 
2 
Personal computers and bases of programming 
English 
History of development of the computing engineering. Configuration and varieties the PC. Instrument room part and hardwares the personal computer: system block, CP, memory, devices of vvodu and conclusion of information, disk storage, disk drives, CDROM, optical stores. Arithmetic bases of work the personal computer. Operating system of MS DOS. Operating system of Windows. Programming of Turbo Pascal language and Borland C. The modules are in the language of Turbo Pascal. Application packages. 
1 
2,5 
Звукотехніки та реєстрації інформації
(ас. Тітков Д.В.) 
3 
Electro and radio materials 
English 
An object, purpose, tasks of discipline and its connection, is with other disciplines. Types of active and passive radioelements, them basic descriptions, comparative analysis Resistors of constant and variable resistance. Condensers of constant and variable capacity. Types of choke. Types of windings. Fibre are optical flow lines. Electromagnetic relay and switches. of Spool of inductance with magnetic and unmagnetic cores. Variety of semiconductor diodes: power diodes, Zener diodes, thyristors, tunnel diodes. Denotation, descriptions and parameters. A voltampere description of pn transition. Basic parameters to the semiconductors materials: differential resistance and resistance of direct current 
1 
2 
Звукотехніки та реєстрації інформації
(ст. викл. Батіна О.А.) 
4 
Programming and algorithmic languages 
English 
Stage of treatment of the programs in MS DOS and Windows, file system, setting of the application systems, and skills of C++programming. Application packages. Programming in the environment of the application programs of Matlab, Maple. 
2 
2,5 
Звукотехніки та реєстрації інформації
(ас. Тітков Д.В.) 
5 
Calculus mathematics 
English 
Features of mathematical calculations which will be realized on COMPUTER. Theoretical bases of numeral methods, error of calculations, firmness and complication of algorithm (on time of calculation). Numeral methods of linear algebra. Decision of nonlinear equalizations and systems. Numeral integration and differentiation. Methods of approaching of function. Methods of decision of differential equalizations. Methods of decision of integral equalizations. Bases of linear algebra and theory of matrices. Numerical methods of decision of nonlinear equalizations. Theory of approaching of functions. Empiric formulas. 
3,4 
3,5 
Звукотехніки та реєстрації інформації
(ст. викл. Батіна О.А.) 
6 
Applied mechanics 
English 
General questions of the applied mechanics. Basic terms and concepts. Classification and structural analysis of mechanisms. Dynamic analysis of mechanisms. Classification of forces. Dynamics of mechanisms. General equalization of motion. Mechanical vibrations. Classification of transmission mechanisms. Gearings and mechanisms. Mechanisms are with resilient connection. Frictiongears and mechanisms. Joint and fist mechanisms. Mechanisms of irregular motion. Stages of motion of mechanisms. Traffic regulation. Electrooccasion of mechanisms. Details and knots of mechanisms. Interchangeability of details. Admittances and landings. 
3 
2 
Звукотехніки та реєстрації інформації
(ст. викл. Батіна О.А.) 
7 
Theory of processes and systems 
English 
Statistical and determinist going near the decision of tasks, reception, transmission, by transformation and storage of information. A concept is the “system” and “process”. Classification of the systems and processes, spectral and power descriptions of the batch determined processes and signals, spectral and power descriptions of the unperiodic determined processes and signals. Correlation analysis of the determined processes and signals. Peakmodulated signals. Signals are with angular modulation Probabilistic descriptions of probability processes and signals, sentinel descriptions of probability processes and signals. Correlation descriptions of probability processes and signals. Sentinel descriptions of stationary probability processes 
4, 5 
4 
Звукотехніки та реєстрації інформації
(ст. викл. Батіна О.А.) 
8 
Probabilistic bases of data processing 
English 
Substantive provisions of probability theory.Statistical errors and methods of treatment of results given. Experimental methods of determination of descriptions of probability processes. Obtained and processing of data. Maximum theorems of probabilistic theory. Application of theorem of VinerKhinchina for unstationary probability processes. Correlation functions and power spectrums of the modulated probability signals. Application of theory of probability processes is for description of the determined signals. Discrete determination of probability processes is in a timel and frequency domain. Functions of ordinary coherentness, their determination, and role. Fast Fourier transformation and realization on his basis of the computer processing of data. 
4 
4 
Звукотехніки та реєстрації інформації
(ст. викл. Батіна О.А.) 
9 
Technical electrodynamics and radio wavespropagation 
English 
Basic concepts and equalizations of electromagnetism. Maximum terms. Energy of the electromagnetic field. Basic theorems of electrodynamics. Wave equalizations. Electrodynamic potentials. Radio waves in homogeneous isotropic in anisotropic environments. The wave phenomena are on limit of section of two environments. Distribution of hertzian waves is in the sending systems. Cavity resonators. Radiation of hertzian waves. Lines of transmission and elements of highway. Matrix description of microwave frequency multiport. Methods of analysis and synthesis of microwave frequency devices. 
5 
4 
Звукотехніки та реєстрації інформації
(проф. Пілінський В.В.) 
10 
Transmission Lines 
English 
Primary parameters of conductive circles. General description of primary parameters. Superficial effect, his descriptions. Inductance of circles of connection. Capacity of circles of connection. Second parameters of circles of connection. . Permanent distributions, methods of its finding. Fading a reflection. Principle of origin of fading a reflection. Methods of determination of fading size. Size of fading a reflection. Working fading of circle. Determination of the working fading of circle, his calculation. Even transmissions. Levels of powers, volyage and current. Absolute even transmissions and relative even transmissions. Measuring level. Distortions of signals in homogeneous circles and their correction. Types of distortions: AF distortions, PF distortions, nonlinear distortions. Ionosphere lines. General description of ionosphere lines. Satellite flow lines. 
6 
3 
Звукотехніки та реєстрації інформації
(проф. Пілінський В.В.) 
11 
Power supply of electronic devicies 
English 
Setting and requirement to the sources of power supply. Basic flow diagrams of Setting and classification of chemical sources of current. Classification and principle of action of different types of rectifiers. Methods of calculation of rectifiers with different character of loading. Classification and principle of action of different types of LF filters. Methods of calculation of lovpass filters with different charts. Setting, classification and principle of action of stabilizers. Setting and classification of inverting and transformers. Principle of action of inverting and transformers of different types. Setting and classification of the systems of uninterruptible power supply. Examples of the systems of uninterruptible power supply. Power supply of telecommunication apparatus. 
6 
4 
Звукотехніки та реєстрації інформації
(проф. Пілінський В.В.) 
12 
The systems and communication means with mobile objects 
English 
Basic features of the system of transmission (ST) in telecommunication networks. Unique associate communication of Ukraine network. Primary network. Second networks. Standard model of cooperation of the systems. Description of level protocols. Primary signals of telecommunication networks. Electric descriptions of communication channels. Standardization of channels of transmission. Bilateral channels. Matching devices. Classification of methods of division of channels. Forming of channel signal. Principles of division of linearfree of channel signals. Interchannel disturbances. Indexes of efficiency and quality of multichannel ST. Criteria of evaluation of type of modulation. Frequent transformation of frequency. Choice of type of modulation. Transitional interferences between channels. Features of PCM. Concordance of speeds of digital streams. Synchronization in digital ST. Devices of time and cyclic synchronization. Individual equipment. 
7 
3 
Звукотехніки та реєстрації інформації
(ас. Попович П.В.) 
13 
Theory of telecommunications 
English 
Basic determinations of Telecommunications theory. Levels of problems of Telecommunications. Quantitative measure of information. Entropiya as measure of vagueness. Properties of entropii. Entropy of continuous signals. Entropiya of difficult signals. Productivity of data sources. Speed of data transmission. Models and carrying capacity of discrete channels. Models of continuous channels. Shennon’Formula for a continuous channel and its analysis. Concordance of physical descriptions of signal and channel. Classification of codes and their description. Basic theorems of code. Code of datas. Primary codes. Optimum code. Codes which find out errors. Codes which correct errors. Code efficiency. Four forms of signals. Methods of proceeding in a continuous signal. Uniform sampling. Theorem of Kotelnikov. Types of pulse types of modulation, them frequency spectrums and structures of the systems of transmission. Pulsecode modulation. Even and uneven quantum. Differential PCM. Deltamodulation. Acceptance of signals as statistical task. Criteria of quality of optimum acceptance of datas. Optimum algorithms of acceptance. Uncoherent acceptance of signals. 
5,6 
4 
Звукотехніки та реєстрації інформації
(проф. Абакумов В.Г.) 
14 
Bases of microprocessor technique 
English 
Classification of microprocessors(on the basis of onechip MP , microprocessors, digital signalprocessors). Component parts of MP: microprocessor and principles of his functioning, memory, I/O devices. Structures of bus organization of MP: of the Fon Neyman and Harvard types. Classification and composition of microprocessor facilities on the basis of families of I51, At90, X86; facilities of software development. Basic technical descriptions of MP of the telecommunication systems. General description of microprocessors. A flow diagram and programmatic model of microprocessor. Structural chart of I8086/8088 MP’s. Organization of memory: segmentation; machine and logical addresses; stack. Organization of I/O ports. External and internal interrupts; table of interrupts vectors. The modes of adressing of microprocessor to the registers, memory and I/O ports. General description of commands of MP. Formats of commands of microprocessor. Commands transmission. Commands of arithmetic operations. Commands of boolean operations. Commands of control transfer. Commands of management a microprocessor. Features of operation of 16 and 32bit microprocessors in the virtual mode of memory. 
7 
4 
Звукотехніки та реєстрації інформації
(доц. Швайченко В.Б.) 
15 
Electromagnetic compatibility of radiofacilities 
English 
Principles of forming of EMC, as separate science. Basic terms and determinations. General information in relation to electromagnetic disturbances. Standard documents in industry of EMC. Features of measuring apparatus are for tests in relation to emission and immunity. Criteria of quality of functioning of radiofacilities. The basic going is near determination of electromagnetic situation. Bases of functioning of radiotransmission devices in sense of providing of EMC. Descriptions of undesirable radiation.Description of radio receiver as source and receptor of electromagnetic interferences. Channels of acceptance and nonlinear effects are in radiorecivers. EMC of satellite communication networks. A traditional method of determination of EMS for two radar stations. A method of calculation is on the basis of recommendations of ITU. 
7 
4 
Звукотехніки та реєстрації інформації
(проф. Пілінський В.В.) 
16 
Transmission devices of the telecommuncation systems and networks 
English 
Stages of development of transmission devices. Classification of radiotransmission devices. Cascades of radiotransmission devices. Flow diagram of radiopredavacha. Parameters of radiopredavacha. A radiation of radiopredavacha is a that problem of electromagnetic compatibility. International cooperation is in industry of radio contact. Classification and physical mechanism of work of highfrequency generators. Principles of synchronism and fazuvannya. Power of cooperation. A flow diagram of generator is with external excitation. Balance of powers is in a highfrequency generator. Descriptions of highfrequency generator. Types of transistors applied are in generators. An analysis of work of transistor generator is with external excitation. A comparative analysis of generators is on bipolar and field transistors. Setting, classification and principle of action. Stability of frequency of ascillator. Quartz ascillators. Setting and parameters of synthesizer of frequencies. Frequency and phase avtopidstroyka frequencies. Digital synthesizer of frequency. Types of modulation. Peak modulation. Odnopolosna modulation. Frequency and phase modulation. Stabilizing of frequency is after frequency modulation. Broadcast radio transmitters. Televisional radio transmitters. Radio transmitters of the surface radio engineerings systems. 
7 
2 
Звукотехніки та реєстрації інформації
(доц. Швайченко В.Б.) 
17 
Telecommunications and data networks 
English 
A network with commutation of pockets on the standard of X.25. General description of standard. Levels of standard. A management a stream on The standard. States of logical channel and formats of datas. Descriptions of service of standard. Architecture of intellectual network. Principles of construction and feature of intellectual network. Conceptual model of intellectual network. Model structure. Concept of functional plane. Distributing of functional planes. Concept of asynchronous transfer method (ATM). Technologies of network of ATM. Basic descriptions of ATM technology. Standard model of protocols of ATM. Description of physical level of ATM. Even adaptations of ATM. Standards and systems of mobile telecommunication. Standards of the cellular systems. Basic descriptions of the surface cellular systems. Principles of construction of mobile networks. Method of distributing of channels. General description of standard of GSM. Integration of elements of intellectual network in the UMTS standard and NGN systems. 
7 
3 
Звукотехніки та реєстрації інформації
(ас. Попович П.В.) 
18 
Broadcast systems and networks 
English 
Principles of construction and functioning of the systems of the televisional broadcasting. Principles and theoretical ground of process of transformation and transmission of signals of image and sound in the systems of analog colourcast SECAM and PAL.Construction, principles of functioning, parameters and descriptions of transformers of visual signals to electric and transformers of electric signals to optical. Principles of television. Descriptions of subjective perception of General principles of functioning of the televisional systems. Television rastr. Frequency descriptions of signal of brightness. A transmission of televisional signal through a radio channel. Involute of image. Standard systems of colourcast. System of NTSC. The system SEСAM. The system PAL. Highway of signal of sound accompaniment of the televisional systems. The systems of analog television are for the satellite broadcasting. Technique of television. Physical bases of functioning of transformers of images. Pixelmatrix devices in television. Receivers of televisional images. Televisional chambers. Structure and functioning of televisional center. Control of parameters of television signals. 
7,8 
5 
Звукотехніки та реєстрації інформації
(доц. Лазебний В.С.) 
19 
Systems of digital television 
English 
Digital video broadcasting – principle, methods and standards. Hi definition television. Digitalcable television. Satellite television. Mobiletelevision. IPTV. 
8 
3 
Звукотехніки та реєстрації інформації
(доц. Лазебний В.С.) 
Direction of Study: Electronic Devices and Systems
Speciality, Specialization: Electronic Systems, Electronic Devices
Level:BSc
№ 
Course Name 
Language 
Annotation 
Semester 
ECTS 
Department 
1 
Quantum electronics 
English 
The goal of a course is to give the basics knowledge about:
– Physical Foundations of lasers and laser systems;
– Properties of laser radiation;
– Structures of basic lasers, their parameters and characteristics;
– Basic laser technology;
– Materials laser technology;
– The sphere of laser technology application. 
7 
3 
Електронні прилади та пристрої
(асистент Бевза О.М.) 
2 
Technological foundations of electronics 
English 
The goals and objectives of the course is to give knowledge about the technological aspect of electronics and to understand the crucial role of technology in the development of electronics.
Course Contents:
– General characteristics of the electronic equipment technology;
– Structure of the electronics devices technological process;
– Basic technological processes of electronics;
– Technological scheme of electronics devices manufacturing;
– Basic concepts of development, research and modeling processes. 
5 
3 
Електронні прилади та пристрої
(асистент Бевза О.М.) 
