Erasmus ECTS Information Package

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Erasmus ECTS Information Package Faculty of EEEA 3146 Electrical Measurements ECTS credits: 4 Weekly classes: 2lec+0sem+2labs+0ps+0.5p Assessment: continuous assessment Type of exam: written Departments involved: Department of Theoretical and Measuring Electrical Engineering Faculty of Electrical Engineering, Electronics and Automation Lecturers: 1. Assoc. Prof. Georgi Rashkov Georgiev, MEng, PhD, Dept. of Theoretic and Measuring Engineering, tel.: 082 888 265, Е-mail: grashkow@uni-ruse.bg 2. Principal Assistant Tosho Yordanov Stanchev, MEng, Dept. of Theoretic and Measuring Engineering, tel.: 082 888 502, Е-mail: tys@uni-ruse.bg Abstract: The Electrical Measurements course aims to acquaint the students with the main methods and means for learning the electrical units and with the processing of results from the measurements. Considerable attention is paid to the structures of the measurement devices for measurement of current, voltage, the parameters of the electric circuits, the base devices for measurement in computing, automatics and electronics – daq systems, digital frequency meters, oscilloscopes, virtual measurement systems. The knowledge of Mathematics, Physics and Theory of Electrical Engineering is a course prerequisite. Course content: Processing the results from the measurements. Structures of the measurement devices for measurement of voltage and current. Measurement of the parameters of the electric circuits. Measurement of electrical power and energy. Base devices for measurement in computing, automatics and electronics. Measurement interfaces. Virtual measurement systems. Teaching and assessment: Lectures last two hours and are delivered once a week. The laboratory exercises last two hours and are closely connected with the lectures, consolidating and widening the students’ knowledge on the particular topics. 3147 Engineering Mechanics ECTS credits: 4 Weekly classes:2lec+2sem+0labs+0ps+0.5p Assessment: continuous assessment Type of exam: tests Departments involved: Department of Technical Mechanics Faculty of Mechanical and Manufacturing Engineering Lecturers: 1. Principal Assistant , Velina Stoyanova Bozduganova MEng, PhD, Dept. of Technical Mechanics, tel.: 082 888 572, E-mail velina@uni-ruse.bg 2. Principal Assistant Volodya Hristov Conev, MEng, Dept. of Technical Mechanics, tel.: 082 888 677, E-mail: vepetrov@uni-ruse.bg Abstract: The course has four parts: Static, Strength of Materials, Kinematics, and Dynamics. The aim of the course is to get the students acquainted with the basic laps and methods of Engineering Mechanics in order to apply them when they solve electromechanical problems. Preliminary knowledge of Mathematics and Physics is necessary for this course. The discipline is fundamental for the engineering courses in Electromechanical Devices, Engineering Devices for Automation, Control of Electromechanical Systems and others. Course content: Equilibrium of a rigid body. Equilibrium in the presence of friction. Basic definitions and principles in Strength of Materials. Tension and compression. Particle kinematics. Translational, rotational, and plane rigid body motion. Particle dynamics. Rigid body dynamics. Teaching and assessment: Lectures elucidate the theoretical basis of the course topics, while their application is illustrated by examples. Numerical examples are solved in seminar exercises. Self-study is provided by preparing a course paper. The paper is graded. The final evaluation of student’s knowledge is based on tests. 125
Erasmus ECTS Information Package Faculty of EEEA 3148 Semiconductors ECTS credits: 6 Weekly classes: 3lec + 0sem+ 2labs+ 0ps+ 0,5p Assessment: exam Type of exam: written and oral Departments involved: Department of Telecommunications Faculty of Electrical Engineering, Electronics and Automation Lecturers: 1. Assoc. Prof. Krasimira Stefanova Shtereva, MEng, PhD, Dept. of Elektonics, tel.: 082 888 366, E-mail: kshtereva@ecs.uni-ruse.bg Abstract: The course objective is to familiarize the students with the main active semi-conducting elements used in all electronic and computing devices and tools for communication and automation. The physical principles are studied as well as the structure, characteristics, and parameters of discrete elements – diodes, transistors, thyristors, opto-electronic elements, etc. Specific applications of elements, ways of connection, and methods of operation mode computation are addressed. Brief information about the technology of manufacturing of discrete elements and integrated circuits is given. Course content: Physical fundamentals of semi-conductors: conductivity, non-equilibrium state, contact metal-semiconductor; p-n transition. Semiconductor diodes: volt-ampere characteristics of idealised and real diode; rupture in diodes; operation in impulse mode. Operation principle of transistors, main connection circuits, modes of operation and static volt-ampere characteristics; parameters of transistor as a quadripole; frequency properties of transistors; dynamic mode of operation; transistor operation in switch mode. Field transistors: with control р-n transition; MOS- transistors. Thyristors. Optoelectronic elements. Fundamentals of microelectronics: types of integrated circuits; main principles of construction of bi-polar and МOS - integrated circuits. Teaching and assessment: The lectures are two hours and alternate from one to two lectures a week. Each lecture is presented using audio-visual materials. The laboratory exercises are two hours a week. Before the exercise the preparation of students on the theoretical material and the methods for testing is checked. For each exercise students prepare a report, which is checked by the lecturer. The results of the assessment during the exercises are taken into account when forming the final mark at the exam. The final exam takes two hours, it is written and oral, and consists of 2 questions from the course prospectus. 3149 Data and signal processing ECTS credits: 6 Weekly classes: 3lec + 0sem + 0labs + 2ps + 1ca Assessment: exam Type of exam: written Departments involved: Department of Automatics and Mechatronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: 1. Assoc. Prof. Rusin Stefanov Tzonev, MEng, PhD, Dept. of Automatics and Mechatronics, tel.: 082 888 379, E-mail: rtzonev@uni-ruse.bg 2. Assoc. Prof. Donka Ilieva Ivanova, MEng, PhD, Dept. of Automatics and Mechatronics, tel.:082 888 266, E-mail: divanova@uni-ruse.bg Abstract: The subject aims to introduce the students to methods of processing of continuous and discreet signals. The devices dealing with analogue and digital signal processing are studied. The course introduces students to the theory of similarity, modeling, processing and generalizing of experimental data. Course prerequisites include profound knowledge of mathematics. The discipline forms knowledge and skills in system control. Course content: Information and signals. Fourier representation of periodical signals. Spectral analysis of non-periodical signals – right and conversely Fourier transformation. Discretisation of continuous signals. Kotelnikov – Shenon’s theorem. Laplas and Z – transformation. Analogue and digital filters. Modulation. Methods of modeling. Data processing. Teaching and assessment: Lecture topics introduce the students to the methods of signals and data processing. The exercises follow the lecture material. To conduct them students are separated in subgroups. The students have to be prepared for the exercise and then submit a report on it. Assessment is based on the results of a written exam. 126
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Erasmus ECTS Information Package

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