Erasmus ECTS Information Package

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Erasmus ECTS Information Package Faculty of EEEA 0242 Nuclear electronics ECTS credits: 3 Weekly classes: 3lec + 0sem + 0labs + 1ps Assessment: exam Type of exam: written Methodology management: Department of Electronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: Assoc. Prof. Valentin Yordanov Dimov, PhD, Department of Electronics, tel +359 82 888772 E-mail: vdimov@ecs.uni-ruse.bg Abstract: The aim of the course is to acquaint the students with the instruments and methods for detecting and measuring the basic parameters of the nuclear radiation, so that they can acquire not only theoretical knowledge but also practical experience in using the corresponding equipments. The course considers the basic concepts of nuclear physics and the various types of detectors for ionizing radiation. Special attention is paid to the methods and devices for transforming, selecting and recording detector signals and to the data processing. Particular methods, instruments and systems are discussed, which find application in nuclear-physics researches, medicine, ecology, industry and agriculture. The prerequisite is knowledge of physics, semiconductor devices, analog devices, digital devices and as well other. Syllabus contents: Interaction of radiation with matter. Radiation effects in electronic materials, electronic devices and electronic circuits. Increase of the radiation constancy of electronic circuitries and devices. Nuclear detectors. Electronic blocks in nuclear devices. Nuclear spectrometers. Radioisotope devices. Devices for measurement of low levels of nuclear radiation. Electronic systems for control and maintenance of the processes in nuclear reactors. Radiation dosimetry for internal exposure and radiation protection. Technology of teaching: Classical pedagogic methods, multimedia and videos, and specialized software are used in the teaching process. The practical exercises follow the lectures and teach students to evaluate the basic parameters of the devices. The lectures are 3 hours per week and the laboratory exercises are 2 hours every other week. The practical exercises follow the lecture topics. The continuous assessment is held at the time for practice by oral examination, control and report defense. The continuous assessment during the exercises is done by oral discussions at the beginning of each exercise. Method of assessment: two hours written examination. 0243 Electronic System for Environment Control ECTS credits: 3 Weekly classes: 3l + 0s + 0lab + 1p Assessment: continuous assessment Type of exam: written Methodology management: Department of Electronic Faculty of Electrical Engineering, Electronics and Automation Lecturers: 1. Assoc. Prof. Valentin Yordanov Dimov, PhD, Department of Electronics, phone: 888 772, E-mail: vdimov@ecs.uni-ruse.bg 2. Assoc. Prof. Tsvetelina Dimitrova Draganova, PhD, Dept. of Automatics and Mechatronics, phone:888 668, E-mail: cgeorgieva@uni-ruse.bg Annotation: The aim of the course “Automatic Control System for Environment Parameters” is to give students knowledge of methods and electronic systems for control of air quality, natural and waste water and soil. Subjects relating to risk management in hazardous environments, caused by industrial accidents and information systems related to evaluation of the characteristics of different sources of risk and risk management in hazardous environments will be considered. Syllabus contents: Composition and properties of the atmospheric air. Emissions. Methods and devices for air quality monitoring. Electronic systems for air monitoring. Methods and devices for hydrophysical, hydrochemical and hidrobyological water indices monitoring. Electronic systems for control of organic matter, dissolved oxygen and density contents of the sediment. Electronic systems for control of soil parameters. Risk management in hazardous environments caused by industrial accidents. Teaching and learning methods: The subjects of the lectures introduce the main methods of quality air monitoring, natural and waste water monitoring, soil pollution monitoring, methods, devices and information systems for risk management in hazardous environments caused by industrial accidents. The exercises follow the lectures material. The students have to be ready for the exercises and after their finishing they have to prepare a report. The rating of this subject is formed from results of a written exam. 231
Erasmus ECTS Information Package Faculty of EEEA 0263 Master thesis ECTS credits: 15 Weekly classes: 0lec + 0sem + 0labs + 0ps Assessment: official defense Type of exam: oral Departments involved: Department of Electronics Faculty of Electrical Engineering, Electronics and Automation Consultants: All lecturers from the Department of Electronics Abstract: The Final Year Project is a main part of the Master’s degree of the engineering course in Electronics. It enables the students doing the Master’s degree to show their abilities to design and implement a considerable creative project in the area of electronics; to demonstrate their ability to work independently, their initiative and professional competence. The Final Year Project is a self-independent creative assignment, which is fulfilled under the supervision of a research lecturer and if necessary, under the guidance of a research consultant. Its objective is to provide an opportunity for the students to show the accumulated knowledge and skills during their study for achieving the objectives and tasks of the Final Year Project and to present their creative development successfully in front of a board of examiners. Course content: The Final Year Project contains: an explanatory note on calculations– it includes all the main literature data, ideas, existing solutions, analyses, calculations, explanations and conclusions; graphical part – it includes principle electrical circuits of knots, devices, block and structure circuits, graphical dependencies from experiment tests of developed devices; a developed model or device by the final year student, if this is part of the assignment. The model development is the final stage from the design work of the final year student. Teaching and assessment: The department of Electronics provides: collecting, confirming and announcing of theme suggestions for Final Year Projects; the distribution of the students per theme and research advisors for each of them; the diploma practice organization; the supervision, review and presentation of the Final Year Projects. Weekly tutorials with the research advisors are envisaged for the students. Then the process of the fulfillment of the given assignment is monitored. The final year student presents the Final Master thesis in front of a board of examiners. 232
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Erasmus ECTS Information Package

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