Erasmus ECTS Information Package

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Erasmus ECTS Information Package Faculty of EEEA 3202 Optoelectronics ECTS credits: 4 Weekly classes: 2lec+0sem+0labs+2ps+p Assessment: continuous assessment Type of exam: written Departments involved: Department of Physics Faculty of Electrical Engineering, Electronics and Automation Lecturers: Assoc. Prof. Tamara Grigorievna Pencheva, MSc, PhD, Dept. of Physics, tel.: 888 218, E-mail: tgp@uni-ruse.bg Principal Assistant Petko Hristov Mashkov, MSc, PhD, Dept. of Physics, tel.: 888 219, E-mail: pmashkov@uni-ruse.bg Abstract: The course aims at familiarising the students with complex theoretical, methodological and apparatus problems in resent coherent and incoherent optoelectronics, at introducing the students into different application areas of optoelectronics devices and systems. The laboratory exercises aim at creating skills for experimental investigation of optoelectronics phenomena and solving of practical problems. Course content: Basic properties and characteristics of optical radiation; incoherent optoelectronics; optical sources, photoreceivers; optrons; integrated optoelectronics; coherent optoelectronics: light amplification and generation, types of coherent light sources (lasers), comparison of their characteristics, laser emission control, coherent light propagation through the atmosphere and in optical waveguides; main application areas of optoelectronics and laser systems and devices in industry. The course focuses on elemental composition and working principles of optoelectronics devices, their basic parameters and specific application areas. Teaching and assessment: Lectures give the main theoretical material, supported by some demonstrations of optoelectronics phenomena and processes. At the laboratory exercises the student works independently and investigates particular optoelectronics phenomena, optoelectronics elements, devices and systems. The knowledge of lecture material and laboratory exercises is tested regularly. During the semester the students have two test papers. The final mark is formed after a discussion with the student. 3204 Microprocessor Devices ECTS credits: 5 Weekly classes: 3lec+0sem+0labs+2ps Assessment: exam Type of exam: written and oral Departments involved: Department of Telecommunications Faculty of Electrical Engineering, Electronics and Automation Lecturers: Assoc. Prof. Ioana Emilova Ruseva, MEng, PhD, Dept. of Telecommunications, tel.: 888677, Е-mail: iruseva@ecs.uni-ruse.bg Assoc. Prof. Nina Vasileva Bencheva, MEng, PhD, Dept. of Telecommunications, Tel: 888 841, 276 Е-mail: nbencheva@uni-ruse.bg Abstract: The Microprocessor Devices course aims to acquaint the students with the characteristics, organization, functioning and usage of the microprocessor and microcontroller systems. The practical exercises have the objective to create skills for experimental research and usage of modern microprocessor systems, as well as skills for using the development media and setting of the software applications. Course content: The main structure scheme of the microprocessor and microcontroller. Programming pattern. Addressing types. Instruction system. Interruptions. Main structure scheme of a microprocessor system. Memory organization. Components of the microprocessor systems (parallel interface, series interface, timers). Main stages and principles of designing the apparatus part and programming. Teaching and assessment: The topics of the lectures enable the students to get acquainted theoretically with the main issues of the microprocessor devices before doing the practical exercises. Students develop and set programs for exploring the components of the microprocessor system or the modules of one-chip controller. Assessment is based on a written and oral exam. 99
Erasmus ECTS Information Package Faculty of EEEA 3206 Design and Technology of Electronic Systems ECTS credits:6 Weekly classes: 3lec+0sem+0labs+2ps+cw Assessment: exam Type of exam: written and oral Departments involved: Department of Electronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: Assoc. Prof. Ivan Borisov Evstatiev, MEng, PhD, Dept. of Electronics, tel.: 888 772, Е-mail: ievstatiev@ecs.uni-ruse.bg Abstract: The subject aims to acquaint the students with the modern methods, devices and element base for design of electronic systems and calculating their reliability. The requirements for exploitation of the designed systems and the modern engineering methods for analysis, synthesis and optimization of their parameters are discussed. Knowledge of Physics and Theory of Electrical Engineering are course prerequisites. Course content: Conditions for exploitation and classification of electronic systems. Reliability of electronic systems. Analysis of the accuracy in the design of electronic systems. General issues of the cooling of electronic systems. Electromagnetic rectifiers and commutators. Prevention of the electronic systems from factors causing instability. Element base used in the production of electronic systems. Constructional measurement and functional knots. Teaching and assessment: During the lectures the main issues included in the syllabus are discussed by focusing mainly on the physical gist of the processes. The exercises are connected with defining the characteristics of the electronic systems, measurement/calculation of the parameters and according to external factors. At the end of the semester the lecturer determines a mark based on the students’ results from their participation in the exercises which influences the forming of the final assessment in this subject. The exam is a written and oral one on 2 questions from the course prospectus. 3203 Measurement in Electronics ECTS credits: 4 Weekly classes: 2lec+0sem+0labs+2ps+p Assessment: exam Type of exam: written and oral Departments involved: Department of Electronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: Assoc. Prof. Venelin Borisov Dimitrov, MEng, PhD, Dept.of Electronics, tel.: 888 382, Е-mail: vdimitrov@ecs.uni-ruse.bg Abstract: The subject aims to acquaint the students with the main methods and electronic devices for the measurement of the parameters and the characteristics of electrical signals, and passive bipolar measurement. The new generation of electronic measurement apparatuses with microprocessor operation and their connection with automatic systems for research and production control is discussed, too. Course prerequisites include knowledge of Electrical measurements, Semiconductor components, Analog devices and Digital devices. Course content: Main characteristics of the measurements in electronics. Generating of electrical signals. Devices for observation and registration of the form of the electrical signals. Curves in the reproduction of oscillograms. Analog and digital measurement of voltage, current and power. Methods and equipment for measuring of frequency-temporary parameters. Measurement of non-linear curves, spectrum analysis and measurement of the parameters of modulated signals. Bipolar measurement. Programmed measurement devices for automation of the electronic measurements. Teaching and assessment: The topics of the lectures allow the students to become theoretically acquainted with the main issues of electronic measurements and to choose the methods and methodologies of measurement according to the given accuracy. The exercises are done in cycles. The students must be theoretically prepared for the exercises and for the tasks that they must accomplish during the exercise as well as for their practical implementation. The exam is both written and oral on 2 questions from the course prospectus with a duration of 2 hours. 100
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