Erasmus ECTS Information Package
Erasmus ECTS Information Package
Erasmus ECTS Information Package
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<strong>Erasmus</strong> <strong>ECTS</strong> <strong>Information</strong> <strong>Package</strong><br />
Faculty of EEEA<br />
3206 Design and Technology of Electronic Systems<br />
<strong>ECTS</strong> credits:6<br />
Weekly classes: 3lec+0sem+0labs+2ps+cw<br />
Assessment: exam<br />
Type of exam: written and oral<br />
Departments involved:<br />
Department of Electronics<br />
Faculty of Electrical Engineering, Electronics and Automation<br />
Lecturers:<br />
Assoc. Prof. Ivan Borisov Evstatiev, MEng, PhD, Dept. of Electronics,<br />
tel.: 888 772, Е-mail: ievstatiev@ecs.uni-ruse.bg<br />
Abstract:<br />
The subject aims to acquaint the students with the modern methods, devices and element base for design of<br />
electronic systems and calculating their reliability. The requirements for exploitation of the designed systems and<br />
the modern engineering methods for analysis, synthesis and optimization of their parameters are discussed.<br />
Knowledge of Physics and Theory of Electrical Engineering are course prerequisites.<br />
Course content:<br />
Conditions for exploitation and classification of electronic systems. Reliability of electronic systems. Analysis of the<br />
accuracy in the design of electronic systems. General issues of the cooling of electronic systems. Electromagnetic<br />
rectifiers and commutators. Prevention of the electronic systems from factors causing instability. Element base<br />
used in the production of electronic systems. Constructional measurement and functional knots.<br />
Teaching and assessment:<br />
During the lectures the main issues included in the syllabus are discussed by focusing mainly on the physical gist<br />
of the processes. The exercises are connected with defining the characteristics of the electronic systems,<br />
measurement/calculation of the parameters and according to external factors. At the end of the semester the<br />
lecturer determines a mark based on the students’ results from their participation in the exercises which influences<br />
the forming of the final assessment in this subject. The exam is a written and oral one on 2 questions from the<br />
course prospectus.<br />
3203 Measurement in Electronics<br />
<strong>ECTS</strong> credits: 4<br />
Weekly classes: 2lec+0sem+0labs+2ps+p<br />
Assessment: exam<br />
Type of exam: written and oral<br />
Departments involved:<br />
Department of Electronics<br />
Faculty of Electrical Engineering, Electronics and Automation<br />
Lecturers:<br />
Assoc. Prof. Venelin Borisov Dimitrov, MEng, PhD, Dept.of Electronics,<br />
tel.: 888 382, Е-mail: vdimitrov@ecs.uni-ruse.bg<br />
Abstract:<br />
The subject aims to acquaint the students with the main methods and electronic devices for the measurement of<br />
the parameters and the characteristics of electrical signals, and passive bipolar measurement. The new<br />
generation of electronic measurement apparatuses with microprocessor operation and their connection with<br />
automatic systems for research and production control is discussed, too. Course prerequisites include knowledge<br />
of Electrical measurements, Semiconductor components, Analog devices and Digital devices.<br />
Course content:<br />
Main characteristics of the measurements in electronics. Generating of electrical signals. Devices for observation<br />
and registration of the form of the electrical signals. Curves in the reproduction of oscillograms. Analog and digital<br />
measurement of voltage, current and power. Methods and equipment for measuring of frequency-temporary<br />
parameters. Measurement of non-linear curves, spectrum analysis and measurement of the parameters of<br />
modulated signals. Bipolar measurement. Programmed measurement devices for automation of the electronic<br />
measurements.<br />
Teaching and assessment:<br />
The topics of the lectures allow the students to become theoretically acquainted with the main issues of electronic<br />
measurements and to choose the methods and methodologies of measurement according to the given accuracy.<br />
The exercises are done in cycles. The students must be theoretically prepared for the exercises and for the tasks<br />
that they must accomplish during the exercise as well as for their practical implementation.<br />
The exam is both written and oral on 2 questions from the course prospectus with a duration of 2 hours.<br />
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