Introduction to Measurments

Years: 
I
Semesters: 
I
Credits: 
4.00

The purpose of discipline "Introduction to engineering measurements" is the study of methods for measurement of physical values, the basic principles of instruments operation, theory of uncertainties and methods to reduce them. After studying the course students should be able to use elementary measuring instruments and interpret measurement results.

PC and programming fundamentals

Years: 
I
Semesters: 
I
Credits: 
4.00

Course Personal Computers and programming fundamentals is a part of mandatory courses for Bachelors of Electronics. The course belongs to general sciences and used as base for studying other courses.

The objective of the course is to learn basic concepts about the structure of the PC, operation principles, software tools and the most common operating systems and programming tools, as well as acquiring basic skills of PC use.

Algorithms and Programming

Years: 
I
Semesters: 
II
Credits: 
4.00

Discipline "Programming" - provides initial training in the field of algorithms, programming and solving applied problems using computers.

The purpose of discipline "Programming" is to train students to use computers for solving practical problems of modern electronics and technology, familiarizing with C language data structures and algorithms for their processing.

Circuits Theory

Years: 
II
Semesters: 
III
IV
Credits: 
11.50

Manufacturers of electronics to achieve a high compatibility status at the market have to renew their production family regularly updating its performance and functionality. The design stage time frames for products development, for example such as mobile phones, computers, medical equipment, chips, and other electronic devices which are used as utilities can be dramatically reduced using computer aided design tools.

Computational mathematics

Years: 
II
Semesters: 
III
IV
Credits: 
7.50

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.

Vacuum and Plasma Electronics

Years: 
II
Semesters: 
III
Credits: 
3.00

Discipline "Vacuum and Plasma Electronics" belongs to variable part of Bachelor of Electronics program.

Modern electronics includes complex science, engineering, technology and industrial production. Electronics as science concerned with the study of processes of production and interaction of charged particles with electromagnetic fields and matter in different environments (vacuum, gases, including plasma, solids, liquids), as well as developing methods for the creation of electronic devices for various purposes.

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