The discipline studies the basic laws of information transmission in telecommunication systems, signal conversion in typical functional units of communication systems, the basic laws and methods for analyzing potential noise immunity and throughput of communication channels, basic information theory and non-redundant message coding, basic models of telecommunication channels, principles of multi-channel communication and distribution information, issues of evaluating the effectiveness of communication systems and the fundamentals of noise-resistant coding and its application in communication systems.

The purpose of the discipline is the formation of theoretical knowledge and practical skills in the transmission of digital signals. The discipline studies the scientific foundations and the current state of digital communication technology, gives an idea of the possibilities and natural boundaries of the implementation of digital transmission and processing systems, explains the patterns that determine the properties of data transmission devices and the tasks of their functioning. As a result of the training, the student will be able to apply elements of digital communication systems, communication channels and analyze their characteristics, apply synchronization methods in digital communication systems, methods and devices of noise-resistant coding.

theory and design of circuits of amplifiers of radio transmitting devices, stability of operation of amplifiers, power addition schemes. Fundamentals of the theory of autogenerators, schemes of autogenerators, methods of frequency stabilization. Analog and digital frequency synthesizers. The causative agents of radio transmitters and the construction of the latter with amplitude, single-band and angular modulation. Digital methods of generating, amplifying and controlling high-frequency vibrations. Multi-modulation methods. Transmitters of television signals and sound signals; radio relay, satellite and mobile radio communications.

The purpose of the discipline is the formation of theoretical knowledge and practical skills among students in the field of creating and applying databases in automated control systems, acquiring the necessary competencies in designing the logical structure of the database, interfaces for working with the database. The discipline studies network protocols, architectures, technologies and applications, computer networks, ISO OSI and TCP/IP, as well as automation and management of systems and networks; modeling of local networks; Ethernet, Token Ring, FDDI, wireless networks.

The purpose of the discipline is the formation of students' theoretical knowledge and practical skills on how to build radio relay and satellite information transmission systems for various purposes. The discipline focuses on the study of the range, frequency range of radio relay and satellite transmission systems. As a result of the training, the student will be able to use design techniques, evaluate the quality indicators of radio relay and satellite transmission systems.

The purpose of the discipline is to form knowledge about the principles of operation of radio receivers and transmitting devices for various purposes, their blocks and nodes. As a result of the training, the student acquires practical skills in developing structural schemes of radio receiving and transmitting devices, will be able to carry out calculations of individual nodes, use methods for monitoring the parameters of the radio receiving and transmitting device.

The purpose and objectives of the discipline are students to study physical processes in a solid, which determine the principle of operation, properties, characteristics and parameters of various devices and devices of semiconductor electronics in discrete and integral design, to acquire knowledge on the principles of construction, functionality, manufacture and use of MI in equipment of various functional purpose, including devices and systems of industrial electronics. Learning outcomes: after completing the course, the student must know: the basics of the theory of electrical circuits, the basic methods of analyzing electrical and magnetic circuits; purpose and principle of operation of components of microelectronic devices; measuring instruments for electrical and non-electrical quantities, main features and design principles of MI; be able to: measure electrical quantities with multimeters; carry out standard tests and technical control of electrical appliances and installations; perform technical calculations and assess the economic efficiency of the electrical appliances used, select the required type of devices and devices made using microelectronic technologies.

The purpose of the discipline is to teach students the principles of building switching systems of various types and the distribution of information on networks. As a result of the training, the student demonstrating knowledge and practical skills on the principles of analog and digital switching, the principles of switching when integrating different types of information will be able to fulfill the principles of numbering planning, design and operate digital switching systems.