The purpose of the discipline is to study the physical foundations of the functioning of individual elements of a mechatronic system and the design of these systems in the environment MATLAB-Simulink. As a result of studying the discipline, the student will receive theoretical and practical skills in model research of general problems of analysis and synthesis of dynamics of mechatronic systems in the Matlab-Simulink environment, model research of power electronics devices in the Sim Power System package, model design of DC mechatronic systems, model design of asynchronous mechatronic systems, model design of synchronous mechatronic systems The student can use the acquired knowledge in the future when designing a technical system.

The purpose of the discipline is to form theoretical knowledge and practical skills among students in the field of network protocols, architectures, technologies and applications, computer networks, OSI and TCP/IP, Ethernet, Token Ring, FDDI. As a result of studying the discipline, students will receive theoretical and practical competencies in the field of computer networks, modeling of local networks, automation and management of systems and networks.

The purpose of the discipline is to form students' understanding of ecology as a scientific discipline, its role in ensuring the sustainable and inclusive development of nature and society, as well as understanding the importance of creating a safe environment for all groups of the population. In the course of their studies, students master methods and programs in the field of life safety, environmental protection, greening production and implementing strategies for sustainable ecosystem development, where special attention is paid to taking into account the principles of inclusion in the development of environmental and safe solutions.

The purpose of the discipline is to master general knowledge on the architecture of microprocessor complexes, the processes of information exchange on buses, processor functions, addressing methods, the main processor commands, the structure of the processor core, the organization of program memory, the organization of I/O ports, timers and auxiliary hardware. As a result of studying the discipline, the student will receive theoretical and practical skills on the principles of designing and using programmable logic controllers of closed architecture at industrial automation facilities. The student can use the acquired knowledge in the future when designing and using software and hardware complexes of microprocessor systems.

The purpose of the discipline is to study various technologies for managing electricity flows and issues related to improving the efficiency of power systems related to its main equipment. Analysis of the current state of electrical systems and their equipment. As a result of studying the discipline, the student has the skills to be able to comprehensively solve the problem of transforming the electric power industry within the framework of intelligent power lines (Smart grids) using modern technology development and, first of all, power electronics devices. The student can use the acquired knowledge in the future in practical and research activities.