The purpose of the discipline is to form students' basic understanding of the development of engineering and technology, scientific achievements in accordance with the chosen educational program. The discipline gives students a systematic understanding of the current state and trends in the development of the food, processing, industry, agricultural and industrial complex, including the possibilities of new information and communication technologies. The study of the basic concept in the field of standardization and certification, the laws of the Republic of Kazakhstan on technical regulation, standardization, management systems, new methods and practices of the QMS. As a result of studying the discipline, the student will receive theoretical and practical skills in the organization of the task, as well as the formulation and solution of highly motivated non-standard professional tasks, problems and compliance with the ethics of professional activity.

The purpose of the discipline is to develop students '' knowledge and skills in the field of prospects for the use of renewable sources in the energy processes of state and autonomous power supply systems that provide solutions to the problems of energy and resource conservation. As a result of studying the discipline, the student must know the methods, mechanisms, equipment and systems for converting renewable energy sources, the rational use of the energy obtained in agriculture, the device, the principle of operation, the main technical capabilities, the scope of application of the possibility of rational use of energy installations based on renewable energy sources. The student can use the acquired knowledge in the future when making practical calculations and selecting power plants based on renewable energy sources, develop organizational and technical measures for the operation of renewable energy installations.

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 form students ' theoretical base on modern electromechanical energy converters, which will allow them to successfully solve theoretical and practical problems in their professional activities related to the design, testing and operation of electric machines. As a result of studying the discipline, the student will gain skills in the use of modern and promising areas of development of electromechanical converters, operation and determination of the main parameters of electromechanical energy conversion systems; management of the impact of systems on the quality and energy efficiency of technological processes. The student can use the acquired knowledge in the future in the design and operation of electromechanical converters.

The purpose of the discipline is to form students ' systematic knowledge in the field of energy saving in electric power systems, to develop skills in the application of standard measures, modern technologies and solutions to improve the energy efficiency of electric power systems. As a result of studying the discipline, the student will gain skills in determining the effective modes of operation of electric power facilities and ensuring energy saving and improving energy efficiency in electric power systems. The student can use the acquired knowledge in the future in the design and operation of energy facilities.

The course is aimed at developing in students the knowledge and skills of systemic representations and other professional opportunities and features associated with professional activities, at mastering the basic concepts of the specifics of the future profession, understanding the processes of economic relations in professional activities.