7M07125 Еlectronics and control systems

Name of educational programs

7M07125 Еlectronics and control systems

Code and classification of the field of education

7M07 Engineering, manufacturing and construction industries

Code and classification of training areas

7M071 Engineering and engineering trades

Group of EP

M100 Automation and management

Aim of EP

The objectives of the educational program in the specialty "Electronics and control systems" - to provide training for scientific personnel in the field of industrial electronics and control systems that can conduct research using electronic and computing devices, use modern software for modeling and design of control systems, to produce research work in research institutes, industrial and innovation centers, prepare competitive Professionals in the field of industrial electronic monitoring and control systems, the ability to evaluate, analyze, and distribute the production problems with social and communication skills and systems related to problem solving in the field of industrial and power electronics and automated intelligence systems.


Kazakh, Russian, english

Labor input:

120 academic credits

Type of EP


Expected learning outcomes EP

Upon completion of this educational program, students are expected to be able to:

ON1. Explain the principles of building devices for automated control systems, in order to determine their functions and characteristics of the structural units of power, digital devices and electronic sensors;

ON2. Apply design methods for non-linear adaptive systems and neural networks to create intelligent control systems using deep machine learning mechanisms;

ON3. Design embedded systems using modern digital integrated circuits for use in control units of intelligent and multi-agent systems.

ON4. Use modern digital data transmission systems to create wired and wireless communication channels using the technology of the Internet of things and sensor networks in automated control systems;

ON5. Develop power and electronic functional blocks of control systems of embedded systems, characterize their structural modules, ensure uninterrupted communication between them for remote control and monitoring in real time using the Internet of things technology;

 ON6. To analyze the applicability of intelligent systems using neural networks and machine learning methods for data processing, in order to improve the efficiency of the process;

ON7. Solve problems associated with the creation of automated dispatch control and monitoring of data from the sensor system using modern technologies of various data transfer technologies using the Internet of things;

ON8. Identify key features and functional characteristics of the developed adaptive automated control systems based on neural networks in order to optimize the process;

ON9. Demonstrate a high level of competence in the development of project documentation, educational and methodological complexes, define goals and methods for solving analytical and technical problems in the field of automated control systems;

ON10. Integrate the skills of designing and developing electronic and power devices to create hardware and software for intelligent control systems;

ON11. Evaluate adaptive and non-linear methods used in embedded control systems, identify advantages and disadvantages of these systems in order to improve the existing system;

ON12. Demonstrate a civic and ideological position, formulate problems, goals, tasks in the theoretical and practical areas of management systems, work with foreign scientific and technical literature, participate in international cooperation in the field of professional activity, be able to organize the work of scientific and technical personnel, use an individual approach to students in the implementation of pedagogical activities in the field of electronics and control systems.

For candidates


Academic activities

Human resource potential: At the department work:

-11 doctors of physical and mathematical science and technical science;

-12 professors;

-22 candidates of physical and mathematical sciences and technical sciences;

-16 associate professors;

-18 Doctors PhD.

During the educational process, undergraduates have the opportunity to study for another semester or year at another higher educational institution of the Republic of Kazakhstan or abroad with the obligatory transfer of completed educational programs in the form of loans at their university. Remote technologies are used in the educational process for undergraduates with distance learning, who have left the country for an internship or study at a university in another country.

Scientific activities

For the implementation of the educational program at the faculty there are laboratories:

1.         Telecommunication Systems Laboratory

2. Laboratory of Nanoelectronics

3. Laboratory of Nonlinear Signal Analysis

4. Laboratory of Astrophotometry and Optoelectronics

5. Laboratory of Physics of Chaotic Processes

6. Laboratory of Nonlinear Physics

7. Technological laboratory of thin-film semiconductor materials and nanostructures.

8. Laboratory of X-ray analysis.

9. Laboratory of semiconductor optoelectronics and nanophotonics.


International activity

Throughout the entire educational process, master students have the opportunity to attend the advice of foreign specialists who are relevant to the masterl student’s field of study. Graduate students undergo scientific internships in the following foreign universities: Humboldt University (Berlin, Germany), Potsdam University (Potsdam, Germany), Institute of Radio Engineering and Electronics (Moscow, Russia), Ohio University (Ohio, USA), etc.

Quality assurance (Accreditation, rating, work with employers)

national accreditation

Practice places:

1. Subsidiary Limited Liability Partnership “Institute of Space Engineering and Technology” JSC “National Center for Space Research and Technology”

2. A subsidiary state enterprise "Institute of Experimental and Theoretical Physics" of the al-Farabi Kazakh National University.

3. A subsidiary state enterprise “National Open Nanotechnology Laboratory” of the al-Farabi Kazakh National University.

4. Physical and Technical Faculty of the Al-Farabi Kazakh National University.

5. "Laboratory of Engineering Profile" of the al-Farabi Kazakh National University.

6. National electronics and communications companies