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Radio Engineering and Electronics
Duration: 2 years
Start: September 1
Admission: open
Language : English
The training will prepare you for design and research activities in various fields of science and production. You will broaden your knowledge in the field of special power electronics devices, microprocessor technology, power electronics, and electromagnetic compatibility of power electronics devices.
Profound knowledge in the field of modern power electronics and microprocessor technology will ensure the demand in the labor market. Our training provides both fundamental general technical courses and promising non-traditional processes of electric energy conversion.
- The work on the thesis is carried out under the guidance of specialists in the following areas:
- Development and research of mechatronic systems for autonomous objects
- Development of electric energy storage systems and inactive power compensators based on multi-level semiconductor converters
- Development of frequency converters based on autonomous inverters and their control methods
- Energy optimization of converter systems.
You will be ready:
- to formulate the goals and objectives of scientific research in accordance with the trends and prospects of the development of electronics and nanoelectronics, as well as related fields of science and technology;
- to develop computerized electronic systems for the conversion and management of electrical energy in the energy sector, industry, automobile, railroad and air transport. These systems include both power electronics systems that ensure the operation of complex production mechanisms, devices and microprocessor systems that collect and process information as well as computer systems that control complex technological processes;
- to reasonably choose theoretical and experimental methods and means of solving the formulated problems;
- to develop effective algorithms for solving the formulated problems using modern programming languages and ensure their software implementation;
- to develop the principles of planning and methods of experiment automation based on the information and measuring complexes as a means of increasing the accuracy and reducing the cost of its implementation;
- to master the skills of real time measurements;
- to the organization and conduct of experimental research using modern means and methods;
- make scientifically grounded conclusions based on the results of theoretical and experimental research;
- give recommendations for improving devices and systems;
- write scientific publications and applications for inventions, as well as design devices and systems of power electronics, taking into account the specified requirements.
- A state-issued document on higher education.
- Admission is on a competitive basis.
- The final score is calculated as the sum of the score obtained from the entrance tests and the points for individual achievements.
Course: Mathematical Modeling of Devices and Systems | |
Professor | Udovichenko A. V. |
Recommended semester | 1 |
Requirements | Basics of energy electronics |
Form of Teaching | Lectures / practical work / independent work |
ECTS | 5 |
Examination requirements | Exam |
Learning Outcomes, Qualification and Competence Aims | Students will know the basic algorithms for controlling circuits and systems of high-power and high-voltage power electronics, be able to choose a circuit of high-power and high-voltage power electronics according to the formulated requirements, be able to choose an algorithm for controlling a power circuit and a system of high-power and high-voltage power electronics, know the features of the construction and operation of circuits and systems of high-power electronics (more than 500 kW) and high voltage (more than 1000 V), taking into account the requirements of regional enterprises, be able to calculate the main electrical parameters and characteristics, select the necessary elements |
Course: Microprocessor Systems of Power Electronics | |
Professor | Baranov E. D. |
Recommended semester | 1 |
Requirements | Basics of power electronics |
Form of Teaching | Lectures / practical work / independent work |
ECTS | 4 |
Examination requirements | Exam |
Learning Outcomes, Qualification and Competence Aims | Students will know the quality criteria of the converted energy in valve converters and the methodology of integrated design of power electronics devices, know the tasks and procedure for analyzing the basic circuits of matrix converters, best practices of domestic and foreign professional research, be able to design a matrix converter allowing for electromagnetic compatibility of the network feeder |
Course: Fundamentals of Signal and Systems Theory | |
Professor | Gorbunov R. L. |
Recommended semester | 1 |
Requirements | Proficiency in mathematical analysis and linear algebra |
Form of Teaching | Lectures / practical work / independent work |
ECTS | 10 |
Examination requirements | Exam |
Learning Outcomes, Qualification and Competence Aims | Students will know the features of the considered analysis and synthesis methods of electronic circuits and their applications, know the main tasks of electronic circuits analysis and synthesis, be able to use the considered methods of analysis and synthesis to study the properties of electronic circuits, be able to calculate the main electrical parameters and characteristics, select the necessary elements |
Graduates become highly qualified specialists who are in demand at industrial enterprises, in scientific and production associations, research institutes and educational institutions in Novosibirsk and the Siberian region, such as electronic, electric and instrumentation engineering enterprises, institutes of the SB RAS and many others.
Examples of potential employers: OOO DC Systems , Novosibirsk; OOO Energy Storage Systems, Novosibirsk; ZAO ERASIB, Novosibirsk; AO " PO "Sever", Novosibirsk; Budker Institute of Nuclear Physics SB RAS, Novosibirsk; Group of Companies OLDAM (power supply systems), Novosibirsk; AO RADIO and MICROELECTRONICS, Novosibirsk; OOO SibIS, Novosibirsk; AO Novosibirsk Semiconductor Plant with experimental design bureau, Novosibirsk; OOO Aeroelectromash, Moscow; Moscow Institute of Physics and Technology (National Research University), Moscow; NaukaSoft Company, Moscow; AO Aeropribor-Voskhod, Moscow; JSC AC Rubin Aviation Corporation, Balashikha, Moscow Oblast; AO Sarapul Electric Generator Plant, Sarapul; JSC Research and Production Corporation Design Bureau of Mechanical Engineering, Kolomna, Moscow Oblast; AO Reshetnev Information Satellite Systems , Zheleznogorsk, Krasniyarsk Krai Holding JSC NEVZ-Soyuz, Novosibirsk, JSC Katod, Novosibirsk; OOO Expertneftegaz, Novosibirsk; PJSC "Chkalov Aviation Plant", branch of "Sukhoi Aviation Holding Company"Novosibirsk; OAO Novosibirsk Electrosignal Plant, Novosibirsk; OOO Research Complex of the Technological Support Center, Novosibirsk
Total 120 CP
- Admission starts on June 20
- Admission stops on July 10
- The documents are sent to the university in electronic form through the Enrolee NSTU Personal Account. When submitting an application for admission in electronic form, the documents attached to it are submitted (sent) to the NSTU admission committee in the form of their electronic images (paper documents converted into electronic form by scanning or photographing with the provision of machine-readable recognition of its details)
- Entrance tests to the master's program are in the form of an interdisciplinary online test. The disciplines to be tested are Pedagogy, Psychology and English for Specific Purposes in Foreign Language Teaching.