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Graduates of the “Electroenergetics and Electrical Engineering” program develop and utilize objects of high frequency electrical engineering and electromagnetic technology; power supplies for automated electrical engineering equipment; objects of electric heating and energy audits; power pulse technology. Master's programs

The following programs in Electroenergetics and Electrical Engineering (13.04.02) are available:

  • Electrotechnology (Department of Electrotechnology and Converter Engineering);

  • Automated Electromechanical Complexes and Systems (Department of Robotics and Industrial Automation).

Key points

Graduates of the Electrotechnology program develop and utilize objects of: high frequency electrical engineering and electromagnetic technology; power supplies for automated electrical engineering equipment; objects of electric heating and energy audits; power pulse technology.

As a result, our students are capable of:

  • Defining functional specifications, developing and utilizing automation means when designing electrical engineering equipment;

  • Selecting off-the-shelf equipment and developing new electrical engineering and electro-energetic equipment, managing projects for various electrical engineering and electro-energetic equipment;

  • Managing electrical engineering processes in effect during developing of electro-energetic and electric devices, providing the output that suits the market.

Graduates of the “Automated electromechanical complexes and systems” program develop and utilize automatic and automated electromechanical systems; local electromechanical systems; integrate local subsystems into complex automated electromechanical production complexes and systems.

Training facilities

Theory is backed up by practical training at the following labs:

  • Electrotechnics;

  • High frequency power pulse electronics, and electromagnetic material processing;

  • Induction heating;

  • Dielectric heating;

  • Laser tech;

  • High voltage tech;

  • Arc wielding;

  • Induction melting in cold crucibles (melting pots);

  • Power source;

  • TEMPUS/TACIS computing lab;

  • Energy efficiency electrotechnics centre.

  • Vibroacoustic;

  • Electric machines;

  • Automation technology;

  • Automated motor controller;

  • Machine tools and robots management system;

  • Optimal systems automated design.

International partnership

  • Dresden University of Technology (Germany);

  • Leibniz University Hannover (Germany);

  • University of Kaiserslautern (Germany);

  • University of Wuppertal (Germany);

  • University of Munich (Germany);

  • Technical University of Berlin (Germany);

  • Scientific Research Center of Jülich (Germany);

  • Innolume (Germany);

  • Ferdinand Brown Institute (Berlin, Germany);

  • University of Cambridge (UK);

  • University of St. Andrews (UK);

  • University of Birmingham (UK);

  • University of Glasgow (UK);

  • University of Dundee (Scotland);

  • Technical University of Lisbon (Portugal);

  • University of South Carolina (USA);

  • Texas Technical University (USA);

  • University of Colorado (USA);

  • University of Troyes (France);

  • Ben Gurion University (Israel);

  • Lappeenranta University of Technology (Finland);

  • University of Oulu (Finland);

  • University of Aalto (Finland);

  • Chalmers Technical University (Sweden).

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