Mathematical Modeling of Electrical Engineering Systems and Their Elements

Major: Power Supply Systems and Energy Management
Code of subject: 7.141.10.O.003
Credits: 6.00
Department: Theoretical and General Electrical Engineering
Lecturer: Ph.D., Assoc. Prof. Orest Hamola
Semester: 1 семестр
Mode of study: денна
Learning outcomes: • ability to create computer models of dynamic systems of electric power, electrical engineering, and electromechanics using modern mathematical applications; • the ability to choose the level of complexity of the mathematical model by the task; • ability to study the behavior of typical electromechanical systems using computer modeling; • ability to use modern information and communication technologies, particularly Mathcad and MATLAB applications, to solve problems of analysis of the dynamics of controlled electromechanical systems.
Required prior and related subjects: • Theory of automatic control; • Theory of electric drive; • Electric machines; • Control systems for electric drives; • Electromechanical control systems.
Summary of the subject: Mathematical and organizational principles of computer modeling. Analytical and numerical methods for solving problems of dynamics of electromechanical systems. Understanding the features of building mathematical models of electrical systems, the properties of numerical methods for solving dynamics problems, and the basics of object-oriented techniques of building computer models. Modern methods of developing mathematical models. Application of the newest forms of realization of digital models, application of neural networks, fuzzy logic, and use of methods of thermodynamics. Modern means of computer modeling of electrical systems.
Assessment methods and criteria: • written reports on the laboratory course, discussion, individual tasks (30%) • final test (70 %, control test): written-oral form
Recommended books: 1. Kostinyuk L.D, Moroz V.I, Paranchuk Ya.S Modeling of electric drives. Lviv: Lviv Polytechnic National University Publishing House. - 2004. - 404 p. 2. Zelenov A.V, Shevchenko I.S, Andreeva N.I Synthesis and digital modeling of DC electric drive control systems with valve converters. Teaching. manual for students. universities. - Alchevsk: DGMI, 2002. - 400 p. 3. Modeling of electromechanical systems / Chornyi O.P, Lugovoy A.V, Rodkin D.J, Sysyuk G.Yu., Sadovoy O.V - Kremenchuk, 2001. - 376 p.

Mathematical Modeling of Electrical Engineering Systems and Their Elements

Major: Power Supply Systems and Energy Management
Code of subject: 7.141.10.O.002
Credits: 6.00
Department: Electromechatronics and Computerized Electromechanical Systems
Lecturer: Prof. Volodymyr Moroz, Prof. Ihor Shchur
Semester: 1 семестр
Mode of study: денна
Learning outcomes: • ability to create computer models electrical systems dynamic using modern mathematical applications; • the ability to choose the level of complexity of the mathematical model in accordance with the task; • ability to study the behavior of typical electrical systems by means of computer modeling; • ability to use modern computer and communication technologies, in particular Mathcad and MATLAB applications to solve problems of analysis of the controlled electromechanical systems dynamics.
Required prior and related subjects: • Control theory; • Theory of electric drives; • Electrical machines; • Control systems for electric drives; • Electromechanical control systems.
Summary of the subject: Mathematical and organizational principles of computer simulation. Analytical and numerical methods for solving the problems of electromechanical systems dynamics. Understanding the specifics of electrical systems mathematical models constructing, properties of numerical methods for solving problems of dynamics, the basis of object-oriented method for constructing computer models. Modern methods of mathematical models development. Application of the newest methods of digital models realization, application of neural networks, fuzzy logic and use of methods of thermodynamics. Modern means of computer simulation of electrical systems.
Assessment methods and criteria: • oral examination, laboratory reports (40%) • final control: exam, written and oral form (60%)
Recommended books: 1. Костинюк Л.Д., Мороз В.І., Паранчук Я.С. Моделювання електроприводів. Львів: Видавництво Національного університету "Львівська політехніка". – 2004. – 404 с. 2. Зеленов А.В., Шевченко І.С., Андреева Н.І. Синтез та цифрове моделювання систем управління електроприводів постійного струму з вентильними перетворювачами. Навч. посібник для студ. вузів. – Алчевськ: ДГМІ, 2002. – 400 с. 3. Моделювання електромеханічних систем / Чорний О.П., Луговой А.В., Родькін Д.Й., Сисюк Г.Ю., Садовой О.В. – Кременчук, 2001. – 376 с.