OG4VP - Multi-Motor Drives
|Electrical Engineering and Computing
|Type of study
|bachelor academic studies
|Lecturer (for classes)
|Lecturer/Associate (for practice)
|Lecturer/Associate (for OTC)
|Knowledge gained on courses that form the core of Power engineering department, Power converter and drives and Power systems on School of Electrical Engineering Electrical drives
|Students are introduced with characteristic solutions for driving of systems with multi-motor drives, methods of analysis, integration of necessary equipment, selection of structure and parameters of the control subsystem, commissioning and supervision.
|Students capable of application, control and design of multimotor drives Students capable for independent: • Analysis of operation of multimotor drive in stationary and transient regimes • Modeling of mechanical couplings in multimotor drives • Design of control algorithms for multimotor drives • Application of multimotor drives
|Contents of lectures
|Introduction. Definitions. Functional, technological and mechanical coupling of multimotor drives (MD). Function and application. Power supply structure and load sharing. Control structures of MD. Generation of references. Control, coordinated operation of drives, load distribution. Modeling and simulation. Application in analysis, synthesis and supervision of multimotor drives.
|Contents of exercises
|Multimotor drives (MD) with DC and induction motors. Control, load distribution, load sharing. Examples, with analyses. Application of vector control and direct torque control in MD, possible advantages. Use of simulation models in analyses, synthesis and supervision of drives. Use of modern software tools for supervision and tuning of MD.
|Number of hours per week during the semester/trimester/year
|Study and Research
|Methods of teaching
|Knowledge score (maximum points 100)
|Activites during lectures