| Learning outcomes of course unit |
- Knowledge of history and trends of electric drive development, the current state of theory and practice of automated electric drive, its purpose and function, places, and roles in modern systems of automation of technological processes.
- Knowledge of the modern automated electric drive structure, its components and elements, electric drives classification.
- Knowledge of the electric drive mechanics bases, basic laws and the converting parameters procedures of the mechanical part of the drive to the motor shaft, the ability to calculate and analyse the kinematic circuits and types of typical load of the electric drive, the ability to interpret and use the mechanical parts of an electric drive as an object of control.
- Knowledge of the basics of a generalized electrical machine theory, electromechanical properties and characteristics of DC and AC motors, the ability to analyse the static operation modes of the electric drive.
- Knowledge of the main ways of controlling the electric drive coordinates - current, torque, speed, position - and methods of their technical implementation, ability to interpret and analyse appropriate the electric drives circuit diagrams.
- The ability to use a mathematical description of electric drive systems in static and dynamic modes to synthesize the control laws, and optimization of these modes.
- Knowledge of the energy properties of electric drives in static and dynamic modes, the ability to use methods of optimization of energy indicators in the directions of electricity savings and maintain its quality and to choose the required capacity of electric motors, considering their operation modes, and the operating conditions.
- Knowledge of electromechanical properties and understanding of the features of controlled systems of DC and AC electric drives with semiconductor converters.
- Knowledge of the calculating parameters methods and the ability to use them to choose the most important elements of the power channel of modern automated electric drive systems that give it the required properties: motors, torque resistances, semiconductor converters of various types, transformers, and reactors.
- The ability to analyse electromagnetic, electromechanical and energy properties and indicators of different electric drive systems.
- The ability to substantiate the advantages and disadvantages of competing systems of a controlled DC and AC electric drives.
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