Lectures: 1.-Definition of terms, electrical power disturbances, compatibility level. 2.-Voltage characteristics. 3.-Harmonics in electrical networks. 4.-Measurement of harmonics and harmonic analysis. 5.-Source of harmonics, their propagation and disturbing effects. 6.-Frequency characteristics - calculation, measurement. 7.-Level reduction of harmonics, capacitors in electrical networks. 8.-Passive and active filters of harmonics. 9.-Flicker, voltage fluctuation. 10.-Voltage dips and interruptions. 11.-Influence of nonsymetrical load to network, voltage unbalance. 12.-Monitoring of power quality. 13.-Technical tools for monitoring quality parameters. 14.-Standardization of electrical power disturbances and EMC
Numeric exercises: 1.-Basic terms. 2.-Fourier analysis. 3.-Models of electrical network components. 4.-Propagation of harmonics. 5.-Frequency characteristics. 6.-Filters of harmonics design. 7.-Calculation of voltage unbalance. 8.-Pulse and radio-frequency disturbance. 9.-Power quality. 10.-Technical tools for monitoring quality parameters. 11.-Consultation of individual projects. 12.-Test.
Laboratory exercises: 1.-Load of neutral conductor. 2.-Power quality
Project: 1.-Measurement evaluation by standards
Numeric exercises: 1.-Basic terms. 2.-Fourier analysis. 3.-Models of electrical network components. 4.-Propagation of harmonics. 5.-Frequency characteristics. 6.-Filters of harmonics design. 7.-Calculation of voltage unbalance. 8.-Pulse and radio-frequency disturbance. 9.-Power quality. 10.-Technical tools for monitoring quality parameters. 11.-Consultation of individual projects. 12.-Test.
Laboratory exercises: 1.-Load of neutral conductor. 2.-Power quality
Project: 1.-Measurement evaluation by standards