Lectures:
• Principles of digital signal processing.
• Electromagnetical phenomena kausality.
• Joule`s heat.
• Elementary signals, quantity distorsion.
• Analysis of passive load quantities.
• Diagnostics of circuit parameters.
• Analysis of transient phenomenon quantities.
• Statement of semestral project and analysis of solution technique.
• Analysis of amplifier quantities.
• Analysis of switch quantities.
• Analysis of rectifier quantities.
• Analysis of power filter quantities.
• Analysis of three-phase converter quantities.
• Analysis of eart fault quantities.
Laboratory works:
• Basic training. Knowledge test.
• Training of scalar produkt of time varying funcions.
• Calculation of power.
• Training of harmonic analysis.
• Modelling of conductor warming.
• Distorsion measured quantity analysis.
• Signal synthesis, test.
• Diagnostics of parameter passive.
• Diagnostics of active a reactive power komponent and thein kausality with machanical vibration.
• Analysis of rectifier quantities.
• Modelling of choossin transient phenomen.
• Analysis of amplifier quantities.
• Analysis of three-phase converter quantities.
• Verification of partial project solution.
Semester projects:
• 1st Quantity distorsion evaluation: a) harmonic analysis, b) EN standards, c) standards and new scientific access, d) power distorsion determination, e) formulation of active power of power distorsion. (0 to 10 points).
2nd Circuit integral transformation: a) application of scalar product of current and voltage, b) definition of circuit parameters, c) application of duality principle, d) verification of determined circuit parameters, e) statement of power and energy components.
• Principles of digital signal processing.
• Electromagnetical phenomena kausality.
• Joule`s heat.
• Elementary signals, quantity distorsion.
• Analysis of passive load quantities.
• Diagnostics of circuit parameters.
• Analysis of transient phenomenon quantities.
• Statement of semestral project and analysis of solution technique.
• Analysis of amplifier quantities.
• Analysis of switch quantities.
• Analysis of rectifier quantities.
• Analysis of power filter quantities.
• Analysis of three-phase converter quantities.
• Analysis of eart fault quantities.
Laboratory works:
• Basic training. Knowledge test.
• Training of scalar produkt of time varying funcions.
• Calculation of power.
• Training of harmonic analysis.
• Modelling of conductor warming.
• Distorsion measured quantity analysis.
• Signal synthesis, test.
• Diagnostics of parameter passive.
• Diagnostics of active a reactive power komponent and thein kausality with machanical vibration.
• Analysis of rectifier quantities.
• Modelling of choossin transient phenomen.
• Analysis of amplifier quantities.
• Analysis of three-phase converter quantities.
• Verification of partial project solution.
Semester projects:
• 1st Quantity distorsion evaluation: a) harmonic analysis, b) EN standards, c) standards and new scientific access, d) power distorsion determination, e) formulation of active power of power distorsion. (0 to 10 points).
2nd Circuit integral transformation: a) application of scalar product of current and voltage, b) definition of circuit parameters, c) application of duality principle, d) verification of determined circuit parameters, e) statement of power and energy components.