Key words
CAD, Motor and motorprotection, Drives, Control circuit devices, Circuit breakers, Contactors, Switches, Relays
Objectives
Using electric materials in designing control circuitry.
Knowing the danger of electricty and possibilities of protection against electric shock.
Designing and manufactoring of electrical low voltage power distribution.
Using domotic software in electrical low voltage power distribution.
Engineering by means of a CAD program, constructing, testing of control circuits according to a range of functio principles or using various types of devices.
Analysing electric control circuits.
Implementing electric risk reduction.
Performing basic measurements
Topics
Control circuit devices, sensors, actors. Protection technology for electrical equipment. Low voltage power distribution, type of distribution systems, selectivity, association, typical motor circuits, protection and switching, overcurrent protection of cables and conductors.
Marking of electrical equipment.
Design, test and debug electric switchboard.
Domotics and power control.
CAD software.
Design, test and debug electric automation control and motor circuits.
Basic measurement.
Prerequisites
Basic laws of Electricity.
Final Objectives
Designing, testing, debugging of electric power systems and control circuit systems in home, office, industry.
Simple electric measurements
Materials used
Courses "Elektriciteitstechnologie", "CAD", "Practicum elektriciteit".
Projects , floppies, Elektrotechnische CAD-programma's.
Background information electric standards, A.R.E.I., technical data
Study costs
Course: +/- 25 €
Tools: +/- 60 €
Multitester (option): +/- 50 €
Study guidance
Teaching Methods
Theory: lectures, demonstrations, exercices
Lab: exercices, assignments, group reports.
Assessment
Theorie: written examination: 47%
Lab: permanent evaluation, assignments,.. : 53%
Lecturer(s)
Christof Dauwels, Vera De Vleeschauwer, Charles Van den Berghe, Guy Willems
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