Course description
Electrical installations and legislation: basic concepts, types of electrical installations, electrical circuits and systems, marking of conductors, technical legislation, standards and regulative documents, methods of preparing technical legislation, codes and standards in the field of LV electrical installations.
Elements of electrical installation: cables and wires, marking, selection and installation of cables, , installation pipes, sockets and plugs, installation switches, laying of installations.
Dimensioning of conductors: currents and voltages in installations, thermal, electrical and mechanical dimensioning of conductors, dimensioning in terms of costs, over-current protection of conductors.
Protection of electrical installations: currents in electrical installations, protection devices and their selection, selective protection, connection of loads.
Overvoltage protection: voltages in installation, lightning and lightning protection, internal overvoltage protection, elements for overvoltage protection.
Risk of electric current: influence of electric current on the human body, resistance of the human body, touch and step voltage, electric shock.
Protection against electric shock: direct and indirect contact with live parts, protection against direct and indirect contact, additional protection and residual current device, safeguard measures in accordance with the standards, protection of electrical equipment.
Intelligent electrical installations: why intelligent installations, EIB/KNX installations, components and their programming, design of intelligent installations.
Interior lighting design: characteristics of good lighting, purpose of interior lighting, guidelines and standards for lighting, concept of lighting, lighting systems, design of lighting installations.
Safety lighting: standby and safety lighting, escape route safety lighting, anti-panic lighting, safety lighting where risk of accident is present, safety signs, luminaires for safety lighting, voltage sources, systems for safety lighting, safety lighting control and testing.
Design of electrical installations: basics of building construction, course of project work, centre of gravity of electrical load and placement of distributors, number of circuits and their load, symbols in installation plans.
Course is carried out on study programme
Electrical engineering 1st level
Objectives and competences
Student will know the legality of technical regulations and standardization as well as normative acts in force in the area of electrical installations. He/she will be aware of the dangers of electricity and will know the principles of protection against electric shock. Student will also know the state of the art in electrical installations; the methods for planning of electrical installations and how to use appropriate tools in the planning process. He/she will be able to perform measurements of electrical installations.
Learning and teaching methods
Lectures, laboratory exercises.
Intended learning outcomes
After successful completion of the course, students should be able to:
– list the elements and components of electrical installations;
– elaborate a project of electrical installation;
– plan an intelligent electrical installation;
– carry out installation work and
– program intelligent installation for operation and
– verify the correctness of carried out installation and it operation with inspection and measurements.
Reference nosilca
1. BIZJAK, Grega, KOBAV, Matej Bernard, PRELOVŠEK, Mitja. Razsvetljava : učbenik za poglavja o razsvetljavi pri predmetih Električne inštalacije in razsvetljava, Nizkonapetostne električne inštalacije, Elektrotehnika in varnost, Svetlobna tehnika. 1. izd. Ljubljana: Založba FE in FRI, 2013.
2. KOBAV, Matej Bernard, BIZJAK, Grega, KLANJŠEK GUNDE, Marta, MALOVRH REBEC, Katja. LED spectra and its photobiological effects. Light & engineering, ISSN 1068-9761, 2013, vol. 21, no. 1, str. 22-27.
3. BIZJAK, Grega, MALOVRH REBEC, Katja, KOBAV, Matej Bernard, KLANJŠEK GUNDE, Marta. Photobiological aspects of LED sources for general lighting. V: Conference Balkan Light, Belgrade, 03-06 October 2012. KOSTIĆ, Miomir B. (ur.). Proceedings. Belgrade: Academic mind, 2012, str. 109-116.
4. KOS, Marko, BIZJAK, Grega. Calculation of electrical energy use for lighting according to EN 15193. V: Světlo 2011 : ekologie – ekonomika – efektivita = Light 2011 : ecology – economy – efficiency. Praha: Česká společnost pro osvětlování, 2011, str. 60-63.
5. KOBAV, Matej Bernard, BIZJAK, Grega. Long term study – energy savings obtained with use of daylight sensor and dimming ballasts. V: Proceedings of CIE 2010 "Lighting Quality and Energy Efficiency", 14-17 March 2010, Vienna, Austria. Vienna: Commission Internationale de l'Eclairage: = CIE, cop. 2010, str. 618-621.
Study materials
1. BIZJAK, Grega, KOBAV, Matej Bernard, PRELOVŠEK, Mitja. Razsvetljava : učbenik za poglavja o razsvetljavi pri predmetih Električne inštalacije in razsvetljava, Nizkonapetostne električne inštalacije, Elektrotehnika in varnost, Svetlobna tehnika. 1. izd. Ljubljana: Založba FE in FRI, 2013
2. RAVNIKAR, Ivan. Električne inštalacije: električne inštalacije zgradb skladno z družino standardov SIST HD 60364. Ljubljana: Agencija Poti, 2010
3. BASTIAN, Peter et al. Elektrotehniški priročnik. Ljubljana: Tehniška založba Slovenije, 2013
4. KASIKCI, Ismail. Projektirung von Niederspannungsanlagen. München/Heidelberg: Hüthig & Pflaum Verlag, 2010
5. MÜLLER, Dieter, WINKLER, Wolfgang. Eletroinstalationen planen und kalkuliren, Frankfurt/M: Vogel Buchverlag, 2006
6. CADICK, John e tal. Electrical Safety Handbook. New York: McGraw-Hill, 2005