Načrtovanje in izdelava Teslinega transformatorja

Abstract
Cilj naloge je izdelati Teslin transformator večje moči, ki bo služil za razne predstavitve in obenem izdelati navodila, po katerih bi z nekaj predznanja lahko vsak, ki ga zanima oz. bi želel izdelati lasten transformator, to lahko naredil. V prvem delu diplomskega dela je opisan princip delovanja Teslinega transformatorja, saj je razumevanje le tega ključnega pomena pri izdelavi. Drugi del je namenjen dimenzioniranju posameznih komponent transformatorja, delovanju teh komponent povezanih v celoto ter težavam in rešitvam, s katerimi sem se soočil. V tretjem, zadnjem delu so zajete meritve, s katerimi sem preveril izračunane vrednosti in si z njimi pomagal pri potrebnih nastavitvah za optimalno delovanje. Rezultat naloge je delujoč klasični Teslin transformator z uporabljenim klasičnim iskriščem moči 1 kW.

Language: Slovenian Teslin transformator, iskrišče, oblok, iskra, primarni krog, sekundarni krog, LC vezje, tuljava, kondenzator, toroid, resonanca, nihanje, impedanca, faktor kvalitete, induktivnost, kapacitivnost, frekvenca, napetost, primarno navitje, kožni pojav, resonančno polnjenje, zaščitni filter, ozemljitev. Bachelor thesis/paper (mb11) FE - Faculty of Electrical Engineering 2017 23.01.2017 2343 840 AddThis uses cookies that require your consent. Edit consent...

## Secondary language

Language: English Design and construction of Tesla coil Aim of the project is to create a medium power Tesla coil, that will serve for various presentations and also to create a guide that would serve as fundamental knowledge to anyone who is interested to make its own. In the first part of the thesis the principle of operation of Tesla coil is described that is necessary to understand its practical realization. The second part is devoted to dimensioning of the individual components of Tesla coil and to operation of these components that are connected into a whole as well as problems and solutions which I have been facing with. In the third and final part the measurements to verify the calculated values and to help make the necessary settings for optimal performance are covered. The result is a functional Tesla coil with nominal power of 1 kW and conventional spark gap. Tesla coil, spark, arc lenght, the primary circuit, secondary circuit, the LC circuit, coil, capacitor, toroid, resonance, oscillation impedance, quality factor, inductance, capacitance, frequency, voltage, primary winding, skin efect, resonance charging, protective filter, grounding.

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