Multifunkcijski vgrajeni sistem za hišno avtomatizacijo

magistrsko delo

Gregor Nikolič (Author), Iztok Kramberger (Mentor), Mitja Solar (Co-mentor)

Abstract

V magistrskem delu je opisan razvoj samostojnega multifunkcijskega vgrajenega sistema za hišno avtomatizacijo, ki se električno napaja iz že obstoječega električnega omrežja in ga je mogoče vgraditi v že obstoječo infrastrukturo stavb. Sistem je grajen z mislijo na družbeno odgovornost, v smislu ekonomije, ljudi in do okolja. Vgrajeni sistem omogoča več funkcionalnosti, kot je kapacitivna tipka, brezstična komunikacija NFC, brezžična povezljivost Z-Wave, relejski vklop in odklop priključenih porabnikov, svetlobni odziv oziroma osvetlitev za ustvarjanje ambienta ter neposredno merjenje električne moči, ki jo troši priključen porabnik. Z vso to funkcionalnostjo in še posebej z možnostjo oddaljenega merjenja električne energije in vpliva na porabnika, lahko smotrno in učinkovito vplivamo na porabo električne energije. Opisano je načrtovanje posameznih sklopov, ki tvorijo celoto. Relevantni vplivni standardi so opisani in predstavljeni ter upoštevani pri načrtovanju prototipnega izdelka, ki je v celoti predstavljen v nalogi. Opravljene so bile meritve, ki so predstavljene in analizirane.

Keywords

multifunkcijski vgrajeni sistemi;hišna avtomatizacija;pametna omrežja;brezstična komunikacija NFC;kapacitivna stikala;oddaljen nadzor;merilniki porabe moči;magistrske naloge;

Data

Language:	Slovenian
Year of publishing:	2016
Typology:	2.09 - Master's Thesis
Organization:	UM FERI - Faculty of Electrical Engineering and Computer Science
Publisher:	G. Nikolić
UDC:	621.398:[621.316.1+621.317.38](043.2)
COBISS:	19894550
Views:	1814
Downloads:	673
Average score:	0 (0 votes)
Metadata:

Other data

Secondary language:	English
Secondary title:	MULTIFUNCTION EMBEDDED SYSTEM FOR HOME AUTOMATION
Secondary abstract:	This Master’s thesis describes the development of an independent multifunction embedded system for home automation, which is powered by the existing electricity power grid and can be installed in any building infrastructure. The system has been developed with regard to social responsibility in terms of people, economy and the environment. This Embedded system allows more functionality, such as a capacitive touch switch, contactless communication NFC, wireless connectivity Z-Wave, relay switch for connected electrical appliances, light response and lighting to create an ambient atmosphere and direct measurement of the electrical power consumption of the connected appliances. With all this functionality, especially with the possibility of remote measurement of electricity consumption and the effect on the connected appliances we can efficiently and effectively control the consumption of electricity. In this are described the designs of individual parts of the whole. Relevant influencing standards are described, presented and considered in the design of the product prototype, which is fully presented in this thesis. Measurements were taken and analysed and are presented herein.
Secondary keywords:	multifunction embedded system;home automation;smart grid;contact-less communication NFC;capacitive switch;remote control;consuption power meter;
Type (COBISS):	Master's thesis/paper
Thesis comment:	Univ. v Mariboru, Fak. za elektrotehniko, računalništvo in informatiko, Elektrotehnika
Pages:	XVIII, 94 f.
ID:	9153764