Izdelava mobilnega hranilnika električne energije

magistrsko delo

Jernej Frangež (Author), Jožef Ritonja (Mentor), Robert Brezovnik (Co-mentor)

Abstract

V magistrskem delu smo predstavili načrtovanje, izdelavo in preizkus prenosnega hranilnika električne energije. Najprej smo pregledali obstoječe komercialne rešitve in na osnovi njihove analize izdelali idejni načrt naprednega hranilnika. Nato smo narisali elektronsko vezje, nabavili komponente in izdelali prototip. Izdelan hranilnik lahko napajamo iz enosmernega (0–54,6 V) ali izmeničnega napetostnega vira (230 V). Kapaciteta baterije znaša okoli 700 Wh. Hranilnik ima napetostni enosmerni (10–54,6 V) in izmenični izhod (230 V). Hranilnik lahko izvaja tudi funkcijo brezprekinitvenega napajanja. Hranilnik smo opremili z grafičnim prikazovalnikom, s katerim prikazujemo vrednosti hranilnikovih veličin (trenutna poraba, napetost baterijskega paketa itd.). Opravili smo tudi preizkus delovanja in izmerili izkoristek hranilnika in posameznih komponent.

Keywords

shranjevanje električne energije;prenosni hranilniki;usmerniki;razsmerniki;brezprekinitveno napajanje;izdelava naprave;testiranje naprave;magistrske naloge;

Data

Language:	Slovenian
Year of publishing:	2022
Typology:	2.09 - Master's Thesis
Organization:	UM FERI - Faculty of Electrical Engineering and Computer Science
Publisher:	[J. Frangež]
UDC:	621.355.1:621.311.1'026.26(043.2)
COBISS:	101052675
Views:	104
Downloads:	20
Average score:	0 (0 votes)
Metadata:

Other data

Secondary language:	English
Secondary title:	Design and assembly of a mobile energy storage system
Secondary abstract:	This thesis deals with the presentation of the design, implementation and testing of a portable electricity storage. Firstly, we reviewed the existing commercial solutions and, based on the analysis, made an outline plan of the advanced storage tank. Then we drew the electronic circuit, procured the components, and made a prototype. The manufactured storage tank can be powered from a direct current (0–54,6 V) or an alternating voltage source (230 V). The battery capacity is about 700 Wh. The storage tank has a DC voltage (10–54,6 V) and an AC output (230 V). The storage tank can also perform the function of uninterruptible power supply. The storage tank was equipped with a graphic display which shows the values of the storage tank, such as current consumption, battery pack voltage, etc. Finally, we also performed a performance test and measured the efficiency of the storage tank and individual components.
Secondary keywords:	electrical energy storage;portable storage;rectifier;inverter;uninterruptible power supply;device assembly;device testing;
Type (COBISS):	Master's thesis/paper
Thesis comment:	Univ. v Mariboru, Fak. za elektrotehniko, računalništvo in informatiko, Elektrotehnika
Pages:	1 spletni vir (1 datoteka PDF (XII, 78 f.))
ID:	14549443