Publication detail
A tunable flickermeter to account for different lamp technologies
DRÁPELA, J. LANGELLA, R. ŠLEZINGR, J. TESTA, A.
Original Title
A tunable flickermeter to account for different lamp technologies
English Title
A tunable flickermeter to account for different lamp technologies
Type
conference paper
Language
en
Original Abstract
The paper presents a tunable flickermeter based on a generalized lamp model able to account for lamp technologies different from incandescent. The generalized lamp model is based on the use of only three input parameters derived from the type of the lamp and its electrical circuit. The flickermeter concept and scheme are described. Compliance with the Standard IEEE 1453 (IEC 61000-4-15:2010) is demonstrated and performances for different lamp technologies are demonstrated by means of numerical and laboratory experiments.
English abstract
The paper presents a tunable flickermeter based on a generalized lamp model able to account for lamp technologies different from incandescent. The generalized lamp model is based on the use of only three input parameters derived from the type of the lamp and its electrical circuit. The flickermeter concept and scheme are described. Compliance with the Standard IEEE 1453 (IEC 61000-4-15:2010) is demonstrated and performances for different lamp technologies are demonstrated by means of numerical and laboratory experiments.
Keywords
Power Quality, Light flicker, Interharmonics, CFL lamps, LED lamps, Flickermeter
Released
19.06.2017
Publisher
IEEE Power & Energy Society
Location
PowerTech, 2017 IEEE Manchester
ISBN
978-1-5090-4237-1
Book
2017 IEEE Manchester PowerTech
Pages from
1
Pages to
9
Pages count
9
Documents
BibTex
@inproceedings{BUT141585,
author="Jiří {Drápela} and Roberto {Langella} and Jan {Šlezingr} and Alfredo {Testa}",
title="A tunable flickermeter to account for different lamp technologies",
annote="The paper presents a tunable flickermeter based on a generalized lamp model able to account for lamp technologies different from incandescent. The generalized lamp model is based on the use of only three input parameters derived from the type of the lamp and its electrical circuit. The flickermeter concept and scheme are described. Compliance with the Standard IEEE 1453 (IEC 61000-4-15:2010) is demonstrated and performances for different lamp technologies are demonstrated by means of numerical and laboratory experiments.",
address="IEEE Power & Energy Society",
booktitle="2017 IEEE Manchester PowerTech",
chapter="141585",
doi="10.1109/PTC.2017.7980945",
howpublished="print",
institution="IEEE Power & Energy Society",
year="2017",
month="june",
pages="1--9",
publisher="IEEE Power & Energy Society",
type="conference paper"
}