Light & Engineering 29 (5)

Volume 29
Date of publication 10/27/2021
Pages 79–84

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Analysis of Tungsten Halogen Lamps Characteristics L&E, Vol. 29, No. 5 (2), 2021

Articles authors:

Olga Yu. Kovalenko, Yulia A. Dashkina, Yulia A. Zhuravlyova, Svetlana A. Mikaeva

Olga Yu. Kovalenko, Doctor of Technical Sciences, Associate Professor. In 1983, she graduated from N.P. Ogarev Mordovia State University with a degree in Lighting Engineering and Light Sources. At present, she is Professor of the Department of Metrology, Standardization, and Certification of the Institute of Electronics and Lighting Engineering of the National Research Mordovia State University named after N.P. Ogarev. Her research interests: measurement and control of parameters of lighting and irradiation systems

Yulia A. Dashkina, B.Sc. In 2020, she received a bachelor’s degree in N.P. Ogarev Mordovia State University with specialisation in Standardisation and Metrology. Currently, she studies in the N.P. Ogarev Mordovia State University Master’s programme in Standardisation and Metrology. Her research interests: control of stability of characteristics of tungsten halogen lamps

Yulia A. Zhuravlyova, Ph. D. in Technical Science, Associate Professor. She graduated in 2010 from N.P. Ogarev Mordovia State University, majoring in lighting engineering and light sources. At present, she is an Associate Professor of the Electronics Department of RTU MIREA and Associate Professor of the National Research University Moscow Power Engineering Institute. Area of her expertise: energy-saving, lighting installations, modern discharge and LED light sources, electronic components

Svetlana A. Mikaeva, Doctor of Technical Sciences, Associate Professor. In 1988, she graduated from N.P. Ogarev Mordovia State University with a degree in Lighting Engineering and Light Sources. Currently, she is a Head of Department of Electronics Physical Technological Institute RTU MIREA. Her research interests are lighting engineering and light sources, instrumentation technology, control and diagnostics of devices, solidstate electronics, radio electronic components, devices, based on quantum effects

Abstract:

The authors briefly review distinctions of tungsten halogen lamps (THL) and analyse the results of their own measurements of characteristics of three types of THL manufactured by Saransk lighting equipment plant LISMA. Rated power, luminous flux, and correlated colour temperature of lamps were measured. Relative measurement errors with consideration of possible technological errors for these products do not exceed 0.84 % for values of rated power and 0.29 % for values of correlated colour temperature in batches of 13 pcs. The analysis conducted shows that the technical level of development and production technology of Saransk lighting equipment plant LISMA provides high quality of THL.

References:

1. Bayneva I.I. Tungsten Halogen Lamps: a monography [Galogennyie lampy nakalivaniya: monografiya] / Saransk: V.S. Afanasyev, 2013, 176 p.
2. Kondratenko V.S., Naumov A.S., Rogov A. Yu. Introduction of the Controlled Laser Thermosplitting Technology in Russia [Vnedreniye tekhnologii lazernogo upravlyaemogo termoraskalyvaniya v Rossii] // Rossiyskiy tekhnologicheskiy zhurnal, 2017, Vol. 5, # 1, pp. 3–14.
3. Bayneva I.I. Features and Prospectives of Development of Contemporary Halogen Light Sources [Osobennosti i perspektivy razrabotki sovremennykh galogennykh istochnikov sveta] // Sovremennyie problemy nauki i obrazovaniya, 2014, Vol. 4, pp. 48–54.
4. Tungsten halogen lamp KG 220–500–5 linear R7s 220 V Lisma 3501660. URL: https://e-kc.ru/cena/lampa-galogenovaja-kg‑220–500–5-r7s‑132mm‑24-saransk.
5. Kovalenko O. Yu.. Kozyreva V.V. On Opportunities of Application of Advanced Sources of Radiation in Illumination and Irradiation Installations [O vozmozhnosti primeneniya perspektivnykh istochnikov izlucheniya v osvetitelnykh i obluchatelnykh ustanovkakh] // Bulletin of MGAU, 2008, Vol. 4(29), pp. 9–13.
6. Kovalenko O. Yu.. Pilshchikova Yu.A.. Guseva E.D. Increasing Efficiency and Control of Parameters of Sources of Radiation of Irradiating Installations in Agriculture [Povysheniye effektivnosti i kontrol parametrov istochnikov izlucheniya obluchatelnykh ustanovok v selskom khozyaistve] // Fotonika, 2017, Vol. 8(68), pp. 68–73.

Keywords

DOI: https://doi.org/10.33383/2020-083

Article in RUS:
Svetotekhnika # 2, 2021, pp. 58–61

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