Light & Engineering 28 (6)

Volume 28
Date of publication 12/21/2020
Pages 71-75

Comparative Analysis Of The Characteristics Of Led Filament Lamps For Household Lighting Light & Engineering Vol. 28, No. 6

Articles authors:

Nina P. Nestyorkina, Julia A. Zhuravlyova, Olga Yu. Kovalenko, Svetlana A. Mikaeva

Nina P. Nestyorkina, engineer. In 1975, she graduated from N.P. Ogaryov Mordovia State University with specialty in Light Engineering and Light Sources. Currently, she is the Senior lecturer of the Light Sources sub-department of the Institute for Electronics and Light Engineering of the N.P. Ogaryov Mordovia State University. Area of her scientific interests: discharge and LED light sources, lighting installations, circuit engineering

Julia A. Zhuravlyova graduated from N.P. Ogaryov Mordovia State University with specialty in Light Engineering and Light Sources in 2010. At present, she is Associate Professor of the Light Source sub-department of N.P. Ogarev Mordovia State University and Associate Professor of the Electronics subdepartment of the Institute of Prospective Technologies and Industrial Programming of MIREA. Her research interests: energyefficient light-engineering installations, solidstate electronics

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

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:

This paper examines the characteristics of LED filament lamps from various manufacturers: LLC “ Lisma “(Russia), an American company with production in China “ GENERAL LIGHTING CO.LTD”, a joint Chinese-Russian company “ Uniel “and Taiwan company” Smartbuy “ in the A60 bulb – the time of stabilization of characteristics, luminous flux, colour temperature, colour rendering index, flicker index, radiation spectrum during 6000 hours of burning. The research was carried out on the Gooch&Housego measuring system. The results of experimental studies that showed that the clear leader in the test results is the lamp SDF‑8 (LISMA), according to GOST of all tested samples of led filament lamps, it can be recommended for lighting in lighting devices for household lighting.

References:

1. Zheleznikova O.E., D. Mohammad S.D., Mikhalkova A.N., Mikaeva S.A. Lighting with led light sources / automation. Modern technology// 2019. T. 73. # 12, pp. 540–543.
2. Zheleznikova, O. E. on the effectiveness of LED lighting for visual work / / O. E. Zheleznikova, S.A. Amelkina, L.V. Sinitsina// Light & Engineering, 2018, #2, pp. 6–10.
3. Zhuravleva Yu.a., Kovalenko O. Yu., Mikaeva S.A., Atishev A.V., Nemov V.V. Investigation of the influence of the form factor of led lamps for household lighting on their lighting characteristics // Energy Security and Energy Saving, 2019, No. 6, pp. 24–27.
4. GOST R54815–2011/IEC/PAS62612: 2009. LED lamps with a built-in control device for General lighting at a voltage of more than 50 V. Operational requirements, Entered 2012–07–01, Moscow: Standardinform, 2012, 16 p.
5. GOST R55702–2013. Light sources are electric. Methods for measuring electrical and light parameters. “Yes,” I said. 2013–11–08, Moscow, Standardinform, 2013. 44 p.
6. GOST R54350–2015. Lighting devices. Lighting requirements and test methods. – Entered 2016–01–01. Moscow: Standardinform, 2015, 45 p.
7. Nesterkina N.P. about the characteristics of led filament lamps with a power of 4, 6, 8 W / N.P. Nesterkina, A.S. Kondrashin / / in the collection: Problems and prospects of development of domestic lighting, electrical engineering and energy materials of the XIII All-Russian scientific and technical conference with international participation in the IV all-Russian lighting forum with international participation, 2017, pp. 358–366.
8. Mikaeva S.A., Zheleznikova O. E., Sinitsyna L.V. Complex of modern research equipment for light measurements / / automation and modern technologies, 2012, #12, pp. 33–36.
9. Appendix to certificate no. 64752 photocolorimetric measuring Installation. – [Electronic resource]. – Access mode: http://fundmetrology.ru/ 10_tipy_si/11/view. aspx?num=qJbKqJpWgBeM / – Title from the screen.
10. Nestyorkina N.P., Kovalenko O. Yu., Zhuravlyova Yu.A. Analysis of characteristics of led lamps with T8 bulb by various manufacturers// Light & Engineering, 2019, Vol. 27, № 6, pp. 82–87.
11. J. Liu, C. Xu, H. Zheng, and S. Liu, “Numerical analysis and optimization of thermal performance of LED filament light bulb,” in 2017 IEEE67th Electronic Components and Technology Conference (ECTC), pp. 2243–2248, Orlando, FL, USA. – 2017.
12. C. Xu, Z. Zhang, J. Chu et al., “Thermal dissipation enhancement of LED filament bulb by ionic wind” in 2016 17th International Conference on Electronic Packaging Technology (ICEPT), pp. 1212–1215, Wuhan, China, 2016.

Keywords

DOI: https://doi.org/10.33383/2020-023

Article in RUS:
Svetotekhnika # 5, 2020, pp.25–28