Technical Issues on the Electronic Compact Fluorescent Lamp Covered with a Diffusive Glass Globe.

Yasuda, Takeo; Tanaka, Tomokazu; Nishio, Kiyoshi; Izumi, Mikio

doi:10.2150/jlve.23.2_10

Cited by 6 publications

(1 citation statement)

References 3 publications

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“…The excessive heat built-up may cause damage to the printed circuit board (PCB) and, thereby, unstable operation of the lamp. [6][7][8][9][10] Usually, the run-up performance is poor for cover/ reflector lamps due to the amalgam used. When the lamp is switched off, mercury is absorbed by the amalgam.…”

Section: Introductionmentioning

confidence: 99%

Optical, thermal and run-up performance of reflector compact fluorescent lamp

Feng

Cheng

2012

Lighting Research & Technology

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The optical, thermal and run-up characteristics of reflector compact fluorescent lamps are investigated to optimise lamp designs for performance improvements. The efficiency of the burner/reflector assembly is studied to reduce reflection and absorption losses. When the reflector shape is changed from parabolic to elliptical, the light output is increased as well as the luminous intensity on the central axis. Light intensity in the whole half-space can be further improved by reducing the reflective coating height. The thermal load on the plastic base and the ballast components are minimised using designs with a heat dissipation cover. The plastic base temperature can be reduced by 20-308C compared to that without any protection. The run-up time can be shortened by optimising the indium amount in the indium flag, the flag position, and the mercury composition in Bi-In-Hg amalgam. The indium amount and the indium flag position will influence the run-up time due to a different releasing velocity of mercury from the flag. A Hg composition of about 4.5% in the Bi-In-Hg amalgam is best to shorten the run-up time and get a high, stable light output.

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Section: Introductionmentioning

confidence: 99%

Optical, thermal and run-up performance of reflector compact fluorescent lamp

Feng

Cheng

2012

Lighting Research & Technology

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Improvement of the Luminous Run-up Characteristics in Ballast-Integrated Compact Fluorescent Lamps Covered with Outer Globes

Yasuda

Kando

2007

LEUKOS

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Heat-Transfer in Reflective Globe-Type Self-Ballasted Compact Fluorescent Lamps

Yasuda

Toda

Matsumoto

et al. 2005

Journal of the Illuminating Engineering Institute of Japan

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Self-ballasted compact fluorescent lamps (SBCFL) are widely used to replace incandescent lamps (IL) for energy saving. We studied the heat-transfer phenomena of outer globe-type SBCFLs by measuring the temperatures of lamp parts, consumption power, luminous output, and by calculating the energy balance. The applied methods are heat-transfer network analysis, and computational fluid dynamics (CFD) using FLUENT software. The heat loss increased in reflective globe-type SBCFLs as compared to normal transparent globe-type SBCFLs was estimated at about 3 W when the total lamp power was 22 W constant. This results in a temperature rise of 20 K in the plastic holder, and a maximum of 10K at the electronic part on the circuit board. Accordingly, we have developed a 12 W reflective globe-type SBCFL, which replaces a 60 W reflective IL, not a 22 W SBCFL replacing a 100 W reflective IL, to make importance of the thermal reliability.

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Technical Issues on the Electronic Compact Fluorescent Lamp Covered with a Diffusive Glass Globe.

Cited by 6 publications

References 3 publications

Optical, thermal and run-up performance of reflector compact fluorescent lamp

Optical, thermal and run-up performance of reflector compact fluorescent lamp

Improvement of the Luminous Run-up Characteristics in Ballast-Integrated Compact Fluorescent Lamps Covered with Outer Globes

Heat-Transfer in Reflective Globe-Type Self-Ballasted Compact Fluorescent Lamps

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