Journal of the Korean Institute of Illuminating and Electrical Installation Engineers (조명전기설비학회논문지)

The Korean Institute of IIIuminating and Electrical Installation Engineers (한국조명전기설비학회)
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Single-Stage Quasi Resonant Type PSR(Primary Side Regulation) PWM Converter for the LED Drive in TRIAC Phase Controlled Dimmer

TRIAC위상 제어 조광기에서의 LED구동을 위한 Single-Stage 준 공진형 PSR(Primary Side Regulation) PWM 컨버터

  • Received : 2012.11.15
  • Accepted : 2013.01.23
  • Published : 2013.02.28
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Abstract

In case when the existing TRIAC phase controlled dimmer is drove for the LED lighting equipments, there are many problems such as the LED flicker in low phase-angles, the acoustic noise and elements damage by increase of the peak voltage in the input filter capacitor, mulfunction by insufficiency of the TRIAC holding current, and the abnormal oscillation by LC resonant. In this paper, we proposes the single-stage quasi-resonant PSR(Primary Side Regulation) PWM converter, and the design, the simulation and experiment are performed. As a result, it could confirm that the proposed PWM converter is the lighting equipments for LED drive which can alternate the existing 60W class incandescent bulbs and it has the high drive performance of the efficiency 80% and over, the power factor 0.95 and over under the normal voltage 220V. Finally, total harmonic distortion(THD) is gratified with a standard[1] of the lighting equipments and the durability is evaluated as the high reliablilty of 150,000 hours and over.

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References

  1. Agency for technology and standards, electromagnetic compatibility(EMC), K 61000-3-2, IEC 61000-3-2 Ed.3.0, 15-16, 2005.11.
  2. Jung-Nam Seo, "Implementation of an interior LED lighting circuit with TRIAC dimming control", Chonnam National Univ. 2011.8.
  3. Min-Muk Jo, "A study on the LED electric light controller for the conventional Triac dimmer", Incheon Univ. 2011.8.
  4. Soo-Yub Yu, Ki-Hong Um, Hyung-Jun Kim, "A study of designing of energy efficient LED driver apparatus", KIIEE, pp.28-31,2009.
  5. An-joon Hwan, Lee-Byeong Gu, Lee-jin Woo, "A study of output current controllable high brightness LED driver", KIIEE, pp. 105-107, 2011.
  6. Jin-Bong Choi, Kwan-Woo Kim, Young-Gook Jung, Young -Cheol Lim, "A study on the modularization of LED driver for illumination using a fly-back converter", KIPE, pp. 504-513, 2009.
  7. Joe Knisley : A knowledge of light dimming technology, EC&M, pp 14-17, 2003.2.
  8. Jung-Nam Seo, Yong-Su Wu, In-Sun Yeo, "A study on the reduction of conducted noise emission from an interior LED lighting module with TRIAC dimming control", KIEE, pp.109-113, 2011. https://doi.org/10.5370/KIEE.2011.60.1.109
  9. Design guide for TRIAC dimmable LED driver using FL7730, AN-9745, Fairchild Semiconductor Corporation, 2011.
  10. Seng-Ho Yang, Kgu-Min Jo, Jae-ul Yeon, Weon-Suk Oh, Hee-Jun Kim, "Single stage power supply for the LED lighting having wireless communication function", KIEE, pp.1038-1039, 2010.
  11. Tony Lai "TRIAC phase control dimmer to adjust the brightness of LED replacement lamps", NSC, 2010.
  12. Jun-Young Lee, Gun-Woo Moon, Hyun-Su Kim, Myong -Jung Yoon, "Integrated boost-flyback ZCS quasi-resonant power factor preregulator", KIPE, pp.91-98, 1999.
  13. Wojciech A. Tabisz, and Fred C. Lee, "Basic concepts in quasi-resonant and multi-resonant power conversion ", in proc. ISPE'92, 1992, 90-98.
  14. TRIAC dimmer compatible high brightness white LED driver, AN-1487, Intersil, 2011.
  15. Offline high power factor TRIAC dimmable LED driver intended for ENERGY STAR commercial and residential LED luminaires, TND398, Onsemi, 2010.2.
  16. Young-Gu Choi, Young-Joo Kim, Chi-Hwan Lee "Single-stage PFC flyback LED drive with isolation", KIEE, pp. 924-925, 2010.
  17. Chun-An Cheng, Fu-Li Yang, Chen-Wei Ku, and Chun-Hsien Yen, "A novel single-stage high power LEDs driver", in proc. ICPE-ECCE Asia, 2011, pp.2733-2740.
  18. Agency for technology and standards, limits and methods of measurement of radio disturbance characteristics of electrical lighting and similar equipment, K 00015, 2005.11, CISPR 15 : 2005-11, 6-7.