Title :
Temperature-robust LC3 LED driver with low THD, high efficiency, and long life
Author :
Lee, Eun S. ; Choi, Bo H. ; Cheon, Jun P. ; Kim, B.C. ; Rim, Chun T.
Author_Institution :
Dept. of Nucl. & Quantum Eng., KAIST, Daejeon, South Korea
Abstract :
A new type of passive LED driver that can reduce total harmonic distortion (THD) significantly by LC parallel resonance is proposed in this paper. Using an inductor and three capacitors, called LC3, novel characteristics such as high efficiency and power factor (PF) with extremely long life time are achieved. The proposed LED driver has a temperature-robust characteristic because its power is hardly changed by temperature, selecting the number of LED in series ns appropriately so that the LED power variation due to temperature change in LED can be zero. For analyzing LED power of the proposed LED driver, the phasor transformation technique is applied, which is firstly applied to a non-linear diode rectifier modeling. Nevertheless this non-linear switching, the proposed analyses agreed well with simulation and experiment results. A prototype LED driver showed very high power efficiency of 96.7 % at 60 W, meeting high PF of 0.95 and low THD of 10.1 %, though a reasonably small filter was used.
Keywords :
LC circuits; capacitors; circuit resonance; driver circuits; harmonic distortion; inductors; light emitting diodes; power factor; rectifiers; LC parallel resonance; PF; THD; capacitor; inductor; nonlinear diode rectifier modeling; nonlinear switching; phasor transformation technique; power 60 W; power efficiency; power factor; temperature-robust LC3 LED driver; total harmonic distortion reduction; Equivalent circuits; Light emitting diodes; LC parallel resonance; Passive LED driver; high efficiency; long lifetime; phasor transformation; temperature-robust;
Conference_Titel :
Power Electronics Conference (IPEC-Hiroshima 2014 - ECCE-ASIA), 2014 International
Conference_Location :
Hiroshima
DOI :
10.1109/IPEC.2014.6870169
