Title :
2.65-MHz Self-Oscillating Complementary Electronic Ballast With Constant-Lamp-Current Control for a Metal Halide Lamp
Author :
Lin, Ray-Lee ; Wang, Zhi-Qiang ; Lee, Yan-Der ; Chen, Feng-Yin
Author_Institution :
Nat. Cheng Kung Univ., Tainan
Abstract :
This paper presents the design and implementation of the 2.65-MHz self-oscillating complementary electronic ballast with a constant-lamp-current control for a metal halide lamp. In order to avoid the inherent acoustic-resonance problem of metal halide lamps, the ballast´s switching-frequency level was selected to be 2.65 MHz, which satisfies higher magnitudes of maximum electromagnetic interference (EMI) limitation at frequencies of between 2.5 to 3.0 MHz, within the EMI/electromagnetic compatibility frequency range ldquochimney,rdquo for RF lighting systems. With the constant-lamp-current control scheme, the lamp current can be regulated to be less dependent on the input ac voltage. Finally, a 20-W prototype ballast is implemented to demonstrate the ability to avoid the acoustic-resonance and to provide constant levels of lamp current.
Keywords :
acoustic resonance; electric current control; electromagnetic interference; lamp accessories; lighting control; metal vapour lamps; RF lighting systems; acoustic resonance; constant-lamp-current control; electromagnetic interference; frequency 2.5 MHz to 3.0 MHz; frequency 2.65 MHz; metal halide lamp; power 20 W; self-oscillating complementary electronic ballast; switching-frequency; 2.65 MHz; Acoustic resonance; ballast; complimentary; electromagnetic interference (EMI) chimney; high intensity discharge (HID); lighting; self-oscillating;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2007.909287
