Title :
Using PSpice to determine lamp current variation due to electronic ballast component tolerances
Author_Institution :
OSRAM Sylvania Inc., Beverly, MA, USA
Abstract :
This paper studies the relationship between component tolerance and: (1) total lamp current variation; and (2) lamp current imbalance between lamps on one ballast. PSpice simulator and a four-lamp fluorescent current-fed push pull inverter is used in the study. The concept of component quality level (CQL) is introduced. Components with different quality level and tolerance are selected and a normal distribution is assumed. The studies indicate that to meet lamp current tolerance specifications and to produce lowest cost products, it is not enough to just tighten the component tolerances. Both CQL and tolerance have to be considered
Keywords :
DC-AC power convertors; SPICE; circuit analysis computing; fluorescent lamps; invertors; lamp accessories; software packages; tolerance analysis; PSpice; component quality level; computer simulation; current-fed push pull inverter; electronic ballast component tolerances; fluorescent lamp; lamp current imbalance; lamp current variation; simulation software; tolerance specifications; Costs; Electronic ballasts; Fluorescence; Gaussian distribution; Industry Applications Society; Inverters; Lamps; Production; SPICE; Sun;
Journal_Title :
Industry Applications, IEEE Transactions on
