Title :
Physics-based circuit model for a water-wall high temperature arc lamp using Finite Volume Method
Author :
El-Deib, Amgad ; Dawson, Francis ; Camm, David
Author_Institution :
Univ. of Toronto, Toronto, ON, Canada
Abstract :
High-Temperature arc lamps are used for thermal processing of semiconductor wafers. A vortex water wall on the inner surface of the lamp´s enclosure is used to provide cooling for the glass. It has been experimentally observed that above certain levels of injected energy the arc shows an unstable behaviour and is self-extinguished. In this paper, a physics-based model for the water-wall high-temperature arc lamp is derived and implemented in the form of an equivalent electrical circuit. The equivalent circuit is then coupled to the flash power supply equivalent circuit to validate the derived model against experimental voltage and current waveforms.
Keywords :
arc lamps; arcs (electric); electronics packaging; equivalent circuits; finite volume methods; flash lamps; high-temperature electronics; vortices; arc energy injection; equivalent electrical circuit; experimental current waveform; experimental voltage waveform; finite volume method; flash power supply equivalent circuit; glass cooling; lamp inner surface enclosure; physics-based circuit model; semiconductor wafer; thermal processing; vortex water-wall high temperature arc lamp; Heating; High-temperature techniques; Lighting; Semiconductor wafers; Arc lamp; Plasma modeling; Rapid thermal processing;
Conference_Titel :
Industry Applications Society Annual Meeting, 2013 IEEE
Conference_Location :
Lake Buena Vista, FL
DOI :
10.1109/IAS.2013.6682541
