Title :
Recent advances in high-power ignitron development
Author :
Loree, Diana L. ; Giesselmann, Michael G. ; Kristiansen, M. ; Shulski, A.P. ; Kihara, Ronald
Author_Institution :
Texas, Tech. Univ., Lubbock, TX, USA
fDate :
4/1/1991 12:00:00 AM
Abstract :
The authors describe the advances made in high-power ignitron switching capabilities in a comparison study between conventional size D and size E tubes, demountable experimental tubes, and the new NL-9000 (Richardson Electronics). The authors discuss the differences in tube design and the associated peak current and charge transfer capabilities and lifetime expectancies. The critical design criteria are the anode shape and placement in order to control the plasma and prevent prefires. Tube failure modes and recent studies on alternate ignitor schemes are presented. In addition, results of plasma diagnostics performed on a demountable ignitron with optical access to the discharge plasma are shown. Time-resolved images of the interference patterns from an optical Mach-Zehnder interferometer were recorded with a mechanical high-speed camera and evaluated with the help of image processing
Keywords :
failure analysis; mercury arc rectifiers; reliability; NL-9000; anode shape; charge transfer; demountable experimental tubes; failure modes; high-power ignitron development; image processing; interference patterns; lifetime expectancies; mechanical high-speed camera; optical Mach-Zehnder interferometer; optical access; peak current; placement; plasma diagnostics; size D tubes; size E tubes; switching capabilities; tube design; Anodes; Charge transfer; Electron tubes; High speed optical techniques; Interference; Optical interferometry; Optical recording; Plasma diagnostics; Plasma materials processing; Shape control;
Journal_Title :
Electron Devices, IEEE Transactions on
