Title :
Image Analysis: A Tool for Optical-Emission Characterization of Partial-Vacuum Breakdown
Author :
Koppisetty, Kalyan ; Serkan, Mert ; Kirkici, Hulya
Author_Institution :
Gen. Electr.-HealthCare, Milwaki, WI
Abstract :
Power devices and systems operating in partial vacuum are susceptible to partial discharges, corona, or volume discharges. In this paper, we present an image-analysis technique and its results for optical-emission characterization of a breakdown initiation. The example set for demonstration is breakdown events under a 20-kHz unipolar sinusoidal applied field for a point-to-point electrode geometry at partial vacuum in helium. The voltage and current waveforms along with the light-emission data are collected. The results of the image-analysis technique used to obtain the R/G/B emission characteristics of the breakdown events as a function of time, location, and pressure are presented. The images obtained by a standard 30-ft/s video camera are used for analysis to characterize the progress of the breakdown.
Keywords :
electric breakdown; helium; image processing; optical images; power systems; visible spectra; high frequency breakdown; image analysis; light-emission data; optical image analysis; optical-emission characterization; partial-vacuum breakdown; point-to-point electrode geometry; power devices; power systems; Corona; Electric breakdown; Electrodes; Geometrical optics; Helium; Image analysis; Partial discharges; Vacuum breakdown; Vacuum systems; Voltage; High frequency breakdown; optical image analysis; partial vacuum; spectroscopy;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2008.2005898
