Title :
Prediction of Multipactor Breakdown for Multicarrier Applications: The Quasi-Stationary Method
Author :
Anza, Sergio ; Vicente, C. ; Gil, J. ; Mattes, Michael ; Wolk, Dieter ; Wochner, Ulrich ; Boria, Vicente E. ; Gimeno, B. ; Raboso, David
Author_Institution :
Aurora Software & Testing S.L., Univ. Politec. de Valencia, Valencia, Spain
fDate :
7/1/2012 12:00:00 AM
Abstract :
A new prediction algorithm for multipactor breakdown determination in multicarrier signals is presented. This new algorithm assumes a quasi-stationary (QS) model based on the nonstationary theory for single-carrier signals. It determines the worst case, i.e., the combination of signal phases that yields the lowest breakdown level per carrier, using multipactor electron growth models. It considers the secondary emission yield properties of the material and the time-varying value of the multicarrier signal envelope.
Keywords :
microwave switches; secondary emission; vacuum breakdown; breakdown level; multicarrier applications; multipactor breakdown determination; multipactor electron growth models; quasistationary method; secondary emission yield properties; single carrier signals; time varying value; Approximation methods; Computational modeling; Discharges; Materials; Radio frequency; Shape; Passive circuits; RF signals; vacuum breakdown;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2012.2197021
