Title :
Multipactor prediction in novel high-power low-pass filters with wide rejection band
Author :
Arregui, I. ; Anza, S. ; Arnedo, I. ; Vicente, C. ; Lujambio, A. ; Gil, J. ; Chudzik, M. ; Gimeno, B. ; Lopetegi, T. ; Laso, M.A.G. ; Boria, V.E.
Author_Institution :
Dept. de Ing. Electr. y Electron., Univ. Publica de Navarra, Pamplona, Spain
fDate :
Sept. 29 2009-Oct. 1 2009
Abstract :
In this paper, the multipactor breakdown is studied in a novel design of high-power low-pass filters with wide rejection band. In classical filter design techniques, there exists a trade-off between the height of the mechanical gaps and the width of the rejected band, which makes difficult the design of filters simultaneously having wide mechanical gaps and rejected bands. These limitations are avoided by our new design based on a high-power low-pass filter cascaded with a quasi-periodic continuous profile following Bragg reflection theory. To show this, the power handling capability of the new design fulfilling stringent frequency behaviour has been first predicted using the classical parallel-plate theory, as well as following a more advanced method which considers the real electromagnetic field distribution in the component.
Keywords :
electromagnetic fields; low-pass filters; waveguide filters; Bragg reflection theory; electromagnetic field distribution; high-power low-pass filters; mechanical gaps; multipactor breakdown; multipactor prediction; power handling capability; quasi-periodic continuous profile; rejection band; waveguide filters; Electric breakdown; Electromagnetic fields; Electrons; Filtering theory; Frequency; Low pass filters; Microwave devices; Microwave filters; Power harmonic filters; Vacuum breakdown;
Conference_Titel :
Microwave Conference, 2009. EuMC 2009. European
Conference_Location :
Rome
Print_ISBN :
978-1-4244-4748-0
