Title :
Bi-Helix SWS for High-Power TWTs
Author :
Pchelnikov, Yuriy N. ; Chernin, D. ; Vlasov, Alexander N.
Author_Institution :
Sci. Applic. Int. Corp. (now Leidos), McLean, VA, USA
Abstract :
We have studied the electromagnetic properties of bi-helix slow-wave structures (SWSs) with added azimuthal conductors in the form of: 1) metal rings connecting the helices and 2) an azimuthally conducting screen formed by metal rings with and without capacitive gaps. We show that these added azimuthal conductors suppress backward-wave oscillation and enable stable high-voltage, high-power operation of traveling-wave tubes (TWTs). Prototype circuits were fabricated and the dependence of phase velocities of the in-phase (fundamental) and opposite-phase (BWO) modes on frequency and on the geometrical parameters of the rings were measured and analyzed. Novel, easily fabricated designs of bi-helix SWSs with circular metallization on diaphragm supports are proposed. These practical designs will make it possible to increase the maximum stable operating voltage of wideband TWTs to 30-40 kV, with a corresponding increase in output power without the danger of BWO.
Keywords :
backward wave oscillators; conductors (electric); metallisation; slow wave structures; azimuthal conductors; azimuthally conducting screen; backward-wave oscillation; bi-helix SWS; bi-helix slow-wave structures; capacitive gaps; circular metallization; diaphragm supports; electromagnetic properties; geometrical parameters; high-power TWT; in-phase BWO modes; metal rings; opposite-phase BWO modes; traveling-wave tubes; voltage 30 kV to 40 kV; Dielectrics; Dispersion; Electron tubes; Impedance; Inductance; Metals; Power generation; Backward-wave oscillation; bi-helix; dispersion; helix; periodicity; slowing down; traveling-wave tube (TWT); traveling-wave tube (TWT).;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2013.2292312
