Title :
Half-Ring Helical Structure for Traveling Wave Tube Amplifiers
Author :
Zuboraj, Muhammed ; Apaydin, Nil ; Sertel, Kubilay ; Volakis, J.L.
Author_Institution :
Dept. of Electr. & Comput. Eng., Ohio State Univ., Columbus, OH, USA
Abstract :
We introduce a new slow wave structure referred to as half-ring helix for traveling wave tube (TWT) applications. This new structure is shown to achieve 27% size reduction with concurrent nondispersive response across the S-band. A 10-dB gain improvement was also observed as compared with the standard helix TWT. Moreover, the designed traveling wave tube can attain a maximum saturated output power of 1 KW and a bandwidth of 0.75 GHz (2.5-3.25 GHz). This improved gain and power handling, along with a satisfactory bandwidth, makes the structure attractive as compared with conventional ones. In this paper, we present the TWT design with numerically computed cold test results and evaluate its hot test performance using particle-in-cell simulations.
Keywords :
microwave amplifiers; slow wave structures; travelling wave amplifiers; S-band; TWT applications; TWT design; bandwidth 0.75 GHz; cold test; frequency 2.5 GHz to 3.25 GHz; gain 10 dB; gain improvement; half-ring helical structure; half-ring helix; helix TW; hot test; particle-in-cell simulations; power 1 kW; power handling; slow wave structure; traveling wave tube amplifiers; traveling wave tube applications; Bandwidth; Dispersion; Electron beams; Electron tubes; Gain; Impedance; Radio frequency; Slow wave structure (SWS); traveling wave tube (TWT); traveling wave tube amplifiers (TWTAs); traveling wave tube amplifiers (TWTAs).;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2361116
