Title :
Development of a wideband inductive output tube
Author :
Kowalczyk, Richard ; Kirshner, Mark ; True, Richard ; Wilsen, Craig ; Boyle, Michael ; Schult, Holger ; Cipolla, John
Author_Institution :
Electron Devices, L-3 Commun., San Carlos, CA
Abstract :
Inductive output tubes (IOTs) employ emission gating to modulate the electron beam directly at the cathode surface. The high efficiency of these compact devices has motivated their use in UHF television broadcast and particle accelerators. The instantaneous bandwidth of broadcast IOTs is two percent (6 MHz). Many radar and communications applications - in which the linearity and efficiency of the IOT are highly desirable - require a significantly larger bandwidth. L-3 Electron Devices Division (EDD) is therefore developing a wideband IOT (WBIOT) which will provide output power levels suitable for UHF radar with a 1 dB bandwidth greater than ten percent.
Keywords :
UHF tubes; cavity resonators; electron guns; transmission lines; UHF radar; broadcast IOT; coaxial resonant cavity; electron beam; electron gun; input transmission line; instantaneous bandwidth; output power; wideband inductive output tube; Bandwidth; Cathodes; Electron beams; Electron tubes; Linear particle accelerator; Linearity; Optical modulation; Radar applications; TV broadcasting; Wideband; IOT; Inductive output tube; UHF; instantaneous bandwidth; radar; wideband;
Conference_Titel :
Vacuum Electronics Conference, 2008. IVEC 2008. IEEE International
Conference_Location :
Monterey, CA
Print_ISBN :
978-1-4244-1715-5
DOI :
10.1109/IVELEC.2008.4556397
