Title :
Scandate Dispenser Cathodes With Sharp Transition and Their Application in Microwave Tubes
Author :
Vancil, Bernard ; Brodie, Ivor ; Lorr, John ; Schmidt, Volker
Author_Institution :
E Beam, Inc., Beaverton, OR, USA
Abstract :
We report on a new cathode which is based on die-pressed matrices made from scandia-doped tungsten powder using the liquid-solid doping technique. Transition temperatures from space charge to temperature limited emission are as low as 840 °Cb(W) for emission of 5 A/cm2. Transitions are sharper than previously published scandate cathodes and compare favorably with M and ternary alloy cathodes. We present emission curves on several cathodes, show comparisons with other types of cathodes, and offer tentative explanations for the improvement. We discuss their suitability in microwave tubes at loadings of 5-10 A/cm2.
Keywords :
cathodes; microwave tubes; space charge; die pressed matrices; liquid solid doping technique; microwave tubes; scandate dispenser cathodes; scandia doped tungsten powder; sharp transition; space charge; temperature limited emission; ternary alloy cathodes; transition temperatures; Barium; Cathodes; Doping; Electron tubes; Powders; Resistance; Tungsten; Cathodes; dispenser; impregnated; scandate; thermionic; thermionic.;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2014.2309279
