Thermal Design of High Efficiency, High Reliability Pulsed Space TWT’s Grid-Controlled Electron Gun

Author

Xin-Wei Li ; Xin-Wen Shang ; Xiao-Bao Su ; Wei Liu ; Liu Xiao ; Shi-Ji Yu

Author_Institution

Inst. of Electron., Beijing, China

Volume

62

Issue

5

fYear

2015

fDate

May-15

Firstpage

1648

Lastpage

1654

Abstract

To satisfy the requirements for a pulsed space traveling-wave tube, including high efficiency, high reliability, and miniaturization, its thermal and mechanical performance must be optimized. In this paper, an electron gun is optimized using ANSYS software with double goal methods that take both thermal and mechanical factors into consideration. Experimental result shows that the heating power of the gun decreases from 10.5 to 8.2 W, its warm-up time is reduced from 320 to 200 s, and its total volume is cut down by 22%. In addition, the new gun shows good mechanical reliability. It is shown that the results of theory, computation, and experiment are in good agreement. Finally, further thermal optimization of the new gun is achieved by analyzing the radiant heat loss.

Keywords

electron guns; heat losses; optimisation; semiconductor device reliability; travelling wave tubes; ANSYS software; grid-controlled electron gun; power 10.5 W to 8.2 W; pulsed space TWT; pulsed space traveling-wave tube; radiant heat loss; thermal design; thermal optimization; Cathodes; Heat transfer; Heating; Optimization; Reliability; Solid modeling; Stress; Electron gun; high efficiency; high reliability; miniaturization; miniaturization.;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/TED.2015.2415255

Filename

7073619