V.A. Tsarev – Dr.Sc.(Eng.), Professor, Department «Electronic Instruments and Devices», Yuri Gagarin State Technical University of Saratov

E-mail: tsarev_va@mail.ru

D.A. Nesterov – Post-graduate Student, Department «Electronic Instruments and Devices», Yuri Gagarin State Technical University of Saratov E-mail: enlucioro@gmail.com

The paper describes the results of computer simulation for the double-barrel X-band klystron with 25 kW continuous output power and −1 dB gain bandwidth around 90 MHz providing an improvement in the reliability and mass-dimensional characteristics of the radio equipment in the terrestrial radiocommunication systems for spacecraft located at a significant distance from the Earth.

1. Aguirre F. X-Band electronics for the INSPIRE Cubesat deep space radio // Proceeding of IEEE Aerospace Conference, (Montana, USA, 7−14 March 2015). Yellowstone Conference Center. Montana. USA. 2015. P. 1−10.
2. Shirshin V.I., Czarev V.A., Pichugin P.A. Moshhny’j shirokopolosny’j usilitel’ny’j klistron dlya sistem dal’nej kosmicheskoj svyazi // Aktual’ny’e problemy’ e’lektronnogo priborostroeniya APE’P-2012: Materialy’ 10-j yubilejnoj Mezhdunar. nauch.-texn. konf. 19−20 sentyabrya 2012 g. Saratov: SGTU. 2012. S. 32−39.
3. Pat. № 2483386 RF, MKP7 H 01 J 25/00. Moshhny’j shirokopolosny’j klistron / Czarev V.A., Shirshin V.I., Mullin V.V., Semenov V.K., Pichugin P.A.; zayavitel’ i patentoobladatel’ OAO «NPP «Kontakt». № 2011136022/07; zayavl. 29.08.2011; opubl. 27.05.2013. Byul. 15. 13 s.
4. Vicente C., Gahete C. Feasibility Study of an All European Klystron for Deep Space Communications. ESA.INT: European Space Agency.   URL: http://gsp.esa.int/documents/10192/ 43064675/C102484ExS.pdf/9be696e0-cb4c-446e-91a1-7d6683 80626d.
5. Microwave Power Products Division. CPII.COM: Communication & Power Industries.  URL: http://www.cpii.com/product.cfm/1/20/48. (25.04.2018).
6. Morozov S.N., Tuv A.A., Shifman R.G. Shirokopolosny’e i nizkovol’tny’e usilitel’ny’e klistrony’ srednego i vy’sokogo urovnya vy’xodnoj moshhnosti, razrabotanny’e v Ob’‘edinenii «Svetlana» na rubezhe 20-go i 21-go stoletij // Materialy’ XXI nauchno-texnich. konf. «Vakuumnaya nauka i texnika». 11−19 oktyabrya 2014 g. Sochi: MIE’M NIU VShE’. 2014. S. 182−188.
7. Frejdovich I.A. i dr. Perspektivy’ razvitiya mnogoluchevy’x klistronov // Materialy’ Vseros. konf. E’lektronika i mikroe’lektronika SVCh. Svetlana 125. 2−5 iyunya 2014 g. Sankt-Peterburg. 2014. S. 25−31.
8. Zening L., et al. Design of a C-Band High-Efficiency Multi-Beam Klystron // Proceedings of IPAC 2017. Copenhagen (Denmark): Bella Center. 2017. P. 4221−4223.
9. Muchkaev V.Yu., Czarev V.A. REZON // Svidetel’stvo ob oficzial’noj registraczii programmy’ dlya E’VM № 2011611748 ot 24.02.2011 g.
10. Microwave Electronics: RLE Progress Report. № 056 / Research Laboratory of Electronics (MIT), Head Prof. Smullin L.D.; Perf.: Ber A., et al. RLE. 2001. P. 93−107. URL: https://dspace.mit.edu/bitstream/handle/1721.1/53368/RLE_QPR_056_VIII.pdf.
11. Jensen A. et al. Developing sheet beam klystron simulation capability in AJDISK // IEEE Trans. Electron Devices. 2014. V. 61. № 6. P. 1666−1671.