D.A. Sudarenko – Ph.D.(Eng.), Senior Research Scientist, 

PJSC «Radiofizika» (Moscow); 

Associate Professor, Department 909В, Мoscow aviation institute (National research university) E-mail: sudar1977@gmail.com

A.V. Lyutov – Post-graduate Student, Leading Engineer, 

PJSC «Radiofizika» (Moscow); 

Senior Lecturer, Department 909В, Мoscow aviation institute (National research university)

E-mail: inspect09@yandex.ru

In the article was reviewed a typical process of microwave components based on the technology of low-temperature co-fired ceramics. In each technological operation were identified important parameters which have an effect on quality. Based on ISO-9000 was created a model structural parametric description. The concept of information support was offered that satisfy the requirements of the database. Database LTCC was implemented on based Access.

1. Sudarenko D.A. Postanovka problemy parametricheskogo opisaniya intellektualnykh informatsionnykh sistem. Elektronnaya tekhnika. Ser. 3. Mikroelektronika. 2000−2001. № 1. S. 154−155. (in Russian)
2. Sudarenko D.A. Tipovoe parametricheskoe opisanie intellektualnykh informatsionnykh sistem. Elektronnyi zhurnal «Issledovano v Rossii». 2002. № 124. S. 1381−1384. http://zhurnal.ape.relarn.ru/articles/2002/124.pdf. (in Russian)
3. Sudarenko D.A. Metody strukturno-parametricheskogo opisaniya proizvodstvennykh sistem. Elektronnyi zhurnal «Issledovano v Rossii». 2003. № 201. S. 2379−2381. http://zhurnal.ape.relarn.ru/articles/2003/201.pdf. (in Russian)
4. Sudarenko D.A. Strukturno-parametricheskoe opisanie tekhnologii poverkhnostno-ob’emnogo montazha pechatnykh plat. Elektronnaya tekhnika. Ser. 3. Nano- i mikroelektronika. 2005. № 1 (157). (in Russian)
5. Sudarenko D.A. Ctrukturno-parametricheskoe opisanie tekhnologii v MS Access. Elektronnaya tekhnika. Ser. 3. Nano- i mikroelektronika. 2005. № 1 (157). (in Russian)
6. Baskin V.A., Bryunin V.N., Sudarenko D.A., Ogandzhanov G.K. Elektronnyi standart predpriyatiya. Sb. dokladov IV Mezhdunar. nauchno-tekhnich. konf. «Elektronika i informatika». M.: MIET. 2002. (in Russian)
7. Lyutov A.V., Sudarenko D.A. Issledovanie problem proizvodstva SVCh-komponentov na osnove tekhnologii nizkotemperaturnoi sovmestno obzhigaemoi keramiki (LTCC). Tezisy dokladov XIII molodezhnoi nauchno-tekhnich. konf. «Radiolokatsiya i svyaz – perspektivnye tekhnologii». M.: PAO «Radiofizika». 2015. S. 64−66. (in Russian)
8. Lyutov A.V., Sudarenko D.A. Issledovanie problem proizvodstva SVCh-komponentov na osnove tekhnologii nizkotemperaturnoi sovmestno obzhigaemoi keramiki (LTCC). Sb. nauchnykh trudov po materialam XIII molodezhnoi nauchno-tekhnich. konf. «Radiolokatsiya i svyaz – perspektivnye tekhnologii». M.: PAO «Radiofizika». 2015. S. 60−62. (in Russian)
9. Kondratyuk R.I. Nizkotemperaturnaya sovmestno obzhigaemaya keramika (LTCC). Preimushchestva. Tekhnologiya. Materialy. Informatsionnyi byulleten «Stepen integratsii». 2011. № 5. S. 14−18. (in Russian)
10. Sudarenko D.A., Lyutov A.V. Puti povysheniya kachestva proizvodstva SVCh-komponentov na osnove tekhnologii nizkotemperaturnoi sovmestno obzhigaemoi keramiki. Radiotekhnika. 2016. № 4. S. 45−48. (in Russian)
11. Lyutov A.V., Sudarenko D.A. Virtualizatsiya predpriyatiya na primere proizvodstva SVCh-komponentov na osnove tekhnologii nizkotemperaturnoi sovmestno obzhigaemoi keramiki (LTCC). Tezisy dokladov XIV molodezhnoi nauchno-tekhnich. konf. «Radiolokatsiya i svyaz – perspektivnye tekhnologii». M.: PAO «Radiofizika». 2016. S. 69−70. (in Russian)
12. Sudarenko D.A., Lyutov A.V. Informatsionnoe obespechenie proizvodstva SVCh-komponentov na osnove tekhnologii nizkotemperaturnoi sovmestno obzhigaemoi keramiki. Radiotekhnika. 2017. № 4. S. 54−59. (in Russian)
13. Sudarenko D.A., Lyutov A.V. Strukturno parametricheskoe opisanie tekhnologii LTCC V MS ACCESS. Tezisy dokladov XV molodezhnaya nauchno-tekhnich. konf. «Radiolokatsiya i svyaz – perspektivnye tekhnologii». M.: PAO «Radiofizika». 2017. S. 104−105. (in Russian)
14. Baskin V.A., Bryunin A.V., Bryunin V.N., Morenko A.V., Sudarenko D.A. Strukturno-parametricheskoe i matematicheskoe opisanie tekhnologii. Elektronnaya tekhnika. Ser. 3. Nano- i mikroelektronika. 2005. № 1 (157). (in Russian)
15. Baskin V.A., Bryunin A.V., Bryunin V.N., Morenko A.V., Sudarenko D.A. Algoritm izvlecheniya iz dokumentov dannykh dlya matematicheskogo modelirovaniya tekhnologicheskikh protsessov. Elektronnaya tekhnika. Ser. 3. Nano- i mikroelektronika. 2005. № 1 (157). (in Russian)
16. Bryunin A.V. Osnovnye komponenty sovremennykh informatsionnykh sistem. Elektronnaya tekhnika. Ser. 3. Nano- i mikroelektronika. 2005. № 1 (157). (in Russian)
17. CALS. Podderzhka zhiznennogo tsikla produktsii. Rukovodstvo po primeneniyu. M.: Minekonomiki RF. 1999. (in Russian)
18. Barabanov V., Khersonskii N., Karasev S., Rozhkov V. Primenenie CALS tekhnologii dlya opisaniya sistem kachestva predpriyatiya. Standarty i kachestvo. 2001. № 3. (in Russian)
19. Baskin V.A. Printsip postroeniya i avtomatizatsii predpriyatii i tekhnologii elektroniki kak slozhnykh vlozhennykh sistem. Elektronnaya tekhnika. Ser. 3. Nano- i mikroelektronika. 2005. № 1 (157). (in Russian)
20. Vendik D.V., Kholodnyak A.V., Simin D.S. Mnogosloinye integralnye skhemy sverkhvysokikh chastot na osnove keramiki s nizkoi temperaturoi obzhiga. Komponenty i tekhnologii. 2005. № 5. (in Russian)
21. Potapov Yu.V. Osobennosti tekhnologii LTCC proektirovaniya i proizvodstva LTCC-modulei. Tekhnologii v elektronnoi promyshlennosti. 2008. № 3. S. 59−64. www.tech-e.ru. (in Russian)
22. Litschke O., Simon W., Holzwarth S. A 30 GHz highly integrated LTCC antenna element for digital beam forming arrays. Conference proceedings APS2006. Washington. 2006.
23. Uhlig P., Holzwarth S., Litschke O., Simon W., Baggen R. A Digital Beam-Forming Antenna Module for a Mobile Multimedia Terminal in LTCC Multilayer Technique. EMPS 2005. Brugge (Belgium).
24. Uhlig P., Manteuffel D., Malkmus S. High Layer Count in LTCC Dual Band Antenna for Galileo GNSS/CICMT. Munich. 21−24 April 2008.