Radiotekhnika
Publishing house Radiotekhnika

"Publishing house Radiotekhnika":
scientific and technical literature.
Books and journals of publishing houses: IPRZHR, RS-PRESS, SCIENCE-PRESS


Тел.: +7 (495) 625-9241

 

Ways to improve the quality of production of UHF components based on LTCC (Low Temperature Co-Fired Ceramics) technology

Keywords:

D.A. Sudarenko – Ph. D. (Eng.), Senior Research Scientist, PJSC «Radiofizika» (Moscow). E-mail: sudar1977@gmail.com A.V. Lyutov – Post-graduate Student, Leading Engineer, PJSC «Radiofizika» (Moscow). E-mail: inspect09@yandex.ru


In the article was a briefly reviewed low temperature co-fired ceramics (LTCC) technology, marked advantages and disadvantages, particularly in the area of manufacturing of UHF components. The article presents the experience of application the technology. It is notice the key feature of application the technology is the difficulty to analyze of a significant number parameters, distributed over the documentation. In the article have been analyzed the existing quality management standards like ISO-9000 and CALS. Proposed for improve the manufacturing quality of microwave components to apply the method of structural-parametric description. Summarized the method of structural-parametric descriptions (MSPD), based on the model «black box» of business-process in standards ISO-9000 and CALS-technology.
References:

 

  1. Kondratjuk R.I. Nizkotemperaturnaja sovmestno obzhigaemaja keramika (LTCC). Preimushhestva. Tekhnologija. Materialy // Informacionnyjj bjulleten «Stepen integracii». 2011. № 5. S. 14−18.
  2. Ljutov A.V., Sudarenko D.A. Issledovanie problem proizvodstva SVCH-komponentov na osnove tekhnologii nizkotemperaturnojj sovmestno obzhigaemojj keramiki (LTCC) // Sb. nauchnykh trudov po materialam XIII molodezhnojj nauchno-tekhnich. konf. «Radiolokacija i svjaz – perspektivnye tekhnologii». M.: PAO «Radiofizika». 2015. S. 60−62.
  3. Zakirova EH.A. Issledovanie pechatnykh plat c mnogoslojjnymi diehlektricheskimi podlozhkami i razrabotka mikropoloskovykh SVCH ustrojjstv na ikh osnove. Dis. … kand. tekhn. nauk. M.: 2014. http://www.hse.ru.
  4. Potapov JU.V. Osobennosti tekhnologii LTCC proektirovanija i proizvodstva LTCC-modulejj // Tekhnologii v ehlektronnojj promyshlennosti. 2008. № 3. S. 59−64. (www.tech-e.ru).
  5. Simin A., KHolodnjak D., Vendik I. Mnogoslojjnye integralnye skhemy sverkhvysokikh chastot na osnove keramiki s nizkojj temperaturojj obzhiga // Komponenty i tekhnologii. 2005. № 5.
  6. Peter Ulig, Gajjsler M., Sibill KHolcvart, Rejjnkhard Kulke, JJorgen Ljajjs, Dirk Mantojjfel, M. Martines-Vaskes. Integracija antenn v mnogoslojjnye keramicheskie podlozhki. Per. Andreja Novikova // Tekhnologii v ehlektronnojj promyshlennosti. 2010. № 4. S. 54−60.
  7. CHigirinskijj S.A. Osobennosti i preimushhestva proizvodstva mnogoslojjnykh struktur na osnove keramiki (LTCC, HTCC, MLCC) // Komponenty i tekhnologii. 2009. № 11. S. 130−131.
  8. Sudarenko D.A. Strukturno-parametricheskoe opisanie tekhnologii poverkhnostno-obemnogo montazha pechatnykh plat // EHlektronnaja tekhnika. Ser. Nano- i mikroehlektronika. 2005. № 1 (157). S. 59−62.
  9. Baskin V.A., Brjunin A.V., Brjunin V.N., Morenko A.V., Sudarenko D.A. Terminologija po informatizacii predprijatijj i tekhnologijj ehlektroniki // EHlektronnaja tekhnika. Ser. Nano- i mikroehlektronika. 2005. № 1 (157). S. 5−8.

 

June 24, 2020
May 29, 2020

© Издательство «РАДИОТЕХНИКА», 2004-2017            Тел.: (495) 625-9241                   Designed by [SWAP]Studio