Journal of Radio Electronics. eISSN 1684-1719. 2023. №11
ContentsFull text in Russian (pdf)
DOI: https://doi.org/10.30898/1684-1719.2023.11.1
Evaluation of the etching parameters influence
on the characteristics of single
and multiconductor transmission lines
N.O. Kuzmin, Y.S. Zhechev
Tomsk State University of Control Systems and Radioelectronics,
634050, Tomsk, Ave. Lenina, 40.
The paper was received July 23, 2023.
Abstract. Modernization of radio-electronic equipment leads to the need to improve the methods of manufacturing the components that are a part of it. Printed circuit boards are predominantly manufactured using subtractive methods. Under conditions of constant miniaturization, it is necessary to consider the impact of conductor subtractive etching on the performance of the fabricated prototype. In this paper, the effect of etching parameters on the performance of single and coupled microstrip lines is evaluated. An algorithm for evaluating the influence of etching parameters on the characteristics of the considered structures is proposed. In the future it is planned to conduct a laboratory experiment with the extraction of etching coefficients and evaluation of their influence on the characteristics of the considered structures.
Key words: etching coefficients, quasistatic simulation, etching, microstrip line, linear parameters, electrodynamic simulation, micro-assembly.
Corresponding author: Kuzmin Nikita Olegovich, kuzjmin.nikita23@gmail.com
References
1. Il'in V.A. Tekhnologiya izgotovleniya pechatnykh plat. – Mashinostroenie, 1984.
2. Postnov S., Tavrizov A., Dolgopolov N. Osobennosti tekhnologii izgotovleniya pechatnykh plat dlya perspektivnykh napravlenii ehlektronnoi promyshlennosti //Tekhnologii v ehlektronnoi promyshlennosti. – 2010. – №. 8. – S. 46-47.
3. Uaitt K., Rentyuk V. Osobennosti konstruirovaniya pechatnykh plat s vypolneniem trebovanii po EHMS //Komponenty i tekhnologii. – 2019. – №. 6. – S. 121-128.
4. Shapovalova K.I. Pechatnye platy. Sovershenstvovanie pechatnykh plat //Aktual'nye problemy aviatsii i kosmonavtiki. – 2018. – T. 3. – №. 14. – S. 24-25.
5. Fillipov E.I. Issledovanie protsessov pechatnoi ehlektroniki v proizvodstve prototipov pechatnykh plat //Aktual'nye issledovaniya. – 2020. – №. 8. – S. 42-46.
6. Yakubovich A.D., Popkovich A.I., Filonova M. I. Osobennosti tekhnologii izgotovleniya pechatnykh plat. – 2023.
7. Anan'ev A.D. Tekhnologiya bystrogo sozdaniya prototipov pechatnykh plat metodom frezerovki //Aktual'nye issledovaniya. – 2021. – №. 23. – s. 40-42.
8. GOST R. 53429-2009. Platy pechatnye. Osnovnye parametry konstruktsii //Moskva: Standartinform. – 2010.
9. Danilova E.A. Klassifikatsiya defektov pechatnykh plat //Trudy Mezhdunarodnogo simpoziuma «Nadezhnost' i kachestvO». – 2013. – T. 1. – S. 325-328.
10. Shneidmiller V.R. Defekty i analiz pechatnykh plat //Aktual'nye problemy radioehlektroniki i telekommunikatsii. – 2018. – S. 176-177.
11. Zhukova YU.M., Zhuchkova A.D., Zhukov YA.D. Ehkologicheskie problemy pri tekhnologicheskikh protsessakh v proizvodstve pechatnykh plat //Sbornik izbrannykh statei po materialam nauchnykh konferentsii GNII» Natsrazvitie». – 2020. – S. 177-182.
12. Subtraktivnye metody izgotovleniya pechatnykh plat [Ehlektronnyi resurs]: Sait razrabotchika pechatnykh plat.URL: https://pcbdesigner.ru/sposobi-izgotovleniya-pechatnih-plat/subtraktivnye-metody-izgotovleniya-pechatnyx-plat.html (data obrashcheniya 11.02.2023)
13. Tekhnologiya formirovaniya provodyashchego risunka [Ehlektronnyi resurs]: Sait razrabotchika pechatnykh plat. Url: https://pcbdesigner.ru/travlenie-pechatnykh-plat/texnologiya-formirovaniya-provodyashhego-risunka.html (data obrashcheniya 12.02.2022)
14. Gazizov T.R. Osnovy avtomatizatsii proektirovaniya radioehlektronnykh ustroistv. – 2004.
15. Sravnitel'nyi analiz dvukh sposobov polucheniya vremennogo otklika na sverkhshirokopolosnoe impul'snoe vozdeistvie / Kuz'min N.O., Surkov V.A., Trubcheninov V.A., Zhechev E.S., / KH regional'naya nauchno-prakticheskaya konferentsiya «nauka i praktika: proektnaya deyatel'nost' – ot idei do vnedreniya – 2021». // Tomsk, 2021. CH. 1. S. 387 – 390.
16. Gazizov T.R., Zabolotsky A.M. New approach to EMC protection //2007 18th International Zurich Symposium on Electromagnetic Compatibility. – IEEE, 2007. – S. 273-276.
17. Belousov A.O., Gazizov T.R., Zabolotskii A.M. Mnogoprovodnaya mikropoloskovaya liniya kak modal'nyi fil'tr dlya zashchity ot sverkhkorotkikh impul'sov //Doklady Tomskogo gosudarstvennogo universiteta sistem upravleniya i radioehlektroniki. – 2015. – №. 3 (37). – S. 124-128.
18. Zabolotskii A.M., Gazizov T.R. Modal'nye fil'try dlya zashchity bortovoi radioehlektronnoi apparatury kosmicheskogo apparata. – 2013.
19. Chernikova E.B. Zerkal'no-simmetrichnaya meandrovaya liniya, zashchishchayushchaya ot sverkhkorotkikh impul'sov //Sistemy upravleniya, svyazi i bezopasnosti. – 2020. – №. 2. – S. 280-293.
20. Nosov A.V. i dr. Meandrovaya liniya zaderzhki iz dvukh vitkov, zashchishchayushchaya ot sverkhkorotkikh impul'sov //Doklady Tomskogo gosudarstvennogo universiteta sistem upravleniya i radioehlektroniki. – 2015. – №. 3 (37). – S. 120-123.
21. Sharafutdinov V.R., Gazizov T.R. Novyi sposob trekhkratnogo rezervirovaniya mezhsoedinenii //Doklady Tomskogo gosudarstvennogo universiteta sistem upravleniya i radioehlektroniki. – 2019. – T. 22. – №. 2. – S. 26-30.
22. Alkhadzh KH.A., Zhechev E.S., Gazizov T.R. Otsenka izluchaemykh ehmissii struktury s odnokratnym modal'nym rezervirovaniem //Ehlektronnye sredstva i sistemy upravleniya. Materialy dokladov Mezhdunarodnoi nauchno-prakticheskoi konferentsii. – federal'noe gosudarstvennoe byudzhetnoe obrazovatel'noe uchrezhdenie vysshego obrazovaniya Tomskii gosudarstvennyi universitet sistem upravleniya i radioehlektroniki, 2020. – №. 1-1. – S. 250-253.
23. Sychev A.N. Upravlyaemye SVCH ustroistva na mnogomodovykh poloskovykh strukturakh. – 2001.
24. Kuksenko S.P. i dr. Novye vozmozhnosti sistemy modelirovaniya ehlektromagnitnoi sovmestimosti TALGAT //Doklady Tomskogo gosudarstvennogo universiteta sistem upravleniya i radioehlektroniki. – 2015. – №. 2 (36). – S. 45-50.
25. Gazizov T.R., Zabolotskii A.M., Orlov P.E. Primenenie kvazistaticheskogo modelirovaniya dlya analiza i verifikatsii rezul'tatov naturnogo ehksperimenta pri issledovanii modal'nykh yavlenii v mnogoprovodnykh strukturakh //Infokommunikatsionnye tekhnologii. – 2013. – T. 11. – №. 4. – S. 75-82.
26. Pravilo trekh sigm [Ehlektronnyi resurs]: FENIKS. URL: https://wiki.fenix.help/matematika/pravilo-trekh-sigm (data obrashcheniya 11.02.2023).
27. Viswanadham P. Essentials of electronic packaging: a multidisciplinary approach. – American society of mechanical engineers, 2011.
For citation:
Kuzmin N.O., Zhechev Y.S. Evaluation of the etching parameters influence on the characteristics of single and multiconductor transmission lines. // Journal of Radio Electronics. – 2023. – №. 11. https://doi.org/10.30898/1684-1719.2023.11.1 (In Russian)