Information Technologies in the Design of Electronic Components and Equipment
( Pp. 37-46)
More about authors
Lepeshkin Dmitry S.
Director on information technology
JSC “Russian Space Systems”
Moscow, Russian Federation Razumova Natalia V. Cand. Sci. (Geograph.), Associate Professor; chief designer of the project, Centre for the Implementation of Space Results Projects, Space Results Projects Directorate; JSC “Russian Space Systems”; Moscow, Russian Federation Linkov Alexey D. Cand. Sci. (Econ.); Head, of the Department for Complex Researches and Design of Navigation and Information Systems; deputy head, Multifunctional Navigation and Information Centre, Space Results Projects Directorate; JSC “Russian Space Systems”; Moscow, Russian Federation
JSC “Russian Space Systems”
Moscow, Russian Federation Razumova Natalia V. Cand. Sci. (Geograph.), Associate Professor; chief designer of the project, Centre for the Implementation of Space Results Projects, Space Results Projects Directorate; JSC “Russian Space Systems”; Moscow, Russian Federation Linkov Alexey D. Cand. Sci. (Econ.); Head, of the Department for Complex Researches and Design of Navigation and Information Systems; deputy head, Multifunctional Navigation and Information Centre, Space Results Projects Directorate; JSC “Russian Space Systems”; Moscow, Russian Federation
Abstract:
Amid growing requirements for the quality and reliability of electronic equipment in high-tech products (including rocket and space technology), there is a noticeable gap between industry needs and the capabilities of domestic electronic component bases (ECB). This article examines existing approaches to the selection and application of ECB, including both Russian and imported components, with a focus on current limitations. Special attention is given to the necessity of transitioning from traditional ECB selection to automated component design using modern information technologies. A detailed design workflow for equipment components is presented, covering modeling, physical verification, integrated circuit design, unit and printed circuit board (PCB) design, enclosure development, and the use of modern CAD and process simulation tools. The paper emphasizes information support for various design stages, as well as methods and tools that ensure high precision, reliability, and compliance with technical-economic requirements.
How to Cite:
Lepeshkin D.S., Razumova N.V., and Linkov A.D. Information technologies in the design of electronic components and equipment. Computational Nanotechnology. 12, 5 (2025), 37–46. DOI: 10.33693/2313-223X-2025-12-5-37-46. EDN: FFEPQV
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Mukhametgalina D.D. Information system for determining the parameters of the electronic component base. In: Young Scientist of the Year. Collection of articles from the VI International Research Competition. Penza, 2023. Pp. 30–36.
Popkovich T.G. PLM-systems application in aerospace industry. AIP Conference Proceedings. 2021. Vol. 2318. P. 070011. DOI: 10.1063/5.0035761.
Meeshi M.M., Kulkarni V.N. et al. A review on PLM platform deployment in aerospace industries. AIP Conference Proceedings. 2021. Vol. 2358. P. 100011. DOI: 10.1063/5.0057962.
Jain A. The synergy between PLM and MES: Enabling closed-loop manufacturing. International Journal of Computer Engineering & Technology. 2025. Vol. 16. Pp. 3171–3189.
Gunjal H., Belokar R. Systematic review: Implementation of product lifecycle management in industries. 2023. DOI: 10.1007/978-981-19-6107-6_19.
Guerra-Zubiaga D., Briceno S. Product lifecycle management tools to support next generation of mechatronic systems at aerospace industry. 2017. V002T02A078. DOI: 10.1115/IMECE2017-71118.
Saini J. Integrating PLM and digital twin technologies: A comprehensive analysis of modern product development. International Journal of Scientific Research in Computer Science, Engineering and Information Technology. 2025. Vol. 11. Pp. 2626–2636. DOI: 10.32628/CSEIT251112264.
Sreeperambuduru R. Beyond traditional PLM: Leveraging data science for competitive advantage. World Journal of Advanced Research and Reviews. 2025. Vol. 26. Pp. 1051–1057. DOI: 10.30574/wjarr.2025.26.2.1611.
Geß Ch. Trends affecting PLM processes of large industry companies. International Journal of Business and Management Invention. 2024. Vol. 13. Pp. 207–215. DOI: 10.35629/8028-1311207215.
Kundaragi A., Kulkarni V. et al. A review on industry 4.0 with PLM technologies. AIP Conference Proceedings. 2023. 040027. DOI: 10.1063/5.0121397.
Keywords:
electronic component base (ECB), product lifecycle management (PLM), PLM system, digital transformation, information support, automated design workflow.
