Mathematical and software of the information and measuring system for improving the reliability of electronic equipment designs

Erbol T. Eskibaev, Head of the sub-department of aviation tactics, Military Institute of Air Defense Forces named after twice Hero of the Soviet Union T.Ya. Begeldinov (39A Aliyi Moldagulovoy street, Aktobe, Kazakhstan),  erbol.eskibaev_26.04@mail.ru
Galymzhan A. Anuar, Senior lecturer of the sub-department of space engineering and technology, Eurasian National University (2 Satpayeva street, Astana, Kazakhstan), galym_rma@mail.ru
Askar Gadylshievich Izbasov, Deputy head of the Military Institute, Military Institute of Air Defense Forces named after twice Hero of the Soviet Union T.Ya. Begeldinov (39A Aliyi Moldagulovoy street, Aktobe, Kazakhstan), iag1973@mail.ru
Ilya Mikhailovich Rybakov, Candidate of engineering sciences, associate professor of the sub-department of design and production of radio equipment, Penza State University (40 Krasnaya street, Penza, Russia), rybakov_im@mail.ru
Madi N. Bayseitov, Lecturer of the sub-department of aviation tactics, Military Institute of Air Defense Forces named after twice Hero of the Soviet Union T.Y. Begeldinov (39A Aliyi Moldagulovoy street, Aktobe, Kazakhstan),  danikm755@gmail.com
Aleksey V. Grigoriev, Candidate of engineering sciences, associate professor of the sub-department of constructing and producing radio equipment, Penza State University (40 Krasnaya street, Penza, Russia),  a_grigorev@mail.ru

Background. The study of electronic equipment in the field of the impact of vibration load on it does not cease to be relevant for complex systems with high-speed electronic equipment. Printed circuit board manufacturing technologies, and the printed circuit board itself, currently represents a well-established production mechanism, as a result of which a high-quality product in the form of printed circuit boards is obtained. But despite the high degree of reliability of electronic equipment, and in particular its component part, as a printed circuit board, when certain conditions of external influencing factors occur, there is a high chance of its failure due to the occurrence of critical deformations and mechanical stresses in the design of the printed circuit board. In this regard, there is a problem of taking into account critical deformations in the design of the printed circuit board when certain (harsh) conditions of external influencing factors occur and developing ways to analyze, prevent and improve the design of the printed circuit board. Materials and methods. The paper uses methods and methods of mathematical, simulation, algorithmic and software analysis and calculation of critical deformations taking into account mechanical  tresses in typical PCB designs to increase its mechanical strength. Results. Models and methods of modeling electronic equipment designs have been improved to improve accuracy and reliability prediction. Conclusions. The refined mathematical and simulation models of calculation of mechanical stresses and displacements of the printed circuit board, the algorithm of application of the refined mathematical model, the program of calculation of the clarifying coefficient are developed.

accuracy, simulation model, reliability, algorithm, refinement factor

Eskibaev E.T., Anuar G.A., Izbasov A.G., Rybakov I.M., Bayseitov M.N., Grigoriev A.V. Mathematical and software of the information and measuring system for improving the reliability of electronic equipment designs. Izvestiya vysshikh uchebnykh zavedeniy. Povolzhskiy region. Tekhnicheskie nauki = University proceedings. Volga region. Engineering sciences. 2023;(2):90–106. (In Russ.). doi: 10.21685/2072-3059-2023-2-7