B.A. Levitan1, A.V. Nevokshenov2, P.A. Tushnov3

1-3 PJSC “Radiofizika” (Moscow, Russia)

1 Moscow Institute of Physics and Technology (National Research University) (Dolgoprudny, Russia)

1 Moscow Aviation Institute (National Research University) (Moscow, Russia)

1 levitan.b@radiofizika.com; 2 nevokshenov.a@radiofizika.com; 3 tushnov.p@radiofizika.com

The article provides statistical data on the detection of defective electronic components used in the production of four-channel S-band TRM at the production stage.

Approaches to forming a local selection of electronic components for input control based on the Pareto rule have been formulated.

The composition of the control stand equipment is described, and the timing of the input control operations is provided.

A technical and economic analysis of the feasibility of conducting input control of purchased electronic components during the serial production of PPMs from the manufacturer's perspective is presented.

Levitan B.A., Nevokshenov A.V., Tushnov P.A. Input control of electronic components in the production of multi-channel transceiver modules for active phased array antennas. Radiotekhnika. 2025. V. 89. № 10. P. 53−60. DOI: https://doi.org/10.18127/j00338486-202510-06 (In Russian)

1. Nevokshenov A.V., Shestakova O.V., Tushnov P.A. Modelirovanie proizvodstvennogo cikla izgotovlenija priemo-peredajushhih modulej aktivnyh fazirovannyh antennyh reshetok pri postanovke na serijnoe proizvodstvo. Radiotehnika. 2021. T. 85. № 10. S. 19−29. DOI: https://doi.org/10.18127/j00338486-202110-03 (in Russian).
2. Nevokshenov A.V., Shestakova O.V., Levitan B.A., Tushnov P.A. Primenenie metodov imitacionnogo modelirovanija dlja optimizacii proizvodstvennogo cikla izgotovlenija priemoperedajushhih modulej aktivnyh fazirovannyh antennyh reshetok. Radiotehnika. 2022. T. 86. № 10. S. 134-143. DOI: https://doi.org/10.18127/j00338486-202210-15 (in Russian).
3. Tushnov P.A., Berdyev V.S., Levitan B.A. Aspekty razvitija tehnologij priemo-peredajushhih modulej aktivnyh fazi-rovannyh reshetok. Radiotehnika. 2015. № 4. S. 91−98 (in Russian).
4. Tushnov P.A., Kostromov A.N., Nevokshenov A.V. Issledovanie processa serijnogo izgotovlenija priemoperedajushhih modulej AFAR dlja diskretnogo rezhima proizvodstva. Radiotehnika. 2018. № 4. S. 31–44 (in Russian).
5. Patent № 2576666 (RF). Sposob montazha moshhnogo poluprovodnikovogo jelementa. Levitan B.A., Kuzin A.A., Topchiev S.A., Radchenko V.P., Dominjuk Ja.V., Tushnov P.A., Berdyev V.S., Koljushev A.V., Mitrofanov M.M., Kostin D.Ju., Astaf'ev A.A. 28.08.2014 (in Russian).
6. Tushnov P.A., Berdyev V.S., Levitan B.A. Issledovanie vlijanija konstruktivnyh faktorov na jelektricheskie parametry integral'nyh funkcional'nyh ustrojstv priemoperedajushhih modulej AFAR. Radiotehnika. 2020. № 4(7). S. 47−60. DOI: 10.18127/j00338486-202004(7)-06 (in Russian).
7. Dansmor Dzhojel' P. Nastol'naja kniga inzhenera. Izmerenie parametrov SVCh-ustrojstv s ispol'zovaniem peredovyh metodik vektornogo analiza cepej. M.: Tehnosfera. 2019 (in Russian).
8. Patent № 2680161 C1 (RF). Sposob testirovanija GIS SVCh. Tushnov P.A., Nevokshenov A.V., Posadnev A.Ju., Borodina E.A., Koshelev S.V., Kazakov A.V., Golubev A.V. 27.04.2018 (in Russian).