Engineering Journal: Science and InnovationELECTRONIC SCIENCE AND ENGINEERING PUBLICATION
Certificate of Registration Media number Эл #ФС77-53688 of 17 April 2013. ISSN 2308-6033. DOI 10.18698/2308-6033
  • Русский
  • Английский
Article

Shockproof flash data storage device for measuring electric signals under mechanical overloads

Published: 31.03.2022

Authors: Evlanov K.I., Tokarev V.A., Tereshin A.I., Borisenok V.A., Bragunets V.A., Baklashov D.I., Simakov V.G., Shestakov E.E.

Published in issue: #3(123)/2022

DOI: 10.18698/2308-6033-2022-3-2166

Category: Mechanics | Chapter: Dynamics, Strength of Machines, Instruments, and Equipment

The development of non-nuclear weapons with a modern level of characteristics of ammunition for artillery requires the creation and implementation of electronic explosive devices: non-contact, contact, remote, multifunctional. For the successful development of explosive devices, data on the resistance of the element base and functional blocks to overloads are required. In order to increase the efficiency of bench studies of overload resistance, a six-channel non-volatile shock-proof recorder with flash data storage device has been developed, which allows recording and storing information about the operating modes of microelectronic elements and modules during the action of an overload pulse. This paper describes the recorder. The results of its experimental studies are presented. It is shown that the developed recorder with flash storage device allows recording and storing measured information under repeated exposure to overload pulses with a peak value of up to 30000g inclusive and a half-width not less than 0.5 ms.


References
[1] Kozlov V.I. Osobennosti konstruktsii vzryvatelnykh ustroystv k boepripasam stvolnoy artillerii i raketnym snaryadam [Features of the design of explosive devices for cannon artillery ammunition and rocket projectiles]. Moscow, BMSTU Press, 2012.
[2] Merkulova I.I., Kozlov V.I. Inzhenernyy vestnik — Engineering Bulletin, 2014, no. 10, pp. 633–640. Available at: http://ainjournal.ru/file/out/740550
[3] Kolenkin A.V., Gogin V.V., Stetskevich A.D. Boepripasy i vysokoenergeticheskie kondensirovannye sistemy (Munitions and high-energy condensed systems), 2016, no. 2, pp. 1–16.
[4] Evlanov K.I., Tokarev V.A., Borisenok V.A., Bragunets V.A., Baklashov D.I., Simakov V.G. Bench for overload endurance test. Inzhenernyy zhurnal: nauka i innovatsii — Engineering Journal: Science and Innovation, 2019, iss. 5. http://dx.doi.org/10.18698/2308-6033-2019-5-1875
[5] Gorovoy S.A. Fizicheskie osnovy funktsionirovaniya strelkovo-pushechnogo, artilleriyskogo i raketnogo oruzhiya [Physical foundations of the functioning of small arms, artillery and rocket weapons]. Novosibirsk, SGGA, 2007, p. 140.
[6] Tokarev V.A., Borisenok V.A., Evlanov K.I., Bragunets V.A. Laboratornyy kompleks dlya ispytaniy elementov elektroniki na stoykost k peregruzkam. Voprosy oboronnoy tekhniki (Defence Technology Issues), 2019, no. 135–136, pp. 96–104.
[7] Evlanov K.I., Tokarev V.A., Borisenok V.A., et al. Stend dlya ispytaniy elementov elektroniki na stoykost k peregruzkam [Stand for testing electronic elements for resistance to overloads]. Sb. dokladov XXVIII Vserossiyskoy nauchno-tekhnicheskoy konferentsii «Peredacha, priem, obrabotka i otobrazhenie informatsii o bystroprotekayushchikh protsessakh» [Coll. reports at the XXVIII All-Russian Scientific and Technical Conference “Transmission, reception, processing and display of information on fast processes”]. Sochi, 2017, pp. 175–182.
[8] Tokarev V.A., Borisenok V.A., Evlanov K.I., Bragunets V.A., et al. Laboratornyy kompleks dlya ispytaniy elementov elektroniki na stoykost k peregruzkam. Metodiki ispytaniy [Laboratory complex for testing electronic elements for resistance to overloads. Test methods]. Sb. dokladov Yubileynoy XXX Vserossiyskoy nauchno-tekhnicheskoy konferentsii shkoly-seminara «Peredacha, priem, obrabotka i otobrazhenie informatsii o bystroprotekayushchikh protsessakh» [Coll. reports at the XXX All-Russian scientific and technical conference of the school-seminar “Transmission, reception, processing and display of information on fast processes”]. Sochi, 2019, pp. 695–714.
[9] Tokarev V.A., Borisenok V.A., Evlanov K.I., Bragunets V.A., et al. Laboratornyy kompleks dlya ispytaniy elementov elektroniki na stoykost k peregruzkam [Laboratory complex for testing electronic elements for resistance to overloads]. Sb. dokladov XXI Kharitonovskikh tematicheskikh nauchnykh chteniy «Ekstremalnye sostoyaniya veshchestva. Detonatsiya. Udarnye volny» [Coll. reports at the XXI Kharitonov thematic scientific readings “Extreme states of matter. Detonation. Shock Waves”]. Sarov, RFNC–VNIIEF, 2019, vol. 2, pp. 241–249.
[10] Veldanov V.A., Markov V.A., Pusev V.I., Ruchko A.M., Selivanov V.V., Sotskiy M.Yu., Fedorov S.V. Nauka i obrazovanie: Elektronny nauchno-tekhnichesky zhurnal — Science and Education: Electronic scientific and technical journal, 2012, iss. 8, pp. 35–56. DOI: 10.7463/0812.0428828
[11] Rudenko V.L., Palekhov O.N., Abushkevich V.I. Bortovoy elektronnyy registrator dlya registratsii parametrov pri dvizhenii artsnaryadov po kanalu stvola i na trayektorii [An on-board electronic recorder for recording parameters during the movement of artillery shells along the bore and on the trajectory]. Khimicheskaya fizika i mezoskopiya — Chemical Physics and Mezoscopy, 2006, vol. 8, no. 2, p. 163–168.
[12] Botov Ye.V., Khvorostin V.N., Novikov K.P., et al. Ispytaniya elementov radioelektronnoy apparatury na udarnuyu stoykost ne menee 20000g [Tests of elements of radio-electronic equipment for impact resistance of at least 20000g]. Trudy RFNC–VNIIEF [Proceedings of RFNC–VNIIEF], no. 21. Sarov, 2016, part 2, pp. 410–419.
[13] Botvinkin A.K., Bryukhanov N.V., Moiseev Ye.B., et al. Vzryvnye udarnye ustanovki dlya eksperimentalnoy obrabotki raketno-artilleriyskogo vooruzheniya na vozdeystvie intensivnykh mekhanicheskikh nagruzok [Explosive shock installations for experimental processing of rocket and artillery weapons under the influence of intense mechanical loads]. Sb. dokladov nauchn. konf. Volzhskogo regionalnogo tsentra RARAN «Sovremennye metody proektirovaniya i otrabotki raketno-artilleriyskogo vooruzheniya» [Coll. Sc. Reports. conf. of the Volga Regional Center RARAN “Modern methods of design and development of rocket and artillery weapons”]. Sarov, RFNC–VNIIEF, 2000.