INVESTIGATION OF LINEAR PULSE ELECTROMECHANICAL CONVERTER OF INDUCTION TYPE WITH DOUBLE ARMATURE INTENDED FOR DESTROYING INFORMATION ON SSD STORAGE DEVICE

INVESTIGATION OF LINEAR PULSE ELECTROMECHANICAL CONVERTER OF INDUCTION TYPE WITH DOUBLE ARMATURE INTENDED FOR DESTROYING INFORMATION ON SSD STORAGE DEVICE

Purpose. The goal of the paper is to determine the influence of the linear pulse electromechanical converter (LPEC) parameters with a double armature on its electrical, power and temperature indices and experimental verification of the proposed design for an information destruction device in a flat...

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Збережено в:
Бібліографічні деталі
Дата:2018
Автори: Bolyukh, V. F., Kashanskij, Yu. V., Kocherga, A. I., Schukin, I. S.
Формат: Стаття
Мова:English
Ukrainian
Опубліковано: National Technical University "Kharkiv Polytechnic Institute" and State Institution “Institute of Technical Problems of Magnetism of the National Academy of Sciences of Ukraine” 2018
Теми:
linear pulse electromechanical converter of induction type
double armature
electrodynamic processes
digital SSD storage device
experimental sample
621.313
536.2.24
539.2
линейный импульсный электромеханический преобразователь индукционного типа
двойной якорь
электродинамические процессы
цифровой SSD накопитель
экспериментальный образец
Онлайн доступ:http://eie.khpi.edu.ua/article/view/2074-272X.2018.5.03
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Назва журналу:Electrical Engineering & Electromechanics

Репозитарії

Electrical Engineering & Electromechanics
id eiekhpieduua-article-144433
record_format ojs
institution Electrical Engineering & Electromechanics
collection OJS
language English
Ukrainian
topic linear pulse electromechanical converter of induction type
double armature
electrodynamic processes
digital SSD storage device
experimental sample
621.313
536.2.24
539.2
линейный импульсный электромеханический преобразователь индукционного типа
двойной якорь
электродинамические процессы
цифровой SSD накопитель
экспериментальный образец
621.313
536.2.24
539.2
spellingShingle linear pulse electromechanical converter of induction type
double armature
electrodynamic processes
digital SSD storage device
experimental sample
621.313
536.2.24
539.2
линейный импульсный электромеханический преобразователь индукционного типа
двойной якорь
электродинамические процессы
цифровой SSD накопитель
экспериментальный образец
621.313
536.2.24
539.2
Bolyukh, V. F.
Kashanskij, Yu. V.
Kocherga, A. I.
Schukin, I. S.
INVESTIGATION OF LINEAR PULSE ELECTROMECHANICAL CONVERTER OF INDUCTION TYPE WITH DOUBLE ARMATURE INTENDED FOR DESTROYING INFORMATION ON SSD STORAGE DEVICE
topic_facet linear pulse electromechanical converter of induction type
double armature
electrodynamic processes
digital SSD storage device
experimental sample
621.313
536.2.24
539.2
линейный импульсный электромеханический преобразователь индукционного типа
двойной якорь
электродинамические процессы
цифровой SSD накопитель
экспериментальный образец
621.313
536.2.24
539.2
format Article
author Bolyukh, V. F.
Kashanskij, Yu. V.
Kocherga, A. I.
Schukin, I. S.
author_facet Bolyukh, V. F.
Kashanskij, Yu. V.
Kocherga, A. I.
Schukin, I. S.
author_sort Bolyukh, V. F.
title INVESTIGATION OF LINEAR PULSE ELECTROMECHANICAL CONVERTER OF INDUCTION TYPE WITH DOUBLE ARMATURE INTENDED FOR DESTROYING INFORMATION ON SSD STORAGE DEVICE
title_short INVESTIGATION OF LINEAR PULSE ELECTROMECHANICAL CONVERTER OF INDUCTION TYPE WITH DOUBLE ARMATURE INTENDED FOR DESTROYING INFORMATION ON SSD STORAGE DEVICE
title_full INVESTIGATION OF LINEAR PULSE ELECTROMECHANICAL CONVERTER OF INDUCTION TYPE WITH DOUBLE ARMATURE INTENDED FOR DESTROYING INFORMATION ON SSD STORAGE DEVICE
title_fullStr INVESTIGATION OF LINEAR PULSE ELECTROMECHANICAL CONVERTER OF INDUCTION TYPE WITH DOUBLE ARMATURE INTENDED FOR DESTROYING INFORMATION ON SSD STORAGE DEVICE
title_full_unstemmed INVESTIGATION OF LINEAR PULSE ELECTROMECHANICAL CONVERTER OF INDUCTION TYPE WITH DOUBLE ARMATURE INTENDED FOR DESTROYING INFORMATION ON SSD STORAGE DEVICE
title_sort investigation of linear pulse electromechanical converter of induction type with double armature intended for destroying information on ssd storage device
title_alt ИССЛЕДОВАНИЕ ЛИНЕЙНОГО ИМПУЛЬСНОГО ЭЛЕКТРОМЕХАНИЧЕСКОГО ПРЕОБРАЗОВАТЕЛЯ ИНДУКЦИОННОГО ТИПА С ДВОЙНЫМ ЯКОРЕМ, ПРЕДНАЗНАЧЕННОГО ДЛЯ УНИЧТОЖЕНИЯ ИНФОРМАЦИИ НА SSD НАКОПИТЕЛЕ
description Purpose. The goal of the paper is to determine the influence of the linear pulse electromechanical converter (LPEC) parameters with a double armature on its electrical, power and temperature indices and experimental verification of the proposed design for an information destruction device in a flat SSD storage device. Methodology. Using the mathematical model that takes into account interrelated electrical, magnetic, thermal and mechanical processes, the influence of geometric parameters on the electrodynamic characteristics and the indices of the induction type LPEC with a double armature spanning the inductor from opposite sides is investigated. Results. It is shown that the currents in the inductor and armature change in accordance with the oscillation-damping law practically in antiphase. The maximum value of the current density in the inductor is 215.8 A/mm2, and in each of the identical parts of the double armature it is 299.7 A/mm2. The maximum value of electrodynamic forces (EDF) acting in opposite directions on the front and rear of the double armature is 11.99 kN, and the value of the EDF pulse is 4.59 N∙s. Originality. It is established that with axial removal of the rear part of the armature from the inductor, the maximum current densities in the inductor decrease, in the front part of the armature increase, and in the rear part of the armature decrease. The maximum value and the pulse of the EDF between the armature parts decrease. With an increase in the number of turns in the inductor and a decrease in the thickness of the copper bus, all the basic indicators of the LPEC increase. With an increase in the number of turns of the inductor from 26 to 56, the maximum EDF value acting between the parts of the armature increases almost 3 times, and the magnitude of the EDF pulse is 3.3 times. With an increase in the width of the copper bus and the width of the inductor, the main indicators of the LPEC decrease. With an increase in the width of the inductor from 10 mm to 20 mm, the maximum EDF between the armature parts decreases by 1.3 times, and the value of the EDF pulse decreases by 1.2 times. Practical value. Based on the conducted studies, an induction-type LPEC model with a double armature was designed and tested experimentally, designed to destroy information located on a solid-state digital SSD storage device. 
publisher National Technical University "Kharkiv Polytechnic Institute" and State Institution “Institute of Technical Problems of Magnetism of the National Academy of Sciences of Ukraine”
publishDate 2018
url http://eie.khpi.edu.ua/article/view/2074-272X.2018.5.03
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first_indexed 2024-06-01T14:39:05Z
last_indexed 2024-06-01T14:39:05Z
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spelling eiekhpieduua-article-1444332019-05-28T11:38:26Z INVESTIGATION OF LINEAR PULSE ELECTROMECHANICAL CONVERTER OF INDUCTION TYPE WITH DOUBLE ARMATURE INTENDED FOR DESTROYING INFORMATION ON SSD STORAGE DEVICE ИССЛЕДОВАНИЕ ЛИНЕЙНОГО ИМПУЛЬСНОГО ЭЛЕКТРОМЕХАНИЧЕСКОГО ПРЕОБРАЗОВАТЕЛЯ ИНДУКЦИОННОГО ТИПА С ДВОЙНЫМ ЯКОРЕМ, ПРЕДНАЗНАЧЕННОГО ДЛЯ УНИЧТОЖЕНИЯ ИНФОРМАЦИИ НА SSD НАКОПИТЕЛЕ Bolyukh, V. F. Kashanskij, Yu. V. Kocherga, A. I. Schukin, I. S. linear pulse electromechanical converter of induction type double armature electrodynamic processes digital SSD storage device experimental sample 621.313 536.2.24 539.2 линейный импульсный электромеханический преобразователь индукционного типа двойной якорь электродинамические процессы цифровой SSD накопитель экспериментальный образец 621.313 536.2.24 539.2 Purpose. The goal of the paper is to determine the influence of the linear pulse electromechanical converter (LPEC) parameters with a double armature on its electrical, power and temperature indices and experimental verification of the proposed design for an information destruction device in a flat SSD storage device. Methodology. Using the mathematical model that takes into account interrelated electrical, magnetic, thermal and mechanical processes, the influence of geometric parameters on the electrodynamic characteristics and the indices of the induction type LPEC with a double armature spanning the inductor from opposite sides is investigated. Results. It is shown that the currents in the inductor and armature change in accordance with the oscillation-damping law practically in antiphase. The maximum value of the current density in the inductor is 215.8 A/mm2, and in each of the identical parts of the double armature it is 299.7 A/mm2. The maximum value of electrodynamic forces (EDF) acting in opposite directions on the front and rear of the double armature is 11.99 kN, and the value of the EDF pulse is 4.59 N∙s. Originality. It is established that with axial removal of the rear part of the armature from the inductor, the maximum current densities in the inductor decrease, in the front part of the armature increase, and in the rear part of the armature decrease. The maximum value and the pulse of the EDF between the armature parts decrease. With an increase in the number of turns in the inductor and a decrease in the thickness of the copper bus, all the basic indicators of the LPEC increase. With an increase in the number of turns of the inductor from 26 to 56, the maximum EDF value acting between the parts of the armature increases almost 3 times, and the magnitude of the EDF pulse is 3.3 times. With an increase in the width of the copper bus and the width of the inductor, the main indicators of the LPEC decrease. With an increase in the width of the inductor from 10 mm to 20 mm, the maximum EDF between the armature parts decreases by 1.3 times, and the value of the EDF pulse decreases by 1.2 times. Practical value. Based on the conducted studies, an induction-type LPEC model with a double armature was designed and tested experimentally, designed to destroy information located on a solid-state digital SSD storage device.  При помощи математической модели, учитывающей взаимосвязанные электрические, магнитные, тепловые и механические процессы исследовано влияние геометрических параметров на электродинамические характеристики и показатели линейного импульсного электромеханического преобразователя (ЛИЭП) индукционного типа с двойным якорем, охватывающим индуктор с противоположных сторон. При аксиальном удалении задней части якоря от индуктора максимальные плотности токов в индукторе уменьшается, в передней части якоря увеличивается, а в задней части якоря уменьшается. Максимальная величина и импульс электродинамических усилий (ЭДУ) между частями якоря уменьшаются. При увеличении числа витков индуктора и уменьшении толщины медной шины происходит увеличение всех основных показателей ЛИЭП. При увеличении числа витков индуктора от 26 до 56 максимальная величина ЭДУ, действующая между частями якоря, возрастает практически в 3 раза, а величина импульса ЭДУ в 3,3 раза. При увеличении ширины медной шины и ширины индуктора происходит уменьшение основных показателей ЛИЭП. При увеличении ширины индуктора от 10 мм до 20 мм максимальная величина ЭДУ между частями якоря уменьшается в 1,3 раза, а величина импульса ЭДУ уменьшается в 1,2 раза. На основании проведенных исследований был разработан и экспериментально испытан образец ЛИЭП индукционного типа с двойным якорем, предназначенный для уничтожения информации, размещенной на цифровом SSD накопителе.  National Technical University "Kharkiv Polytechnic Institute" and State Institution “Institute of Technical Problems of Magnetism of the National Academy of Sciences of Ukraine” 2018-10-15 Article Article application/pdf application/pdf http://eie.khpi.edu.ua/article/view/2074-272X.2018.5.03 10.20998/2074-272X.2018.5.03 Electrical Engineering & Electromechanics; No. 5 (2018); 17-23 Электротехника и Электромеханика; № 5 (2018); 17-23 Електротехніка і Електромеханіка; № 5 (2018); 17-23 2309-3404 2074-272X en uk http://eie.khpi.edu.ua/article/view/2074-272X.2018.5.03/142242 http://eie.khpi.edu.ua/article/view/2074-272X.2018.5.03/142243 Copyright (c) 2018 V. F. Bolyukh, Yu. V. Kashanskij, A. I. Kocherga, I. S. Schukin https://creativecommons.org/licenses/by-nc/4.0

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