Abstract

A memory cell structure is proposed that uses a Schottky barrier thin film transistor based on an amorphous semiconductor as a junction element, and a chalcogenide glassy semiconductor film as a switching element. A physical storage cell model has been developed. The dependence of the transistor and memory cell parameters on the dose of neutron flux and γ - quanta was investigated. It is shown that when the dose of neutron irradiation is changed, the steepness of the drain-gate characteristic (DGC) decreases by 10% at a dose of the order of 1015 n/s, at the same time, the transfer coefficient of the bipolar n-p-n transistor decreases by 20% already at doses of 1013 n/s, indicating a significant increase in the radiation resistance of the proposed memory cell. In the case of irradiation with γ - quanta in the range up to 2.6 Mrad, the steepness of the DGC of the proposed structure changes by only 10%. When used as an isolation element, a field-effect transistor with an insulated gate, the slope of the DGC is reduced by 50%, that it is bad result. It is shown that the current of recording information of the proposed structure when changing the dose of γ - quantum flux to 2.6 Mrad changes by about 10%, at the same time, in the case of using a field-effect transistor with an isolated cover, the information recording current changes by 50%. The study of the dependence of the gate current on the dose of γ – quanta is showed. When the radiation dose changes from 0 to 2.6 Mrad, the gate current changes only by 10%, which indicates the high resistance of the proposed structure to the action of permeable radiation.

Highlights

  • Важливою умовою при проектуваннi радiоелектронних систем вiйськового та космiчного призначення є забезпечення високої стiйкостi до дiї проникаючої радiацiї, iонiзуючих опромiнень та iнших зовнiшнiх впливiв [1, 2]

  • Що має мiсце збiльшення щiльностi локалiзованих станiв, яке частково компенсується зменшенням рухливостi носiїв заряду та коефiцiєнта дифузiї, залежнiсть якого вiд дози опромiнення визначається за виразом, аналогiчним (5)

  • 4. Bjorn Van Bockel Radiation Assessment of a 15.6 ps Single-Shot Time-to-Digital Converter in Terms of TID / Bjorn Van Bockel, Jeffrey Prinzie and Paul Leroux // Electronics

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Summary

Introduction

Важливою умовою при проектуваннi радiоелектронних систем вiйськового та космiчного призначення є забезпечення високої стiйкостi до дiї проникаючої радiацiї, iонiзуючих опромiнень та iнших зовнiшнiх впливiв [1, 2]. Аналiз виразу для струму стоку (1), який визначає струм запису логiчної «1» показує, що його величина залежить вiд рухливостi носiїв заряду та концентрацiї заряду на поверхнi АН, або щiльностi поверхневих станiв. Тому доцiльно оцiнити залежнiсть щiльностi поверхневих станiв та рухливостi носiїв заряду вiд дози опромiнення.

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Conclusion

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