Высокочувствительный фотоприемник на основе германиевой двухбарьерной структуры с эффектом смыкания

Высокочувствительный фотоприемник на основе германиевой двухбарьерной структуры с эффектом смыкания

In recent years, transmission and reception systems of optical signals are widely used. Receiving the optical signal in such systems is carried by photoreceiving modules based on a photodetector, which defines the quality of the received signal, the range and speed of the entire system. However, hit...

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Datum:2015
Hauptverfasser: Abdulkhaev, O. A., Yodgorova, D. M., Karimov, A. V., Kuliyev, S. M.
Format: Artikel
Sprache:Ukrainian
Veröffentlicht: PE "Politekhperiodika", Book and Journal Publishers 2015
Schlagworte:
фотоприемник
обратный ток
эффект смыкания
тонкая база
область объемного заряда
фоточувствительность
ограничитель напряжения
Online Zugang:https://www.tkea.com.ua/index.php/journal/article/view/TKEA2015.4.24
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Назва журналу:Technology and design in electronic equipment

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Technology and design in electronic equipment
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spelling oai:tkea.com.ua:article-2722025-05-30T19:32:27Z Highly sensitive photodetector based on ge double-barrier punch-through structure Высокочувствительный фотоприемник на основе германиевой двухбарьерной структуры с эффектом смыкания Abdulkhaev, O. A. Yodgorova, D. M. Karimov, A. V. Kuliyev, S. M. photodetector reverse current punch-through effect thin base space charge region photosensitivity voltage surge suppressor фотоприемник обратный ток эффект смыкания тонкая база область объемного заряда фоточувствительность ограничитель напряжения In recent years, transmission and reception systems of optical signals are widely used. Receiving the optical signal in such systems is carried by photoreceiving modules based on a photodetector, which defines the quality of the received signal, the range and speed of the entire system. However, hitherto used p–i–n- and avalanche photodiodes do not fully meet the growing demands. The present work is devoted to investigate the photovoltaic characteristics of semiconductor thin base transistor structure based on germanium, which is superior the silicon counterparts by speed and gain.Investigated p+–n–p-structures were obtained by diffusion of antimony onto the substrate of p-type germanium to a depth of 1 µm and alloying of indium to the part of its surface which creates diffusion layer of p+-type and with thickness of 0,5 µm.Experiments have shown that the reverse biasing of a single p+–n-emitter-base junction leads to a smooth increase in reverse current, at the same time when it is connected in series to forward biased collector p–n-junction there is a sharp increase in the current by voltage, giving properties of voltage surge suppressor. This behaviour of the current-voltage characteristics can be explained by the punch-through effect when the space charge regions of the emitter junction and the space charge region of collector junction touch each other and the conditions are realized for double carrier injection into a fully depleted region of the transistor. At the same time giving small fixed voltages 0.1 – 0.15 V to the collector-base junction, the output static characteristics can be received with an operating voltage of 3.0 – 3.5 V.A characteristic feature of the investigated transistor is that when the base region under illumination by integrated light intensity (50 and 3000 lux) light current appears, whose magnitude with the increase of operating voltage (up to 1.7 V) increases nonlinearly, resulting in increased current photosensitivity up to 17 µA/lux, which is one and a half orders of magnitude greater than photosensitivity of germanium phototransistor “OOA-5”. Приведены результаты исследования тонкобазовой германиевой р+–n–p-структуры с эффектом смыкания при различных режимах включения. Экспериментально показано, что в режиме запирания р+–n-перехода из-за полного обеднения базовой области структура становится аналогом ограничителя напряжения, а в активном режиме при подсветке базовой области приобретает свойства фототранзистора. PE "Politekhperiodika", Book and Journal Publishers 2015-08-25 Article Article Peer-reviewed Article application/pdf https://www.tkea.com.ua/index.php/journal/article/view/TKEA2015.4.24 10.15222/TKEA2015.4.24 Technology and design in electronic equipment; No. 4 (2015): Tekhnologiya i konstruirovanie v elektronnoi apparature; 24-27 Технологія та конструювання в електронній апаратурі; № 4 (2015): Технология и конструирование в электронной аппаратуре; 24-27 3083-6549 3083-6530 uk https://www.tkea.com.ua/index.php/journal/article/view/TKEA2015.4.24/240 Copyright (c) 2015 Abdulkhaev O. A., Yodgorova D. M., Karimov A. V., Kuliyev S. M. http://creativecommons.org/licenses/by/4.0/
institution Technology and design in electronic equipment
baseUrl_str
datestamp_date 2025-05-30T19:32:27Z
collection OJS
language Ukrainian
topic фотоприемник
обратный ток
эффект смыкания
тонкая база
область объемного заряда
фоточувствительность
ограничитель напряжения
spellingShingle фотоприемник
обратный ток
эффект смыкания
тонкая база
область объемного заряда
фоточувствительность
ограничитель напряжения
Abdulkhaev, O. A.
Yodgorova, D. M.
Karimov, A. V.
Kuliyev, S. M.
Высокочувствительный фотоприемник на основе германиевой двухбарьерной структуры с эффектом смыкания
topic_facet photodetector
reverse current
punch-through effect
thin base
space charge region
photosensitivity
voltage surge suppressor
фотоприемник
обратный ток
эффект смыкания
тонкая база
область объемного заряда
фоточувствительность
ограничитель напряжения
format Article
author Abdulkhaev, O. A.
Yodgorova, D. M.
Karimov, A. V.
Kuliyev, S. M.
author_facet Abdulkhaev, O. A.
Yodgorova, D. M.
Karimov, A. V.
Kuliyev, S. M.
author_sort Abdulkhaev, O. A.
title Высокочувствительный фотоприемник на основе германиевой двухбарьерной структуры с эффектом смыкания
title_short Высокочувствительный фотоприемник на основе германиевой двухбарьерной структуры с эффектом смыкания
title_full Высокочувствительный фотоприемник на основе германиевой двухбарьерной структуры с эффектом смыкания
title_fullStr Высокочувствительный фотоприемник на основе германиевой двухбарьерной структуры с эффектом смыкания
title_full_unstemmed Высокочувствительный фотоприемник на основе германиевой двухбарьерной структуры с эффектом смыкания
title_sort высокочувствительный фотоприемник на основе германиевой двухбарьерной структуры с эффектом смыкания
title_alt Highly sensitive photodetector based on ge double-barrier punch-through structure
description In recent years, transmission and reception systems of optical signals are widely used. Receiving the optical signal in such systems is carried by photoreceiving modules based on a photodetector, which defines the quality of the received signal, the range and speed of the entire system. However, hitherto used p–i–n- and avalanche photodiodes do not fully meet the growing demands. The present work is devoted to investigate the photovoltaic characteristics of semiconductor thin base transistor structure based on germanium, which is superior the silicon counterparts by speed and gain.Investigated p+–n–p-structures were obtained by diffusion of antimony onto the substrate of p-type germanium to a depth of 1 µm and alloying of indium to the part of its surface which creates diffusion layer of p+-type and with thickness of 0,5 µm.Experiments have shown that the reverse biasing of a single p+–n-emitter-base junction leads to a smooth increase in reverse current, at the same time when it is connected in series to forward biased collector p–n-junction there is a sharp increase in the current by voltage, giving properties of voltage surge suppressor. This behaviour of the current-voltage characteristics can be explained by the punch-through effect when the space charge regions of the emitter junction and the space charge region of collector junction touch each other and the conditions are realized for double carrier injection into a fully depleted region of the transistor. At the same time giving small fixed voltages 0.1 – 0.15 V to the collector-base junction, the output static characteristics can be received with an operating voltage of 3.0 – 3.5 V.A characteristic feature of the investigated transistor is that when the base region under illumination by integrated light intensity (50 and 3000 lux) light current appears, whose magnitude with the increase of operating voltage (up to 1.7 V) increases nonlinearly, resulting in increased current photosensitivity up to 17 µA/lux, which is one and a half orders of magnitude greater than photosensitivity of germanium phototransistor “OOA-5”.
publisher PE "Politekhperiodika", Book and Journal Publishers
publishDate 2015
url https://www.tkea.com.ua/index.php/journal/article/view/TKEA2015.4.24
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