The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
Copyrights notice
The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Un schéma est proposé pour la génération d'impulsions courtes de grande amplitude à l'aide d'une ligne de transmission avec des diodes tunnel (TD) connectées en série régulièrement espacées. Dans le cas où le TD chargé est unique, il est établi que le front montant de l'impulsion entrée se déplace plus lentement que le front arrière, lorsque l'amplitude de l'impulsion dépasse la tension de crête du TD chargé ; par conséquent, la largeur d'impulsion est réduite de manière autonome par propagation dans la ligne. Dans cette étude, nous constatons que cette propriété est vraie même lorsque les plusieurs TD connectés en série sont chargés périodiquement. Grâce à ces mécanismes, la ligne TD réussit à générer des impulsions larges et courtes. Ici, nous clarifions les critères de conception de la ligne TD, ainsi que la validation numérique et expérimentale.
Koichi NARAHARA
Kanagawa Institute of Technology
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Koichi NARAHARA, "Generation of Large-Amplitude Pulses through the Pulse Shortening Superposed in Series-Connected Tunnel-Diode Transmission Line" in IEICE TRANSACTIONS on Electronics,
vol. E104-C, no. 8, pp. 394-397, August 2021, doi: 10.1587/transele.2020ECS6021.
Abstract: A scheme is proposed for generation of large-amplitude short pulses using a transmission line with regularly spaced series-connected tunnel diodes (TDs). In the case where the loaded TD is unique, it is established that the leading edge of the inputted pulse moves slower than the trailing edge, when the pulse amplitude exceeds the peak voltage of the loaded TD; therefore, the pulse width is autonomously reduced through propagation in the line. In this study, we find that this property is true even when the several series-connected TDs are loaded periodically. By these mechanisms, the TD line succeeds in generating large and short pulses. Herein, we clarify the design criteria of the TD line, together with both numerical and experimental validation.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/transele.2020ECS6021/_p
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@ARTICLE{e104-c_8_394,
author={Koichi NARAHARA, },
journal={IEICE TRANSACTIONS on Electronics},
title={Generation of Large-Amplitude Pulses through the Pulse Shortening Superposed in Series-Connected Tunnel-Diode Transmission Line},
year={2021},
volume={E104-C},
number={8},
pages={394-397},
abstract={A scheme is proposed for generation of large-amplitude short pulses using a transmission line with regularly spaced series-connected tunnel diodes (TDs). In the case where the loaded TD is unique, it is established that the leading edge of the inputted pulse moves slower than the trailing edge, when the pulse amplitude exceeds the peak voltage of the loaded TD; therefore, the pulse width is autonomously reduced through propagation in the line. In this study, we find that this property is true even when the several series-connected TDs are loaded periodically. By these mechanisms, the TD line succeeds in generating large and short pulses. Herein, we clarify the design criteria of the TD line, together with both numerical and experimental validation.},
keywords={},
doi={10.1587/transele.2020ECS6021},
ISSN={1745-1353},
month={August},}
Copier
TY - JOUR
TI - Generation of Large-Amplitude Pulses through the Pulse Shortening Superposed in Series-Connected Tunnel-Diode Transmission Line
T2 - IEICE TRANSACTIONS on Electronics
SP - 394
EP - 397
AU - Koichi NARAHARA
PY - 2021
DO - 10.1587/transele.2020ECS6021
JO - IEICE TRANSACTIONS on Electronics
SN - 1745-1353
VL - E104-C
IS - 8
JA - IEICE TRANSACTIONS on Electronics
Y1 - August 2021
AB - A scheme is proposed for generation of large-amplitude short pulses using a transmission line with regularly spaced series-connected tunnel diodes (TDs). In the case where the loaded TD is unique, it is established that the leading edge of the inputted pulse moves slower than the trailing edge, when the pulse amplitude exceeds the peak voltage of the loaded TD; therefore, the pulse width is autonomously reduced through propagation in the line. In this study, we find that this property is true even when the several series-connected TDs are loaded periodically. By these mechanisms, the TD line succeeds in generating large and short pulses. Herein, we clarify the design criteria of the TD line, together with both numerical and experimental validation.
ER -