Design Method for Negative Group Delay Circuits Based on Relations among Signal Attenuation, Group Delay, and Bandwidth

Design Method for Negative Group Delay Circuits Based on Relations among Signal Attenuation, Group Delay, and Bandwidth

Typical negative group delay circuits (NGDC) are analyzed in terms of signal attenuation, group delay, and bandwidth using S-parameters. By inverting these formulations, we derive and present the design equations (for NGD circuit elements) for a desired specification of the two among the three param...

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Bibliographic Details
Main Authors: Sehun Na, Youn-Kwon Jung, Bomson Lee
Format: Article
Language:English
Published: The Korean Institute of Electromagnetic Engineering and Science 2019-01-01
Series:Journal of the Korean Institute of Electromagnetic Engineering and Science
Subjects:
Bandwidth
Negative Group Delay
Passive Element
Signal Attenuation
Synthesis
Online Access:http://www.jees.kr/upload/pdf/jees-2019-19-1-56.pdf
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spelling doaj-0f66d731a8df4fc891c88e4f979e599e2020-11-24T21:33:18ZengThe Korean Institute of Electromagnetic Engineering and ScienceJournal of the Korean Institute of Electromagnetic Engineering and Science2234-84092234-83952019-01-01191566310.26866/jees.2019.19.1.563333Design Method for Negative Group Delay Circuits Based on Relations among Signal Attenuation, Group Delay, and BandwidthSehun Na0Youn-Kwon Jung1Bomson Lee2 Department of Electronics Engineering, College of Electronics and Information, Kyung Hee University, Yongin, Korea Avionics Radar Team, Hanwha Systems, Yongin, Korea Department of Electronics Engineering, College of Electronics and Information, Kyung Hee University, Yongin, KoreaTypical negative group delay circuits (NGDC) are analyzed in terms of signal attenuation, group delay, and bandwidth using S-parameters. By inverting these formulations, we derive and present the design equations (for NGD circuit elements) for a desired specification of the two among the three parameters. The proposed design method is validated through simulation examples for narrow- and wide-band pulse inputs in the time and frequency domains. Moreover, an NGDC composed of lumped elements is fabricated at 1 GHz for measurement. As a function of frequency, the circuit-/EM-simulated and measured group delays are in good agreement. The provided simple NGDC design equations may be useful for many applications that require compensations of some signal delays.http://www.jees.kr/upload/pdf/jees-2019-19-1-56.pdfBandwidthNegative Group DelayPassive ElementSignal AttenuationSynthesis
collection DOAJ
language English
format Article
sources DOAJ
author Sehun Na
Youn-Kwon Jung
Bomson Lee
spellingShingle Sehun Na
Youn-Kwon Jung
Bomson Lee
Design Method for Negative Group Delay Circuits Based on Relations among Signal Attenuation, Group Delay, and Bandwidth
Journal of the Korean Institute of Electromagnetic Engineering and Science
Bandwidth
Negative Group Delay
Passive Element
Signal Attenuation
Synthesis
author_facet Sehun Na
Youn-Kwon Jung
Bomson Lee
author_sort Sehun Na
title Design Method for Negative Group Delay Circuits Based on Relations among Signal Attenuation, Group Delay, and Bandwidth
title_short Design Method for Negative Group Delay Circuits Based on Relations among Signal Attenuation, Group Delay, and Bandwidth
title_full Design Method for Negative Group Delay Circuits Based on Relations among Signal Attenuation, Group Delay, and Bandwidth
title_fullStr Design Method for Negative Group Delay Circuits Based on Relations among Signal Attenuation, Group Delay, and Bandwidth
title_full_unstemmed Design Method for Negative Group Delay Circuits Based on Relations among Signal Attenuation, Group Delay, and Bandwidth
title_sort design method for negative group delay circuits based on relations among signal attenuation, group delay, and bandwidth
publisher The Korean Institute of Electromagnetic Engineering and Science
series Journal of the Korean Institute of Electromagnetic Engineering and Science
issn 2234-8409
2234-8395
publishDate 2019-01-01
description Typical negative group delay circuits (NGDC) are analyzed in terms of signal attenuation, group delay, and bandwidth using S-parameters. By inverting these formulations, we derive and present the design equations (for NGD circuit elements) for a desired specification of the two among the three parameters. The proposed design method is validated through simulation examples for narrow- and wide-band pulse inputs in the time and frequency domains. Moreover, an NGDC composed of lumped elements is fabricated at 1 GHz for measurement. As a function of frequency, the circuit-/EM-simulated and measured group delays are in good agreement. The provided simple NGDC design equations may be useful for many applications that require compensations of some signal delays.
topic Bandwidth
Negative Group Delay
Passive Element
Signal Attenuation
Synthesis
url http://www.jees.kr/upload/pdf/jees-2019-19-1-56.pdf
work_keys_str_mv AT sehunna designmethodfornegativegroupdelaycircuitsbasedonrelationsamongsignalattenuationgroupdelayandbandwidth
AT younkwonjung designmethodfornegativegroupdelaycircuitsbasedonrelationsamongsignalattenuationgroupdelayandbandwidth
AT bomsonlee designmethodfornegativegroupdelaycircuitsbasedonrelationsamongsignalattenuationgroupdelayandbandwidth
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