Noise suppression in Ultra Wide Band (UWB) applications using Alternating Impedance Electromagnetic Bandgap (AI-EBG) structures

Jinwoo Choi; Vinu Govind; Madhavan Swaminathan

doi:10.1109/EUMC.2005.1610361

Noise suppression in Ultra Wide Band (UWB) applications using Alternating Impedance Electromagnetic Bandgap (AI-EBG) structures

Jinwoo Choi, Vinu Govind, Madhavan Swaminathan

Electrical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

3 Scopus citations

Abstract

In this paper, we propose a novel hybrid alternating impedance electromagnetic bandgap (AI-EBG) structure for noise suppression in ultra wide band (UWB) applications (from 3.1 GHz to 10.6 GHz). In UWB technology, since the maximum signal power is limited to a very low level (-41.3 dBm) by Federal Communications Commission (FCC), any noise from digital circuits could destroy RF circuits and cause system failure. Hence, noise suppression is a major bottleneck for UWB technology since very high isolation is required for UWB frequency range. For the first time, a novel hybrid AI-EBG structure has been designed, simulated, fabricated, and measured for UWB isolation requirement. This novel hybrid AI-EBG structure shows very good isolation over UWB frequency range.

Original language	English (US)
Title of host publication	35th European Microwave Conference 2005 - Conference Proceedings
Pages	2003-2006
Number of pages	4
DOIs	https://doi.org/10.1109/EUMC.2005.1610361
State	Published - 2005
Event	2005 European Microwave Conference - Paris, France Duration: Oct 4 2005 → Oct 6 2005

Publication series

Name	35th European Microwave Conference 2005 - Conference Proceedings
Volume	3

Conference

Conference	2005 European Microwave Conference
Country/Territory	France
City	Paris
Period	10/4/05 → 10/6/05

All Science Journal Classification (ASJC) codes

General Engineering

Access to Document

10.1109/EUMC.2005.1610361

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Choi, J., Govind, V., & Swaminathan, M. (2005). Noise suppression in Ultra Wide Band (UWB) applications using Alternating Impedance Electromagnetic Bandgap (AI-EBG) structures. In 35th European Microwave Conference 2005 - Conference Proceedings (pp. 2003-2006). Article 1610361 (35th European Microwave Conference 2005 - Conference Proceedings; Vol. 3). https://doi.org/10.1109/EUMC.2005.1610361

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title = "Noise suppression in Ultra Wide Band (UWB) applications using Alternating Impedance Electromagnetic Bandgap (AI-EBG) structures",

abstract = "In this paper, we propose a novel hybrid alternating impedance electromagnetic bandgap (AI-EBG) structure for noise suppression in ultra wide band (UWB) applications (from 3.1 GHz to 10.6 GHz). In UWB technology, since the maximum signal power is limited to a very low level (-41.3 dBm) by Federal Communications Commission (FCC), any noise from digital circuits could destroy RF circuits and cause system failure. Hence, noise suppression is a major bottleneck for UWB technology since very high isolation is required for UWB frequency range. For the first time, a novel hybrid AI-EBG structure has been designed, simulated, fabricated, and measured for UWB isolation requirement. This novel hybrid AI-EBG structure shows very good isolation over UWB frequency range.",

author = "Jinwoo Choi and Vinu Govind and Madhavan Swaminathan",

year = "2005",

doi = "10.1109/EUMC.2005.1610361",

language = "English (US)",

isbn = "2960055128",

series = "35th European Microwave Conference 2005 - Conference Proceedings",

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booktitle = "35th European Microwave Conference 2005 - Conference Proceedings",

note = "2005 European Microwave Conference ; Conference date: 04-10-2005 Through 06-10-2005",

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Choi, J, Govind, V & Swaminathan, M 2005, Noise suppression in Ultra Wide Band (UWB) applications using Alternating Impedance Electromagnetic Bandgap (AI-EBG) structures. in 35th European Microwave Conference 2005 - Conference Proceedings., 1610361, 35th European Microwave Conference 2005 - Conference Proceedings, vol. 3, pp. 2003-2006, 2005 European Microwave Conference, Paris, France, 10/4/05. https://doi.org/10.1109/EUMC.2005.1610361

Noise suppression in Ultra Wide Band (UWB) applications using Alternating Impedance Electromagnetic Bandgap (AI-EBG) structures. / Choi, Jinwoo; Govind, Vinu; Swaminathan, Madhavan.
35th European Microwave Conference 2005 - Conference Proceedings. 2005. p. 2003-2006 1610361 (35th European Microwave Conference 2005 - Conference Proceedings; Vol. 3).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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N2 - In this paper, we propose a novel hybrid alternating impedance electromagnetic bandgap (AI-EBG) structure for noise suppression in ultra wide band (UWB) applications (from 3.1 GHz to 10.6 GHz). In UWB technology, since the maximum signal power is limited to a very low level (-41.3 dBm) by Federal Communications Commission (FCC), any noise from digital circuits could destroy RF circuits and cause system failure. Hence, noise suppression is a major bottleneck for UWB technology since very high isolation is required for UWB frequency range. For the first time, a novel hybrid AI-EBG structure has been designed, simulated, fabricated, and measured for UWB isolation requirement. This novel hybrid AI-EBG structure shows very good isolation over UWB frequency range.

AB - In this paper, we propose a novel hybrid alternating impedance electromagnetic bandgap (AI-EBG) structure for noise suppression in ultra wide band (UWB) applications (from 3.1 GHz to 10.6 GHz). In UWB technology, since the maximum signal power is limited to a very low level (-41.3 dBm) by Federal Communications Commission (FCC), any noise from digital circuits could destroy RF circuits and cause system failure. Hence, noise suppression is a major bottleneck for UWB technology since very high isolation is required for UWB frequency range. For the first time, a novel hybrid AI-EBG structure has been designed, simulated, fabricated, and measured for UWB isolation requirement. This novel hybrid AI-EBG structure shows very good isolation over UWB frequency range.

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Noise suppression in Ultra Wide Band (UWB) applications using Alternating Impedance Electromagnetic Bandgap (AI-EBG) structures

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