Numerical Derivation of Design Guidelines for Tightness and Shaking Amplitude of Vibrating Intrinsic Reverberation Chamber by Method of Moment

Makoto Hara; Jianqing Wang; Frank Leferink

doi:10.1587/transcom.2023EBP3002

Numerical Derivation of Design Guidelines for Tightness and Shaking Amplitude of Vibrating Intrinsic Reverberation Chamber by Method of Moment

Makoto Hara
, Jianqing Wang
, Frank Leferink

Research output: Contribution to journal › Article › Academic › peer-review

1 Citation (Scopus)

Abstract

Vibrating intrinsic reverberation chamber is being used as an in-situ EMC test equipment for large and complex systems such as automobiles and aircrafts. In this paper, the stirring conditions, such as tightness and shaking amplitude of the walls, of a vibrating intrinsic reverberation chamber have been analyzed using the method of moments. From the viewpoint of quantitative evaluation of the flexible moving walls configuration, it was found that the random electromagnetic environment can be generated under the stirring conditions of loose configuration and a shaking amplitude more than one eighth of the wavelength at the test frequency above the lowest usable frequency.

Original language	English
Pages (from-to)	1173-1181
Number of pages	9
Journal	IEICE transactions on communications
Volume	E106B
Issue number	11
DOIs	https://doi.org/10.1587/transcom.2023EBP3002
Publication status	Published - Nov 2023

Keywords

NLA

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10.1587/transcom.2023EBP3002

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title = "Numerical Derivation of Design Guidelines for Tightness and Shaking Amplitude of Vibrating Intrinsic Reverberation Chamber by Method of Moment",

abstract = "Vibrating intrinsic reverberation chamber is being used as an in-situ EMC test equipment for large and complex systems such as automobiles and aircrafts. In this paper, the stirring conditions, such as tightness and shaking amplitude of the walls, of a vibrating intrinsic reverberation chamber have been analyzed using the method of moments. From the viewpoint of quantitative evaluation of the flexible moving walls configuration, it was found that the random electromagnetic environment can be generated under the stirring conditions of loose configuration and a shaking amplitude more than one eighth of the wavelength at the test frequency above the lowest usable frequency.",

keywords = "NLA",

author = "Makoto Hara and Jianqing Wang and Frank Leferink",

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AU - Hara, Makoto

AU - Wang, Jianqing

AU - Leferink, Frank

PY - 2023/11

Y1 - 2023/11

N2 - Vibrating intrinsic reverberation chamber is being used as an in-situ EMC test equipment for large and complex systems such as automobiles and aircrafts. In this paper, the stirring conditions, such as tightness and shaking amplitude of the walls, of a vibrating intrinsic reverberation chamber have been analyzed using the method of moments. From the viewpoint of quantitative evaluation of the flexible moving walls configuration, it was found that the random electromagnetic environment can be generated under the stirring conditions of loose configuration and a shaking amplitude more than one eighth of the wavelength at the test frequency above the lowest usable frequency.

AB - Vibrating intrinsic reverberation chamber is being used as an in-situ EMC test equipment for large and complex systems such as automobiles and aircrafts. In this paper, the stirring conditions, such as tightness and shaking amplitude of the walls, of a vibrating intrinsic reverberation chamber have been analyzed using the method of moments. From the viewpoint of quantitative evaluation of the flexible moving walls configuration, it was found that the random electromagnetic environment can be generated under the stirring conditions of loose configuration and a shaking amplitude more than one eighth of the wavelength at the test frequency above the lowest usable frequency.

KW - NLA

U2 - 10.1587/transcom.2023EBP3002

DO - 10.1587/transcom.2023EBP3002

M3 - Article

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VL - E106B

SP - 1173

EP - 1181

JO - IEICE transactions on communications

JF - IEICE transactions on communications

IS - 11

ER -

Numerical Derivation of Design Guidelines for Tightness and Shaking Amplitude of Vibrating Intrinsic Reverberation Chamber by Method of Moment

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