Distortion-free frequency response measurements

Xiao Zhang; He Yin; Rui Li; Jiaying Hong; Chengming Wang; Shengnan Ai; Juicheng Hsieh; Bin He; Zhengyu Chen; Qin Li; Ping Xue

doi:10.1088/1361-6463/ab9784

Distortion-free frequency response measurements

Xiao Zhang^*, He Yin, Rui Li, Jiaying Hong, Chengming Wang, Shengnan Ai, Juicheng Hsieh, Bin He, Zhengyu Chen, Qin Li, Ping Xue

^*此作品的通讯作者

医学技术学院

科研成果: 期刊稿件 › 文章 › 同行评审

7 引用（Scopus）

摘要

We propose and experimentally demonstrate a distortion-free network analyzer (DFNA) using a noise source and an average power sensor for measuring the frequency property of an electronic device. DFNA makes use of the global algorithm and therefore typically save 60% measurements than conventional network analyzer which measures frequency response locally, under the same conditions. Furthermore, conventional network analyzer could be significantly affected by distortion due to its direct point-by-point scanning manner in frequency domain. In contrast, by utilizing the coincidence measurement principle, DFNA shows strong robustness against distortion. The results demonstrate that the proposed technique provides an efficient and robust way for anti-distortion frequency response analysis and has potential applications in communications, radio frequency circuits, radar and even electronic warfare.

源语言	英语
文章编号	39LT02
期刊	Journal Physics D: Applied Physics
卷	53
期	39
DOI	https://doi.org/10.1088/1361-6463/ab9784
出版状态	已出版 - 23 9月 2020

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title = "Distortion-free frequency response measurements",

abstract = "We propose and experimentally demonstrate a distortion-free network analyzer (DFNA) using a noise source and an average power sensor for measuring the frequency property of an electronic device. DFNA makes use of the global algorithm and therefore typically save 60% measurements than conventional network analyzer which measures frequency response locally, under the same conditions. Furthermore, conventional network analyzer could be significantly affected by distortion due to its direct point-by-point scanning manner in frequency domain. In contrast, by utilizing the coincidence measurement principle, DFNA shows strong robustness against distortion. The results demonstrate that the proposed technique provides an efficient and robust way for anti-distortion frequency response analysis and has potential applications in communications, radio frequency circuits, radar and even electronic warfare.",

author = "Xiao Zhang and He Yin and Rui Li and Jiaying Hong and Chengming Wang and Shengnan Ai and Juicheng Hsieh and Bin He and Zhengyu Chen and Qin Li and Ping Xue",

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doi = "10.1088/1361-6463/ab9784",

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T1 - Distortion-free frequency response measurements

AU - Zhang, Xiao

AU - Yin, He

AU - Li, Rui

AU - Hong, Jiaying

AU - Wang, Chengming

AU - Ai, Shengnan

AU - Hsieh, Juicheng

AU - He, Bin

AU - Chen, Zhengyu

AU - Li, Qin

AU - Xue, Ping

PY - 2020/9/23

Y1 - 2020/9/23

N2 - We propose and experimentally demonstrate a distortion-free network analyzer (DFNA) using a noise source and an average power sensor for measuring the frequency property of an electronic device. DFNA makes use of the global algorithm and therefore typically save 60% measurements than conventional network analyzer which measures frequency response locally, under the same conditions. Furthermore, conventional network analyzer could be significantly affected by distortion due to its direct point-by-point scanning manner in frequency domain. In contrast, by utilizing the coincidence measurement principle, DFNA shows strong robustness against distortion. The results demonstrate that the proposed technique provides an efficient and robust way for anti-distortion frequency response analysis and has potential applications in communications, radio frequency circuits, radar and even electronic warfare.

AB - We propose and experimentally demonstrate a distortion-free network analyzer (DFNA) using a noise source and an average power sensor for measuring the frequency property of an electronic device. DFNA makes use of the global algorithm and therefore typically save 60% measurements than conventional network analyzer which measures frequency response locally, under the same conditions. Furthermore, conventional network analyzer could be significantly affected by distortion due to its direct point-by-point scanning manner in frequency domain. In contrast, by utilizing the coincidence measurement principle, DFNA shows strong robustness against distortion. The results demonstrate that the proposed technique provides an efficient and robust way for anti-distortion frequency response analysis and has potential applications in communications, radio frequency circuits, radar and even electronic warfare.

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DO - 10.1088/1361-6463/ab9784

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SN - 0022-3727

VL - 53

JO - Journal Physics D: Applied Physics

JF - Journal Physics D: Applied Physics

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Distortion-free frequency response measurements

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