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

Na, Sehun; Jung, Youn-Kwon; Lee, Bomson

doi:10.26866/jees.2019.19.1.56

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

Journal of electromagnetic engineering and science : JEES, v.19 no.1, 2019년, pp.56 - 63

Na, Sehun (Department of Electronics Engineering, College of Electronics and Information, Kyung Hee University) , Jung, Youn-Kwon (Avionics Radar Team, Hanwha Systems) , Lee, Bomson (Department of Electronics Engineering, College of Electronics and Information, Kyung Hee University)

Abstract ▼ AI-Helper

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.

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(b) Envelopes of the input and output as a function of time with the desired S21(𝜔0) =–20 dB for different 𝜏(𝜔0) =−1, −2, and −5 ns.
(b) Envelopes of the input and output as a function of time with the desired 𝜏(𝜔0) = −1 ns and S21(𝜔0) = –20 dB.
(a) S-parameters S(𝜔). (b) Group delay 𝜏(𝜔

참고문헌 (14)

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

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

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