IEEE Access (Jan 2020)

A Full-Passband Linear-Phase Band-Pass Filter Equalized With Negative Group Delay Circuits

  • Te Shao,
  • Zhongbao Wang,
  • Shaojun Fang,
  • Hongmei Liu,
  • Zhi Ning Chen

DOI
https://doi.org/10.1109/ACCESS.2020.2977100
Journal volume & issue
Vol. 8
pp. 43336 – 43343

Abstract

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A full-passband linear-phase band-pass filter (BPF) equalized with negative group delay circuits (NGDC) is proposed. The NGDCs are utilized to suppress the salient group delay at the edge of the passband of the traditional BPF for achieving the full-passband linear-phase characteristic. To obtain input- and output-port impedance matching, two BPFs loading NGDCs are center symmetrically configured by Wilkinson power dividers. To verify the design concept, a 3-order full-passband linear-phase BPF is designed and fabricated. From the measured results, the GD fluctuation is reduced by 74% from 0.57 to 0.15 ns, return loss is better than 10 dB, and the insertion loss variation is less than 3 dB within the frequency range from 2.142 to 2.804 GHz. The proposed BPF achieves a flat group delay in the whole passband and realizes the full-passband linear-phase characteristic.

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