4.5 Article

Synthesis and design of asymmetric cul-de-sac structure HTS filter with transmission zero introduced in Pairs

期刊

SUPERCONDUCTOR SCIENCE & TECHNOLOGY
卷 35, 期 11, 页码 -

出版社

IOP Publishing Ltd
DOI: 10.1088/1361-6668/ac925b

关键词

cul-de-sac; filter; high temperature superconductivity (HTS); band-pass filter (BPF); transmission zeros (TZs)

资金

  1. National Natural Science Foundation of China [62201464]
  2. Natural Science Foundation of Sichuan Province [2022NSFSC0968]
  3. NWPU research fund for young scholars [G2022WD01011]

向作者/读者索取更多资源

An asymmetric cul-de-sac topology filter prototype is synthesized and designed in this paper. It is suitable for designing high-temperature superconducting narrowband filters with high selectivity sideband suppression and symmetrical frequency response about the central frequency. The filter has fewer coupling coefficients and resonator types, making it convenient for designing high-order HTS filters with temperature shifts.
An asymmetric prototype of a cul-de-sac topology filter to introduce finite frequency transmission zeros (FTZs) in pairs with the least cross-coupling is synthesized and designed in this paper, which is suitable for the design of the high temperature superconducting (HTS) narrowband filter with high selectivity sideband suppression and symmetrical frequency response about the central frequency, especially. The resonator in the cul-de-sac structure filter can adopt the same frequency resonator without self-coupling so that the cul-de-sac structure filter can have fewer coupling coefficients and fewer resonator types. These characteristics of cul-de-sac structure filters are convenient for the design of high-order HTS filters with temperature shifts. A typical 7-order HTS filter with a central frequency of 4000 MHz, 5% relative bandwidth, five coupling coefficients, one cross-coupling, and one pair of FTZs is designed and fabricated on a 0.5 mm-thick MgO wafer with double-sided YBa2Cu3O7 (YBCO) thin films employing this cul-de-sac filter theory. The analyzed frequency response characteristic obtained with full-wave tools of this filter agrees well with the synthesis results and measured results at 77 K (Kelvin temperature).

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