High-temperature superconducting filter using self-embedding asymmetric stepped impedance resonator with wide stopband performance and miniaturized size

Abstract: In this study, a novel self-embedding asymmetric stepped impedance resonator (SE-ASIR) topology is proposed. By embedding asymmetric stepped impedance resonators in themselves, circuit sizes of ASIRs can be reduced effectively, while the ability to control spurious modes of ASIRs remains. Therefore, SE-ASIRs are suitable for being used to design filters with wide stopbands and miniaturized sizes. Furthermore, the construction process of the SE-ASIR is described in detail, and an equivalent model of the SE-ASIR… Show more

“…The second category is to improve the spurious responses of the resonator. Many resonators, such as quarter-wavelength resonators, [7] quarter-wavelength stepped-impedance resonators (SIRs), [8] asymmetric resonators, [9] asymmetric SIRs, [10,11] and interdigital resonators, [12] have been reported in constructing wide stopband filters.…”

Compact wide stopband superconducting bandpass filter using modified spiral resonators with interdigital structure

“…The second category is to improve the spurious responses of the resonator. Many resonators, such as quarter-wavelength resonators, [7] quarter-wavelength stepped-impedance resonators (SIRs), [8] asymmetric resonators, [9] asymmetric SIRs, [10,11] and interdigital resonators, [12] have been reported in constructing wide stopband filters.…”

Compact wide stopband superconducting bandpass filter using modified spiral resonators with interdigital structure

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