Multifunctional Bandpass Filters With Reconfigurable and Switchable Band Control

A new series of multifunctional reconfigurable bandpass filters (BPFs) and their analytical synthesis design are presented in this paper. They feature frequency-adaptive characteristics in both their passbands and notched bands, as well as switchable-notched-band capability. Their basic filter archi...

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Bibliographic Details
Published in:IEEE transactions on microwave theory and techniques 2019-06, Vol.67 (6), p.2355-2369
Main Authors: Zhang, Runqi, Gomez-Garcia, Roberto, Peroulis, Dimitrios
Format: Article
Language:English
Subjects:
Band-pass filters
Bandpass filters
Bandwidths
Chebyshev approximation
Constant and frequency mapping
Design
Design analysis
filter synthesis
Mapping
multifunctional circuits
Passband
reconfigurable filters
Reconfiguration
Resonant frequency
Resonators
Selectivity
Stability
switchable filters
Switches
Synthesis
Tuning
Wideband
wideband bandpass filters (BPFs)
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Summary:A new series of multifunctional reconfigurable bandpass filters (BPFs) and their analytical synthesis design are presented in this paper. They feature frequency-adaptive characteristics in both their passbands and notched bands, as well as switchable-notched-band capability. Their basic filter architecture is discussed and modeled in a progressive manner. The initial circuit consists of a second-order Chebyshev-type filter to which two stubs are added to increase filtering selectivity through transmission-zero (TZ) creation. Subsequently, to produce an embedded notched band, stubs acting as band-stop structures are also inserted at the input-output terminals. The multifunctional properties of this filter scheme are analyzed attending to the resonance frequencies of the introduced stubs. When these resonance frequencies are tuned while keeping a constant spacing between them, a center-frequency reconfiguration with constant bandwidth is achieved; when the resonance frequency of the notched band is shifted to the TZ positions, the notched band is switched-off. The described filter synthesis methodology is based on the constant and frequency-mapping technique, where the dual-mapping functions are controlled to obtain reconfigurable/switchable properties from a low-pass prototype. For experimental-validation purposes, two reconfigurable lumped-element filter prototypes using the proposed synthesis technique are designed, manufactured, and tested. One exhibits a simple reconfigurable passband, whereas the other one adds a controllable/switchable embedded notched band that results in a quasi-elliptic-type dual-passband response. When compared to some related prior-art designs, these filters have the advantages of explicit design process, quantified analysis, and multifunctional responses.
ISSN:0018-9480
1557-9670
DOI:10.1109/TMTT.2019.2910178