Tunable Bandstop HMSIW Filter With Flexible Center Frequency and Bandwidth Using Liquid Crystal

Xu, Wentao; Zhang, Yiming; Peng, Yeshun; Mu, Liwei; Yu, Baoxian; Zhang, Han

doi:10.1109/access.2019.2951543

Cited by 14 publications

(8 citation statements)

References 30 publications

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“…In addition to these multiple adaptive features, the circuit also offers excellent rejection in the stopband, i.e., up to 55 dB, which is at least 20 dB deeper than other reported circuit topologies [3], [6], [9], [10], [12]- [15], [35], [39], [40]. Moreover, the proposed structure offers wider tuning ranges in resonant frequency and stop bandwidth for both bands, as compared to [9], [12], [13], [15], [35]. These features make the proposed structure a better choice for the reconfigurable filter design.…”

Section: Fabrication and Measurementsmentioning

confidence: 88%

“…For example, the bandstop filter in [11] supports single-band operation with centre frequency tuning in a wide range and stopband rejection level up to 30 dB. In contrast, the filters in [12], [13] offer bandwidth tuning along with frequency tuning with lesser stopband rejections up to 20 dB. Similarly, the filters in [6], [14] demonstrate dual bandstop performance with frequency tuning, and the filter in [15] offers a dual-band operation with bandwidth tuning.…”

Section: Introductionmentioning

confidence: 99%

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A Compact Reconfigurable 1-D Periodic Structure in GaAs MMIC With Stopband Switching, Dual-Band Operation and Tuning Capabilities

Shahid¹,

Thalakotuna

Karmokar

et al. 2021

IEEE Access

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This paper presents a systematic study of a compact and reconfigurable periodic structure in GaAs MMIC technology. Compactness is achieved by the introduction of spiral inductors in a conventional unit cell without disturbing the reactive loading mechanism. The proposed architecture exhibits a 28.3% wider stopband with 62.6% smaller footprint compared to a conventional structure. The compactness and bandwidth improvement in the proposed structure is explained with the help of dispersion and circuit analysis. The reconfigurability built into the design using PIN diodes allows stopband switching, dual-band operation and tuning capabilities with the mere use of a single reactive load in its unit cell. To the best of the authors knowledge, it is the first time a reconfigurable MMIC implementation is realized using the proposed structure or even the conventional design. As a guide to design, sensitivity analysis to filter performance is presented for important structure parameters. Switching element parasitics are discussed in two ways: firstly, with the design and measurement of structures with idealized switching conditions and in second, with the circuit and full-wave EM modelling of the finite periodic structure with the actual PIN diodes. The on-chip measurements of the fully reconfigurable filter show excellent agreement with simulations.

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Section: Fabrication and Measurementsmentioning

confidence: 88%

Section: Introductionmentioning

confidence: 99%

A Compact Reconfigurable 1-D Periodic Structure in GaAs MMIC With Stopband Switching, Dual-Band Operation and Tuning Capabilities

Shahid¹,

Thalakotuna

Karmokar

et al. 2021

IEEE Access

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“…Therefore recently, reconfigurable filters have become an essential component in wireless systems and have attracted a lot of attention. Even though tunable single and multiband filtering components have been proposed [14][15][16][17][18][19][20][21][22][23][24] with a number of advantages, they usually serve a single purpose (either tunable BPF or tunable BSF). Few researchers [25][26][27][28][29][30][31][32] have presented fully reconfigurable filtering circuits exhibiting BPF-to-BSF switching capability.…”

Section: Introductionmentioning

confidence: 99%

Novel Selective Feeding Scheme Integrated With SPDT Switches for a Reconfigurable Bandpass-to-Bandstop Filter

et al. 2021

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This paper demonstrates a new technique for designing high performance reconfigurable bandpass-to-bandstop filters by employing a ring resonator and a selective feeding scheme integrated with single-pole double-throw switches (SPDT). The transformation from bandpass-to-bandstop mode and viceversa is achieved by connecting or disconnecting two λ g /4 open-circuited stubs on the ring using PIN diodes. SPDT switches are employed for electronic switching between two different feeding line sections. In the bandpass state the resonator presents two transmission zeros near the edges of the passband and four attenuation poles inside the passband, enhancing the filter"s performance, thus achieving excellent sharp rejection with high roll-off-rate (ROR 20dB). On the other hand, high stopband rejection with wide bandwidth, good return loss and good skirt-band attenuation rates are achieved in the bandstop state. Even-and oddmode analysis is adopted and closed-form expressions are derived to describe the filter"s behaviour. To verify the validity of the proposed design, a prototype filter was fabricated and measured. In measurement, a 65% 3-dB bandwidth bandpass filter (BPF) with an insertion loss of 0.86 dB was switched to a 70% 20-dB bandwidth bandstop filter (BSF) with more than 40 dB stopband rejection. INDEX TERMS Bandpass filter (BPF), bandstop filter (BSF), PIN diodes, ring resonator, single-poledouble-throw (SPDT).

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“…In [19], a tunable microstrip bandstop resonator with a C-shaped DGS was proposed, where varactors were embedded to the resonator cell and a 13% tuning range centered at 2.36 or 2.67 GHz is achieved. Some new technologies are used in the reconfigurable stopband filter [20,21,22,23]. In [20], a tunable BSF based on a half-mode substrate integrated waveguide (HMSIW) was proposed, where reconfigurability was obtained by adjusting the bias voltage of multiple interdigitated microstrip resonators on liquid crystal material.…”

Section: Introductionmentioning

confidence: 99%

“…Some new technologies are used in the reconfigurable stopband filter [20,21,22,23]. In [20], a tunable BSF based on a half-mode substrate integrated waveguide (HMSIW) was proposed, where reconfigurability was obtained by adjusting the bias voltage of multiple interdigitated microstrip resonators on liquid crystal material. However, the fractional bandwidth of only about 10% and a slow response time might limit its applications.…”

Section: Introductionmentioning

confidence: 99%

Frequency-reconfigurable wideband bandstop filter using varactor-based dual-slotted defected ground structure

Zeng

Liu

2021

IEICE Electron. Express

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A reconfigurable bandstop microstrip line filter with wide continuously adjustable stopband is proposed in this letter. Dumbbell-shaped defected ground structure cells based on dual coupling slots are used to reduce the complexity of the filter and simplify the equivalent circuit modeling. Three varactors crossing the center coupling slots are utilized together with isolating capacitors to obtain the reconfigurability, of which the frequency range can be adjusted from 1.8 to 8.0 GHz. An equivalent-circuit model using coupled LC resonators is developed to firstly attain physical understanding of the filter's working principle and secondly to assist the filter design. Three pairs of perpendicular stubs are introduced onto the microstrip line to improve the transmission and maintain signal integrity in the passband. The filter has been fabricated and experimentally characterized, with the good agreement observed between simulation and measurement validating the concept.

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Tunable Bandstop HMSIW Filter With Flexible Center Frequency and Bandwidth Using Liquid Crystal

Cited by 14 publications

References 30 publications

A Compact Reconfigurable 1-D Periodic Structure in GaAs MMIC With Stopband Switching, Dual-Band Operation and Tuning Capabilities

A Compact Reconfigurable 1-D Periodic Structure in GaAs MMIC With Stopband Switching, Dual-Band Operation and Tuning Capabilities

Novel Selective Feeding Scheme Integrated With SPDT Switches for a Reconfigurable Bandpass-to-Bandstop Filter

Frequency-reconfigurable wideband bandstop filter using varactor-based dual-slotted defected ground structure

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