Filtennas for wireless application: A review

Mishra, Soumya Ranjan; Lalitha, Sheeja Kochuthundil

doi:10.1002/mmce.21879

Cited by 12 publications

(8 citation statements)

References 71 publications

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“…Therefore, for space minimization, the concept of integrating both the antenna and filter in a single structure appears as a potential solution, and it is known as filter-antenna or filtenna. In the literature, several approaches containing filtennas have been discussed [6][7][8]. Some authors suggested more than one CR antenna designed separately at the same substrate, an antenna for communication and another for sensing [9][10][11].…”

Section: Introductionmentioning

confidence: 99%

Frequency Tunable Filtenna Using Defected Ground Structure Filter in the Sub-6 GHZ for Cognitive Radio Applications

Bembarka¹,

Setti²,

Tribak³

et al. 2022

PIER C

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In this paper, a new frequency tunable filtering-antenna (so-called filtenna) is inspired by a Defected Ground Structure (DGS) band-pass filter for the fifth generation picocell base stations. It is intended for use in Cognitive Radio (CR) communications within the European Union Sub-6 GHz spectrum, which ranges between 3.4 and 3.8 GHz. Firstly, a Wideband (WB) monopole antenna is proposed where the operational frequencies cover 3.15-4.19 GHz, taking the 10-dB return loss level as a threshold. A band-pass filter of a Semi-Square Semi-Circle shape is integrated into the WB antenna ground to obtain the communicating filtenna. The narrowband frequency tunability is achieved by changing two varactor diode capacitances located in the filter slots. The antenna is prototyped occupying a total space of 60 × 80 × 0.77 mm 3 , then tested to verify the simulated results. Three operating frequencies 3.4, 3.6, and 3.8 GHz of the filtenna are studied in terms of return loss, realized gain, and radiation patterns which verify that the frequency shift has almost no effect on the antenna performance. The filtenna has a maximum gain of 4.5 dBi in measurements and 3.47 dBi in simulations. The obtained results have proved their efficiency for CR communications.

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Section: Introductionmentioning

confidence: 99%

Frequency Tunable Filtenna Using Defected Ground Structure Filter in the Sub-6 GHZ for Cognitive Radio Applications

Bembarka¹,

Setti²,

Tribak³

et al. 2022

PIER C

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show abstract

“…The filtenna integrates filters into the antenna system. 23 Recently, the reconfigurable band-notch antenna system is gaining the attention of antenna researchers because it aids in minimizing system interference. 24 Such reconfiguration can be made by using different switches like PIN diodes, optically controlled switches, and RF-MEMS.…”

Section: Introductionmentioning

confidence: 99%

Compact reconfigurable antenna system for spectrum interweaved cognitive radio

Parida

Sahu

Naik

et al. 2022

Int J RF Mic Comp-Aid Eng

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This article discusses the design of a compact antenna system for spectrum interweaved cognitive radio (CR). The system consists of a sensing filtenna and three communicating antennas. The sensing ultra‐wideband (UWB) antenna is a coplanar‐waveguide (CPW)‐fed monopole (2.2–11 GHz). The narrowband communicating patch antennas are reconfigurable through a switching mechanism, operating in six different frequency bands (5.54, 6.12, 7.60, 8.25, 9.64, and 10.29 GHz). To block the Wi‐MAX and WLAN bands, the proposed design uses a meandering slot and a stepped U‐slot in the monopole. Analysis of communicating antennas using the theory of characteristic mode analysis indicates good radiation in the desired frequencies. Isolation among these antennas is better than −18 dB. A constant group delay and linear phase response indicate a good time‐domain performance of the proposed UWB antenna. Simulated results match closely with those from measurements on the prototype. The proposed antenna system can find applications in various sectors adopting CR like internet of things.

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“…A dual band circularly polarized DRA is presented in Reference 12 which covers the important operating band (27.5‐28.35 GHz) for future 5G MMW communication systems. In addition, several filtenna designs have been reported in Reference 13 for recent wireless communications. Planar filtenna structures can be formed based on either defected ground structure or resonator or SIW filter.…”

Section: Introductionmentioning

confidence: 99%

Single‐fed dual wideband filtenna for 4G / 5G mobile applications

Dardeer

Elsadek

El‐Hennawy

et al. 2021

Int J RF Microw Comput Aided Eng

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This article presents a single‐fed single‐layer dual‐band slotted antenna which has the ability to simultaneously operate at microwave and millimeter‐wave (MMW) frequency bands. It consists of a rectangular slotted ground plane, double cascaded tuning stubs, and embedded MMW element of L‐shape inside the slotted ground. Ultra‐wideband bandstop filter (BSF) is inserted at the feeding for isolating the two operational bands. The BSF consists of 3‐open circuited stubs and in‐line coupled line section. For demonstration, a design prototype of the complete integrated filtenna is fabricated and measured. Good agreements between simulated and measured results are observed. The proposed filtenna operates at 5.2 and 28 GHz with impedance bandwidth (15.23% and 17.03%) and the gain reaches (4.09 and 6.18 dBi).

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Filtennas for wireless application: A review

Cited by 12 publications

References 71 publications

Frequency Tunable Filtenna Using Defected Ground Structure Filter in the Sub-6 GHZ for Cognitive Radio Applications

Frequency Tunable Filtenna Using Defected Ground Structure Filter in the Sub-6 GHZ for Cognitive Radio Applications

Compact reconfigurable antenna system for spectrum interweaved cognitive radio

Single‐fed dual wideband filtenna for 4G / 5G mobile applications

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