Reconfigurable ultra wideband to narrowband antenna for cognitive radio applications using PIN diode

Fatimi, Aziz El; Bri, Seddik; Saadi, Adil

doi:10.12928/telkomnika.v18i6.16242

Cited by 6 publications

(5 citation statements)

References 20 publications

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“…We use four PIN diodes BAP65-02-115NXP [18] as switches denoted D1, D2, D3 and D4 to configure the antenna so that operate in different frequency bands. According to [18], the diode in the ON state is equivalent to two capacitors (C1 and C2), resistance (Ron) and inductors (L1) in series, while it is equivalent in the OFF state to two capacitors and inductors in series with a resistance (Roff) parallel to the capacitors (Coff). Figure 2 exposes the diodes equivalent scheme.…”

Section: Antenna Designmentioning

confidence: 99%

Frequency-Reconfigurable Multiband Antenna Based on Pin Switch for Wireless Applications

Ibrahime¹

2020

IJATCSE

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The design of reconfigurable multiband antenna for wireless applications such as UMTS, T-DMB, LTE, WiMAX, WLAN and WiBro bands applications is presented in this paper. The antenna is made up of four radiating elements which alternately play the role of active or parasitic element. In addition, we chose a reconfigurable antenna with a narrow bandwidth, in order to be able to shift in a radio frequency spectrum also to avoid band interference. This system is qualified to control the S11 by switching the four PIN diodes state while preserving the same structure.

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Section: Antenna Designmentioning

confidence: 99%

Frequency-Reconfigurable Multiband Antenna Based on Pin Switch for Wireless Applications

Ibrahime¹

2020

IJATCSE

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“…Because of this, the system becomes bulkier, busier, more intricate, and more energy-intensive, all of which are detrimental to its standard operation and performance. Because these technical issues are so complicated, it is recommended that only one antenna be used but that the structure of that antenna be changed in real time so that it can work with multiple antennas [9].…”

Section: Introductionmentioning

confidence: 99%

At 28 GHz microstrip patch antenna for wireless applications: a review

Rana,

Mistry,

Rahaman

et al. 2024

TELKOMNIKA

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Microstrip patch antennas are becoming increasingly popular because they are small, have low profiles, are easy to integrate, are very cheap, and work well. For this reason, this antenna could be used for wireless communication systems. This research paper reviews and studies 28 GHz microstrip patch antenna for wireless applications. Different substrate materials have been used to make these antennas, such as FR-4 (loss), FR-4 Epoxy, Rogers RT/droid 5880, TLC-30, Rogers RT/droid 5880 LZ, and others. Different substrate materials and shapes were used to make microstrip patch antennas with a frequency of 28 GHz. This article discusses the different sizes of antennas, the other geometric shapes antennas can take, the different ways antennas' properties can be analyzed, and the different types of antennas. It will also talk about the material, thickness, loss tangent, return loss, bandwidth, voltage standing wave ratio (VSWR), gain, efficiency, and directivity of the substrate. This antenna is used for super-high-frequency (SHF), radars, commercial wireless local area networks (LANs), cell phones, and other wireless communications systems.

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“…Additionally, CR front-end systems need adaptable components like filters [8] and antennas [9] to enable multichannel, multi-band, and multipurpose tasks while also providing an interference mitigation solution. To directly minimise interruption within the front-end receiver, this technique is referred to as active interruption rejection [7].…”

Section: Introductionmentioning

confidence: 99%

“…To directly minimise interruption within the front-end receiver, this technique is referred to as active interruption rejection [7]. Therefore, as mentioned in [8] and [9], it is crucial to have a good network or system controlled via varactor or PIN diodes.…”

Section: Introductionmentioning

confidence: 99%

Convertible Bandstop to Allpass Filter using Defected Ground Structure with Ideal Switch for Millimeter-Wave Band in 5G Application

Othman,

A Majid,

Shairi

et al. 2023

IJIE

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According to this study, a defective ground structure (DGS) with an ideal switch can be used to create a bandstop to allpass filter for 5G applications. The redesigned Hairpin DGS's bandstop and allpass responses are mathematically investigated in this paper. Utilising an ideal switch via open circuit and short circuit conditions on DGS, the convertible filter is operated. Therefore, the filter's performance in terms of return loss, attenuation, and insertion loss is simulated. As a result, the filter operates at 25.875 GHz in open circuit condition with a narrowband (2.16 GHz) bandstop response at 10 dB and a maximum attenuation of 29.5 dB, and at 26 GHz with a wideband allpass response and return loss greater than 10 dB. As a result, the filter is appropriate for 5G applications that use millimeter-wave RF front-end systems.

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Reconfigurable ultra wideband to narrowband antenna for cognitive radio applications using PIN diode

Cited by 6 publications

References 20 publications

Frequency-Reconfigurable Multiband Antenna Based on Pin Switch for Wireless Applications

Frequency-Reconfigurable Multiband Antenna Based on Pin Switch for Wireless Applications

At 28 GHz microstrip patch antenna for wireless applications: a review

Convertible Bandstop to Allpass Filter using Defected Ground Structure with Ideal Switch for Millimeter-Wave Band in 5G Application

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