Design of Rectangular Microstrip Patch Antenna for 2.4 GHz applied a WBAN

Kaschel, Héctor; Ahumada, Cristian

doi:10.1109/ica-acca.2018.8609703

Cited by 29 publications

(8 citation statements)

References 16 publications

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“…It consists of different layers: skin, fat, muscle, and bone, with different thicknesses, 1.6, 8, 10, and 5.4 mm, respectively, as depicted in Fig. 13 [13][14][15]. For experimental the antenna is placed on the chest of a human volunteer with a height and weight of 185 cm/97 kg, as shown in Fig.…”

Section: Performance On Bodymentioning

confidence: 99%

Design of a Wideband Spring Textile Antenna for Wearable 5G and IoT Applications Using Characteristic Mode Analysis

Elias¹,

Soh²

2022

PIER M

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This paper presents the design and practical implementation of a wideband spring textile (WST) antenna for wearable communications. The antenna is designed on a felt substrate having a compact dimension of 32 × 42 × 3 mm 3 (0.38λ g × 0.5λ g × 0.036λ g ). This antenna operates in the 3.14 to 5.45 GHz frequency range, has a bandwidth (BW) of around 2306 MHz, and has a peak realized gain of 6 dBi at 3.5 GHz. Due to a broad frequency coverage, this antenna can be used in a wide range of wireless applications, including 5G and IoT. The proposed design is analyzed in terms of reflection coefficient, radiation pattern, efficiency, gain, and surface current. Using the same electromagnetic simulation software, both characteristic mode analysis (CMA) and the method of moments (MoM) are applied in the design process. The simulated results on a human chest phantom demonstrate the −10-dB impedance bandwidths of 1461 MHz. The antenna prototype is fabricated for verification, and the simulated and measured results demonstrate that the proposed antenna is suitable for wideband on-body applications given its low-profile implementation and mechanical flexibility.

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Section: Performance On Bodymentioning

confidence: 99%

Design of a Wideband Spring Textile Antenna for Wearable 5G and IoT Applications Using Characteristic Mode Analysis

Elias¹,

Soh²

2022

PIER M

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“…The common element type used in PA is omni-directional, with a typical gain of 4-5 dB [23] for lower scan sensitivity and to avoid coupling effects. Therefore, the AP is determined mostly by the AF and not by the EP, which is ideally isotropic.…”

Section: Super Directive Array Theorymentioning

confidence: 99%

Super Directional Antenna—3D Phased Array Antenna Based on Directional Elements

2022

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This paper describes an antenna design approach for achieving super directivity in an AESA (Active Electronic Scanned Array) radar using an unconventional 3D phased array (PA) antenna concept based on directional Yagi–Uda elements. The proposed scheme is shown to have a wider scanning feature, with higher directivity in comparison to the same geometry dipole array without increasing the element number. The antenna’s microwave design includes an antipodal Yagi–Uda antenna element that is implemented efficiently on a microstrip PCB using a balun (balance–unbalance)-fed network. This type of antenna is valuable in restricted aperture scans for achieving a narrow antenna beam that increases the angular resolution and measurement precision of tracked targets and also enlarges the detection range or, alternatively, achieves the same performance with a lower number of elements—meeting the goal of low-cost production. The notable result of the high antenna directivity was obtained by both the element and the array architecture, which allowed for improvements in the Array Factor (AF) directivity by increasing the element’s spacing and broadening the scan sector, achieved via the suppression of the element’s Grating Lobe (GL). Another important benefit of this antenna design is the superior coupling reduction caused by its enlarged element distances, which are very significant in electronic scans. An outstanding opportunity to exploit this low coupling can be found in separated MIMO radar architecture. Other benefits of this design’s architecture are the support of a combined module and antenna on a unified board thanks to the End-Fire radiation pattern, its low frequency sensitivity, and its low-cost manufacturing.

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“…Antena mikrostrip merupakan salah satu antena yang paling populer saat ini. Hal ini dikarenakan antena mikrostrip sangat cocok untuk peralatan telekomunikasi dimana bentuk dan ukuran sedang dipertimbangkan [5].…”

Section: Antena Mikrostripunclassified

PERANCANGAN ANTENA MIKROSTRIP MIMO 2X1 UNTUK FREKUENSI KERJA 2G DAN 5G PADA ACCESS POINT Archer C2

Hadiwiyatno

Anshori²,

Wirayoga³

2022

JTIA

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Teknologi telekomunikasi pada bidang antena telah mengalami perkembangan. Antena merupakan suatu perangkat yang dapat mengirimkan gelombang elektromagnetik, tergantung penggunaan dan memiliki frekuensi kerja tersendiri. Salah satu jenis antena tersebut ialah antena mikrostrip. Bentuk dan ukuran dimensi antena yang lebih kecil, harga, bahannya yang sederhana serta mampu memberikan kinerja (performance) yang cukup baik. Hal ini merupakan alasan pemilihan antena mikrostrip pada berbagai macam aplikasi. Pemilihan frekuensi kerja pada access point saat ini memiliki variasi 2 macam yaitu 2G dan 5G. Tujuan dari perancangan ini adalah untuk mengetahui pengiriman sinyal yang dihasilkan oleh antena mikrostrip pada alat router dengan spesifikasi 2G 5G dan melakukan analisis kinerja perangkat tersebut khususnya pada bagian antena yang menggunakan bahan dasar FR4. Antena Mikrostrip MIMO 2x1 yang dirancang mampu bekerja pada frekuensi 2G dan 5G, dimana untuk frekuensi untuk 2G adalah 2407.2 MHz dan untuk frekuensi 5G adalah 5820.4 MHz. Untuk bandwith frekuensi 2G memiliki bandwith 84 MHz dan bandwith frekuensi 5G memiliki bandwith 118.4 MHz.

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Design of Rectangular Microstrip Patch Antenna for 2.4 GHz applied a WBAN

Cited by 29 publications

References 16 publications

Design of a Wideband Spring Textile Antenna for Wearable 5G and IoT Applications Using Characteristic Mode Analysis

Design of a Wideband Spring Textile Antenna for Wearable 5G and IoT Applications Using Characteristic Mode Analysis

Super Directional Antenna—3D Phased Array Antenna Based on Directional Elements

PERANCANGAN ANTENA MIKROSTRIP MIMO 2X1 UNTUK FREKUENSI KERJA 2G DAN 5G PADA ACCESS POINT Archer C2

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