Design and Analysis of Metamaterial Inspired Open Complementary Split Ring Resonators for Multiband Operation

Daniel, R. Samson; Pandeeswari, R.; Raghavan, S.

doi:10.2528/pierc17073101

Cited by 14 publications

(10 citation statements)

References 15 publications

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“…Recently, metamaterials have been investigated for antenna miniaturization and enabling multiband operation [8]. Different kinds of split-ring resonators (SRRs) are used in antenna designs [9][10][11][12][13][14][15]. Among these designs, SRRs were used as radiating elements [10][11][12] to surround the radiating elements [13], or were printed on the ground plane side of the radiating elements [9,14,15].…”

Section: Introductionmentioning

confidence: 99%

“…Different kinds of split-ring resonators (SRRs) are used in antenna designs [9][10][11][12][13][14][15]. Among these designs, SRRs were used as radiating elements [10][11][12] to surround the radiating elements [13], or were printed on the ground plane side of the radiating elements [9,14,15]. Especially, in [11,13,14], the special personality of the metamaterials is designed to generate required passing bands of the proposed antennas, while in [12], it is responsible for the notched bands.…”

Section: Introductionmentioning

confidence: 99%

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Design and Analysis of a Metamaterial-Inspired Miniaturized Quadband Antenna

Sun

Mao

2022

International Journal of Antennas and Propagation

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A metamaterial-inspired miniaturized quadband antenna is designed and discussed with a transmission line model to study the theory of miniaturization and multiband in this paper. A conventional printed monopole antenna is assumed as a primary antenna and then surrounded by an array of 4 × 2 interdigital LHMs. The proposed antenna has a compact size of 36 mm × 24 mm × 1 mm , and operates at 2.40–2.55 GHz, 3.02–3.38 GHz, 5.04–5.52 GHz, and 7.08–7.38 GHz. Good gain and omnidirectional radiation patterns are observed in simulations and measurements. A simplified transmission line modal was established to study the reasons for miniaturization and multiband that were brought about by the LHM array. Related results verified the theoretical analysis and indicated that the proposed antenna is a good candidate for wireless communication applications.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Design and Analysis of a Metamaterial-Inspired Miniaturized Quadband Antenna

Sun

Mao

2022

International Journal of Antennas and Propagation

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“…Recently, a new expression appeared in the universe of the microwave, it is the metamatriaux [1] (artificial metallodiélecctric structuring properties not found in nature). From a historical point of view, the electromagnetic properties of these environments have been studied by Victor.…”

Section: Introductionmentioning

confidence: 99%

“…However, the traditional techniques of studying in [1], [7] this type of structure can be long, complicated and require a thorough knowledge of the electromagnetic field, adding that they are expensive, without forgetting that it poses a huge problem of impedance adaptation. For these reasons, we propose a technique of study allowing to evolve less complicated in terms of extraction of diffusion parameters (distribution parameters), and which proved the effectiveness of the physical models of system with microwaves, as well as than its precision in terms of adaptation.…”

Section: Introductionmentioning

confidence: 99%

Modeling and Analyses the Equivalent-Schema Models for OSRR and COSRR Coupled to Planar Transmission Lines by Scattering Bond Graph

Salem¹,

Taghouti²,

Mami³

2020

IJACSA

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Following consumer demand, international competition has become increasingly high, suddenly industrialists are mobilizing to meet the requirements. Faced with this challenge, and in order to be able to respond to these prerequisites, manufacturers are looking for techniques that will allow them to gain productivity by increasing the rate of perfection before going to manufacturing. Modeling presents the most important phase in a construction chain since it allows not only analysis and understanding of the physical system but also to improve its behavior according to the desired objective from the design phase. The results presented in this article concern the modeling of the transmission lines of metamaterials loaded with OSRR "Open Split-Ring Resonators" and COSRR "Complementary Open Split-Ring Resonators" resonators, with the aim of improving analysis, synthesis and understanding of this system. By using the Scattering Bond Graph technique, which improves the adaptation of the impedance, and reduces the bandwidth. This technique allows us to deduce the scattering parameters (matrix [S]) of the OSRR / COSRR TL elements from the wave matrix [W], hence this matrix is determined through on the specific properties of the equivalent Bond Graph presentation based on the notion of causality.

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“…Negative permittivity material is used to design new microwave components such as filters [4], power divider [5], branch line coupler [6], and multiband antenna design [7]. Due to the sub-wavelength resonator CSRR employs an antenna miniaturization [8] and bandwidth improvement [9]. The ε-negative metamaterial has spurred in millimeter wave frequency, such as phase shifter [10], circular polarization [11], and eliminates cross polarization [12].…”

Section: Introductionmentioning

confidence: 99%

Metamaterial Inspired Structure With Offset-Fed Microstrip Line for Multi Band Operations

Murugeshwari¹,

Daniel²,

Raghavan³

2019

PIER M

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A miniaturized rectangle-shaped complementary split ring radiating element with an offsetfed microstrip line is reported for multiband operations. The fabricated antenna with a compact size of 19×19×1.6 mm 3 is designed on an FR-4 substrate with loss tangent tan δ = 0.02 and dielectric constant (ε r ) of 4.4. Multiband and antenna miniaturization are achieved by a complementary split ring radiating element, and it produces an impedance bandwidth of 40 MHz resonance at 3.03 GHz, 40 MHz resonance at 3.66 GHz, and 1470 MHz resonance at 5.5 GHz. The passband behaviour of the complementary split ring radiating element is studied in detail for obtaining multiband abilities of the miniaturized antenna. The metamaterial property of the complementary split ring radiating element is analyzed, by which the negative permittivity (ε) existence and the new resonance frequency are confirmed. The fabricated antenna shows optimum performance at the measured radiation characteristics.

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Design and Analysis of Metamaterial Inspired Open Complementary Split Ring Resonators for Multiband Operation

Cited by 14 publications

References 15 publications

Design and Analysis of a Metamaterial-Inspired Miniaturized Quadband Antenna

Design and Analysis of a Metamaterial-Inspired Miniaturized Quadband Antenna

Modeling and Analyses the Equivalent-Schema Models for OSRR and COSRR Coupled to Planar Transmission Lines by Scattering Bond Graph

Metamaterial Inspired Structure With Offset-Fed Microstrip Line for Multi Band Operations

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