Microstrip antenna based on durer pentagon fractal patch for multiband wireless applications

Abraham, Jacob; John, K K Aju; Mathew, Thomaskutty

doi:10.1109/icices.2014.7033976

Cited by 21 publications

(14 citation statements)

References 10 publications

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“…Fractal has unique geometrical features in nature [6]. To overcome the disadvantage of microstrip patch antenna and for multiband applications, fractal antenna geometry is useful [7,8]. Main advantage of fractal is compact size, multiband, and high gain [9,10].…”

Section: Introductionmentioning

confidence: 99%

Wideband High Gain Fractal Antenna for Wireless Applications

Desai¹,

Upadhyaya²,

Patel³

et al. 2018

PIER Letters

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Abstract-The paper focuses on design and analysis of hexagon inspired fractal geometry and defected ground plane to evaluate the performance of patch antenna for wireless applications. It also emphasizes increasing the antenna bandwidth by incorporating novel rectangular Defected Ground Surface (DGS) structure with CPW feed. In the proposed work, antenna is simulated and fabricated for wireless applications using FR4 as the substrate, and it covers wide band with high gain. The antenna resonates at frequencies of 3.79 GHz and 5.5 GHz with measured return losses of −25.02 dB and −26.03 dB, respectively, making the proposed antenna suitable for Wi-Fi, cordless phone, wireless devices and wireless sensor networks applications.

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Section: Introductionmentioning

confidence: 99%

Wideband High Gain Fractal Antenna for Wireless Applications

Desai¹,

Upadhyaya²,

Patel³

et al. 2018

PIER Letters

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show abstract

“…One of the most employed techniques is the use of fractal geometry, either to construct the radiator itself, as a fractal, or to complement the radiator with a fractal shape in order to add an electrical feature to improve the performance of the antenna. The fractal geometry can also be introduced in the ground plane . This method is very effective, but could be difficult to achieve, since the fractal geometry must accomplishes certain rules not described by the Euclidean geometry, giving a technique hard to carry on.…”

Section: Introductionmentioning

confidence: 99%

Multiband reduced-size patch antenna by employing a modified DMS-spur-line combo technique

Tirado‐Méndez

Jardón‐Aguilar

Flores‐Leal

et al. 2018

Int J RF Microw Comput Aided Eng

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In this article, a simple but effective combination of DMS and spur‐lines is achieved to obtain a multiband patch antenna. The advantage of this technique is the simplicity to elaborate and the good performance compared to other methods where nulls are present in the radiation pattern at the main lobe. The antenna presents five resonant frequencies, which are fully controllable by modifying the dimensions of the defected microstrip structures and spur‐lines, obtaining the characteristic directive radiation pattern and maximum gain above 6 dBi in all bands.

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“…A. Singh et al carried out a comparative study of circular and rectangular patch with the help of CST microwave studio, with patch thickness of 0.05 mm and dielectric constant of substrate 2.2 [15]. J. Abraham et al described a CPW fed monopole patch antenna fabricated on FR-4 epoxy substrate for wireless applications [16]. A. Majumder designed H-shaped patch on FR-4 substrate having thickness of 6.7 mm for Bluetooth applications with operating frequency 2.4 GHz [17].…”

Section: Related Workmentioning

confidence: 99%

Design and Development of Symmetrical E-Shaped Microstrip Patch Antenna for Multiband Wireless Applications

Kaur¹,

Singh²,

Singh³

et al. 2016

IJSIP

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Microstrip patch antennas have made great advancements in wireless communication are -14.9, -10.7, -14.3, -13.5 and -14.6 dB at frequencies 6.166, 6.833, 8.166, 9.500 and 10.500 GHz respectively. The observed VSWR values for the resonant frequency peaks are 1.43, 1.82, 1.48, are within recommended range for the desired frequency bands. FR4 substrate is used for the fabrication of the antenna having permittivity of 4.4. The performance parameters of fabricated antenna geometry are computed using VNA tool.

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Microstrip antenna based on durer pentagon fractal patch for multiband wireless applications

Cited by 21 publications

References 10 publications

Wideband High Gain Fractal Antenna for Wireless Applications

Wideband High Gain Fractal Antenna for Wireless Applications

Multiband reduced-size patch antenna by employing a modified DMS-spur-line combo technique

Design and Development of Symmetrical E-Shaped Microstrip Patch Antenna for Multiband Wireless Applications

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