Indian Journal of Science and Technology

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Design Performance of UWB Antenna for Portable Devices Applications


Affiliations
1 KKR and KSR Institute of Technology and Sciences, Guntur – 522017, Andhra Pradesh, India
2 RVR and JC College of Engineering, Chowdavaram, Guntur – 522019, Andhra Pradesh, India
 

Objectives: To review on the design of UWB antennas for the wireless applications and to propose suitable design. Methods/ Statistical Analysis: The study introduces a novel structure methods implementing the design are cutting multiple T-slots on a rectangular patch. The proposed structure occupied an area of 875 mm2 produces a reflection coefficient is −44.58 dB and maintained S11 ≤ −10 dB in the entire operating UWB region. The multiple T-slot antennas IBW’s are 4.0−3.0 GHz (1000 MHz), 5.0−6.0 GHz (1000 MHz), 9.0−11.0 GHz (2000 MHz). Findings: The frequency considered from 3.1 GHz-10.6 GHz produces omnidirectional patterns of radiations with simple geometrical configuration. Proposed design produces higher performance compared to the narrow band systems. Produces a better return loss in the entire UWB region Application/ Improvements: The applications include the dielectric, planar, wearable antennas and paying specific attention to the areas of portable devices such as laptops, tablets, wearable computers, glasses and mobile phones etc.
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  • Design Performance of UWB Antenna for Portable Devices Applications

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Authors

K. Madhu Sudhana Rao
KKR and KSR Institute of Technology and Sciences, Guntur – 522017, Andhra Pradesh, India
M. V. S. Prasad
RVR and JC College of Engineering, Chowdavaram, Guntur – 522019, Andhra Pradesh, India

Abstract


Objectives: To review on the design of UWB antennas for the wireless applications and to propose suitable design. Methods/ Statistical Analysis: The study introduces a novel structure methods implementing the design are cutting multiple T-slots on a rectangular patch. The proposed structure occupied an area of 875 mm2 produces a reflection coefficient is −44.58 dB and maintained S11 ≤ −10 dB in the entire operating UWB region. The multiple T-slot antennas IBW’s are 4.0−3.0 GHz (1000 MHz), 5.0−6.0 GHz (1000 MHz), 9.0−11.0 GHz (2000 MHz). Findings: The frequency considered from 3.1 GHz-10.6 GHz produces omnidirectional patterns of radiations with simple geometrical configuration. Proposed design produces higher performance compared to the narrow band systems. Produces a better return loss in the entire UWB region Application/ Improvements: The applications include the dielectric, planar, wearable antennas and paying specific attention to the areas of portable devices such as laptops, tablets, wearable computers, glasses and mobile phones etc.

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DOI: https://doi.org/10.17485/ijst%2F2018%2Fv11i44%2F137641