Design and Fabrication of Contour Shape Microstrip Patch Antenna for Biomedical Application

Author:

Parasuraman S,Yogeeswaran S,Ramesh G P

Abstract

Abstract This paper presents the design of a contour shape reconfigurable microstrip patch antenna. The reconfigurable microstrip patch antenna is one of the excellent candidates for portable wireless device very simple because of its low profile, light weight and low cost. However, the requirement of frequency bandwidth is becoming greater in present wireless communication system. It is presenting for biomedical application band which covering from 8GHZ to 12GHZ frequency range. This microstrip patch antenna is capable of operating on both linear and circular polarization. This type of patch antenna fabricated on FR4 substrate and also fed by feed line is same substrate. By controlling the bias voltage of four PIN diodes, the polarization of antenna can be switched between four states two state of linear polarization for (vertical and horizontal) and two states for circular polarization for (RHCP & LHCP). There are several steps to design this antenna including determine the antenna specific characteristics antenna simulation construction and analysis. The explanation detail for design procedure simulation results, methods and techniques are discussed in this paper

Publisher

IOP Publishing

Subject

General Medicine

Reference19 articles.

1. Polarization reconfigurable dielectric resonator antenna with a CPW-to- slotline feed;Liu;In 2012 Int. Conf. on Microwave and Millimeter Wave Technology (ICMMT),2012

2. A reconfigurable microstrip antenna with agile polarization using diode switches.;Cao,2011

3. Microstrip Patch Antenna for Peripheral Arterary Disease Diagnosis.;Ramesh,2020

4. A reconfigurable microstrip antenna with radiation pattern selectivity and polarization diversity;Cao;IEEE Antennas and Wireless Propagation Letters,2012

5. Design of a polarisation reconfigurable patch antenna using ferrimagnetic materials;Zervos;IET microwaves, antennas & propagation,2012

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