Abstract—The goal of this paper is

Abstract—The goal of this paper is to designed ultra-wide
band (UWB) array antenna for biomedical application. The
array arrangement is introduced to improve the performance of
the antenna in terms of return loss, gain, bandwidth, and
directivity. In this paper, a four-element antenna array is
presented. The antenna array is composed of quarter wave feed
network along with four- identical circular patch antenna
elements designed and simulated using Computer Simulation
Tool (CST) Microwave Environment software. The performance
of the designed array antenna evaluated in term of return loss,
Voltage Standing Wave Ratio (VSWR), bandwidth, radiation
pattern, directivity and gain. The array elements and its feed
network are properly designed to have a very wide useful band
and high gain antenna against frequency. Introduction of unique
mitered structures along the feedline and low right side feed
realize UWB array antenna with high gain. The simulation result
of return loss shown that the operating bandwidth less than -10
dB is start from 4.5 GHz until more than 20 GHz at gain range of
4.2 dB until more than 8 dB at VSWR less than 2. The antenna
has an excellent averaged directivity of 7 dBi and a widespread
functioned fractional bandwidth of more than 129%. Simulated
result shows that the array has a peak gain of more than 8 dB at
9 GHz. These features lead the UWB antenna array appropriate
for microwave imaging purposes. The antenna is fabricated on
the low cost FR-4 substrate with dielectric constant of 4.7 and
thickness of 1.6 mm. Less complicated fabrication methods is
possible due to the feeding network placement is on the same
level with the antenna patch elements.