Creation of a soft circular patch antenna for 5G at a frequency of 2.45 GHz dedicated to biomedical applications

Abstract

Telemedicine technology is one of the key achievements of recent years. This technology is based on biomedical devices that contain essential components, in-cluding antennas. Biomedical antennas ensure the exchange of data between de-vices installed on the human body and the external environment. This paper pre-sents the study and design of a flexible circular patch antenna implanted on a bio-sourced substrate for industrial, scientific, and medical applications. The frequen-cy chosen for the study is 2,45GHz. Return loss and radiation pattern measure-ments. An improvement in the gain of this antenna is also investigated in this study. This antenna offers adequate performance to meet the needs of 5G users. This antenna is printed on a polyester substrate with a thickness of h=2,85cm, a relative permittivity εr=3,2, a loss tangent equal to 0,003, and a patch radius equal to 2,11cm. In addition, this antenna provides the following results: reflection co-efficient S11=-26,59dB, bandwidth BW=0,12GHz, gain G=5,6, directivity D=5,8dB, and efficiency η=96,55 %