Optically transparent coplanar wideband antenna for vehicular communication

The presented state of the art is a novel coplanar optically transparent antenna designed to operate in extended GSM, L-band, and UWB applications for vehicular communication. The presented radiator operates using a coplanar waveguide feed mechanism without a separate ground plane layer with a minimal conductive surface to enhance the transparency of the proposed antenna. The proposed antenna design has dimensions of 40 x 20 mm2, and a transparent material of soda-lime glass is used as a substrate with a dielectric constant of 7. The radiating element over the substrate is the conductive film fluorine-doped tin oxide (FTO) with a sheet resistance of 7 Omega/sq. The operating frequency range of the designed antenna is from 0.86 to 14.45 GHz, which encloses the E-GSM (900 MHz), L-band (1-2 GHz), and UWB (3.1-10.6 GHz) frequencies. The peak gains at the operating frequencies are 1, 1.6, and 4.34 dBi, respectively. The designed antenna is fabricated and measured, and the performance metrics are plotted and compared. Since the transparent antenna is designed, the tendency of a substance to conduct light is measured as the optical transmittance, and it is calculated as 95% in the glass reference and 82% in the air reference. The dimensions of the proposed antenna design are 40 x 20 mm2, and its substrate is made of transparent soda-lime glass. The conductive film fluorine-doped tin oxide (FTO) acts as the radiating element over the substrate. The design of the antenna encompasses the E-GSM (900 MHz), L-band (1-2 GHz), and UWB (3.1-10.6 GHz) frequencies within its operational frequency range of 0.86 to 14.45 GHz. image