Wideband and Low Sidelobe Slot Antenna Fed by Series-Fed Printed Array

## Abstract A new compact configuration of a printed CPW‐fed semicircular slot antenna with a CPW‐to‐CPW step transition is presented. Its bandwidth is enhanced for ultra‐wideband (UWB) operation by combining linear and stepped CPW‐to‐CPW transitions along the feed line. Its measured 10 dB return l

Two wideband tapered slot antennas are designed, fabricated, and tested. The first antenna, which is fabricated on a high dielectric constant substrate (e r 5 10.2), shows a measured return loss of better than 10 dB from 1.6 to 12.4 GHz (7.7:1 bandwidth), and an antenna gain varying from 3.6 to 7.8

## Abstract A printed meandering strip (PMS) is proposed for feeding a patch antenna. It is demonstrated that the impedance matching of the antenna can be further improved by using a higher order PMS. A patch antenna fed by a first order meandering strip has an impedance bandwidth of 22% [standing

## Abstract A microstrip‐fed printed bow‐tie antenna is presented in order to achieve wide bandwidth, high gain, and size reduction. A comparison between the bow‐tie and the quasi‐Yagi (dipole and director) antennas shows that the bow‐tie antenna has a wider bandwidth, higher gain, lower front‐to‐b

## Abstract This study presents a broadband microstrip slot array structure with a novel feeding technique, which offers enhanced bandwidth and very low cross‐polarization levels, targeting the satellite reception application market in the Ku‐Band. The single element module and the antenna array fo