Study of a band-notched double printed dipole antenna

waveguide loss listed here includes the fiber-to-waveguide coupling loss. So the excess losses for the inverted and conventional structure are Ϫ0.10 Ϯ 0.15 dB and Ϫ0.12 Ϯ 0.15 dB, respectively. ## 6. CONCLUSION In this paper, a low-loss interconnection between an EO polymer and a passive polymer h

## Abstract A novel double‐printed rectangular patch dipole antenna with a band‐notched function suitable for UWB application is presented and investigated in this article. The band‐notched characteristic is achieved by connecting L‐shaped strips to the antenna rather than inserting slot to the ant

## Abstract The characteristics of a double printed UWB dipole antenna with two U‐shape arms are investigated both in frequency domain and time domain. Some reasonable theoretical analyses are proposed. Transmitting antenna transfer function, receiving antenna transfer function, and antenna system

## Abstract In this paper, a novel UWB (ultra‐wide bandwidth) antenna having a frequency band notch is presented. The ring‐slot is used to change the current distribution and realize the frequency notch function. The measured return loss less than −10.0 dB is from 3.1 to 5.0 GHz and from 6.0 to 10.

In this study, we propose a design to obtain band-notching characteristics in printed planar monopoles. An ultra-wide band was achieved by means of the beveled upper edge of the rectangular patch with dimension as small as 55 mm 2 . On the other hand, it is necessary to notch certain bands to avoid

## Abstract A broadband microstrip‐fed printed antenna is proposed in this article. Simulations and experiments demonstrate that this structure exhibits a 36% impedance bandwidth with VSWR below 2:1. Antenna geometry and measured antenna characteristics are presented. © 2009 Wiley Periodicals, Inc.