Double-printed rectangular patch dipole antenna for UWB applications

## Abstract Originally published Microwave Opt Technol Lett 50: 2450–2452, 2008. © 2008 Wiley Periodicals, Inc. Microwave Opt Technol Lett 50: 3280, 2008; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/mop.23900

## 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 A compact and simple design of a printed monopole antenna on a thin substrate for ultra‐wideband applications is presented. The antenna size is 30 × 36 × 0.4 mm^3^ and operates over an extremely wide band of 2.82–13.60 GHz. The proposed design consists of a coplanar radiator and a groun

## Abstract This paper presents the concept of using a harmonic trap to design a wideband reconfigurable antenna. The reconfigurable antennas can be used to select one of a number of operating frequency bands. If these bands cover a very wide frequency range, then one of the higher‐frequency bands

## Abstract In this article, we have investigated printed double‐T monopole antennas for triband applications. A close form formula for calculating the antenna resonance frequency is reported. Such printed monopole antennas are compact, less fragile, planar, and easy for design and fabrication. © 2