EBG-assisted slot antenna for Bluetooth applications

## Abstract This paper proposes the design of a small chip‐type dielectric antenna using the advanced meander line technique, so that the radiation metals are formed on the bottom face of a ceramic dielectric (8 × 4 × 1.5 mm^3^, alumina) and on both faces of the substrate (thickness 1.0 mm, FR‐4).

## Abstract A patch antenna on a very high‐permittivity ceramic substrate with a pair of U‐shaped slots is investigated experimentally at 2.45 GHz. The dielectric constant of the ceramic substrate is 43. By embedding a pair of U‐shaped slots close to the nonradiating edges of the patch, two adjacen

## Abstract A printed integrated inverted‐F antenna is introduced which operates in the Bluetooth frequency band (2.4–2.485 GHz). The proposed antenna is a part of the radio frequency printed circuit board (PCB) of a cellular telephone or a personal digital assistant (PDA). The antenna being an int

## Abstract In this paper, a novel linear dual‐polarized stacked microstrip antenna that operates well within the ISM band (2.40–2.4835 GHz) for Bluetooth applications is experimentally presented. The square patch of the microstrip antenna is fed diagonally by a microstrip line. Another square patc

## Abstract A novel dual‐band slot‐antenna for WLAN applications is presented. The antenna is composed of two narrow slots fed by a microstrip‐line. In order to increase the impedance bandwidth of a narrow slot and keep its small size, a kind of stepped‐impedance (SI) slot is used. It has been inve

## Abstract This paper proposes a novel compact dual‐slot antenna for 5‐GHz WLAN applications. The prototype comprises a rectangular slot, a H‐shaped slot, and an open‐circuited microstrip feed line. The simulation and experimental results indicate broad operating bandwidth from 4.9 GHz to 6.3 GHz