Small printed integrated inverted-F antenna for Bluetooth application

## 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 In this article, an inkjet‐printed inverted‐F antenna suitable for a watch‐type wireless communication device is presented. The antenna and covering the 2.4 WLAN band (2.4–2.484 GHz) has thickness (2 mm^3^) and size (40 × 25 mm^2^). The performance of the printed antenna is experimental

## Abstract Detuning is evaluated in the printed inverted‐F antenna for the 2.45‐GHz ISM band. Measurements and simulations are presented for a wooden desktop, a plastic enclosure, and an automobile body. Installed return loss differed significantly from free space and therefore near‐field and envi

## Abstract A single‐feed dual‐band stacked‐patch Planar Inverted‐F Antenna (PIFA) is integrated with a RF switch array at one side of its shorting straps to make a tunable PIFA. The L‐band switch yields 0.45‐dB insertion loss (IL) and 10‐dB isolation bandwidth (BW) of >100% at 1.2 GHz. The tunable

## Abstract A folded inverted‐F strip antenna printed on a dielectric substrate and fed by a coplanar waveguide is presented. A prototype with a small area of 25×8 mm^2^ having a 10 dB impedance bandwidth of about 20% centered at about 2.0 GHz has been constructed and studied. The constructed proto

## Abstract The inverted‐F antenna is experimentally downsized using various reactive and dielectric loading techniques. Antenna parameters are presented for each technique, including size reduction, bandwidth, and radiation performance. © 2001 John Wiley & Sons, Inc. Microwave Opt Technol Lett 31: