Mutual coupling between planar inverted-F antennas

## Abstract A new kind of planar inverted F antenna (PIFA) is presented. To reduce the size of the structure, the resonator has been curled under itself. A capacitive load is added to decrease the frequencies of higher resonances. The result is the achievement of a dual‐band antenna. Theoretical re

## Abstract The mutual coupling between rectangular microstrip patches mounted on a spherical structure is studied in this paper. The analysis approach is based on the spectral‐domain method of moments (MoM). An approximate method is developed to calculate coupling between currents located on diffe

## Mutual coupling between two rectangular multisegment dielectric resonator antennas is in¨estigated in both the E-and H-planes. Spacing distances up to 4.5 are considered, with comparisons made between numerical TLM simulations and experimentation. Good agreement is achie¨ed, with representati¨e

## Abstract In this letter, a novel method that can achieve critical coupling in a planar inverted F‐antenna of high height is proposed. Theproposed antenna can achieve critical coupling by attachment of a ferrite sheet without changing the size of the antenna or ground plane. A ferrite sheet is us

## Abstract By embedding a group of parallel slots in the ground plane, novel dual‐frequency operations of a single‐feed planar inverted‐F antenna (PIFA) are presented. Simulation based upon the method of moments (MoM) is used to model the performance of the antenna. An example of the proposed ante

## 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