Analysis and equivalent circuit of aperture-coupled cavity-fed microstrip patch antenna

## Abstract In this letter, we propose a new structure of an aperture coupled T‐shaped microstrip‐fed triangular patch antenna, which has similar radiation pattern properties, with the advantage of being physically smaller than the aperture‐coupled rectangular patch antenna or microstrip slot anten

## Abstract This paper describes an efficient design method for an aperture‐coupled microstrip patch antenna, based on an improved transmission line model. The governing equations have been derived and applied to the design of the antenna with a center operating frequency of 11 GHz. The theoretical

## Abstract A conducting‐polymer patch antenna is fabricated using a screen‐printing technique. Polyaniline (Pani) film of conductivity 6000 S/m, permittivity 6000, and thickness 100 μm is used as a radiating patch to realize a microstrip‐fed proximity‐coupled Pani‐patch antenna operating at around

In this paper, the tilt of a feedline with regard to a slot is taken into account to impro¨e the ca¨ity model, and also to see the effect of this angle on the input impedance. In fact, the angle is introduced in the ¨oltage discontinuity of the slot on the feeding line. The computed results are comp

## Abstract In this paper, we study a rectangular microstripline‐fed wide aperture‐coupled microstrip antenna backed by a ground plane. In this case, a rectangular microstrip feed line and a wide slot lead to good impedance matching in a wide‐frequency band. The 2.0 VSWR impedance bandwidth of the

The input impedance and mutual coupling of cylindrical-circular microstrip patch antennas in the TM,, mode are experimentally studied. Measured results for the antennas on curued surfaces of different cylinder radii are presented, and the curvature effects on the input impedance and mutual coupling