A wideband rectangular patch antenna with shorting pins

## Abstract This paper presents measured and simulated results for a wideband, low‐profile patch antenna. A low‐profile (0.026λ~0~) rectangular‐shape patch antenna with two shorting pins and two probe feeds is studied. By exciting one port and terminating the other port by a 50Ω matched load, an im

## Abstract A novel compact shorted patch antenna with the bowtie‐type patch and the dual triangle portion to obtain a large bandwidth (790–970 MHz) is presented in this paper. Using shorted patches with via holes, a size reduction of 95.7% is achieved, as compared to that of the conventional half‐

## Abstract The finite‐element method (FEM) is applied to analyze a thin substrate antenna with shorting posts. The resonant frequency of this kind of antenna is studied and compared with other numerical result and experimental data. © 2004 Wiley Periodicals, Inc. Microwave Opt Technol Lett 41: 47–

A new design of a circular patch antenna with an impedance bandwidth greater than 25% and a peak antenna gain about 8.3 dBi is presented. The circular patch antenna has a thick air substrate, and a pair of wide slits are cut in the circular patch to facilitate the antenna's impedance matching. The c

## Abstract In this article, a novel compact internal wideband planar inverted F‐antenna (PIFA) was designed. The proposed antenna consisted of a main patch with strip, rectangular slot, and shorting strip and occupied the total volume of 36 × 18 × 6 mm^3^. The dual band characteristic was achieved

## Abstract Simulation results for a small‐size probe‐fed notched patch antenna with a shorting post are presented. The area of the patch has been reduced by 94%, while the antenna maintains a bandwidth of 13.2%. The antenna can be designed to operate in the dual‐band mode. © 2001 John Wiley & Sons