Active microstrip planar antenna for frequency switching

## Abstract A new technique for designing the frequency agile microstrip antenna is presented. The frequency agility is achieved by symmetrical loading of two identical MOS capacitors at the radiating edge of the patch, in which the operating frequency of the rectangular microstrip antenna is elect

## Abstract A dual‐frequency patch antenna with an inset feed in presented and discussed. It is demonstrated that by cutting two slots into one of the radiating edges of a microstrip patch antenna, a dual‐frequency response with a frequency ratio from 1.03 to 2.0 can be achieved. It is also shown t

## Abstract A microstrip patch antenna (MPA) with four resonance frequencies is presented. The size of the proposed antenna is reduced using shorting wall and window techniques. The effect of window areas on the shorted antenna parameters has been studied. A planar triple‐frequency developed to qua

Design equations are presented for calculating the resonance frequencies for a compact dual frequency arrow-shaped microstrip antenna. This provides a fast and simple way to predict the resonant frequencies of the antenna. The antenna is also analyzed using the IE3D simulation package. The theoretic

## Abstract This letter presents a microstrip‐fed antenna that is compact, low profile, and planar.The antenna is suitable for UPCS (1.85–1.99 GHz) and UWB applications. The antenna occupies an area of 20 × 40 mm^2^. The antenna exhibits dual frequency bands at 1.8–2 GHz and 3.825–8.177 GHz with go

of coherent detection without incurring the same level of receiver complexity. ## 5. CONCLUSION An optically preamplified digital PPM receiver with an electrical domain filtering regime consisting of a matched filter in cascade with a PDD network has been rigorously analyzed for the first time. Un