Frequency-tuned ultra wideband antenna with partial-circular patch

## Abstract A novel ultra‐wide band printed slot antenna is presented. By using the novel feeding structure of a circular patch with a tapered microstrip line, the bandwidth of the elliptical slot antenna is greatly enhanced. The impedance bandwidth (VSWR < 2) reaches 174%, covering 1.90–27.7 GHz w

## Abstract A series of ultra‐wideband antenna using an elliptically curved patch is investigated. The band‐notch feature is realized by cutting off a bended slot, which can be tuned. S~11~ is controllable by the length of the tunable slot. The antenna exhibits good omnidirectional performance acro

## Abstract A novel and simple design of a printed circular patch antenna for ultra‐wideband application with a band‐notched characteristic is presented. By cutting a pie‐shaped slot on the circular radiating patch, a frequency band notch will be created. The cutting pie depth contributes to the no

2 2 Ž . Ž . where 0 F lbr k y k , l: integer, 0 F n -2 ar ' y 2 2 k y k , n: integer. ## ' y The power conservation requires q q s 1. Figure 1 2 2 shows a comparison of the reflection and transmission w x coefficients between our results and 2 , indicating a good Ž . agreement. We use the number

## Abstract This study proposes the concept of frequency tuning for an electrically small antenna to be used in wideband applications in low frequencies. An electrically small antenna has too narrow bandwidth to be utilized for wideband systems. However, in such mobile TV services that the band is

## Abstract The design of a dual‐frequency planar inverted‐L antenna with a circular‐sided patch is described. The proposed antenna exhibits good dual‐frequency characteristics with the frequency ratio ranging from 1.70 to 1.98. Measured results of the performance of the antenna are presented. © 20