Planar UWB antenna with multi-slotted ground plane

## 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 layer, single‐feed circularly polarized (CP) microstrip antenna designed with 2 pairs of slot embedded on its ground plane for global positioning system (GPS) is proposed. The experimental results shown that by simply tuning the length of the slotted pair, two orthogonal near‐d

## Abstract A planar tapered‐slot‐fed antenna is proposed in this article. The antenna is printed on a dielectric substrate. Measured and simulated results are used to demonstrate the performance of the antenna. It can be seen that this type of antenna is suitable for ultra‐wideband (UWB) applicati

## Abstract A novel printed antenna having a frequency band‐notched function for UWB applications is proposed and studied. With a pair of inverted‐L‐shaped slots introduced around the microstrip line on the ground, a frequency‐notched response at 5.2 GHz is obtained. The designed antenna satisfies

## Abstract In this article a miniaturized planar antenna is presented for broadband applications. Antenna miniaturization is achieved by modifying the ground plane that creates a different current path thus increasing the effective dimension of the antenna. In addition, dual chopping, slitting, an

## Abstract A planar monopole UWB antenna with rounded patch and rounded truncated ground plane for ultra‐wideband applications is investigated. The geometry of the antenna is optimized to obtain a minimum return loss. The antenna provides the return loss better than −15 dB in almost the entire (3.