A dual-frequency antenna based on the Sierpinski fractal with two parasitic patches to enhance the impedance bandwidth is presented. An electrical circuit model formed by RLC resonators is proposed to learn about the antenna physical behavior and to achieve the dual band operation minimizing a trial-and-error numerical/ measurement proofs. The antenna has been designed using a MoM commercial code and has been experimentally tested, obtaining two bands with a bandwidth around 7%(SWR<2) and similar radiation pattern and gain.Peer Reviewe
The multiport network approach is extended to analyze the behavior of microstrip fractal antennas. T...
The rapid growth in wireless communication has led to need of antennas with increased bandwidth, hig...
A two-layer modified microstrip aperture coupled patch antenna with Sierpinski fractal geometry is p...
Abstract — A decrease in physical size and multiband ability are essential requirements for antenna ...
This paper presents a novel design of a microstrip fractal antenna based on the use of Sierpinski tr...
Fractal antennas have the characteristic of radiating in multiple frequencies through the property o...
Abstract—A triple-frequency antenna combining a dual-band and a monoband antenna with broadside radi...
Abstract — Fractal antenna, as name concerns, uses fractal i.e. structure does not change and repeat...
Small antennas are becoming important and required for many domestic and commercial wireless applica...
Low profile features of microstrip antennas attract many researchers to investigate the performance ...
The growth of wireless communications in recent years has made it necessary to develop compact, ligh...
The paper presents microstrip patch antennas, which are based on the fractal antenna concept, and us...
he unique geometrical properties of fractals have been proven to be useful to design advanced antenn...
Different fractal structures have been widely used in many antennas designs for various applications...
In this work the fractal microstrip antenna with Sierpinski geometry with some variations have been ...
The multiport network approach is extended to analyze the behavior of microstrip fractal antennas. T...
The rapid growth in wireless communication has led to need of antennas with increased bandwidth, hig...
A two-layer modified microstrip aperture coupled patch antenna with Sierpinski fractal geometry is p...
Abstract — A decrease in physical size and multiband ability are essential requirements for antenna ...
This paper presents a novel design of a microstrip fractal antenna based on the use of Sierpinski tr...
Fractal antennas have the characteristic of radiating in multiple frequencies through the property o...
Abstract—A triple-frequency antenna combining a dual-band and a monoband antenna with broadside radi...
Abstract — Fractal antenna, as name concerns, uses fractal i.e. structure does not change and repeat...
Small antennas are becoming important and required for many domestic and commercial wireless applica...
Low profile features of microstrip antennas attract many researchers to investigate the performance ...
The growth of wireless communications in recent years has made it necessary to develop compact, ligh...
The paper presents microstrip patch antennas, which are based on the fractal antenna concept, and us...
he unique geometrical properties of fractals have been proven to be useful to design advanced antenn...
Different fractal structures have been widely used in many antennas designs for various applications...
In this work the fractal microstrip antenna with Sierpinski geometry with some variations have been ...
The multiport network approach is extended to analyze the behavior of microstrip fractal antennas. T...
The rapid growth in wireless communication has led to need of antennas with increased bandwidth, hig...
A two-layer modified microstrip aperture coupled patch antenna with Sierpinski fractal geometry is p...