A dual band antenna using a sierpinski carpet fractal geometry is designed which covers the multiband characteristics of fractals.
Sierpinski carpet fractal antenna.
Cpw fed hexagonal sierpinski super wideband fractal antenna abstract.
Four resonant frequencies and three operation frequency bands can be observed.
Figure 2 shows the design of a sierpinski carpet fractal antenna starting with a rectangular geometry of single patch antenna.
A fractal antenna uses a self similar design to maximize the length or increase the perimeter of a material that transmits or receives electromagnetic radiation within a given volume or area.
Here for designing of this antenna we use sierpinski carpet fractal geometry.
Sierpinski carpet antenna based on fractal geometry are low profile antennas moderate gain and can be operated at multiband of frequencies leads to a multi functional structure.
An impedance bandwidth of 3 4 37 4 ghz is achieved.
This multiband sierpinski gasket monopole antenna can cover more than 10 bands in the frequency band of 0 6 ghz 16 ghz.
The fractalcarpet object creates a sierpinski s carpet fractal antenna.
The antenna consists of a sierpinski carpet fractal radiator which reduces the overall size of the antenna and it is realized on top of a hilbert slot in the ground layer to achieve required impedance matching.
The antenna have been.
This paper describes the design of modified sierpinski carpet fractal antenna which resonates at six frequencies 4 825 5 455 6 265 ghz and 6 805 8 02 and 9 145 ghz.
Different performance parameters like radiation pattern gain voltage standing wave ratio return losses are observed at all the frequencies.
This type of wideband antenna displays high self similarity and symmetry.
It consists of hexagonal radiation patch with two iterations of sierpinski square slots and coplanar waveguide feeding.
Very broadband and multiband frequency response that derives from the inherent properties of the fractal geometry of the antenna.
This paper presents a novel design of fractal antenna on a flexible substrate that operates in umts band universal mobile telecommunication system 1 92 2 17 ghz.
W 0 264 h l 0 412h w reff 0 258 0 8 h 4.
Fractal antenna is widely used due to the following important facts.
The model of the antenna is as shown in the figure 3.
A compact hexagonal sierpinski fractal antenna for super wideband applications is presented.
From result and discussion it can be concluded that the self similarity in the structure for the 4th iteration sierpinski gasket monopole fractal antenna is observed to possess multiband behavior.
The proposed antenna is designed on fr4 substrate with dielectric constant of 4 4.
This paper presents the design of sierpinski carpet fractal antenna up to third iteration.
