A miniaturized 2-itertion rectangular slotted Sierpinski Fractal Bowtie antenna for multiband applications

Abstract

Recent advancements in the field of Telecommunications and wireless technology services need compact, multiband antennas with reduced system complexity. In this paper a novel Rectangular slotted Sierpinski Fractal Bowtie antenna is illustrated and is further expanded up to 2-iterations to obtain multi frequency bands with increased percentage of Miniaturization. The overall volume of the proposed 2-iteration SPK Bowtie antenna is (50 × 50 × 1.6) mm3 and the substrate is FR-4 epoxy with 4.4 dielectric constant. All the 0th, 1st and 2nd iterations of Rectangular slotted SPK Fractal Bowtie antenna are exited with coaxial probe feed and are simulated using ANSYS HFSS software for 100 MHz to 14 GHz frequency range. The radiation parameters like return loss, Bandwidth, VSWR, and Gain are evaluated and compared. The simulation results shows that proposed 2nd iteration Rectangular slotted SPK Fractal Bowtie antenna exhibits more number of frequency bands as compared to the 0th and 1st iterations. The proposed design is able to resonate at frequencies 0.2 GHz, 3.5 GHz, 6.3 GHz, 8.6 GHz, 10.9 GHz, 11.7 GHz with a gain of 0.529 dB, 5.074 dB, 4.518 dB, 5.335 dB, 9.18 dB, 21.17 dB respectively. The percentage of Miniaturization is also increased to 58.2% in the case of 2-iteraion. A prototype of the final proposed antenna is fabricated and tested using VNA network analyzer. The fabricated prototype of proposed antenna is also capable of resonating in L, C, S, and X bands. The simulated results of the proposed antenna have a great matching with the measured results.