Abstract
A Microstrip Bloom shaped patch antenna is proposed for Internet of Things (IoT) application. This antenna operates at multiband frequencies between 1.6 GHz to 2.45 GHz. The Bloom shaped antenna provides multiband response that examined in HFSS Software. In this proposed antenna design, FR4 substrate material is used because it is easily available and low cost. The proposed antenna structure simulated and analyzed in different experimental results including return loss measurement, Voltage Standing Wave Ratio measurement, radiation pattern measurement and gain measurement. This proposed Multiband Microstrip Bloom shaped patch antenna provides better experimental results in all the parameters
Highlights
Compact and low-powered antennas are considered the prime alternative for wireless networks in the new age of wireless networking systems and applications
Different scientists are working on the construction of wideband microstrip antennas, with a range of methods, including the use of the multiple feeding techniques, shortening pins, the implementation of different slots systems, patch antennas, metamaterials, electromagnetic bandgap materials, etc
In order to achieve wide impedance bandwidth (0.75–2.48 GHz), circular polarization suitable for navigation and radar is implemented on all four sides using proximity-coupled feeds in square patch antenna
Summary
Compact and low-powered antennas are considered the prime alternative for wireless networks in the new age of wireless networking systems and applications. Multi-band Bloom shaped Microstrip patch antenna is low power, light weight, easy to make and fabricate, less cost, etc. Because of these focal points, they are used in variety of applications, for instance, satellite, biomedical, radar and communications. The simulated plots for radiation patter, gain, return loss and Figure 2.1: Block Diagram of Proposed Method VSWR are displayed when the Post-processing stage is finished. This is done in Evaluation of results stage.
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