Abstract
This paper deals with Performance Analysis of slotted monopole antenna with pin diodes for wireless applications. The antenna is designed on a 1.6 mm thick FR4 substrate with the dielectric constant ( ) of 4.4. Antenna is electrically reconfigured incorporating pin diodes as switching elements to tune desired frequency and to achieve frequency reconfigurability. The antenna parameters like return loss, bandwidth, radiation pattern, directivity and gain are simulated and characterized in this paper. The proposed antenna covers resonating frequencies ranging from the 3.7-13.4GHz. The proposed microstrip monopole frequency reconfigurable antenna can be considered as electrically small, low weight, low profile. The design and analysis of the proposed antenna is accomplished through HFSS EM simulator.
Highlights
Modern wireless system structures usually have multiband antennas are attractive where it is advantageous to have a single antenna which can more than one standard in order that they require be dynamically reconfigured to transmit and/or modern-day antenna structures with multiple skills receive on multiple frequency bands.For these and capabilities without enlarging occupied structures, mainly planar designs are chosen volume
This paper deals with Performance Analysis of slotted monopole antenna with pin diodes for wireless applications
A performance analysis of slotted monopole antenna with pin diodes for wireless applications is designed on a substrate of FR4 dielectric material with thickness of 1.6mm and dielectric constant of 4.4[4]
Summary
Modern wireless system structures usually have multiband antennas are attractive where it is advantageous to have a single antenna which can more than one standard in order that they require be dynamically reconfigured to transmit and/or modern-day antenna structures with multiple skills receive on multiple frequency bands.For these and capabilities without enlarging occupied structures, mainly planar designs are chosen volume. Reconfigurable elements together, such that the resulting module antennas can make use of extra efficaciously radio will have desired operating frequency bands, or in frequency spectrum, facilitating a better get right other words to determine which switches to turn of entry to wireless services in modern radio transceivers [3]. Responding to the ever-increasing antenna frequency bands.In this paper , an attempt was bandwidth needs, significant effort is currently made to integrate the technique of electrical under way to improve multiband antennas. The formulations produced are measured and are observed with satisfactory results
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