vioft2nntf2t|tblJournal|Abstract_paper|0xf4ff24b42e000000634b100001000100 It is strongly recommended that 5G mobile devices adopt a revolutionary new design for a microstrip patch antenna that is able to function at two different frequencies simultaneously. Because of the complexity of the radiation mechanisms that must be present for dual�band operation, this step is essential. The suggested antenna makes use of two patches in order to generate the electromagnetic coupling that is necessary for its operation. The primary source of low-frequency radiation is the first patch, which receives its power supply straight from a microstrip line. This particular patch is unique in that it is the only one of its kind. Because the first patch is coupled to the second patch by capacitive and inductive coupling, the second patch is the one that gets fed, and as a direct result of this, it is the one that is primarily responsible for radiating at higher frequencies. The precise same method as before was utilized, with the exception that this time, two sensor nodes were set up in the scenario of short grass field at the exact same height above the ground as the first time. In spite of the fact that the radio link that was being evaluated was not in its optimal state, unexpected findings emerged from an examination of the Quality-of�Service in terms of the theoretical bit error rate obtained by a variety of digital modulations.
R. Sabitha1,G. Kiruthiga2
Hindustan College of Engineering and Technology, India1,IES College of Engineering, India2
Microstrip Patch Antenna, 5g Sensors, Dual Band Operation, Lower Band
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| Published By :
ICTACT
Published In :
ICTACT Journal on Microelectronics
( Volume: 8 , Issue: 3 , Pages: 1414 - 1418 )
Date of Publication :
October 2022
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