New Microstrip Antenna Design Approach Based On Harmonics Analysis.And Radiation Monitoring Quality

Use of advanced design system and micro processed technology enhance the performance of transmission subsystem quality and control electromagnetic waves propagation in space, but at the same time resulting into transmitted waves quality problems for utility. One of the major issues of transmission quality is harmonics in transmission subsystem. Through mandatory regulations, harmonics in the transmission subsystem must be prevented to ensure good propagation quality. In this work, we present the design and characteristics of three types of tested Microstrip Antenna (MA). In the first place, longitudinally magnetized ferrite patch antenna is presented. We can control outside the resonance frequency by changing the tensor permeability which is a function of the magnetization of the ferrite substrate. The wavelength in the ferrite is short as the magnetization becomes stronger. This antenna becomes multi-band, used in transmission subsystems as well as IEEE standard transmission quality. A microstrip antenna ultrawideband double circular slit fed with a coplanar line CPW is designed, and successful results are demonstrated. The proposed antenna is characterized by simplicity of design and food, a very low cost and a relatively stable radiation pattern in this part of the bandwidth. In the last part, we present simulations under HFSS antenna guide wave empty or filled with metamaterials to periodic square openings. This paper presents a new approach to design Microstrip Antenna for wireless transmission subsystems radiation quality monitoring and analysis considering harmonics. Successful results allow us develop a wide ultra antenna band. This is an innovative approach in telecommunication field in terms of radiated elements which thereby improves waves propagation quality. A case study of microstrip antenna performance is presented which encompasses the effects of harmonics on Antenna waveguide to metamaterial ultra broadband and double slit ULB patch antenna to find out the solution to be implemented.

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