MINIATURIZAÇÃO DE UM ARRANJO LOG-PERIÓDICO QUASE-FRACTAL DE ANTENAS DE MICROFITA PARA APLICAÇÕES EM REDES DE COMUNICAÇÃO SEM FIO NA FAIXA DE 2,44 GHZ

• DOI: 10.22533/at.ed.4142221041

• Palavras-chave: Arranjo log-periódico quase-fractal, Curva de Koch, Comunicação sem fio

• Keywords: Quasi-fractal log-periodic array, Koch curve, Wireless comunication.

• Abstract:

  The great advance in Telecommunications networks and more precisely in networks and mobile communications, such as 4.5G and 5G networks, make the search for compact devices with multi-frequency properties very attractive to these applications. For this reason, antennas, antenna arrays and planar circuits are excellent devices capable of working in these applications, due to their characteristics, such as: low cost, low weight and ability to operate at high frequencies. In this context, this work consists of the numerical and experimental design of a quasi-fractal log-periodic microstrip antenna array using the level 2 Koch curve. The array was designed to operate in the 2.44 GHz frequency range, where we have many applications, in addition to being a free range for tests belonging to the ISM band (Industrial Scientific and Medical). The array was designed using Ansys DesignerTM software, where it was possible to achieve a smaller array, with a reduction of approximately 41% when compared to a conventional rectangular array for the same frequency range. Once the device was designed, it went through a series of simulations in order to investigate the frequency behavior of this device. For this, measurements of the scattering parameters (S parameters) associated with the proposed antenna array were performed. The structure showed good radiation characteristics and low return losses, with the results agreeing very well with each other.

• Número de páginas: 15