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A multiple‐input‐multiple‐output on‐chip Quasi‐Yagi‐Uda antenna for multigigabit communications: Preliminary study
Author(s) -
Sultan Kamel S.,
Abdallah Esmat A.,
El Hennawy Hadia
Publication year - 2020
Publication title -
engineering reports
Language(s) - English
Resource type - Journals
ISSN - 2577-8196
DOI - 10.1002/eng2.12133
Subject(s) - reflector (photography) , diversity gain , mimo , antenna (radio) , electronic engineering , radiation pattern , antenna efficiency , antenna measurement , engineering , electrical engineering , computer science , telecommunications , physics , optics , channel (broadcasting) , light source
Abstract This article presents a solution for the low gain and the poor efficiency of the on‐chip antennas (OCA). The four elements of Quasi‐Yagi‐Uda antennas (QYUA) are introduced based on the diversity technique to reduce the interference between the elements. In addition, these antennas achieve high isolations between them due to the use of reflector for each antenna. The QYUA is selected to improve the radiation properties of the end‐fire radiator in the millimeter‐wave range for on‐chip systems. The proposed MIMO antenna is used for the point to point communications. The complementary metal‐oxide semiconductor with 180 nm standard is used in the antenna design with six metal layers. The QYUA combines three parts (driven element, reflector, and director); the driven consists of two meander lines fed by coplanar‐slot and operates as a dipole, the reflector is an arc likes a semicircle to prevent the back radiation and increase the front to back ratio, and the director is a meander line to directive the radiation into the proposed direction (front end‐fire direction). All MIMO parameters such as envelope correlation coefficient, channel capacity loss, diversity gain, and total active reflection coefficient in addition to the different configurations of the MIMO are presented. All results are verified by computer simulation technology and high‐frequency structure simulator. The contribution of this article is the MIMO antenna design for point to point communications to serve multigiga communications systems with high data rate and high gain. This MIMO system is considered here to solve the problems of OCA designs.

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