Integrated end-fire mm-wave antenna array with low frequency metal-framed antenna

Rocio  Rodriguez Cano; Shuai Zhang; Gert Frølund Pedersen

Integrated end-fire mm-wave antenna array with low frequency metal-framed antenna

Rocio Rodriguez Cano (Opfinder), Shuai Zhang (Opfinder), Gert Frølund Pedersen (Opfinder)

Publikation: Patent

Abstract

The present subject matter relates to antenna systems, devices, and methods that are designed to avoid the degradation of the end-fire radiation pattern of the array when a piece of metal is added obstructing the direction of the main beam. A parasitic radiator is positioned in proximity to the blocking structure and configured to couple at least part of the reflected radiation pattern and radiate toward the desired end-fire direction.

Originalsprog	Engelsk
IPC	H01Q1/24; H01Q1/36; H01Q21/29; H01Q5/392; H01Q7/00; H04B7/0426; H04B7/06;
Patentnummer	US20200076479A1
Journaliseringsdato	30/08/2019
Land/Område	Danmark
Prioritetsnummer	US16/557,543
Status	Udgivet - 5 mar. 2020

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1 Afsluttet

Reconfigurable Arrays for Next Generation Efficiency (RANGE)
Pedersen, G. F., Zhang, S., Ying, Z. & Morris, A.
01/05/2016 → 30/12/2021
Projekter: Projekt › Forskning

1 Ph.d.-afhandling

Integration of mm-Wave Antenna Systems in 5G Mobile Terminals
Rodriguez Cano, R., 2020, Aalborg Universitetsforlag. 139 s.
Publikation: Ph.d.-afhandling

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Citationsformater

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abstract = "The present subject matter relates to antenna systems, devices, and methods that are designed to avoid the degradation of the end-fire radiation pattern of the array when a piece of metal is added obstructing the direction of the main beam. A parasitic radiator is positioned in proximity to the blocking structure and configured to couple at least part of the reflected radiation pattern and radiate toward the desired end-fire direction.",

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AU - Rodriguez Cano, Rocio

AU - Zhang, Shuai

AU - Pedersen, Gert Frølund

PY - 2020/3/5

Y1 - 2020/3/5

N2 - The present subject matter relates to antenna systems, devices, and methods that are designed to avoid the degradation of the end-fire radiation pattern of the array when a piece of metal is added obstructing the direction of the main beam. A parasitic radiator is positioned in proximity to the blocking structure and configured to couple at least part of the reflected radiation pattern and radiate toward the desired end-fire direction.

AB - The present subject matter relates to antenna systems, devices, and methods that are designed to avoid the degradation of the end-fire radiation pattern of the array when a piece of metal is added obstructing the direction of the main beam. A parasitic radiator is positioned in proximity to the blocking structure and configured to couple at least part of the reflected radiation pattern and radiate toward the desired end-fire direction.

M3 - Patent

M1 - US20200076479A1

Y2 - 2019/08/30

ER -

Integrated end-fire mm-wave antenna array with low frequency metal-framed antenna

Abstract

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AUB Link

Fingeraftryk

Projekter

Reconfigurable Arrays for Next Generation Efficiency (RANGE)

Publikation

Integration of mm-Wave Antenna Systems in 5G Mobile Terminals

Citationsformater