Small Formfactor Phased Array for Simultaneous Spatial and Channel Diversity Communications

Daniel Guidotti; Binbin Yang; Muhammad S. Omar; Shang-Jen Su; Yahya M. Alfadhli; Gee-Kung Chang; Xiaoli Ma

doi:10.2528/PIERL22030504

Small Formfactor Phased Array for Simultaneous Spatial and Channel Diversity Communications

Daniel Guidotti
, Binbin Yang
, Muhammad S. Omar
, Shang-Jen Su
, Yahya M. Alfadhli
, Gee-Kung Chang
, Xiaoli Ma

Electrical and Computer Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

A high frequency device design and simulation results are reported for an 8 × 8 phased array of unit cells. Each unit cell comprises a (3 × 3) sub-array of 1/4 wave rod monopole radiators. Each unit cell is the basic building block that can be arranged to form 9 interpenetrating arrays. Each interpenetrating array comprises an independently addressable 8 × 8 array of 1/4 wave rod monopole radiators that fits into the lateral space of a single 8 × 8 array of patch radiators but can operate on 9 independent radio frequency channels within the same contiguous communication band without interference and can direct each radio frequency channel into independent directions simultaneously. The beamformer architecture, operation principle, and simulation results are presented and discussed, and an outline of its construction based on 2.5D integration is presented.

Original language	English
Pages (from-to)	37-46
Number of pages	10
Journal	Progress in Electromagnetics Research Letters
Volume	104
DOIs	https://doi.org/10.2528/PIERL22030504
State	Published - Jan 1 2022

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10.2528/PIERL22030504

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title = "Small Formfactor Phased Array for Simultaneous Spatial and Channel Diversity Communications",

abstract = "A high frequency device design and simulation results are reported for an 8 × 8 phased array of unit cells. Each unit cell comprises a (3 × 3) sub-array of 1/4 wave rod monopole radiators. Each unit cell is the basic building block that can be arranged to form 9 interpenetrating arrays. Each interpenetrating array comprises an independently addressable 8 × 8 array of 1/4 wave rod monopole radiators that fits into the lateral space of a single 8 × 8 array of patch radiators but can operate on 9 independent radio frequency channels within the same contiguous communication band without interference and can direct each radio frequency channel into independent directions simultaneously. The beamformer architecture, operation principle, and simulation results are presented and discussed, and an outline of its construction based on 2.5D integration is presented.",

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AU - Omar, Muhammad S.

AU - Su, Shang-Jen

AU - Alfadhli, Yahya M.

AU - Chang, Gee-Kung

AU - Ma, Xiaoli

PY - 2022/1/1

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AB - A high frequency device design and simulation results are reported for an 8 × 8 phased array of unit cells. Each unit cell comprises a (3 × 3) sub-array of 1/4 wave rod monopole radiators. Each unit cell is the basic building block that can be arranged to form 9 interpenetrating arrays. Each interpenetrating array comprises an independently addressable 8 × 8 array of 1/4 wave rod monopole radiators that fits into the lateral space of a single 8 × 8 array of patch radiators but can operate on 9 independent radio frequency channels within the same contiguous communication band without interference and can direct each radio frequency channel into independent directions simultaneously. The beamformer architecture, operation principle, and simulation results are presented and discussed, and an outline of its construction based on 2.5D integration is presented.

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Small Formfactor Phased Array for Simultaneous Spatial and Channel Diversity Communications

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