Tunable inkjet-printed slotted waveguide antenna on a ferrite substrate

Ahmed Nafe; Muhammad Farooqui; Atif Shamim

Tunable inkjet-printed slotted waveguide antenna on a ferrite substrate

Ahmed Nafe, Muhammad Farooqui, Atif Shamim

Computer, Electrical and Mathematical Science and Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In this work an inkjet-printed frequency-tunable slotted waveguide antenna on a ferrite substrate is reported. Unlike the typical substrate integrated waveguide approach with via holes, a true 3D rectangular waveguide is realized by inkjet-printing of nano-particle based conductive ink on the broad faces as well as on sides of the substrate. The operating frequency of the antenna can be tuned by applying a variable static bias magnetic field that controls the permeability of the host ferrite substrate. The antenna operates about a center frequency of approximately 14 GHz with an instantaneous impedance bandwidth of 75 MHz. A fabricated prototype has demonstrated a tuning range of 10% (1.5 GHz) using an applied bias magnetic field of 3 kOe yielding it especially attractive for tunable and reconfigurable yet low cost microwave systems.

Original language	English (US)
Title of host publication	2015 9th European Conference on Antennas and Propagation, EuCAP 2015
Publisher	Institute of Electrical and Electronics Engineers Inc.
State	Published - Apr 13 2015

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title = "Tunable inkjet-printed slotted waveguide antenna on a ferrite substrate",

abstract = "In this work an inkjet-printed frequency-tunable slotted waveguide antenna on a ferrite substrate is reported. Unlike the typical substrate integrated waveguide approach with via holes, a true 3D rectangular waveguide is realized by inkjet-printing of nano-particle based conductive ink on the broad faces as well as on sides of the substrate. The operating frequency of the antenna can be tuned by applying a variable static bias magnetic field that controls the permeability of the host ferrite substrate. The antenna operates about a center frequency of approximately 14 GHz with an instantaneous impedance bandwidth of 75 MHz. A fabricated prototype has demonstrated a tuning range of 10% (1.5 GHz) using an applied bias magnetic field of 3 kOe yielding it especially attractive for tunable and reconfigurable yet low cost microwave systems.",

author = "Ahmed Nafe and Muhammad Farooqui and Atif Shamim",

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AU - Farooqui, Muhammad

AU - Shamim, Atif

N1 - KAUST Repository Item: Exported on 2020-04-23

PY - 2015/4/13

Y1 - 2015/4/13

N2 - In this work an inkjet-printed frequency-tunable slotted waveguide antenna on a ferrite substrate is reported. Unlike the typical substrate integrated waveguide approach with via holes, a true 3D rectangular waveguide is realized by inkjet-printing of nano-particle based conductive ink on the broad faces as well as on sides of the substrate. The operating frequency of the antenna can be tuned by applying a variable static bias magnetic field that controls the permeability of the host ferrite substrate. The antenna operates about a center frequency of approximately 14 GHz with an instantaneous impedance bandwidth of 75 MHz. A fabricated prototype has demonstrated a tuning range of 10% (1.5 GHz) using an applied bias magnetic field of 3 kOe yielding it especially attractive for tunable and reconfigurable yet low cost microwave systems.

AB - In this work an inkjet-printed frequency-tunable slotted waveguide antenna on a ferrite substrate is reported. Unlike the typical substrate integrated waveguide approach with via holes, a true 3D rectangular waveguide is realized by inkjet-printing of nano-particle based conductive ink on the broad faces as well as on sides of the substrate. The operating frequency of the antenna can be tuned by applying a variable static bias magnetic field that controls the permeability of the host ferrite substrate. The antenna operates about a center frequency of approximately 14 GHz with an instantaneous impedance bandwidth of 75 MHz. A fabricated prototype has demonstrated a tuning range of 10% (1.5 GHz) using an applied bias magnetic field of 3 kOe yielding it especially attractive for tunable and reconfigurable yet low cost microwave systems.

UR - http://hdl.handle.net/10754/576152

UR - http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=7228549&contentType=Conference+Publications

M3 - Conference contribution

AN - SCOPUS:84949638204

BT - 2015 9th European Conference on Antennas and Propagation, EuCAP 2015

PB - Institute of Electrical and Electronics Engineers Inc.

ER -

Tunable inkjet-printed slotted waveguide antenna on a ferrite substrate

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