A compact filtering antenna with step and continuous tuning modes for WiMAX cognitive radio communication

Alnahwi, F.M., Abdulhameed, A.A., Ali, N.T., Al-Yasir, Yasir I.A., Kubik, Z., Abdullah, A.S., Abd-Alhameed, Raed

19 December 2023

Yes / This work presents a combination of a cup-shaped monopole antenna and an E-shaped Multi-Mode Resonator (MMR) with the presence of a pair of PIN diodes and a varactor diode to form a compact reconfigurable communication filtering antenna for interweave Cognitive Radio (CR) systems. The proposed filtering antenna operates in the WiMAX band, and it is fabricated on an FR4 substrate with overall dimensions normalized to the wavelength ( λ o ) of the first resonant frequency (0.413λ o × 0.516λ o × 0.0165λ o ). The step and continuous tuning serve the secondary user of the WiMAX CR system to communicate in the absence of the primary users at modifiable resonant frequencies and data rates.When the PIN diodes are OFF, the filtering antenna operates with a fixed odd mode resonant frequency and tunable even mode resonant frequency. This state results in a tunable antenna bandwidth covering a maximum measured frequency range of 3.25-4.02~ GHz and a minimum measured range equal to 3.25-3.58~ GHz. The ON state of the PIN diodes eliminates the antenna matching at the even mode resonant frequency while keeping a strong matching at the odd mode resonant frequency. The resulted operational measured frequency range of the antenna in this state is fixed at 2.9-3.28~ GHz. The filtering antenna has acceptable gain values at the pass band of the E-shaped MMR with a maximum simulated gain value equal to 2.5~ dB and a measured maximum gain equal to 2.48~ dB. The simulated and measured power patterns of the antenna for all diodes states are omnidirectional, which are convenient for portable CR gadgets. / This work was supported in part by the Innovation Programme under Grant H2020-MSCA-ITN-2016 SECRET-722424, and in part by the U.K. Engineering and Physical Sciences Research Council (EPSRC) under Grant EP/E022936/1.

Cognitive radio

Even and odd mode analysis

Filtering antenna

Multi-mode resonator

Reconfigurable antenna

Silicon-based 0.450-0.475 THz series-fed double dielectric resonator on-chip antenna array based on metamaterial properties for integrated-circuits

Alibakhshikenari, M., Virdee, B.S., See, C.H., Abd-Alhameed, Raed, Falcone, F., Limiti, E.

14 November 2019

Yes / The antenna array designed to operate over 0.450-0.475 Terahertz comprises two dielectric resonators (DRs) that are stacked vertically on top of each other and placed on the surface of the slot antenna fabricated on a silicon substrate using standard CMOS technology. The slot created in the silicon substrate is meandering and is surrounded by metallic via-wall to prevent energy dissipation. The antenna has a maximum gain of 4.5dBi and radiation efficiency of 45.7% at 0.4625 THz. The combination of slot and vias transform the antenna to a metamaterial structure that provides a relatively small antenna footprint. The proposed series-fed double DRs on-chip antenna array is useful for applications in THz integrated circuits. / Partially supported by innovation programme under grant agreement H2020-MSCA-ITN-2016 SECRET-722424 and the financial support from the UK Engineering and Physical Sciences Research Council (EPSRC) under grant EP/E0/22936/1.

Dielectric resonator antennas

System-on-chip

Antenna arrays

Dielectrics

Silicon

Slot antennas

Substrates

Методы определения электрофизических параметров материалов : магистерская диссертация / Methods of determination of electrophysical parameters of materials

Чадаев, А. А., Chadaev, A. A.

January 2014

The aim of this work is the study of methods of determination of electrophysical parameters of materials non-resonant and resonant methods. In the course of the work performed were considered the existing methods of determination of electrophysical parameters of materials in the field of high, ultra high and extremely high frequencies offered by the leading manufacturers on the market of measuring equipment. As a result of this work, we analyzed the methods for finding the values of electrical parameters of investigated materials for different frequency ranges. The results of the work were carried out practical measurements and conclusions about the applicability of the considered methods. / Целью данной работы является исследование методов определения электрофизических параметров материалов нерезонансными и резонансными методами. В ходе выполненной работы были рассмотрены существующие методы определения электрофизических параметров материалов в области высоких, сверхвысоких и крайне высоких частот, которые предлагаются ведущими производителями на рынке измерительного оборудования. В результате выполненной работы были проанализированы методы нахождения значений электрофизических параметров исследуемых материалов для различных диапазонов частот. По результатам работы были проведены практические измерения и сделаны выводы о применимости рассматриваемых методов.

MASTER'S THESIS

RESONATOR

MODELING

METHOD

MATERIAL

РЕЗОНАТОР

МОДЕЛИРОВАНИЕ

МЕТОД

МАТЕРИАЛ

PM2.5 Particle Sensing and Fit Factor Test of a Respirator with SAW-Based Sensor

Desai, Mitali Hardik

05 1900

PM2.5 particle sensing has been done using surface acoustic wave based sensor for two different frequencies. Due to mass loading and elasticity loading on the sensor's surface, the center frequency of the sensor shifts. The particle concentration can be tracked based on that frequency shift. The fit factor test has been conducted using higher frequency SAW sensor. The consist results has been achieved for particle sensing and fit factor test with SAW based sensor.

Particle sensor

SAW

mass loading

series connection of the SAW resonator

Fit Factor test of EHMRs

Wideband Dielectric Resonator Antenna Array for Autonomous Vehicles

Johansson, Andreas, Müller, Luke

January 2023

With the rapid advancement of autonomous vehicles, reliable and efficient wireless communication systems with high data rates have become essential for their safe and efficient operation and further evolution. High data rates are found in the higher frequency bands where conductive antennas lack radiation efficiency. To achieve high radiation efficiency, researchers tend towards using Circular Polarized Dielectric Resonator Antennas (CP-DRA). However, there is a lack of studies that cover the FR2 5G bands n257, n258, n261 suggested by 3GPP which is needed if vehicles were to drive across regional borders. This project addresses the challenges of achieving suitable CP-DRA performance for autonomous vehicle communication aimed at covering these FR2 5G bands. The objective is to design and simulate an optimized CP-DRA antenna that meets the required performance characteristics for further use in a phased array for efficient communication in the high-frequency FR2 5G bands. The objective was fulfilled by producing a model of a CP-DRA antenna that covers the mentioned FR2 5G bands. The antenna array achieves this with an axial ratio beam width at plus/minus 20 degrees azimuth angle and peak gain of 9-12 dBi throughout the frequency range. The model consists of four cylindrical resonator antenna elements excited in phase quadrature by a slot aperture feeding network to accomplish the circular polarization. The radiation efficiency of the model is 94% throughout the frequency range with an impedance bandwidth of < -15 dB. A prototype was built and tested that vaguely verified the beam pattern and center frequency. Future work includes building a prototype more comparable to the model for further verification of the circularly polarized gain pattern.

DRA

dielectric resonator antenna

5G

FR2

28GHz

NR

antenna

circular polarization

autonomous vehicles

Telecommunications

Telekommunikation

Study on Beltrami Fields with Parallel Electric and Magnetic Fields at Microwave Frequencies / マイクロ波帯における電場と磁場が平行なベルトラミ場の研究

Mochizuki, Ryo

23 March 2023

京都大学 / 新制・課程博士 / 博士(工学) / 甲第24584号 / 工博第5090号 / 新制||工||1975(附属図書館) / 京都大学大学院工学研究科電気工学専攻 / (主査)教授 篠原 真毅, 教授 大村 善治, 教授 小嶋 浩嗣, 教授 引原 隆士 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

Beltrami field

Parallel electric and magnetic fields

Microwave engineering

Cavity resonator

Wave propagation

500

Maximizing Bass Reflex System Performance Through Optimization of Port Geometry

Doll, Bryce

01 January 2020

A bass-reflex system is a type of loudspeaker design that uses a port or a vent to improve low-frequency performance. The port acts as a Helmholtz resonator which extends the bass response of the system. However, at high drive levels, the air inside the port can become turbulent and cause distortion, noise, and compression. From previous works, it is known that the geometry of the port plays a crucial role in reducing these unwanted effects. This paper serves to provide more insight into optimal port shape by performing several objective tests on a group of 5 different prototype port shapes based on findings from previous literature. Total Harmonic Distortion (THD) and port compression tests were conducted to determine which port presented the highest performance.

Loudspeaker

Acoustics

Helmholtz Resonator

Vented Enclosure

Ported Enclosure

Loudspeaker Ports

Mechanical Engineering

Design and Analysis of Wafer-Level Vacuum-Encapsulated Disk Resonator Gyroscope Using a Commercial MEMS Process

Uppalapati, Balaadithya

20 December 2017

No description available.

Electrical Engineering

Mechanical Engineering

MEMS

gyroscopes

disk resonator gyroscope

MIDIS

vacuum encapsulation

inertial sensors

Zeroth-Order Resonator (ZOR) Antenna Using Composite Right/Left-Handed (CRLH ) Microstrip Transmission Line (TL)

Shi, Ruirong

02 May 2011

No description available.

Electrical Engineering

Composite Right/Left-handed (CRLH)

Antenna

Zeroth-order resonator (ZOR)

Experimental Investigation of New Inductor Topologies

Wang, Shu

17 May 2016

No description available.

Electrical Engineering