• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 41
  • 7
  • 5
  • 2
  • 1
  • 1
  • 1
  • Tagged with
  • 63
  • 25
  • 20
  • 19
  • 14
  • 14
  • 13
  • 12
  • 11
  • 10
  • 9
  • 9
  • 6
  • 6
  • 6
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
51

Coupled Resonant Coil Sensors for Remote Passive Monitoring Applications

Bhadra, Sharmistha 10 September 2010 (has links)
The thesis describes development and application of coupled resonant coil sensors, which is of growing interest for remote monitoring applications. An interrogation technique, which improves the accuracy and interrogation range of coupled resonant coil sensors, is introduced. The method uses time-domain gating to produce measurements that are dominated by the response of the sensor coil and are immune to surrounding object interference. For application in structural health monitoring a low cost embeddable coupled coil sensor, which is able to monitor the corrosion potential of reinforcement steel is presented. Results of an accelerated corrosion test using the sensor indicate that corrosion potential can be monitored with a resolution less than 10 mV and a sensitivity of 0.76 kHz/mV. The last part describes a coupled-coil pH sensor based on pH electrode potential measurement. A linear response over a 4 to 10 pH dynamic range and 50 kHz/pH sensitivity are achieved with a 0.1 pH resolution and 30 s response time.
52

Substrate Integrated Coaxial Filters with Fixed and Tunable Responses

Sirci, Stefano 20 March 2017 (has links)
Wireless and mobile communications are already playing an important role in our lives, and this will can only grow more and more due to the predominant importance and use of modern smartphones, tablets and any kind of connected devices. With this is mind, the spectrum for wireless and mobile communications is becoming incredibly overcrowded, leading to increasing requirements for RF front-end filters. This progress has encouraged an impressive need for developing low-cost, high performance, mass-producible, small footprint, and highly integrated front-end solutions for microwave and millimeter-wave systems and applications including emerging 5G and future wireless platforms. In this context, high quality factor resonators are usually typical basic building blocks of many high performance passive and active circuits, and its design has become even more challenging in the last decade. As a result, Substrate Integrated Waveguide (SIW) technology has attracted scientific community and industry attention as a very good candidate for developing such desired high-Q planar microwave devices. Recently, SIW is demonstrating to be a successful approach for implementing microwave and mm-wave filters with high Q-factor, easy integration with other planar circuits, and for mass-production manufacturing processes in many technologies (i.e. Printed Circuit Board (PCB) and Low Temperature Co-fired Ceramics (LTCC) technologies among them). Its enormous similarity with waveguides is probably one of the main reasons why the development of SIW-based components and circuits is rapidly growing among the research community. Other potential features that, combined with the former advantages, could be of huge interest in a wide range of wireless and mobile applications are a lively set of research subjects, such as compactness, advanced filtering responses, and recently frequency-agility capabilities. These key features have been recently introduced in the design of microwave filters for the next-generation wireless systems. Taking into account the above-mentioned background, the work carried out during the course of this PhD Thesis has been directed towards a further study of SIW technology to propose, analyze and develop an innovative and original resonator topology. The proposed topology is based on the extension of the classical coaxial waveguide resonator to SIW technology, and must take advantage of the characteristics of SIW devices to allow the design of improved and innovative microwave resonator filters for advanced wireless systems. This PhD Thesis includes the latest improvements made on this topic, from the working principles of the basic coaxial SIW block, until different applications for the design of compact quasi-elliptic and reconfigurable microwave filters. The results are promising and demonstrate the validity of the proposed topology for the design of high-Q microwave filters, as well as its potential application to implement complex designs. The general knowledge gained from these cases of study can be considered a good base for further developing this technology, which can help to improve its EM performance, and also contribute to a more general use in the market. / Las comunicaciones inalámbricas y móviles juegan un papel importante en nuestras vidas, y esto sólo puede ir a más debido a su enorme importancia y al uso de los modernos teléfonos inteligentes (del inglés, smartphones), tabletas y toda clase de dispositivos inalámbricos. Con todo esto en mente, el espectro electromagnético para comunicaciones inalámbricas y móviles se está saturando cada día más, lo que conlleva un constante aumento de los requisitos para los filtros de radio-frecuencia usados en las cabeceras de dichos sistemas. Este progreso ha llevado a un creciente interés en desarrollar componentes de microondas de bajo coste, alto rendimiento, pequeño tamaño, que permitan implementar soluciones altamente integradas para sistemas de alta frecuencia (i.e. microondas y ondas milimétrica) y sus aplicaciones, incluyendo entre ellas la emergente conexión 5G y las futuras plataformas inalámbricas. En este contexto, los resonadores de elevado factor de calidad constituyen generalmente los bloques básicos para el diseño de muchos circuitos pasivos (entre ellos filtros) y activos de alto rendimiento. Su diseño se ha convertido por tanto en un reto aún mayor en la última década. Como resultado de ello, la tecnología de guía de ondas integradas en substrato (Substrate Integrated Waveguide, SIW) ha atraído la atención de la comunidad científica e industrial, al revelarse como una buena aproximación para el desarrollo de dispositivos planares de microondas con excelentes prestaciones eléctricas, y en particular para la implementación de filtros de microondas y onda milimétrica de bajas pérdidas y elevada integración con circuitos en tecnología planar. Además, su flexibilidad se caracteriza también por su adecuación a diferentes procesos de fabricación y producción en masa, en tecnologías tales como los circuitos impresos (Printed Circuit Board, PCB) o la tecnología de materiales cerámicos multi-capa co-sinterizados a baja temperatura (Low Temperature Co-fired Ceramics, LTCC) entre otras. Su enorme similitud con las ya largamente estudiadas guías de onda es, probablemente, una de las principales razones por las cuales el desarrollo de dicho circuitos está creciendo rápidamente entre la comunidad de investigadores. Cabe mencionar como, además de las anteriores ventajas, otras características de la tecnología SIW que podrían ser de gran interés en una amplia gama de aplicaciones inalámbricas y móviles son la miniaturización, la posibilidad de implementar respuestas avanzadas de filtrado y, recientemente, las capacidades de sintonía en frecuencia de los componentes de microondas. De este modo, el trabajo desarrollado a lo largo de esta Tesis Doctoral se ha orientado hacia el planteamiento, análisis y desarrollo de una topología de resonador innovadora y original. Dicha topología se basa en una extensión de las cavidades coaxiales en guía de onda metálica a una implementación integrada en substrato inspirada en la tecnología SIW. Esta Tesis Doctoral recapitula los últimos avances que se han producido sobre este tema, empezando desde la descripción de los principios fundamentales de funcionamiento de las estructuras, hasta la demostración de varias aplicaciones concretas útiles para el diseño de filtros de microondas muy compactos, con respuestas filtrantes avanzadas y reconfigurables. Los resultados que se van a mostrar a continuación son prometedores, y demuestran la validez de la topología propuesta. El conocimiento general obtenido de los diferentes prototipos fabricados y caracterizados experimentalmente puede considerarse una buena base para seguir desarrollando esta tecnología, lo que puede ayudar a mejorar su rendimiento electromagnético, así como a contribuir a un uso más extendido de estos dispositivos en el mercado. / Les comunicacions sense fils i mòbils juguen un paper important en les nostres vides, i això només pot anar a més a causa de la gran importància i l'ús dels moderns telèfons intel·ligents (de l'anglès, smartphones), tablets i tota classe de dispositius sense fil. Tenint en compte tot açò, l'espectre electromagnètic per a comunicacions sense fils i mòbils s'està saturant cada dia més, el que comporta un constant augment dels requisits per als filtres de radiofreqüència usats en les capçaleres d'aquests sistemes. Aquest progrés ha portat a un creixent interès en desenvolupar components de microones de baix cost, alt rendiment, volum reduït, que permeten implementar solucions altament integrades per a sistemes d'alta freqüència (ie. microones i ones mil·limètriques) i les seves aplicacions, incloent l'emergent connexió 5G i les futures plataformes sense fils. En aquest context, els ressonadors d'elevat factor de qualitat constitueixen generalment els blocs bàsics per al disseny de molts circuits passius (entre ells filtres) i actius d'alt rendiment. El seu disseny s'ha convertit per tant en un repte encara més gran en l'última dècada. Com a resultat d'això, la tecnologia de guia d'ones integrades en substrat (Substrate Integrated Waveguide, SIW) ha atret l'atenció de la comunitat científica i industrial, al revelar-se com una bona aproximació per al desenvolupament de dispositius planars de microones amb excel·lents prestacions elèctriques , i en particular per a la implementació de filtres de microones i ones mil·limètriques de baixes pèrdues i elevada integració amb circuits en tecnologia planar. A més, la seua flexibilitat es caracteritza també per la seua adequació a diferents processos de fabricació i producció en massa, en tecnologies com ara els circuits impresos (Printed Circuit Board, PCB) o la tecnologia de materials ceràmics multicapa co-sinteritzats a baixa temperatura (Low Temperature Co-Fired Ceramics, LTCC) entre d'altres. La seua enorme similitud amb les ja llargament estudiades guies d'ona és, probablement, una de les principals raons per les quals el desenvolupament d'aquests circuits està creixent ràpidament entre la comunitat d'investigadors. Cal destacar com, a més de les anteriors avantatges, altres característiques de la tecnologia SIW que podrien ser de gran interès en una àmplia gamma d'aplicacions sense fils i mòbils són la miniaturització, la possibilitat d'implementar respostes avançades de filtrat i, recentment, les capacitats de sintonia en freqüència dels components de microones. Aquestes característiques clau s'han introduït recentment en el disseny de filtres microones per als sistemes sense fils de pròxima generació, convertint-se en objecte prioritari d'estudi per part de la comunitat científica. D'aquesta manera, el treball desenvolupat al llarg d'aquesta tesi doctoral s'ha orientat cap al plantejament, anàlisi i desenvolupament d'una topologia de ressonador innovadora i original. Aquesta topologia es basa en una extensió de les cavitats coaxials en guia d'ona metàl·lica a una implementació integrada a substrat inspirada en la tecnologia SIW. Aquesta tesi doctoral recapitula els últims avanços que s'han produït sobre aquest tema, començant des de la descripció dels principis fonamentals de funcionament de les estructures, fins a la demostració de diverses aplicacions concretes útils per al disseny de filtres i microones molt compactes, amb respostes de filtrat avançades i reconfigurables. Els resultats que es mostraran a continuació són prometedors, i demostren la validesa de la topologia proposada. El coneixement general obtingut dels diferents prototips fabricats i caracteritzats experimentalment es pot considerar com una bona base per seguir desenvolupant aquesta tecnologia, el que pot ajudar a millorar el seu rendiment electromagnètic, així com a contribuir a un ús més estès d'aquests dispositius en el mer / Sirci, S. (2017). Substrate Integrated Coaxial Filters with Fixed and Tunable Responses [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/78838 / TESIS
53

Design and modelling of beam steering antenna array for mobile and wireless applications using optimisation algorithms. Simulation and measrement of switch and phase shifter for beam steering antenna array by applying reactive loading and time modulated switching techniques, optimised using genetic algorithms and particle swarm methods.

Abusitta, M.M. January 2012 (has links)
The objectives of this work were to investigate, design and implement beam steering antenna arrays for mobile and wireless applications using the genetic algorithm (GA) and particle swarm optimisation (PSO) techniques as optimisation design tools. Several antenna designs were implemented and tested: initially, a printed dipole antenna integrated with a duplex RF switch used for mobile base station antenna beam steering was investigated. A coplanar waveguide (CPW) to coplanar strip (CPS) transition was adopted to feed the printed dipole. A novel RF switch circuit, used to control the RF signal fed to the dipole antenna and placed directly before it, was proposed. The measured performance of the RF switch was tested and the results confirmed its viability. Then two hybrid coupled PIN diode phase shifters, using Branchline and Rat-Race ring coupler structures, were designed and tested. The generation of four distinct phase shifts was implemented and studied. The variations of the scattering parameters were found to be realistic, with an acceptable ±2 phase shift tolerance. Next, antenna beam steering was achieved by implementing RF switches with ON or OFF mode functions to excite the radiating elements of the antenna array. The switching control process was implemented using a genetic algorithm (GA) method, subject to scalar and binary genes. Anti-phase feeding of radiating elements was also investigated. A ring antenna array with reflectors was modelled and analysed. An antenna of this type for mobile base stations was designed and simulation results are presented. Following this, a novel concept for simple beam steering using a uniform antenna array operated at 2.4 GHz was designed using GA. The antenna is fed by a single RF input source and the steering elements are reactively tuned by varactor diodes in series with small inductors. The beam-control procedure was derived through the use of a genetic algorithm based on adjusting the required reactance values to obtain the optimum solution as indicated by the cost function. The GA was also initially used as an optimisation tool to derive the antenna design from its specification. Finally, reactive loading and time modulated switching techniques are applied to steer the beam of a circular uniformly spaced antenna array having a source element at its centre. Genetic algorithm (GA) and particle swarm optimisation (PSO) processes calculate the optimal values of reactances loading the parasitic elements, for which the gain can be optimised in a desired direction. For time modulated switching, GA and PSO also determine the optimal on and off times of the parasitic elements for which the difference in currents induced optimises the gain and steering of the beam in a desired direction. These methods were demonstrated by investigating a vertically polarised antenna configuration. A prototype antenna was constructed and experimental results compared with the simulations. Results showed that near optimal solutions for gain optimisation, sidelobe level reduction and beam steering are achievable by utilising these methods. In addition, a simple switching process is employed to steer the beam of a horizontally polarised circular antenna array. A time modulated switching process is applied through Genetic Algorithm optimisation. Several model examples illustrate the radiation beams and the switching time process of each element in the array.
54

Design and Implementation of Reconfigurable and MIMO Antennas for Future Heterogeneous Wireless Systems

Mshwat, Widad F.A.G.A. January 2022 (has links)
Libyan Ministry of Higher Education. / The full text will be available at the end of the embargo: 28th Nov 2024 / Subtitle: Simulation and Measurement of Reconfigurable Antennas for Cognitive Radio, UWB Applications, Investigation of Antenna Gain and Efficiency, Frequency Tuneable Range, Antenna Radiation Performance and Antenna Design Optimization using Parametric Studies as well as using MIMO antenna for wireless body area networks
55

Tunable Patch Antenna Using Semiconductor and Nano-Scale Barium Strontium Titanate Varactors

Baylis, Samuel Andrew 23 March 2007 (has links)
Patch antennas are fundamental elements in many microwave communications systems. However, patch antennas receive/transmit signals over a very narrow bandwidth (typically a maximum of 3% bandwidth). Design modifications directed toward bandwidth expansion generally yield 10% to 40% bandwidth. The series varactor tuned patch antenna configuration was the bandwidth enhancement method explored in this research; this configuration is implemented by dividing a patch antenna into multiple sections and placing varactors across the resultant gaps. In addition to yielding a large bandwidth, the configuration has a number of ancillary benefits, including straightforward integration and design flexibility. Through the research represented by this work, the properties of the series varactor tuned patch antenna, herein referred to as the Fragmented Patch Antenna (or FPA), were explored and optimized. As a result, an innovative patch antenna was produced that yielded 63.4% frequency tuning bandwidth and covered a frequency range between 2.8 and 5.4 GHz. The wide bandwidth was achieved through a detailed parametric study. The products of this study were the discovery of multiple tuning resonances that were used to expand the tuning bandwidth and the understanding/documentation of the significance of specific antenna dimensions. Measurement results were obtained through the fabrication of a prototype antenna using semiconductor varactors. In the second research phase, the construction of capacitors using the tunable permittivity material Barium Strontium Titanate (BST) was investigated. Using this material in conjunction with nano-fabrication techniques, varactors were developed that had good estimated performance characteristics and were considered appropriate for integration into adaptive microwave circuitry, such as the tunable antenna system. The varactors were constructed by using Focused Ion Beam (FIB) milling to create a nano-scale capacitive gap in a transmission line. A combination of end-point current detection (EPD) and cross-section scanning electron (SEM) and ion beam (FIB) microscope images were used to optimize the milling procedure. The future extensions of this work include the integration of the BST varactors with the antenna design; the configuration of the developed BST varactors lends itself to a straightforward integration with the FPA antenna.
56

Entwicklung eines integrierten Mikroresonators für die kernmagnetische Resonanzspektroskopie kleinster Probenvolumen

Leidich, Stefan 09 April 2010 (has links) (PDF)
In der vorliegenden Arbeit wird ein Mikroresonator für die kernmagnetische Resonanzspektroskopie kleinster Probenvolumen entwickelt. Der Resonator besteht aus einem Mikrodetektor und einer elektrisch steuerbaren Kapazität für den Resonanzabgleich. Beide Bauteile sind speziell an die Anforderungen des Messverfahrens angepasst. Der Mikrodetektor, welcher die Funktion der Erregung der Kernspins und die Detektion des Messsignals erfüllt, weist aufgrund seiner besonderen Geometrie ein weitgehend homogenes statisches Magnetfeld im Bereich des Probenvolumens auf. Daraus resultieren eine Verbesserung der spektralen Auflösung und eine Steigerung der Empfindlichkeit. Die elektrisch steuerbare Kapazität weist eine hohe elektrische Güte und eine hohe Spannungsfestigkeit auf, wodurch die Verwendung von hohen Pulsleistungen möglich ist. Der Nachweis der Funktionalität des Systems erfolgt durch die Integration des Mikroresonators in einen Probenkopf, welcher zur Messung von Test- und Referenzsignalen eingesetzt wird. Anhand der Messwerte wird gezeigt, dass die neue Entwicklung eine sehr hohe Empfindlichkeit und eine deutlich höhere spektrale Auflösung als andere Detektorsysteme dieser Art aufweist und somit besonders gut für die Messung von sehr kleinen Probenvolumen geeignet ist. / The thesis describes the development of a micro resonator for nuclear magnetic resonance (NMR) spectroscopy of very small sample volumes. The resonator consists of a microcoil and an electrically adjustable capacitance for resonance tuning. Both components are specially designed for the purpose of NMR. The microcoil excites the nuclear spins and detects the measurement signal. Due to the special cylindrical geometry, the detector provides a very homogenous spatial distribution of the static magnetic field at the location of the sample. This leads to improved spectral resolution and increased sensitivity. The electrically adjustable capacitance provides a high quality factor and high voltage stability. Hence, short excitation pulses with high bandwidth can be applied. The components are integrated into a specially designed probe. The functionality of the system is demonstrated by test and reference measurements. The measurement results verify the high sensitivity and the high spectral resolution. Hence, the system is applicable and well suited for NMR measurements of small sample volumes.
57

Analysis and Design of Reconfigurable Antennas Using the Theory of Characteristic Modes

Mahlaoui Boudallaa, Zakaria 05 January 2024 (has links)
[ES] La Teoría de los Modos Característicos, formulada originalmente en 1968, permite obtener un conjunto de valores propios reales y modos de corriente reales que se pueden utilizar para expandir la corriente total en un cuerpo conductor o dieléctrico. La información proporcionada por las corrientes características (modos) y los valores propios se puede utilizar para realizar el diseño de la antena de una manera sistemática. La gran ventaja de la Teoría de los Modos Característicos sobre otros métodos de diseño tradicionales es la clara visión física que se proporciona sobre los fenómenos que contribuyen a la radiación de la antena. Esta visión física permite comprender mejor el funcionamiento de la antena, de modo que el diseño y la optimización de la misma se pueden llevar a cabo de forma rápida y coherente. El objetivo de esta Tesis es extender el uso de la Teoría de los Modos Característicos al diseño de antenas reconfigurables de manera sistemática. El uso de antenas reconfigurables se ha vuelto cada vez más importante en los últimos años, como una forma de cumplir con los requisitos impuestos y el rendimiento deseado en los nuevos sistemas de comunicaciones inalámbricas. El enfoque de hacer una antena reconfigurable implica la capacidad de una antena para ajustar sus características, como la frecuencia de operación, el diagrama de radiación y la polarización. Diversos componentes activos como diodos varactor, diodos PIN, MEMS, interruptores de RF, elementos fotoconductores o materiales inteligentes pueden usarse para cambiar estas características básicas de la antena. La reconfiguración dinámica de los parámetros operativos de una antena conduce a un sistema de comunicación flexible. Las antenas reconfigurables por frecuencia permiten el mantenimiento de múltiples estándares mientras se mantienen las mismas características físicas de las antenas. La antena reconfigurable por radiación y la diversidad de polarización permiten aumentar la eficiencia de las comunicaciones interiores al reducir significativamente el nivel de interferencia. En esta tesis, la investigación gira en torno al análisis y diseño de estructuras de antenas con la Teoría de los Modos Característicos de manera que los parámetros de las antenas sean sintonizables, por lo que el diseño final de la estructura es una antena reconfigurable que modifica dinámicamente su rendimiento de una forma razonada y coherente. Se analizarán los modos característicos y sus propiedades para diseñar antenas reconfigurables, que combinarán diferentes modos y producirán diferentes características de radiación. En este trabajo se implementará un método sistemático para obtener las características requeridas de la antena. Además, se analizarán y evaluarán diferentes técnicas de conmutación para evaluar su efecto real en la antena y en los modos característicos. El trabajo se centrará en el diseño de pequeñas antenas reconfigurables para aplicaciones IoT y sistemas 5G. / [CA] La Teoria dels Modes Característics, formulada originalment el 1968, permet obtenir un conjunt de valors propis reals i modes de corrent reals que es poden utilitzar per expandir el corrent total en un cos conductor o dielèctric. La informació proporcionada pels corrents característics (modes) i els valors propis es pot utilitzar per fer el disseny de l'antena d'una manera sistemàtica. El gran avantatge de la Teoria dels Modes Característiques sobre altres mètodes de disseny tradicionals és la clara visió física que es proporciona sobre els fenòmens que contribueixen a la radiació de l'antena. Aquesta visió física permet comprendre millor el funcionament de l'antena, de manera que el disseny i l'optimització de la mateixa es poden dur a terme de forma ràpida i coherent. L'objectiu d'aquesta Tesi és estendre l'ús de la Teoria dels Modes Característics al disseny d'antenes reconfigurables de manera sistemàtica. L'ús d'antenes reconfigurables s'ha tornat cada cop més important en els darrers anys, com una forma de complir amb els requisits imposats i el rendiment desitjat en els nous sistemes.temes de comunicacions sense fil. L'enfocament de fer una antenna reconfigurable implica la capacitat duna antena per ajustar les seves característiques, com la frequ¿ència d'operació, el diagrama de radiació i la polarització. Diversos components actius com va donar dos varactor, díodes PIN, MEMS, interruptors de RF, elements fotoconductors o materials intel·ligents poden utilitzar-se per canviar aquestes característiques bàsiques de l'antena. La reconfiguració dinàmica dels paràmetres operatius duna antena condueix a un sistema de comunicació flexible. Les antenes reconfigurables per frequ¿ència permeten el manteniment de múltiples estàndards mentre es mantenen les mateixes característiques físiques de les antenes. L'antena reconfigurable per radiació i diversitat de polarització permeten augmentar l'eficiència de les comunicacions interiors en reduir significativament el nivell dinterferència. En aquesta tesi, la investigació gira al voltant de l'anàlisi i el disseny de estructures d'antenes amb la Teoria dels Modes Característics de manera que els paràmetres de les antenes siguin sintonitzables, per això que el disseny final de lestructura és una antena reconfigurable que modifica dinàmicament el seu rendiment d'una forma raonada i coherent. S'analitzaran els modes característics i les propietats per dissenyar antenes reconfigurables, que combinaran diferents maneres i produiran diferents característiques de radiació. En aquest tractament baix s'implementarà un mètode sistemàtic per obtenir les característiques requerides de l'antena. A més, s'analitzaran i avaluaran diferents tècniques de commutació per avaluar el seu efecte real a la antena i en les maneres característiques. El treball se centrarà en el disseny de petites antenes reconfigurables per a aplicacions IoT i sistemes 5G. / [EN] The Theory of Characteristic Modes, originally formulated in 1968, allows to obtain a set of real eigenvalues and real current modes that can be used to expand the total current on a conducting or dielectric body. The information provided by characteristic eigencurrents (modes) and eigenvalues can be used to perform antenna design in a systematic way. The great advantage of the Theory of Characteristic Modes over other traditional design methods is the clear physical vision provided about the phenomena that contribute to the radiation of the antenna. This physical vision allows to better understand the operation of the antenna, so that the design and the optimization of it can be carried out quickly and coherently. The objective of this Thesis is to extend the use of the Theory of Characteristic Modes to the design of reconfigurable antennas in a systematic way. The use of reconfigurable antennas has become more and more important during the last years, as a way to meet the imposed requirements and desired performance of novel wireless communication systems. The approach of making an antenna reconfigurable implies the capability of an antenna system to adjust its characteristic such as operating frequency, radiation pattern and polarization. Active components such as varactor diodes, PIN diodes, MEMS, RF switches, photoconductive elements or smart materials can be used to change these base characteristics. The dynamic reconfigurability of the operating parameters of an antenna leads to a flexible communication system. Frequency reconfigurable antennas enable multi-standard performances to be maintained while preserving the same physical characteristics of the antennas. Radiation reconfigurable and polarisation diversity antennas enable to increase the efficiency of indoor communications by significantly decreasing the level of interference. In this thesis, the research is turning around the analysis and design of antenna structures with the Theory of Characteristic Modes in a way that the antenna parameters will be tuneable, so the final design of the structure is a reconfigurable antenna that modifies dynamically its performance in a reasoned and coherent way. Characteristic modes and their properties will be analysed in order to design reconfigurable antennas, which combine different modes and produce different radiation characteristics. A systematic method to obtain the required characteristics of the antenna will be implemented during this work. Moreover, different switching techniques will be analysed and evaluated in order to asses their real effect on the antenna and on the characteristic modes. In this work, small reconfigurable antenna prototypes will be designed for IoT applications and 5G systems. / This study was supported by the Spanish Ministry of Science and Innovation (Ministerio Ciencia e Innovación) under project no. PID2019-107885GB-C32 and Generalitat Valenciana under project no. AICO/2019/018. This work has also been supported by the Spanish Ministry of Science, Innovation and Universities (Ministerio Ciencia, Innovación y Universidades) under the project TEC2016- 78028-C3-3-P and by “Centre National pour la Recherche Scientifique et Technique (CNRST, Maroc)” as part of the research excellence scholarships program / Mahlaoui Boudallaa, Z. (2023). Analysis and Design of Reconfigurable Antennas Using the Theory of Characteristic Modes [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/201555
58

Novel RF MEMS Devices Enabled by Three-Dimensional Micromachining

Shah, Umer January 2014 (has links)
This thesis presents novel radio frequency microelectromechanical (RF MEMS) circuits based on the three-dimensional (3-D) micromachined coplanar transmission lines whose geometry is re-configured by integrated microelectromechanical actuators. Two types of novel RF MEMS devices are proposed. The first is a concept of MEMS capacitors tuneable in multiple discrete and well-defined steps, implemented by in-plane moving of the ground side-walls of a 3-D micromachined coplanar waveguide transmission line. The MEMS actuators are completely embedded in the ground layer of the transmission line, and fabricated using a single-mask silicon-on-insulator (SOI) RF MEMS fabrication process. The resulting device achieves low insertion loss, a very high quality factor, high reliability, high linearity and high self actuation robustness. The second type introduces two novel concepts of area efficient, ultra-wideband, MEMS-reconfigurable coupled line directional couplers, whose coupling is tuned by mechanically changing the geometry of 3-D micromachined coupled transmission lines, utilizing integrated MEMS electrostatic actuators. The coupling is achieved by tuning both the ground and the signal line coupling, obtaining a large tuneable coupling ratio while maintaining an excellent impedance match, along with high isolation and a very high directivity over a very large bandwidth. This thesis also presents for the first time on RF nonlinearity analysis of complex multi-device RF MEMS circuits. Closed-form analytical formulas for the IIP3 of MEMS multi-device circuit concepts are derived. A nonlinearity analysis, based on these formulas and on  measured device parameters, is performed for different circuit concepts and compared to the simulation results of multi-device  conlinear electromechanical circuit models. The degradation of the overall circuit nonlinearity with increasing number of device stages is investigated. Design rules are presented so that the mechanical parameters and thus the IIP3 of the individual device stages can be optimized to achieve a highest overall IIP3 for the whole circuit.The thesis further investigates un-patterned ferromagnetic NiFe/AlN multilayer composites used as advanced magnetic core materials for on-chip inductances. The approach used is to increase the thickness of the ferromagnetic material without increasing its conductivity, by using multilayer NiFe and AlN sandwich structure. This suppresses the induced currents very effectively and at the same time increases the ferromagnetic resonance, which is by a factor of 7.1 higher than for homogeneous NiFe layers of same thickness. The so far highest permeability values above 1 GHz for on-chip integrated un-patterned NiFe layers were achieved. / <p>QC 20140328</p>
59

Application des technologies CMOS sur SOI aux fonctions d'interface des liens de communication haut débit (> 10 Gbit/s)

Axelrad, David 06 October 2005 (has links) (PDF)
L'objectif de ce travail est d'étudier les avantages de la technologie CMOS/SOI 0.13µm partiellement désertée, pour la conception des circuits d'interface des liens haut débit (10 et 40Gbit/s). Nous avons identifié une fonction critique: la récupération de l'horloge et des données (CDR). L'étude de cette fonction nous a conduit à une analyse approfondie de l'oscillateur commandé en tension (VCO). Neuf circuits VCO et oscillateurs 10GHz ont ainsi été conçus pour valider les choix technologiques offerts par le CMOS/SOI. Les performances mesurées démontrent l'intérêt du CMOS/SOI pour les applications à hautes fréquences. Pour les applications à 40Gbit/s, nous avons ensuite conçu, réalisé et testé un VCO multi-phases 4x10GHz. Les résultats expérimentaux montrent une amélioration significative de la figure de mérite lorsque l'on compare ce circuit en CMOS/SOI avec les résultats précédemment publiés.
60

Nonlinear devices characterization and micromachining techniques for RF integrated circuits

Parvais, Bertrand J. H. 10 December 2004 (has links)
The present work is dedicated to the development of high performance integrated circuits for wireless communications, by acting of three different levels: technologies, devices, and circuits. Silicon-on-Insulator (SOI) CMOS technology is used in the frame of this work. Micromachining technologies are also investigated for the fabrication of three-dimensional tunable capacitors. The reliability of micromachined thin-film devices is improved by the coating of silanes in both liquid- and vapor-phases. Since in telecommunication applications, distortion is responsible for the generation of spurious frequency bands, the linearity behavior of different SOI transistors is analyzed. The validity range of the existing low-frequency nonlinear characterization methods is discussed. New simple techniques valid at both low- and high-frequencies, are provided, based on the integral function method and on the Volterra series. Finally, the design of a crucial nonlinear circuit, the voltage-controlled oscillator, is introduced. The describing function formalism is used to evaluate the oscillation amplitude and is embedded in a design methodology. The frequency tuning by SOI varactors is analyzed in both small- and large-signal regimes.

Page generated in 0.091 seconds