Global ETD Search

91	A Flight Simulation Study of the Simultaneous Non-interfering Aircraft Approach Reel, Brian H 01 May 2009 (has links) (PDF) Using a new implementation of a NASA flight simulation of the Quiet Short-Haul Research Aircraft, autopilots were designed to be capable of flying both straight in (ILS) approaches, and circling (SNI) approaches. A standard glideslope coupler was sufficient for most conditions, but a standard Proportional-Integral-Derivative (PID) based localizer tracker was not sufficient for maintaining a lateral track on the SNI course. To track the SNI course, a feed-forward system, using GPS steering provided much better results. NASA and the FAA embrace the concept of a Simultaneous, Non-Interfering (SNI) approach as a way to increase airport throughput while reducing the noise footprints of aircraft on approach. The NASA concept for the SNI approach for Short Takeoff and Landing (STOL) aircraft involves a straight in segment flown above the flight path of a normal approach, followed by a spiraling descent to the runway. As this is a procedure that would be utilized by regional airliners, it is assumed that it would be conducted under Instrument Flight Rules (IFR). GPS or INS guidance would be required to fly this approach, and it is likely that it would be necessary to fly the approach with a coupled autopilot: a stabilized, curving, instrument approach to decision altitude would be exceedingly difficult to fly. The autopilots in many current commuter and general aviation aircraft, however, were designed before the event of GPS, and do not have provisions for tracking curved paths. This study identifies problem areas in implementing the SNI circling approach on aircraft and avionics as they stand today and also gives examples of what can be done for the SNI approach to be successful. QSRA SNI Approach Coupler GPS Aeronautical Vehicles Other Aerospace Engineering
92	Front End Circuit Module Designs for A Digitally Controlled Channelized SDR Receiver Architecture Gong, Fei 19 December 2011 (has links) No description available. Electrical Engineering Software Defined Radio (SDR) Channelization Ultra-Wideband (UWB) Link-Budget Low Noise Amplifier (LNA) Mixer Quadrature Coupler
93	Theory and Applications of Microstrip/Negative-refractive-index Transmission Line (MS/NRI-TL) Coupled-line Couplers Islam, Rubaiyat 09 January 2012 (has links) The electromagnetic coupling of a microstrip transmission line (MS-TL) to a metamaterial backward wave Negative-Refractive-Index transmission line (NRI-TL) is the primary investigation of this dissertation. The coupling of forward waves in the MS-TL to the backward waves in the NRI-TL results in the formation of complex modes, characterized by simultaneous phase progression and attenuation along the lossless lines. Through network-theoretic considerations, we investigate the properties of these modes in the complex-frequency plane of the Laplace domain to help unravel the confusion that has existed in the literature regarding the independent excitation of a pair of conjugate complex modes. We show that it is possible to arbitrarily suppress one of the modes over a finite bandwidth and completely eliminate it at a discrete set of frequencies using proper source and load impedances. Hence we use conjugate modes with independent amplitudes in our eigenmode expansion when we analyse various coupling configurations between the two types of lines (MS/NRI-TL coupler). We derive approximate closed-form expression for the scattering parameters of the MS/NRI-TL coupler and these are complemented by design charts that allow the synthesis of a wide range of specifications. Moreover, these expressions reveal that such couplers allow for arbitrary backward coupling levels along with very high-isolation when they are made half a guided wavelength long. The MS/NRI-TL coupler offers some interesting applications which we highlight through the design and testing of a 3-dB power splitter, a high-directivity signal monitor and a compact corporate power divider. We have included design, simulation and experimental data for the fabricated prototypes exhibiting good agreement and thereby justifying the theory that has been developed in this work to explain the coupling between a right-handed MS-TL and a left-handed NRI-TL. RF/Microwave Coupler Complex modes Metamaterials Coupled-mode theory MS/NRI-TL coupler Multi-conductor transmission lines Right-half-plane branch-points Network theory of coupling Independent excitation of complex modes Backward waves Negative group delay High directivity coupler 0544
94	Theory and Applications of Microstrip/Negative-refractive-index Transmission Line (MS/NRI-TL) Coupled-line Couplers Islam, Rubaiyat 09 January 2012 (has links) The electromagnetic coupling of a microstrip transmission line (MS-TL) to a metamaterial backward wave Negative-Refractive-Index transmission line (NRI-TL) is the primary investigation of this dissertation. The coupling of forward waves in the MS-TL to the backward waves in the NRI-TL results in the formation of complex modes, characterized by simultaneous phase progression and attenuation along the lossless lines. Through network-theoretic considerations, we investigate the properties of these modes in the complex-frequency plane of the Laplace domain to help unravel the confusion that has existed in the literature regarding the independent excitation of a pair of conjugate complex modes. We show that it is possible to arbitrarily suppress one of the modes over a finite bandwidth and completely eliminate it at a discrete set of frequencies using proper source and load impedances. Hence we use conjugate modes with independent amplitudes in our eigenmode expansion when we analyse various coupling configurations between the two types of lines (MS/NRI-TL coupler). We derive approximate closed-form expression for the scattering parameters of the MS/NRI-TL coupler and these are complemented by design charts that allow the synthesis of a wide range of specifications. Moreover, these expressions reveal that such couplers allow for arbitrary backward coupling levels along with very high-isolation when they are made half a guided wavelength long. The MS/NRI-TL coupler offers some interesting applications which we highlight through the design and testing of a 3-dB power splitter, a high-directivity signal monitor and a compact corporate power divider. We have included design, simulation and experimental data for the fabricated prototypes exhibiting good agreement and thereby justifying the theory that has been developed in this work to explain the coupling between a right-handed MS-TL and a left-handed NRI-TL. RF/Microwave Coupler Complex modes Metamaterials Coupled-mode theory MS/NRI-TL coupler Multi-conductor transmission lines Right-half-plane branch-points Network theory of coupling Independent excitation of complex modes Backward waves Negative group delay High directivity coupler 0544
95	Design, fabrication and characterization of plasmonic components based on silicon nanowire platform Lou, Fei January 2014 (has links) Optical interconnects based on CMOS compatible photonic integrated circuits are regarded as a promising technique to tackle the issues traditional electronics faces, such as limited bandwidth, latency, vast energy consumption and so on. In recent years, plasmonic integrated components have gained great attentions due to the properties of nano-scale confinement, which may potentially bridge the size mismatch between photonic and electronic circuits. Based on silicon nanowire platform, this thesis work studies the design, fabrication and characterization of several integrated plasmonic components, aiming to combine the benefits of Si and plasmonics. The basic theories of surface plasmon polaritons are introduced in the beginning, where we explain the physics behind the diffraction-free confinement. Numerical methods frequently used in the thesis including finite-difference time-domain method and finite-element method are then reviewed. We summarize the device fabrication techniques such as film depositions, e-beam lithography and inductively coupled plasma etching as well as characterization methods, such as direct measurement method, butt coupling, grating coupling etc. Fabrication results of an optically tunable silicon-on-insulator microdisk and III-V cavities in applications as light sources for future nanophotonics interconnects are briefly discussed. Afterwards we present in details the experimental demonstrations and novel design of plasmonic components. Hybrid plasmonic waveguides and directional couplers with various splitting ratios are firstly experimentally demonstrated. The coupling length of two 170 nm wide waveguides with a separation of 140 nm is only 1.55 µm. Secondly, an ultracompact polarization beam splitter with a footprint of 2×5.1 μm2 is proposed. The device features an extinction ratio of 12 dB and an insertion loss below 1.5 dB in the entire C-band. Thirdly, we show that plasmonics offer decreased bending losses and enhanced Purcell factor for submicron bends. Novel hybrid plasmonic disk, ring and donut resonators with radii of ~ 0.5 μm and 1 μm are experimentally demonstrated for the first time. The Q-factor of disks with 0.5 μm radii are , corresponding to Purcell factors of . Thermal tuning is also presented. Fourthly, we propose a design of electro-optic polymer modulator based on plasmonic microring. The figure of merit characterizing modulation efficiency is 6 times better comparing with corresponding silicon slot polymer modulator. The device exhibits an insertion loss below 1 dB and a power consumption of 5 fJ/bit at 100 GHz. At last, we propose a tightly-confined waveguide and show that the radius of disk resonators based on the proposed waveguide can be shrunk below 60 nm, which may be used to pursue a strong light-matter interaction. The presented here novel components confirm that hybrid plasmonic structures can play an important role in future inter- and intra-core computer communication systems. / <p>QC 20140404</p> Planar integrated circuit silicon photonics plasmonics subwavelength directional coupler polarization beam splitter disk resonator ring resonator finite-difference time-domain photonic crystal electro-optic polymer Purcell factor.
96	Characterisation of L-band differential low noise amplifiers Prinsloo, David Schalk Van Der Merwe 12 1900 (has links) Thesis (MScEng)--Stellenbosch University, 2011. / ENGLISH ABSTRACT: This thesis addresses the complications that are encountered when characterising the performance of differential microwave LNAs. The predominant sources of noise in electronic circuits are introduced and equivalent two-port noise models for active devices are derived. Correlation between noise generators are defined by means of the noise correlation matrix and existing network theory is adapted to include noise analysis of twoport and multi-port networks. Mixed-mode scattering parameters are introduced in order to define the signal performance of differential and common-mode propagation in multi-port networks and, by applying the same theory, the mixed-mode correlation matrix for a three-port dLNA is derived. Furthermore, an expression is derived for de-embedding the differential noise figure of a three-port dLNA using two single ended measurements. Two dLNA designs, both incorporating wideband 180°-Hybrid ring couplers, are discussed and the differential signal and noise performance of the dLNAs are compared to that of their constituent single ended LNAs. / AFRIKAANSE OPSOMMING: Hierdie tesis behandel die komplikasies wat ontwerpers in die gesig staar tydens die karakterisering van mikrogolf differensiële laeruis versterkers. Die hoof ruisbronne in stroombane word bespreek en ekwivalente tweepoortnetwerkmodelle vir aktiewe toestelle word afgelei. Korrelasie tussen ruisbronne word gedefnieer deur middel van ruiskorrelasiematrikse en bestaande tweepoort- en multipoort-netwerkteorie word aangepas om ruismodelle in te sluit. Weens die feit dat differensiële- en gemene-wyse voortplanting van seine voorkom in multipoortnetwerke word gemengde-modus S-parameters behandel. Dieselfde teorie maak dit vervolgens moontlik om die gemengde-modus ruiskorrelasiematriks van ’n drie-poort differensiële laeruis versterker af te lei. Verder word daar ’n wyse voorgestel waarmee die differensiëleruissyfer van ’n drie-poort differensiële laeruis versterker vanuit twee enkel ruissyfermetings bereken kan word. Twee differensiële laeruis versterker ontwerpe, waarvan beide wyeband 180 -differensiaalkoppelaars implementeer, word bespreek en die differensiëlesein- asook die differensiëleruis-werking word vergelyk met die werking van die omsluite ongebalanseerde laeruis versterkers. Differential Low Noise Amplifier (dLNA) Correlation matrix Scattering parameters Noise parameters Hybrid coupler Dissertations -- Electronic engineering Theses -- Electronic engineering Noise -- Measurement
97	Optimisation d'une structure résonante pour la réalisation d'un coupleur coplanaire miniature / Optimization of a resonator for the realization of a miniaturised coplanar coupler Melhem, Zeina 09 November 2012 (has links) Les systèmes de télécommunications requièrent de plus en plus l’utilisation des composants passifs hyperfréquences. La commercialisation de ces composants nécessite la miniaturisation de leurs tailles, l’augmentation de leurs performances et la réduction de leurs coûts. Parmi ces composants passifs, nous citons le coupleur directionnel qui est un quadripôle destiné à répartir la puissance sur deux ports de sortie, le quatrième port reste isolé. Les travaux relatés dans ce manuscrit ont pour objectifs la conception et la réalisation d’un coupleur à accès coplanaires obtenu à partir d’un résonateur auquel nous avons appliqué des lignes de couplage. Un modèle équivalent approché a été mis en évidence par un logiciel de simulation circuit. Une étude paramétrique a été réalisée à l’aide d’un logiciel électromagnétique 3D pour fixer une règle de conception qui permet un dimensionnement convenable du composant pour un intervalle de fréquences prédéfinies. Un fonctionnement bi-bandes a été exploité pour chaque raccordement de la fréquence. Une deuxième structure de couplage a été déduite en reliant directement les lignes couplées sur le résonateur. Une étude paramétrique ainsi qu’une règle de conception ont mis en évidence un fonctionnement de coupleur mono-bande de cette structure à des fréquences prédéfinies. Une troisième structure qui fonctionne en coupleur a été exploitée en remplaçant le filtre résonateur par deux circuits en méandres. Ce nouveau coupleur à méandres présente des bandes passantes assez larges ainsi qu’un fonctionnement possible en bi-bandes. Ces coupleurs mis en œuvre peuvent assurer un couplage de l’ordre de 3 ; 6 ; 8 et 10 dB et d’un déphasage entre les deux ports de sortie de 180° pour les deux premières structures et de 90° pour le coupleur à méandres. Plusieurs séries de prototypes sont ensuite fabriquées à partir des structures optimisées en simulation. Les caractérisations hyperfréquences de ces composants montrent la performance des dispositifs réalisés / Telecommunications systems require more use of passive microwave components. The commercialization of these components requires the miniaturization of their size, increasing their performance and the reduction of their costs. Among these passive components we cited the directional coupler which is designated to spread the power between two outputs, the fourth port being isolated. The ambition of this work is to study and fabricate a coupler with coplanar access obtained from a resonator where we applied coupling lines. An equivalent approximate model was obtained using circuit simulation software. A parametric study was made using 3D electromagnetic software to fix a design rule that allows a suitable design for the component in a predefined frequency range. Dual-band operation has been exploited for each frequency. A second coupling structure was deduced by directly connecting the coupled lines to the resonator. A parametric study and a design rule have shown the operation of this structure as a single band coupler at predefined frequencies. A third structure which operates like a coupler has been exploited by replacing the resonator filter by two meandering circuits. This new meandering coupler presents a wide bandwidth and a possible operating in dual-band. These implemented couplers provided a coupling factor of 3, 6, 8 and 10 dB and a phase shift between the two output ports of 180° for the two first structures and a 90° phase shifter for the meandering coupler. Several sets of prototypes are then made. The microwave characterizations show the performance of the fabricated device Coupleur directionnel Résonateur Technologie coplanaire Bi-bande Miniaturisation Circuits méandres Photolithographie Caractérisations hyperfréquences Directional coupler Resonator Coplanar technology Dual-band Miniaturization Meandering circuits Photolithography Microwave characterization
98	[en] APPLICATION OF FINITE ELEMENTS METHOD IN THE ANALYSIS AND DESIGN OF COAXIAL STRUCTURES / [pt] APLICAÇÃO DO MÉTODO DOS ELEMENTOS FINITOS NA ANÁLISE E PROJETOS DE ESTRUTURAS COAXIAIS FABIO DIAS ALVES 16 May 2007 (has links) [pt] Neste trabalho, o Método dos Elementos Finitos é aplicado na análise eletromagnética e no projeto de cornetas coaxiais, utilizadas como alimentador em diversos tipos de antenas refletoras omnidirecionais. Estes alimentadores são usualmente excitados por conectores comercias, necessitando de uma estrutura de adaptação para conectar-se a corneta. Este adaptador é composto de seções não uniformes de guias de ondas coaxiais, sendo necessária à inclusão de anéis dielétricos para garantir a rigidez mecânica da antena. O correto dimensionamento desses anéis e das descontinuidades de guias de onda coaxiais que compõe a estrutura de alimentação permite estabelecer um compromisso entre minimização das perdas, alargamento da banda passante e rigidez mecânica. Devido a não uniformidade encontrada nestes dispositivos de microondas, métodos numéricos devem ser utilizados na predição do seu comportamento eletromagnético. Neste trabalho, o algoritmo baseado em Método de Elementos Finitos é utilizado para avaliar o desempenho detalhado dos diversos elementos que compõe o adaptador. Além disto, é comparado o desempenho de diversas formas e dimensões que caracterizam a corneta eletromagnética. Para validar os resultados do algoritmo, os resultados obtidos nas diversas etapas são comparados com aqueles obtidos via Método de Casamento de Modos. / [en] In this work, the Method of Finite Element is applied in the electromagnetic analysis and project of coaxial horns employed as feed in omnidirectional reflector antennas. These feeds are usually excited by standard commercial connectors that require an adaptor to connect to the coaxial horn. This adaptor is usually composed of non-uniform sections of coaxial wave guide, where dielectric rings are used to give the mechanical strength to the structure. The adequate dimensioning of these coaxial sections leads to a compromise between the minimization of return loss, the required frequency operation band, and the necessary mechanical rigidity of the structure. Due to the non-uniformities, numerical methods are required to predict the electromagnetic behavior. In this work, an algorithm based on Method of Finite Elements is used to evaluate the performance of the sections that composed the feed chain. The performance of different types of horn sections and dimensions are explored by using the algorithm. To validate the results obtained by using Method of Finite Elements they are compared with those obtained by employing Method of Mode Matching. [pt] METODO DOS ELEMENTOS FINITOS [en] FINITE ELEMENT METHOD [pt] DESCONTINUIDADES EM GUIAS DE ONDA [en] ARBITRARY CROSS SECTION WAVEGUIDES [pt] ESTRUTURAS DE ACOPLAMENTO [en] COUPLER STRUCTURES [pt] CORNETAS COAXIAIS [en] COAXIAL HORNS
99	Comparing NAL-NL1 and DSL v5 in Hearing Aids Fit to Children with Severe or Profound Hearing Loss: Goodness of Fit-to-Targets, Impacts on Predicted Loudness and Speech Intelligibility Ching, Teresa Y.C., Quar, Tian Kar, Johnson, Earl E., Newall, Philip, Sharma, Mridula 01 March 2015 (has links) Background: An important goal of providing amplification to children with hearing loss is to ensure that hearing aids are adjusted to match targets of prescriptive procedures as closely as possible. The Desired Sensation Level (DSL) v5 and the National Acoustic Laboratories’ prescription for nonlinear hearing aids, version 1 (NAL-NL1) procedures are widely used in fitting hearing aids to children. Little is known about hearing aid fitting outcomes for children with severe or profound hearing loss. Purpose: The purpose of this study was to investigate the prescribed and measured gain of hearing aids fit according to the NAL-NL1 and the DSL v5 procedure for children with moderately severe to profound hearing loss; and to examine the impact of choice of prescription on predicted speech intelligibility and loudness. Research Design: Participants were fit with Phonak Naida V SP hearing aids according to the NAL-NL1 and DSL v5 procedures. The Speech Intelligibility Index (SII) and estimated loudness were calculated using published models. Study Sample: The sample consisted of 16 children (30 ears) aged between 7 and 17 yr old. Data Collection and Analysis: The measured hearing aid gains were compared with the prescribed gains at 50 (low), 65 (medium), and 80 dB SPL (high) input levels. The goodness of fit-to-targets was quantified by calculating the average root-mean-square (RMS) error of the measured gain compared with prescriptive gain targets for 0.5, 1, 2, and 4 kHz. The significance of difference between prescriptions for hearing aid gains, SII, and loudness was examined by performing analyses of variance. Correlation analyses were used to examine the relationship between measures. Results: The DSL v5 prescribed significantly higher overall gain than the NAL-NL1 procedure for the same audiograms. For low and medium input levels, the hearing aids of all children fit with NAL-NL1 were within 5 dB RMS of prescribed targets, but 33% (10 ears) deviated from the DSL v5 targets by more than 5 dB RMS on average. For high input level, the hearing aid fittings of 60% and 43% of ears deviated by more than 5 dB RMS from targets of NAL-NL1 and DSL v5, respectively. Greater deviations from targets were associated with more severe hearing loss. On average, the SII was higher for DSL v5 than for NAL-NL1 at low input level. No significant difference in SII was found between prescriptions at medium or high input level, despite greater loudness for DSL v5 than for NAL-NL1. Conclusions: Although targets between 0.25 and 2 kHz were well matched for both prescriptions in commercial hearing aids, gain targets at 4 kHz were matched for NAL-NL1 only. Although the two prescriptions differ markedly in estimated loudness, they resulted in comparable predicted speech intelligibility for medium and high input levels. loudness NAL-NL1 SII DSL v5 measured gain prescribed gain real-ear-to-coupler difference Speech Intelligibility Index Audiology and Speech-Language Pathology Speech and Hearing Science Speech Pathology and Audiology
100	Aide à la conception de lignes microrubans à onde lente sur substrat structuré dans les bandes RF et millimétriques : applications aux coupleurs et dispositifs passifs non-réciproques / Design of slow-wave microstrip lines on structured substrate for RF and millimeter-wave : applications on couplers and non-reciprocal passive devices Luong, Duc Long 12 April 2018 (has links) L’objectif de ces travaux est pour d’apporter des solutions innovantes à la réalisation de dispositifs passifs performants et compacts, susceptibles d’intéresser les concepteurs de circuits RF et millimétriques. Ces dispositifs sont basés notamment sur des lignes microrubans à ondes lentes sur substrat structuré, que cela soit sur PCB avec des vias borgnes pour la RF, ou nanostructurés sur membranes à nanofils pour le millimétrique. Les travaux complets comprennent (i) une analyse de la topologie, (ii) un développement du modèle équivalent validée par des simulations électromagnétiques (HFSSTM) et des mesures sur PCB et sur des membranes brésiliennes en millimétrique, (iii) des abaques de conceptions et (iv) des applications à la conception des nouveaux dispositifs passifs miniaturisés. Notre lignes offrent une grande souplesse de conception et peuvent être placées indifféremment sur le substrat structuré sans modification de leurs paramètres électriques. Un nouveau coupleur hybride miniaturisé par l’utilisation de cette ligne est présenté comme une preuve de concept. Pour aller plus loin, une étude comparable des structures de lignes microrubans couplées à ondes lentes est développée. Le principe du couplage sur substrat structuré est d’abord exposé avec une présentation de ses avantages et inconvénients, puis un modèle est également proposé dans le but de réaliser un coupleur co-directif 0-dB miniaturisé par l’utilisation de ces lignes. De plus, un des parties essentielles de ces travaux concerne l’utilisation de la structure microruban à onde lente pour la miniaturisation de dispositifs passifs non-réciproques : un nouvel isolateur microruban compact avec l’introduction de vias dans le ferrite et une nouvelle conception de circulateur miniaturisé sur le substrat ferrite-diélectrique avec un réseau de vias borgnes. / This work focuses on providing innovate solutions into the realization of high-quality and compact passive devices for designer on RF and millimeter-wave bands. These devices are based on slow-wave microstrip lines on structured substrate, either on PCB with blind vias for RF applications, or on metallic nanowire membrane. The complete works include (i) an analysis of topology, (ii) a development of equivalent model validated by the electromagnetic simulations (HFSSTM) and the measurements, (iii) design charts and (iv) applications on design of novel miniaturized passive devices. These transmission lines give the flexibility for designers and capability to be indifferently placed on structured substrate without any impact on their electrical parameters. A novel miniaturized hybrid coupler using this line is proposed, as a proof of concept. In the other hand, a comparable study on the structure of slow-wave coupled microstrip lines is developed. The principal of coupling on structured substrate is shown for their advantages and drawbacks and then an electrical model is also proposed in order to realize a miniaturized 0-dB forward-wave directional coupler using these lines. Moreover, an essential part of this thesis concerns the utilization of the slow-wave microstrip structure to miniaturize the non-reciprocal passive devices: a novel microstrip isolator with the introduction of vias inside the ferrite and a novel design of the miniaturized circulator on a ferrite-dielectric substrate with blind vias. Miniaturisation Onde lente Coupleur hybride Microruban Substrat structuré Dispositif non-réciproque Nanofils métalliques Membrane Miniaturization Slow wave Hybrid coupler Microstrip Structured substrat Non-reciprocal device Metallic nanowire Membrane

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