Global ETD Search

91	Superstructured Fiber Bragg Gratings and Applications in Microwave Signal Processing Blais, Sébastien R. 20 December 2013 (has links) Since their discovery in 1978 by Hill et al. and the development of the transverse holographic technique for their fabrication by Meltz et al. in 1989, fiber Bragg gratings (FBG) have become an important device for applications in optical communications, optical signal processing and fiber-optical sensors. A superstructured fiber Bragg grating (SFBG), also called a sampled fiber Bragg grating, is a special FBG that consists of a several small FBGs placed in close proximity to one another. SFBGs have attracted much attention in recent years with the discovery of techniques allowing the creation of equivalent chirp or equivalent phase shifts. The biggest advantage of an SFBG with equivalent chirp or equivalent phase shifts is the possibility to design and fabricate gratings with greatly varying phase and amplitude responses by adjusting the spatial profile of the superstructure. The realization of SFBGs with equivalent chirp or equivalent phase shifts requires only sub-millimeter precision. This is a relief from the sub-micron precision required by traditional approaches. In this thesis, the mathematical modeling of FBGs and SFBGs is reviewed. The use of SFBGs for various applications in photonic microwave signal processing is considered. Four main topics are presented in this thesis. The first topic is the use of SFBG as a photonic true-time delay (TTD) beamformer for phased array antennas (PAAs). The second topic addresses non-linearities in the group delay response of an SFBG with equivalent chirp in its sampling period. An SFBG with an equivalent chirp using only a linear chirp coefficient may yield a group delay response that deviates from the linear response required by a TTD beamformer. In the thesis, a technique to improve the linearity of the group delay response is proposed and an adaptive algorithm to find the optimal linear and non-linear chirp coefficients to produce the best linear group delay response is described. Since no closed-form solution exists to represent the amplitude and phase responses of an SFBG, we rely on a Fourier transform analogy under a weak grating approximation as a starting point in the design of an SFBG. Simulations are then used to refine the response of the SFBG. The algorithm proposed provides an optimal set of chirp coefficients that minimizes the error in the group delay response. Four gratings are fabricated using the optimized chirp coefficients and their application in a TTD PAA system is discussed. The third topic discusses the use of an SFBG with equivalent phase shifts in its sampling period as a means to realize optical single sideband (SSB) modulation. SSB modulation eliminates the power penalty caused by chromatic dispersion experienced by an optical signal traveling through a long length of optical fiber. By introducing two π phase shifts through equivalent sampling to the SFBG, two ultra-narrow transmission bands are created in the grating stop band of the +/- 1st spectral orders. In the proposed system, a double-sideband plus carrier (DSB+C) modulated optical signal is sent to the input of an optical SSB filter based on the equivalent phase-shift SFBG in order to select the optical carrier and a single sideband, effectively blocking one sideband from propagating. Finally, the fourth topic focuses on the implementation of a photonic microwave bandpass filter based on an SFBG with equivalent chirp. Photonic microwave filters are used to process microwave signals in the optical domain. By using a technique called phase-modulation to intensity-modulation (PM-IM) conversion, a two-tap delay line filter is created with one negative tap. A single SFBG with a chirp in its sampling period is used as a means to achieve the PM-IM conversion for the two taps. Two phase modulated optical carriers are used to generate the two taps, each entering a different port of the SFBG and thus experiencing an opposite dispersion value. The two optical signals are then recombined before being sent to a photodetector (PD) where the filtered microwave signal is recovered. superstructured fiber Bragg grating microwave photonics equivalent phase shift equivalent chirp optical single sideband modulation photonic true time delay
92	A wide dynamic range high-q high-frequency bandpass filter with an automatic quality factor tuning scheme Kumar, Ajay 09 January 2009 (has links) An 80 MHz bandpass filter with a tunable quality factor of 16∼44 using an improved transconductor circuit is presented. A noise optimized biquad structure for high-Q, high- frequency bandpass filter is proposed. The quality factor of the filter is tuned using a new quality factor locked loop algorithm. It was shown that a second-order quality factor locked loop is necessary and sufficient to tune the quality factor of a bandpass filter with zero steady state error. The accuracy, mismatch, and sensitivty analysis of the new tuning scheme was performed and analyzed. Based on the proposed noise optimized filter structure and new quality factor tuning scheme, a biquad filter was designed and fabricated in 0.25 μm BiCMOS process. The measured results show that the biquad filter achieves a SNR of 45 dB at IMD of 40 dB. The P-1dB compression point and IIP3 of the filter are -10 dBm and -2.68 dBm, respectively. The proposed biquad filter and quality factor tuning scheme consumes 58mW and 13 mW of power at 3.3 V supply. Tuning GM-C Filter Analog filter Continuous time MLL QLL Quality factor Electric filters, Bandpass Radio Transmitter-receivers Wireless communication systems
93	Passive, active and absorbing frequency selective surfaces for wireless communication applications Kiani, Ghaffer I. January 2008 (has links) Thesis (PhD)--Macquarie University, Faculty of Science, Dept. of Physics & Engineering, 2008. / "March, 2009". Bibliography: p. 145-158.
94	Estudos e projetos de filtro interdigital em microfita para aplica??o pr?tica ao transponder do sat?lite ITASAT Ara?jo, Tiago Costa de 07 May 2012 (has links) Made available in DSpace on 2014-12-17T14:55:58Z (GMT). No. of bitstreams: 1 TiagoCA_DISSERT.pdf: 3801367 bytes, checksum: 9225a3c3c8dc4d02582f66bec6b853a7 (MD5) Previous issue date: 2012-05-07 / This work shows a theoretical analysis together with numerical and experimental results of transmission characteristics from the microstrip bandpass filters with different geometries. These filters are built over isotropic dielectric substrates. The numerical analysis is made by specifical commercial softwares, like Ansoft Designer and Agilent Advanced Design System (ADS). In addition to these tools, a Matlab Script was built to analyze the filters through the Finite-Difference Time-Domain (FDTD) method. The filters project focused the development of the first stage of filtering in the ITASAT s Transponder receptor, and its integration with the others systems. Some microstrip filters architectures have been studied, aiming the viability of implementation and suitable practical application for the purposes of the ITASAT Project due to its lowspace occupation in the lower UHF frequencies. The ITASAT project is a Universityexperimental project which will build a satellite to integrate the Brazilian Data Collect System s satellite constellation, with efforts of many Brazilian institutes, like for example AEB (Brazilian Spatial Agency), ITA (Technological Institute of Aeronautics), INPE/CRN (National Institute of Spatial Researches/Northeastern Regional Center) and UFRN (Federal University of Rio Grande do Norte). Comparisons were made between numerical and experimental results of all filters, where good agreements could be noticed, reaching the most of the objectives. Also, post-work improvements were suggested. / Esse trabalho apresenta uma an?lise te?rica e resultados num?ricos e experimentais das caracter?sticas de transmiss?o de filtros passa-faixa de microfita, que usam diferentes geometrias. Os filtros s?o constru?dos sobre substratos diel?tricos isotr?picos. A an?lise ? efetuada utilizando-se diferentes programas computacionais comerciais como o Ansoft Designer e o Advanced Design System (ADS). Al?m dessas ferramentas, foram desenvolvidas rotinas computacionais que analisam os filtros atrav?s do m?todo das diferen?as finitas no dom?nio do tempo (FDTD). O projeto dos filtros teve foco no desenvolvimento do primeiro est?gio de filtragem do sistema de recep??o do Transponder do Sat?lite ITASAT e sua integra??o com os demais sistemas. Foram estudadas algumas arquiteturas de filtro passa-faixa de microfita para viabilizar sua aplica??o no Transponder, por sua economia de espa?o na frequ?ncia de opera??o (faixa UHF inferior). O ITASAT ? um projeto que visa a constru??o de um sat?lite de car?ter experimental universit?rio para integrar a constela??o de sat?lites do Sistema Brasileiro de Coleta de Dados, reunindo esfor?os de diversas institui??es do Brasil, incluindo a AEB, o ITA, o INPE/CRN e a UFRN. Foram efetuadas compara??es entre os resultados num?ricos e experimentais para todos os filtros, onde observou-se uma boa concord?ncia, atingindo boa parte dos objetivos. Sugest?es de continuidade do trabalho s?o apresentadas. Transponder Filtro Passa-faixa Microfita Comunica??o espacial Sat?lite ITASAT. Transponder Filter Bandpass Microstrip Spatial communication Satellite ITASAT. CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA
95	Agile bandpass sampling RF receivers for low power applications Lolis, Luis 11 March 2011 (has links) Les nouveaux besoins en communications sans fil pussent le développement de systèmes de transmission RF en termes the reconfigurabilité, multistandard et à basse consommation. Ces travaux de thèse font l’objet de la proposition d’une nouvelle architecture de réception capable d’adresser ces aspects dans le contexte des réseaux WPAN. La technique de sous échantillonnage (BPS-Bandpass Sampling) est appliquée et permet d’exploiter et certain nombre d’avantages liées au traitement du signal à Temps Discret (DT-Discrete Time signal processing), notamment le filtrage et la décimation. Si comparées à la Radio Logicielle, ces techniques permettent de relâcher les contraintes liées aux ADCs en maintenant des caractéristiques multistandard et de reconfigurabilité. Un simulateur dans le domaine fréquentiel large bande a été développé sous MATLAB pour répondre à des limitations au niveau système comme par exemple le repliement spectral et le produit gain bande. En addition avec une nouvelle méthode de conception système, cet outil permet de séparer les différentes contraintes des blocs pour la définition d’un plan de fréquence et the filtrage optimaux. La séparation des différentes contributions dans la dégradation du SNDR (notamment le bruit thermique, bruit de phase, non linéarité et le repliement), permet de relâcher de spécifications critiques liées à la consommation de puissance. L’architecture à sous échantillonnage proposée dans la thèse est résultat d’une comparaison quantitative des différentes architectures à sous échantillonnage, tout en appliquant la méthode et l’outil de conception système développés. Des aspects comme l’optimisation du filtrage entre les techniques à temps continu et temps discret et le plan de fréquence associé, permettent de trouve l’architecture qui représente le meilleur compromis entre la consommation électrique et l’agilité, dans le contexte voulu. Le bloc de filtrage à temps discret est identifié comme étant critique, et une étude sur les limitations d’implémentation circuit est menée. Des effets come les capacités parasites, l’imparité entre les capacités, le bruit du commutateur, la non linéarité, le gain finit de Ampli OP, sont évalués à travers d’une simulation comportementale en VHDL-AMS. On observe la robustesse des circuits orientés temps discret par rapport les contraintes des nouvelles technologies intégrés. Finalement, le système est spécifié en termes de bruit de phase, qui peuvent représenter jusqu’à 30% de la consommation en puissance. Dans ce but, une nouvelle méthode numérique est proposée pour être capable d’évaluer le rapport signal sur distorsion due au jitter SDjR dans le processus de sous échantillonnage. En plus, une conclusion non intuitive est survenue de cette étude, où on que réduire la fréquence d’échantillonnage n’augmente pas les contraintes en termes de jitter pour le système. L’architecture proposée issue de cette étude est sujet d’un développement circuit pour la validation du concept. / New needs on wireless communications pushes the development in terms reconfigurable, multistandards and low power radio systems. The objective of this work is to propose and design new receiver architecture capable of addressing these aspects in the context of the WPAN networks. The technique of Bandpass Sampling (BPS) is applied and permits to exploit a certain number of advantages linked to the discrete time (DT) signal processing, notably filtering and decimation. Compared to the Software-defined Radio (SDR), these techniques permit to relax the ADC constraints while keeping the multi standard and reconfigurable features. A wide band system level simulation tool is developed using MATLAB platform to overcome system level limitations such spectral aliasing and gain bandwidth product. In addition to a new system design method, the tool helps separating the blocks constraints and defining the optimum frequency plan and filtering. Separating the different contributions on the SNDR degradation (noise, phase noise, non linearity, and aliasing), critical specifications for power consumption can be relaxed. The proposed BPS architecture on the thesis is a result of a quantitative comparison of different BPS architectures, applying the system design method and tool. Aspects such filtering optimization between continuous and discrete time filtering and the associated frequency plan permitted to find the architecture which represents the best trade-off between power consumption and agility on the aimed context. The DT filtering block is therefore identified as critical block, which a study on the circuit implementation limitations is carried out. Effects such parasitic capacitances and capacitance mismatch, switch noise, non linear distortion, finite gain OTA, are evaluated through VHDL-AMS modelling. It is observed the robustness of discrete time oriented circuits. Finally, phase noise specifications are given considering that frequency synthesis circuits may represent up to 30% of the power consumption. For that goal, a new numerical method is proposed, capable of evaluating the signal to jitter distortion ratio SDjR on the BPS process. Moreover, a non intuitive conclusion is given, where reducing the sampling frequency does not increase the constraints in terms of jitter. The proposed architecture issue from this study is in stage of circuit level design in the project team of LETI for final proof of concept. Sous échantillonnage Récpteurs RF Echantillonné Capacités comutés Dimensionnement système Bruit de phase Bandpass sampling Sub sampling Discrete time Receiver Switched Capacitor System level design Phase noise
96	Etude de filtres hyperfréquences compacts à basse fréquence / Study of low frequency compact microwave filters Thépaut, Loïc 08 March 2017 (has links) Les développements récents des systèmes hyperfréquences conduisent à des contraintes drastiques sur la taille et le coût des composants, et en particulier sur les Filtres Passe-Bande (BPF). L’objectif de cette thèse était d’apporter des solutions innovantes pour du filtrage large-bande compact en basses fréquences. Nous avons proposé deux solutions topologiques de compacité.La première solution est axée sur l’amélioration de la compacité des résonateurs grâce au résonateur multi-sections. Cette topologie a été théorisée et modélisée afin de l’optimiser. La compacité apportée par le résonateur multi-sections a été démontrée à travers la réalisation de filtres interdigité. La deuxième solution est une nouvelle topologie du filtre combline appelée filtre combline à couplage électrique (ECC). Nous avons également montré que ces solutions topologiques sont compatibles avec d’autres solutions technologiques de compacité (multicouche…).Ces solutions permettent de résoudre les problèmes d’encombrement et d’intégration des filtres actuels tout en gardant des performances électriques équivalentes. / Recent developments in microwave systems lead to drastic constraints on the size and cost of components, and in particularly on Passband Filters (BPF). The aim of this thesis was to provide innovative solutions for low band compact broadband filtering. We proposed two topological solutions of compactness.The first solution focuses on improving the compactness of the resonator thanks to the multisections resonator. This topology has been theorized and modeled to optimize it. The compactness provided by the multi-sections resonator has been shown by the realization of interdigital filters. The second solution is a new topology of the combline filter, electrical coupling combline filter (ECC).We have also shown that these topological solutions are compatible with other technological solutions of compactness (multilayer ...).These solutions solve the size and integration problems of current filters with equivalentelectrical performance. Micro-ondes Filtre passe-bande Résonateur multi-sections SIR Triplaque Compacité Micro-wave Bandpass filter Multi-sections resonator SIR Stripline Compactness 621.381
97	Development of 3D filter made by stereolithography / Développement de filtre 3D fabriqué par stéréolithographie Marchives, Yoann 12 October 2016 (has links) Les télécommunications sont devenus indispensables dans notre monde actuel. De plus, le volume des données échangées ne cesse de croître. En effet, nous pouvons transmettre nos photos, nos vidéos au monde entier. Nonobstant, nous ne voulons pas attendre pour les avoir, ce qui exige un débit de données très important et par conséquent des signaux avec des bandes passantes plus larges. Les satellites de télécommunications doivent donc s’adapter, c'est pourquoi nous proposons dans ces travaux la recherche de filtre à large bande avec une recherche de compacité et de faibles pertes. Nous nous sommes intéressés à l'utilisation de matériaux céramiques qui permettent d'obtenir de bonnes performances vis à vis de nos besoins. Notre travail est aussi rendu possible par le développement de procédés de fabrication additifs, comme par exemple la stéréolithographie, qui va nous permettre de nous affranchir fortement de règles de dessin contraignantes que nous pourrions avoir en utilisant des procédés classiques. Nous avons développé des filtres avec de larges bandes passantes autour de 4GHz. Une première étude nous a permis de rechercher des concepts qui permettent d'obtenir de forts couplages, conditions sine qua non pour réaliser ces filtres. Plusieurs concepts sont présentés ainsi que leur fabrication et leur mesures. Nous avons ainsi démontré expérimentalement que les concepts proposés, à base de pièces monoblocs céramiques, sont capables de produire des filtres à bandes passantes supérieures à 60 % (voire même 110 % pour une version améliorée). / Every day, the data exchanges increase thanks to the new technologies. We can keep our files, our pictures, our videos online to have an access anywhere on the planet (for now). In this way, the data output of the telecommunication systems has to be increased in order to satisfy the more and more demanding users. One way to allow this is to increase the bandwidths of the different signals, making possible to transmit more data at the same time. In this work, we will develop wide bandpass filters dedicated to space telecommunications. For that purpose, we need them to be compact, with low insertion loss and a limited number of parts to assemble. Consequently, we are interested to use resonators made with ceramic materials that permits to reach such properties. Moreover, these materials are compatible with stereolithography, an additive manufacturing process. Such technology is here very useful for our purpose since its design freedom allows the creation of almost all kind of geometries. To realize such wide bandpass filters, we need strong couplings between the different resonators and also for the accesses, so we will present our studies focused on reaching these specific objectives. Then, we will present different designs of wide bandpass filter around 4GHz. After different generation of ceramic based components, we are be able to experimentally create a 60% bandwidth (even 100% for our last version) very compact bandpass filter filling the objectives of this PhD thesis. Stéréolithographie Résonateur diélectrique Filtre large bande Fabrication additive Forts couplages Céramique Stereolithography Dielectric resonator Wide bandpass filter Additive manufacturing process Strong couplings Ceramic 621.381 5
98	Superstructured Fiber Bragg Gratings and Applications in Microwave Signal Processing Blais, Sébastien R. January 2014 (has links) Since their discovery in 1978 by Hill et al. and the development of the transverse holographic technique for their fabrication by Meltz et al. in 1989, fiber Bragg gratings (FBG) have become an important device for applications in optical communications, optical signal processing and fiber-optical sensors. A superstructured fiber Bragg grating (SFBG), also called a sampled fiber Bragg grating, is a special FBG that consists of a several small FBGs placed in close proximity to one another. SFBGs have attracted much attention in recent years with the discovery of techniques allowing the creation of equivalent chirp or equivalent phase shifts. The biggest advantage of an SFBG with equivalent chirp or equivalent phase shifts is the possibility to design and fabricate gratings with greatly varying phase and amplitude responses by adjusting the spatial profile of the superstructure. The realization of SFBGs with equivalent chirp or equivalent phase shifts requires only sub-millimeter precision. This is a relief from the sub-micron precision required by traditional approaches. In this thesis, the mathematical modeling of FBGs and SFBGs is reviewed. The use of SFBGs for various applications in photonic microwave signal processing is considered. Four main topics are presented in this thesis. The first topic is the use of SFBG as a photonic true-time delay (TTD) beamformer for phased array antennas (PAAs). The second topic addresses non-linearities in the group delay response of an SFBG with equivalent chirp in its sampling period. An SFBG with an equivalent chirp using only a linear chirp coefficient may yield a group delay response that deviates from the linear response required by a TTD beamformer. In the thesis, a technique to improve the linearity of the group delay response is proposed and an adaptive algorithm to find the optimal linear and non-linear chirp coefficients to produce the best linear group delay response is described. Since no closed-form solution exists to represent the amplitude and phase responses of an SFBG, we rely on a Fourier transform analogy under a weak grating approximation as a starting point in the design of an SFBG. Simulations are then used to refine the response of the SFBG. The algorithm proposed provides an optimal set of chirp coefficients that minimizes the error in the group delay response. Four gratings are fabricated using the optimized chirp coefficients and their application in a TTD PAA system is discussed. The third topic discusses the use of an SFBG with equivalent phase shifts in its sampling period as a means to realize optical single sideband (SSB) modulation. SSB modulation eliminates the power penalty caused by chromatic dispersion experienced by an optical signal traveling through a long length of optical fiber. By introducing two π phase shifts through equivalent sampling to the SFBG, two ultra-narrow transmission bands are created in the grating stop band of the +/- 1st spectral orders. In the proposed system, a double-sideband plus carrier (DSB+C) modulated optical signal is sent to the input of an optical SSB filter based on the equivalent phase-shift SFBG in order to select the optical carrier and a single sideband, effectively blocking one sideband from propagating. Finally, the fourth topic focuses on the implementation of a photonic microwave bandpass filter based on an SFBG with equivalent chirp. Photonic microwave filters are used to process microwave signals in the optical domain. By using a technique called phase-modulation to intensity-modulation (PM-IM) conversion, a two-tap delay line filter is created with one negative tap. A single SFBG with a chirp in its sampling period is used as a means to achieve the PM-IM conversion for the two taps. Two phase modulated optical carriers are used to generate the two taps, each entering a different port of the SFBG and thus experiencing an opposite dispersion value. The two optical signals are then recombined before being sent to a photodetector (PD) where the filtered microwave signal is recovered. superstructured fiber Bragg grating microwave photonics equivalent phase shift equivalent chirp optical single sideband modulation photonic true time delay
99	Design and Implementation of Fully Integrated CMOS On-chip Bandpass Filter with Wideband High-Gain Low Noise Amplifier Wang, Yu 20 August 2021 (has links) No description available. Electrical Engineering Bandpass filter (BPF) resonator inductor loss controllable bandwidth controllable stopband rejection active inductor active capacitor
100	Analog Single Sideband-Pulse Width Modulation Processor for Parametric Acoustic Arrays Marathe, Vikrant A 01 June 2019 (has links) Parametric acoustic arrays are ultrasonic-based loudspeakers that produce highly directive audio. The audio must first be preprocessed and modulated into an ultrasonic carrier before being emitted into the air, where it will self-demodulate in the far field. The resulting audio wave is proportional to the double time-derivative of the square of the modulation envelope. This thesis presents a fully analog processor which encodes the audio into two Pulse Width Modulated (PWM) signals in quadrature phase and sums them together to produce a Single Sideband (SSB) spectrum around the fundamental frequency of the PWM signals. The two signals are modulated between 8% and 24% duty cycle to maintain a quasi-linear relationship between the duty cycle and the output signal level. This also allows the signals to sum without overlapping each other, maintaining a two-level output. The system drives a network of narrowband transducers with a center frequency equal to the PWM fundamental. Because the transducers are voltage driven, they have a bandpass frequency response which behaves as a first-order integrator on the SSB signal, eliminating the need for two integrators in the processor. Results show that the “SSB-PWM” output wave has a consistent 20-30dB difference in magnitude between the upper sideband and lower sideband. In simulation, a single tone test shows higher total harmonic distortion for lower frequencies and higher modulation depth. A two-tone test creates a 2nd order intermodulation term that increases with the frequencies of the input signals. parametric loudspeaker Berktay’s equation amplitude modulation bandpass PWM polyphase networks Hilbert transform monostable multivibrator series resonance Electrical and Computer Engineering Electrical and Electronics Systems and Communications

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