Global ETD Search

11	Développement de nouveaux procédés d'isolation électrique par anodisation localisée du silicium Gharbi, Ahmed 08 July 2011 (has links) (PDF) L'industrie microélectronique est régie depuis plusieurs années par la loi de miniaturisation. En particulier, en technologie CMOS, les procédés de fabrication de l'oxyde permettant l'isolation électrique entre les transistors nécessitent sans cesse d'être améliorés pour répondre aux défis de cette loi. Ainsi, on est passé du procédé d'isolation par oxydation localisée de silicium (LOCOS) au procédé d'isolation par tranchées (STI). Cependant, ce dernier a montré pour les technologies en développement des limitations liées au remplissage non parfait par la silice de tranchées de moins en moins larges (Voiding) et au ''surpolissage'' des zones les plus larges (Dishing). Le procédé FIPOS (full isolation by porous oxidation of silicon) a été donc proposé comme solution alternative. Il est basé sur la formation sélective et localisée du silicium poreux qui est transformé ensuite en silice par un recuit oxydant. Cette piste prometteuse a constitué le point de départ de ce travail. Dans ce contexte, la thèse s'est focalisée sur deux axes principaux qui concernaient d'une part la maîtrise du procédé d'anodisation électrochimique pour la formation du silicium poreux et d'autre part l'optimisation du procédé d'oxydation. Dans une première partie de notre travail, l'analyse des caractéristiques courant-tension I-V menée sur le silicium durant son anodisation électrochimique a permis de montrer que la formation du silicium poreux dépend fortement de la concentration en dopants. Cette propriété nous a permis de développer une technique simple d'extraction du profil de dopage dans le silicium de type p par voie électrochimique. On a montré que la résolution en profondeur de cette technique est liée au niveau du dopage et s'approche de celle du SIMS (spectroscopie de masse d'ions secondaires) pour les fortes concentrations avec une valeur estimée à 60 nm/décade. Dans une deuxième partie, nous avons mis en évidence la formation localisée du silicium poreux oxydé. En effet, un choix judicieux du potentiel d'anodisation permet de rendre poreux sélectivement des régions fortement dopées implantées sur un substrat de silicium faiblement dopé. Ces régions sont ensuite transformées en oxyde par un recuit oxydant. Par ailleurs, les conditions optimales des processus d'oxydation et d'anodisation permettant d'obtenir un oxyde final de bonne qualité diélectrique sont analysées. [SPI:OTHER] Engineering Sciences/Other Microélectronique Isolation électrique Silicium poreux Anodisation électrochimique Anodisation locale Recuit oxydant
12	Les concepts clés pour la réalisation d'un Holter intégré sur puce Ding, Hao 13 October 2011 (has links) (PDF) En dépit du développement rapide de la médecine, les maladies cardiovasculaires restent la première cause de mortalité dans le monde. En France, chaque année, plus de 50 000 personnes meurent subitement en raison d'arythmies cardiaques. L'identification des patients à risque élevé de décès soudain est toujours un défi. Pour détecter les arythmies cardiaques, actuellement Holter est généralement utilisé pour enregistrer les signaux électrocardiogramme (ECG) à 1~3 dérivations pendant 24h à 72h. Cependant l'utilisation de Holter est limitée parmi la population en raison de son encombrement (pas convivial) et de son coût. Un Holter mono puce portable nommé SoC-Holter qui permet d'enregistrer 1 à 4 dérivations est introduit. Le déploiement d'un réseau de capteurs sans fil exige que chaque SoC-Holter soit peu encombrant et peu cher, et consomme peu d'énergie. Afin de minimiser la consommation d'énergie et le coût du système, la technologie Complementary Metal Oxide Semiconductor (CMOS) (0.35μm) est utilisée pour la première implémentation de SoC-Holter. Puis une nouvelle méthode de détection basée sur Acquisition Comprimée (CS) est introduite pour résoudre les problèmes de consommation d'énergie et de capacité de stockage de SoC-Holter. Le principe premier de cette plate-forme est d'échantillonner les signaux ECG sous la fréquence de Nyquist 'sub-Nyquist' et par la suite de classer directement les mesures compressées en états normal et anormal. Minimiser le nombre de fils qui relient les électrodes à la plate-forme peut rendre l'utilisateur de SoC-Holter plus confortable, car deux électrodes sont très proches sur la surface du corps. La différence ECG enregistrée est analysée à l'aide de Vectocardiogramme (VCG). Les résultats expérimentaux montrent qu'une approche intégrée, à faible coût et de faible encombrement (SoC-Holter) est faisable. Le SoC-Holter consomme moins de 10mW en fonctionnement. L'estimation des paramètres du signal acquis est effectuée directement à partir de mesures compressées, éliminant ainsi l'étape de la reconstruction et réduisant la complexité et le volume des calculs. En outre, le système fournit les signaux ECG compressés sans perte d'information, de ce fait il réduit significativement la consommation d'énergie pour l'envoi de message et l'espace de stockage mémoire. L'effet de placement des électrodes est évalué sur la QRS complexe lorsqu'il a enregistré avec deux électrodes adjacentes. La méthode est basée sur l'algorithme de 'QRS-VCG loop alignment'. La méthode moindre carré est utilisée pour estimer la corrélation entre une boucle VCG observée et une boucle de référence en respectant les transformations de rotation et la synchronisation du temps. Les emplacements d'électrodes les moins sensibles aux interférences sont étudiés. Électrocardiographie (ECG) Acquisition Comprimée (CS) Arythmies cardiaques Vectocardiographie (VCG)
13	Fabrication technology and design for CMUTS on CMOS for IVUS catheters Zahorian, Jaime S. 12 December 2013 (has links) The objective of this research is to develop novel capacitive micromachined ultrasonic transducer (CMUT) arrays for intravascular ultrasonic (IVUS) imaging along with the fabrication processes to allow for monolithic integration of CMUTs with custom CMOS electronics for improved performance. The IVUS imaging arrays include dual-ring arrays for forward-looking volumetric imaging in coronary arteries and annular-ring arrays with dynamic focusing capabilities for side-looking cross sectional imaging applications. Both are capable of integration into an IVUS catheter 1-2 mm in diameter. The research aim of monolithic integration of CMUTs with custom CMOS electronics has been realized mainly through the use of sloped sidewall vias less than 5 µm in diameter, with only one additional masking layer as compared to regular CMUT fabrication. Fabrication of CMUTs has been accomplished with a copper sacrificial layer reducing isolation layers by 50%. Modeling techniques for computational efficient analysis of CMUT arrays were developed for arbitrary geometries and further expanded for use with larger signal analysis. Dual-ring CMUT arrays for forward-looking volumetric imaging have been fabricated with diameters of less than 2 mm with center frequencies at 10 MHz and 20 MHz, respectively, for an imaging range from 1 mm to 1 cm. These arrays, successfully integrated with custom CMOS electronics, have generated 3D volumetric images with only 13 cables necessary. Performance from optimized fabrication has reduced the bias required for a dual-ring array element from 80 V to 42 V and in conjunction with a full electrode transmit array, it was shown that the SNR can be improved by 14 dB. Simulations were shown to be in agreement with experimental characterization indicated transmit surface pressure in excess of 8 MPa. For side-looking IVUS, three versions of annular CMUT arrays with dynamic focusing capabilities have been fabricated for imaging 1 mm to 6 mm in tissue. These arrays are 840 µm in diameter membranes linked to form 8 ring elements with areas that deviate by less than 25 %. Through modeling and simulation undesirable acoustic cross between ring elements was reduced from -13 dB to -22 dB. Intravascular ultrasonic (IVUS) Ultrasonic transducer Diagnostic ultrasonic imaging Intravascular ultrasonography
14	Ion Assisted Deposition Of HfO2 Thin Films For CMOS Gate Dielectric Applications Jajala, Bujjamma 09 1900 (has links) (PDF) The scaling down of Complementary Metal Oxide Semiconductor (CMOS) transistors to sub-100nm requires replacement of conventional Silicon dioxide layer with high dielectric constant (K) material for gate dielectric. Among the various high-K dielectrics that have been studied, HfO2 is found to be a promising candidate because of its high dielectric constant (~25), large band gap (5.68 eV), thermodynamic stability and good interface with Si. The HfO2 films have already been deposited using different growth techniques such as Atomic layer Deposition (ALD), Metalorgonic Chemical Vapor Deposition (MOCVD) and Pulsed Laser Deposition (PLD). Ion Assisted Deposition (IAD) is a novel technique that has been successfully employed to produce optical coatings of required quality. This growth technique presents many advantages over the other techniques such as formation from solid oxide sources, low growth temperatures (25-3000C) and film densification by ion bombardment. Hence this technique has been used to prepare HfO2 films in the present investigations. This thesis presents the structural, optical and electrical properties of HfO2 thin films prepared by Ion assisted deposition (IAD). The suitability of Ion assisted deposition process and the importance of investigations on the influence of process parameters on the film characteristics have been brought out in the process parameters-structure-composition and properties correlation presented in this thesis. The aim of this work is to process and characterize HfO2 films and investigate the influence of process parameters on the structure, composition and properties of the films to identify their suitability for CMOS gate applications. HfO2 films were deposited on p-type Si (100) wafers by Ion assisted deposition in an electron beam evaporation (Leybold,L-560) system. Pre-bombardment of the substrates with Argon ions has been done to remove any native oxide layer formation on Silicon by using a hallow cathode ion source (DENTON VACUUM CC103). During the film deposition a collimated oxygen ion beam, generated from the ion source is directed towards the substrate. The oxygen ion current is controlled by adjusting the voltage applied to the ion source and the oxygen flow through the ion source. The oxygen ions bombard the film as it grows and in that process improves its packing density as well as its stoichiometry. Keeping the deposition rate and thickness constant, HfO2 films have been deposited by varying Ion Current, Ion energy and substrate temperature. MOS capacitors were fabricated with Aluminum as gate electrode deposited by thermal evaporation. Ellipsometry techniques have been used to measure the optical thickness of the films. The interfacial layer (IL) formed at the HfO2/ Si interface was investigated by using Fourier transform Infrared spectroscopy (FT-IR). The structural characterization was carried out by X-ray diffraction technique. The high frequency capacitance-voltage and DC leakage current characteristics were measured to analyze the electrical characteristics of MOS capacitors. The effect of post deposition annealing (PDA) of the films at 600°C and 700ºC in Forming Gas (15%H2+85%N2) ambient and Post metallization annealing (PMA) at 400ºC in the same ambient was also investigated to observe the changes in electrical characteristics. The initial step of this work was to compare the characteristics of the films deposited by reactive evaporation and Ion assisted deposition which confirmed the superiority of the quality of IAD coatings and justified the need to proceed further with a more detailed study on the influence of various parameters on the properties of IAD coatings. HfO2 films deposited on substrates maintained at 1000C exhibited better structural, Optical and Electrical properties. The leakage current in these films were lower which has been attributed to silicate free interface as confirmed by XRD studies. Investigations on films deposited with oxygen ion beams of different currents in the range 20 to 40mA indicated that the films deposited at 20mA ion current showed better electrical properties. Better stoichiometry of these films as indicated by FT IR studies was one of the reasons for their improved performance. Annealing of these films at 6000C and 7000C in FGA medium resulted in creation of silicates and silicides at the interface thereby increasing the leakage currents and degraded the film properties. The films deposited with oxygen ion beams generated with a driving voltage 265V showed better structural and optical properties with silicate free interface compared with low and high driving voltages. Among all the films, the maximum dielectric constant of about 21.9 with a minimum EOT of 5.5 nm corresponding to a film deposited at ion current 20mA with PMA 400°C in FG ambient for 20minites is achieved. The lowest value of interface charge density achieved is 2.7 x1012 per cm-2 eV-1 corresponding to the sample deposited at substrate temperature 100°C with deposition rate of 0.5Å/sec followed by post metallization annealing at 400°C in forming gas for 20minutes. The range of Dit values that were obtained are varying from 2.7x 1012 – 16.7x1012 cm-2eV-1.It was also found that, the samples deposited at higher ion currents show lower Dit values than the samples deposited at lower ion currents. From the I−V analysis, the leakage current density is found to be comparatively less in IAD than in reactive evaporation. Leakage current increases with increase in substrate temperature and the same trend is observed with annealed films also. The lowest leakage current density of 1.05x10–8 A/cm2 at a gate bias of 1V was observed in the films deposited at substrate temperature 1000C. The present thesis focused on the suitability of the Ion Assisted deposition process for the preparation of HfO2 films for high-K gate dielectric application and the importance of investigations on the influence of process parameters on the film characteristics. Thin Films - Dielecrtics Thin Film Deposition Hafnium Dioxide Thin Films HfO2 Thin Films high-K Dielectrics Ion Assisted Deposition (IAD) Condensed Matter Physics
15	Contribuição ao projeto de circuitos integrados de reguladores de tensão com charge pump em tecnologia CMOS : aceleração do tempo de partida, redução do ripple, redução do efeito kick-back e técnica indireta de medida da tensão de saída / Contribution to the integrated circuit design related to voltage regulator with charge pump circuit embedded in CMOS technology : fast startup improvement, ripple and kick-back effect reduction and new techinique of indirect output voltage measurement Terçariol, Walter Luis, 1975- 12 December 2014 (has links) Orientador: José Antonio Siqueira Dias / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Elétrica e de Computação / Made available in DSpace on 2018-08-26T13:53:46Z (GMT). No. of bitstreams: 1 Tercariol_WalterLuis_D.pdf: 1322557 bytes, checksum: 4f45518a1a62907cd9a61afa627408c3 (MD5) Previous issue date: 2014 / Resumo: Este trabalho visa compilar três contribuições na melhoria dos projetos de reguladores de tensão com unidades de bombeamento de carga embutidos (células elevadoras de tensão Dickson - BC). A primeira aborda uma técnica inovadora de arranque na partida deste módulo elevador quando habilitado. Este projeto se refere à aceleração da inicialização do modulo BC, tendo como objetivo a diminuição do intervalo de tempo da rampa ascendente da tensão de saída Vo até atingir o nível alvo de regulação. A técnica consiste em gerenciar o aumento da freqüência do relógio de bombeamento entregue as unidades de bombeamento durante a fase de subida, quando a regulação estiver estabelecida o sistema se regenera voltando ao estado original de freqüência de bombeamento natural. Uma segunda proposta inovadora de projeto é referente à homogeneização e redução da aleatoriedade da ondulação da tensão de saída Vo, referente ao regulador com o modulo BC embutido, baseado em comparadores com trava, com proposta de redução do erro de comparação devido ao efeito aleatório durante o estagio de comparação comumente encontrado neste tipo de abordagem, a técnica consiste em suprimir o acoplamento capacitivo nocivo durante a fase de isolamento elétrico no processo de comparação mantendo o espelho de corrente do comparador na região de saturação. Esta técnica visa proporcionar uma redução significativa da capacitância de desacoplamento utilizada para filtragem da tensão Vo. Uma terceira e última contribuição é referente a uma inovadora técnica de medição indireta da tensão de saída Vo do regulador com módulo BC baseada em uma medida simples e precisa dos pares tensão da porta e fonte (VPS) e corrente elétrica do dreno (Idreno) de um dispositivo NMOS de alta tensão adicionado de modo que duas tensões conhecidas (preestabelecidas) são aplicadas na porta do dispositivo e as respectivas correntes de dreno são mensuradas e uma terceira desconhecida (oriunda do regulador elevador BC) desconhecida pode ser extrapolada de forma simples. Esta técnica visa ser útil para medição de reguladores de baixa potencia pois o carregamento do regulador (Vo) é quase nulo.Todas as inovações e melhorias propostas foram analisadas em veículos de teste (silício) e com as provas de conceito, feitas em simulações elétricas / Abstract: This work aims to compile contributions in improving designs based on voltage regulators with voltage elevator with built-in charge pump CP. The first deals with an innovative technique rump-up this module when enabled. This project refers to the acceleration of startup the CP module, aiming at the reduction of the period of stabilization of the ramp output voltage Vo to the level of regulation target. The technique is to manage increasing the frequency of pumping clock during the phase of rump up and when the setting established the system regenerates back to the original state pumping frequency. A second innovative project proposal was made on the homogenization and reduction of the ripple of the output voltage Vo, referring to the regulator with the \|CP module, based on latch comparators , alignment error reduction proposal because of the random effect during the stage comparison commonly found in this type of approach, the technique is to remove the harmful capacitive coupling during electrical isolation phase on the comparison keeping the comparator current mirror in saturation region. This technique aims to provide a significant reduction in the decoupling capacitance used for filtering the voltage Vo. A third and final contribution is related to an innovative technique of indirect measurement of the output voltage Vo of the regulator module CP, based on a simple and accurate measure of the gate voltage and couples the drain electric current of a high voltage NMOS device / Doutorado / Eletrônica, Microeletrônica e Optoeletrônica / Doutor em Engenharia Elétrica Elevadores Medidores de tensão Reguladores de voltagem Medidas elétricas Semicondutores de oxido metalico Lifts Strain gauges Voltage regulators Complementary metal oxide semiconductor Electrical measurements
16	Développement de nouveaux procédés d’isolation électrique par anodisation localisée du silicium / Development of a new process for electrical isolation of ULSI CMOS ciruits based on local anodization of silicium Garbi, Ahmed 08 July 2011 (has links) L’industrie microélectronique est régie depuis plusieurs années par la loi de miniaturisation. En particulier, en technologie CMOS, les procédés de fabrication de l’oxyde permettant l’isolation électrique entre les transistors nécessitent sans cesse d’être améliorés pour répondre aux défis de cette loi. Ainsi, on est passé du procédé d’isolation par oxydation localisée de silicium (LOCOS) au procédé d’isolation par tranchées (STI). Cependant, ce dernier a montré pour les technologies en développement des limitations liées au remplissage non parfait par la silice de tranchées de moins en moins larges (Voiding) et au ‘‘surpolissage’’ des zones les plus larges (Dishing). Le procédé FIPOS (full isolation by porous oxidation of silicon) a été donc proposé comme solution alternative. Il est basé sur la formation sélective et localisée du silicium poreux qui est transformé ensuite en silice par un recuit oxydant. Cette piste prometteuse a constitué le point de départ de ce travail. Dans ce contexte, la thèse s’est focalisée sur deux axes principaux qui concernaient d’une part la maîtrise du procédé d’anodisation électrochimique pour la formation du silicium poreux et d’autre part l’optimisation du procédé d’oxydation. Dans une première partie de notre travail, l’analyse des caractéristiques courant-tension I-V menée sur le silicium durant son anodisation électrochimique a permis de montrer que la formation du silicium poreux dépend fortement de la concentration en dopants. Cette propriété nous a permis de développer une technique simple d’extraction du profil de dopage dans le silicium de type p par voie électrochimique. On a montré que la résolution en profondeur de cette technique est liée au niveau du dopage et s’approche de celle du SIMS (spectroscopie de masse d'ions secondaires) pour les fortes concentrations avec une valeur estimée à 60 nm/décade. Dans une deuxième partie, nous avons mis en évidence la formation localisée du silicium poreux oxydé. En effet, un choix judicieux du potentiel d’anodisation permet de rendre poreux sélectivement des régions fortement dopées implantées sur un substrat de silicium faiblement dopé. Ces régions sont ensuite transformées en oxyde par un recuit oxydant. Par ailleurs, les conditions optimales des processus d’oxydation et d’anodisation permettant d’obtenir un oxyde final de bonne qualité diélectrique sont analysées. / The microelectronic industry is still ruled up to now by the law of miniaturization or scaling. In particular, in CMOS (complementary metal-oxide semiconductor) technology, the oxide allowing electric isolation between p- and n-MOS transistors has also been scaled down and has then exhibited different technological processes going from LOCOS (local oxidation of silicon) to STI (shallow trench isolation) and arriving to FIPOS (full isolation by porous oxidation of silicon). The latter seems to be the most promising alternative solution that can overcome actual limitations of voiding and dishing encountered in the STI process. The approach, which is based on selective formation of porous silicon and its easy transformation to silicon dioxide, has aroused our motivation to be well studied. In this context, the PhD project has first focused on the understanding of electrochemical porous silicon formation, and then on the study of porous silicon oxidation. In a first part of our work, we emphasize the dependence of porous silicon formation with the silicon doping concentration through the investigation of current-voltage I-V characteristics measured on p- and n-type silicon electrodes during electrochemical anodization. Taking advantage of this dependence, we have developed a very simple electrochemical method allowing an accurate determination of doping profiles in p-type silicon. It has been shown that the depth resolution of the technique is readily linked to the doping level and it approaches that of the secondary ion mass spectroscopy (SIMS) analysis for high doping concentrations with an estimated value of 60 nm/decade. In a second step, we highlight the selective formation of oxidized porous silicon. In fact, with a correct choice of the applied potential during anodization, only highly doped regions implanted on a lightly doped silicon wafer are preferentially turned into porous silicon and subsequently oxidized. Furthermore, we give the optimum conditions for oxidation and anodization processes which result in an insulating oxide of reliable dielectric properties. Microélectronique Isolation électrique Silicium poreux Anodisation électrochimique Anodisation locale Recuit oxydant Micro Electronics Electric Insulation Silicium poreux Anodisation électrochimique Secondary-ion mass Spectrometry Oxidative annealing 621.381 620 107 2
17	Intégration hétérogène III-V sur silicium de microlasers à émission par la surface à base de cristaux photoniques Sciancalepore, Corrado 06 December 2012 (has links) La croissance continue et rapide du trafic de données dans les infrastructures de télécommunications, impose des niveaux de débit de transmission ainsi que de puissance de traitement de l’information, que les capacités intrinsèques des systèmes et microcircuits électroniques ne seront plus en mesure d’assurer à brève échéance : le développement de nouveaux scenarii technologiques s’avère indispensable pour répondre à la demande de bande passante imposée notamment par la révolution de l’internet, tout en préservant une consommation énergétique raisonnable. Dans ce contexte, l’intégration hétérogène fonctionnelle sur silicium de dispositifs photoniques à émission par la surface de type VCSEL utilisant des miroirs large-bandes ultra-compacts à cristaux photoniques constitue une stratégie prometteuse pour surmonter l’impasse technologique actuelle, tout en ouvrant la voie à un développement rapide d’architectures et de systèmes de communications innovants dans le cadre du mariage entre photonique et micro-nano-électronique. / The ever-growing demand for high-volume fast data transmission and processing is nowadays rapidly attaining the intrinsic limit of microelectronic circuits to offer high modulation bandwidth at reasonable power dissipation. Silicon photonics is set to break the technological deadlock aiming at a functional photonics-on-CMOS integration for innovative optoelectronic systems paving the way towards next-era communication architectures. Among the others photonic building blocks such as photodiodes, optical modulators and couplers, power-efficient compact semiconductors sources in the near-infrared telecommunication bands, characterized by performing modal features as well as thermal resiliency constitute an essential landmark to be achieved. Within such context, InP-based long-wavelength vertical-cavity surface-emitting lasers (VCSELs) using one-dimensional Si/SiO2 photonic crystals as wideband compact mirrors are proposed as next generation emitters for CMOS integration. Cristaux photoniques (CPs) Laser à semiconducteur Modes de Bloch lents Laser à émission par la surface III-V on Si heterogeneous integration Photonic crystal (PhC) Semiconductor laser Slow Bloch mode (SBM)
18	Design and optimization of high speed flash analog-to-digital converters in SiGe BiCMOS technologies / Conception et Optimisation de convertisseurs AD à haute vitesse Ritter, Philipp 10 July 2013 (has links) Le Convertisseur Analogique Numérique (CAN) est une brique essentielle de la ré- ception et du traitement des données à très haut débit. L’architecture de type "flash" effectue la quantification en comparant simultanément le signal analogique d’entrée à l’ensemble des références du codeur, ce qui en fait, par construction, l’architecture la plus rapide de CAN. Par le passé, cette architecture a démontré des capacités de codage supérieures à 20GS/s dans les conditions de Nyquist. Cependant, cette capac- ité à travailler à très haute vitesse a donné le jour à des réalisations très consommantes (plusieurs Watts) donc peu efficaces énergétiquement. Cette thèse explore différentes approches d’optimisation de l’efficacité énergétique des CAN "flash". Afin de min- imiser la consommation du CAN, il n’y a pas d’Echantillonneur-Bloqueur (EB) en tête du circuit. Les étages d’entrée du codeur sont ainsi exposés à la pleine bande passante du signal, à savoir DC-10GHz. Ceci impose des contraintes très strictes sur la précision temporelle de la détection et de la quantification du signal. L’essentiel de cette thèse est donc concentré sur l’analyse des effets hautes frèquences impactant la conception des éléments frontaux du CAN. La validité et l’efficacité des méthodes présentées sont démontrées par des mesures autour d’un CAN 6 bit 20 GS/s. En em- pruntant les techniques de conception des circuits ultra-rapides et en exploitant le po- tentiel haute-fréquence de la technologie à l’état de l’art SiGe BiCMOS, un circuit complètement analogique a ainsi pu être réalisé. Ce CAN est mono-voie et n’a besoin d’aucune calibration ou correction, ni d’assistance digitale. Avec à peine 1W, ce cir- cuit atteint un record d’efficacité énergétique dans l’état de l’art des CAN rapides non entrelacés. / High speed Analog-to-Digital Converters (ADC) are essential building blocks for the reception and processing in high data rate reception circuits. The flash ADC archi- tecture performs the digitization by comparing the analog input signal to all refer- ence levels of the quantization range simultaneously and is thus the fastest architecture available. In the past the flash architecture has been employed successfully to digitize signals at Nyquist rates beyond 20 GS/s. However the inherent high speed operation has led to power consumptions of several watts and hence to poor energy efficien- cies. This thesis explores approaches to optimize the energy efficiency of flash ADCs. In particular, no dedicated track-and-hold stage is used at the high speed data input. This imposes very stringent requirements on the timing accuracy and level accuracy in the high speed signal distribution to the comparators. The comparators need to ex- hibit a very high speed capability to correctly perform the quantization of the signal against the reference levels. The main focus of this thesis is hence the investigation of design relevant high frequency effects in the analog ADC frontend, such as the bandwidth requirement of overdriven comparators, the data signal distribution over a passive transmission line tree and the dynamic linearity of emitter followers. The correctness and efficacy of the presented methods is demonstrated by measurement results of a 6 bit 20 GS/s Nyquist rate flash ADC fabricated within the context of this work. The demonstrator ADC operates without time interleaving, no calibration or correction whatsoever is needed. By employing design techniques borrowed from high speed analog circuits engineering and by exhausting the high speed potential of a state-of-the-art SiGe BiCMOS production technology, a flash ADC with a record energy efficiency could be realized. Electronique Conversion analogique numérique Architecture rapide Circuit intégré Bipolar CMOS - BICMOS Efficacité énergétique Electronics Analog to Digital Conversion Fast architecture Energy Efficiency 621.381 520 72
19	Qubit control-pulse circuits in SOS-CMOS technology for a Si:P quantum computer Ekanayake, Sobhath Ramesh, Electrical Engineering & Telecommunications, Faculty of Engineering, UNSW January 2008 (has links) Microelectronics has shaped the world beyond what was thought possible at the time of its advent. One area of current research in this field is on the solid-state Si:P-based quantum computer (QC). In this machine, each qubit requires an individually addressed fast control-pulse for non-adiabatic drive and measure operations. Additionally, it is increasingly becoming important to be able to interface nanoelectronics with complementary metal-oxide-semiconductor (CMOS) technology. In this work, I have designed and demonstrated full-custom mixed-mode and full-digital fast control-pulse generators fabricated in a silicon-on-sapphire (SOS) CMOS commercial foundry process ?? a radio-frequency (RF) CMOS technology. These circuits are, fundamentally, fast monostable multivibrators. Initially, after the design specifications were decided upon, I characterized NFET and PFET devices and a n+-diffusion resistor from 500 nm and 250 nm commercial SOS-CMOS processes. Measuring their conductance curves at 300 300 K, 4.2 2 K, and sub-K (30 30 mK base to 1000 1000 mK) showed that they function with desirable behaviour although exhibiting some deviations from their 300 300 K characteristics. The mixed-mode first generation control-pulse generator was demonstrated showing that it produced dwell-time adjustable pulses with 100 100 ps rise-times at 300 K, 4.2 2 K, and sub-K with a power dissipation of 12 12 uW at 100 100 MHz. The full-digital second generation control-pulse generator was demonstrated showing accurately adjustable dwell-times settable via a control-word streamed synchronously to a shift-register. The design was based on a ripple-counter with provisions for internal or external clocking. This research has demonstrated that SOS-CMOS technology is highly feasible for the fabrication of control microelectronics for a Si:P-based QC. I have demonstrated full-custom SOS-CMOS mixed-mode and full-digital control circuits at 300 300 K, 4.2 2 K, and sub-K which suitable for qubit control. Low-temperatures
20	Intégration hybride de transistors à un électron sur un noeud technologique CMOS Jouvet, Nicolas 21 November 2012 (has links) (PDF) Cette étude porte sur l'intégration hybride de transistors à un électron (single-electron transistor, SET) dans un noeud technologique CMOS. Les SETs présentent de forts potentiels, en particulier en termes d'économies d'énergies, mais ne peuvent complètement remplacer le CMOS dans les circuits électriques. Cependant, la combinaison des composants SETs et MOS permet de pallier à ce problème, ouvrant la voie à des circuits à très faible puissance dissipée, et à haute densité d'intégration. Cette thèse se propose d'employer pour la réalisation de SETs dans le back-end-of-line (BEOL), c'est-à-dire dans l'oxyde encapsulant les CMOS, le procédé de fabrication nanodamascène, mis au point par C. Dubuc. [SPI:OTHER] Engineering Sciences/Other Electronique Composant à un électron Transistor à un électron - SET Nanotechnologie Nanodamascène Caractérisation électrique

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