Global ETD Search

21	Développement d'une solution Core-chip MMIC avec convertisseur série-parallèle intégré en technologie BiCMOS pour la formation des faisceaux pour antennes agiles / Development of a Core-chip MMIC solution integrated in BiCMOS technology for beamforming satellite antenna" Gastaldi, Matthieu 20 December 2016 (has links) L’objectif de cette action R&T CNES est le développement en technologie intégrée SiGe BiCMOS d’un core-chip MMIC pour les antennes à formation de faisceaux. Les nouvelles solutions pour les charges satellites développées pour les applications télécom notamment ont besoin d’être de plus en plus flexibles. Cela passe par la mise en place d’un très grand nombre de points de contrôle RF ‘Amplitude/Phase’ qui alimentent les antennes actives. Il faut donc de nouvelles solutions pour optimiser ces fonctions. Ces solutions doivent répondre à plusieurs critères : être compactes, diminuer la consommation DC et conserver les mêmes niveaux de performance en termes de gain, résolution et linéarité que les solutions déjà en place. Dans ce contexte, notre projet de recherche a porté sur le développement de circuits déphaseurs et atténuateurs en technologie SiGe. Une étude préliminaire a permis d’évaluer la technologie en réalisant un premier run comprenant des cellules de déphasage et d’atténuation élémentaires. Des lignes de transmission de type Slow Wave Lines ont également été intégrées afin de montrer leur potentiel pour des applications futures. Ces premiers résultats ont conduits à réaliser un second run comprenant des circuits plus avancés ainsi que le test d’une nouvelle technique pour le design des transistors : le body floating. Cette technique nous a permis de diminuer les pertes de nos circuits tout en améliorant la linéarité. Un troisième run incluant un déphaseur et un atténuateur 4 bits a permis de confirmer les modèles de simulations et le potentiel des circuits MMIC en technologie SiGe. Un dernier run a enfin permis de réaliser un nouveau type de SWL et de réaliser des solutions alternatives aux circuits classiques basées sur ces dernières. / This R&T CNES project concerns the design and realization of a Core-chip MMIC system integrated in SiGe BiCMOS technology. The MMIC core-chip system is dedicated to the beamforming for the active satellite antenna. The new solutions for the satellite payloads being developed for telecommunication applications need an increased flexibility at all the levels. More precisely, the system of active antennas allowing an adjustment by real-time electronic command of the terrestrial covered area offers an optimized response for the communication link budget. This performance has a cost: the necessity of a very large number of RF control points "amplitude / phase" of the beamforming equipment which power the active antenna matrix elements. So, it becomes mandatory to bring a new solution to optimize this function. The main challenges are: increasing the functions integration, decreasing the DC power consumption and keeping the RF performances in terms of gain, resolution and linearity. Antennes Déphaseurs Atténuateurs Ligne à onde lente Antenna Phase shifters Attenuators Slow wave lines 620
22	Acoustoelectric transport in graphene Bandhu, Lokeshwar January 2015 (has links) The acoustoelectric effect in graphene is studied in a graphene/lithium niobate hybrid system, which was prepared by transferring large area single-layer graphene grown on copper onto lithium niobate SAW devices. The transfer of momentum from the surface acoustic waves (SAWs), generated on the surface of the lithium niobate, to the carriers in graphene results in an attenuation and velocity shift of the wave, and gives rise to an acoustoelectric current. The acoustoelectric current, and the amplitude and velocity of the SAW are measured using a sourcemeter and oscilloscope, respectively. Macroscopic acoustoelectric current flowing over several hundred micrometers is demonstrated in graphene, which is measured to be directly proportional to the SAW intensity and frequency at room temperature. A relatively simple classical relaxation model, which describes the piezoelectric interaction between SAWs and the carriers in a two-dimensional electron system, is used to explain the experimental observations. The investigation of the acoustoelectric current as a function of temperature demonstrates the ability of SAWs of different wavelengths to probe graphene at different length scales. By tuning the conductivity of the graphene through the use of a top gate, voltage-controlled phase (velocity) shifters are demonstrated. The acoustoelectric current measured as a function of gate voltage demonstrates that an equal density of electrons and holes are transported at the charge neutrality point, reflecting the unique properties of graphene. 530.4
23	Design of components for mmWave phased array in deep submicron CMOS technology Vadivelu, Praveen Babu 09 November 2009 (has links) With the advancement in wireless communication, there has been a lot of overlap in the frequency spectrum used by different applications in the lower frequency band. Also there is an ever-increasing demand for high-speed wireless data transfer. Due to the aforementioned reasons, a lot of work is being done recently in the unlicensed 60GHz bandwidth due to the high data rates it can support. But it is tough to achieve long-range point-to-point transmission at this frequency due to the limited output power and high path losses. A phased array system is a viable solution at these mmWave frequencies to achieve highly directive long-range point-to-point communication. The objective of this research is the design and implementation of phase shifters, VCO and LNA for mmWave phased array system. In this work, active and passive quadrature generation schemes integrated with a vector modulator have been proposed that can be used to produce arbitrary phase shift with a deterministic resolution at the LO signal. Also, alternate IF and PLL based phase shifting schemes for a mmWave phased array system have been proposed. A complete design procedure from parasitic modeling of devices to verification of the design using EM simulations has been discussed in this work. The simulation results are compared with actual measurement results from the fabricated chip and the performance of the various circuits has been analyzed. Furthermore, the designs of VCO and low noise amplifier to be used in the mmWave phased array system are discussed here. CMOS Phase shifters LNA VCO Phased array Wireless communication systems Electronic apparatus and appliances
24	Metamaterial-Inspired CMOS Tunable Microwave Integrated Circuits For Steerable Antenna Arrays Abdalla, Mohamed 23 September 2009 (has links) This thesis presents the design of radio-frequency (RF) tunable active inductors (TAIs) with independent inductance (L) and quality factor (Q) tuning capability, and their application in the design of RF tunable phase shifters and directional couplers for wireless transceivers. The independent L and Q tuning is achieved using a modided gyrator-C architecture with an additional feedback element. A general framework is developed for this Q- enhancement technique making it applicable to any gyrator-C based TAI. The design of a 1.5V, grounded, 0.13um CMOS TAI is presented. The proposed circuit achieves a 0.8nH-11.7nH tuning range at 2GHz, with a peak-Q in excess of 100. Furthermore, printed and integrated versions of tunable positive/negative refractive index (PRI /NRI) phase shifters, are presented in this thesis. The printed phase shifters are comprised of a microstrip transmission-line (TL) loaded with varactors and TAIs, which, when tuned together, extends the phase tuning range and produces a low return loss. In contrast, the integrated phase shifters utilize lumped L-C sections in place of the TLs, which allows for a single MMIC implementation. Detailed experimental results are presented in the thesis. As an example, the printed design achieves a phase of -40 to +34 degrees at 2.5GHz. As another application for the TAI, a reconfigurable CMOS directional coupler is presented in this thesis. The proposed coupler allows electronic control over the coupling coefficient, and the operating frequency while insuring a low return loss and high isolation. Moreover, it allows switching between forward and backward operation. These features, combined together, would allow using the coupler as a duplexer to connect a transmitter and a receiver to a single antenna. Finally, a planar electronically steerable patch array is presented. The 4-element array uses the tunable PRI/NRI phase shifters to center its radiation about the broadside direction. This also minimizes the main beam squinting across the operating bandwidth. The feed network of the array uses impedance transformers, which allow identical interstage phase shifters. The proposed antenna array is capable of continuously steering its main beam from -27 to +22 degrees of the broadside direction with a gain of 8.4dBi at 2.4GHz. tunable active inductors phase shifters directional couplers steerable antenna arrays metamaterials CMOS MMIC 0544
25	Novel thin film optical modulator/tunable retarder Keeling, David 05 April 2007 (has links) A reflection retarder is a device that induces a change in the phase between the parallel and perpendicular components, of the electric field, to the plane of incidence while maintaining the relative amplitudes. A film-substrate reflection retarder is a reflection retarder that only consists of a film-substrate system. Film-substrate reflection retarders have been previously studied in the negative, zero, and positive systems. The type of system is determined by the relationship between the refractive index of the ambient N0, film N1, and substrate N2: if N1<(N0N2)^(1/2) , the system is negative; if N1=(N0N2)^(1/2), the system is zero; if N1>(N0*N2)^(1/2), the system is positive. It has been determined that is the condition required to achieve reflection retarders, in general. Angle-of-incidence tunable (AIT) retarder designs have not been investigated for the zero system, but have been studied in the negative system. An exact retarder in the zero system only exists at a single angle of incidence and a corresponding single film thickness. By approximating the retarder condition to allow the relative amplitudes to be within 5% of the exact value of unity, it is possible to realize unique AIT retarders in the zero system: retarders that can be operated over a continuous range of angles of incidence resulting in a large range of phase shifts approaching 360°. It is possible to have multiple angles of incidence with a difference of between their respective phase shifts. By inducing a phase shift of, it is possible to modulate the polarization of light. By employing an approximation of the retarder condition, AIT retarder designs were developed. The design’s tolerance to changes in design parameters is analyzed and discussed. Ellipsometry Thin film Optical modulator Retarder Tunable Electric fields Optoelectronics Refractive index Phase shifters Polarization (Light)
26	Coplanar waveguide phase shifter on silicon at LMCS frequencies / Picard, Stephan D., January 1900 (has links) Thesis (M. Eng.)--Carleton University, 2001. / Includes bibliographical references (p. 171-174). Also available in electronic format on the Internet.
27	A calibrated phase and amplitude control system for phased-array transmitters / Charles, Cameron T. January 2006 (has links) Thesis (Ph. D.)--University of Washington, 2006. / Vita. Includes bibliographical references (leaves 150-155).
28	Nouvelles topologies de cellules déphaseuses à coût et complexité réduits pour les antennes réseaux réflecteurs large bande / New phase-shifting cells of low cost and reduced complexity for broadband reflectarray antennas Makdissy, Tony 15 November 2013 (has links) Les réseaux réflecteurs imprimés connaissent un fort développement depuis la fin des années 80. Ce type d’antenne offre la possibilité de former des diagrammes de rayonnement complexes avec une relative simplicité, un faible coût de réalisation, de faibles pertes et un volume réduit. Cependant, il souffre encore de quelques défauts : - La non régularité de la géométrie de la cellule sur la surface du réseau, dans le cas d’une antenne passive, peut engendrer des dégradations sur le diagramme de rayonnement, surtout à la transition entre deux géométries extrêmes, lorsqu’un nouveau cycle de phase commence. - Le nombre relativement élevé de composants utilisés pour contrôler la phase de l’onde réfléchie, dans le cas d’une antenne reconfigurable, augmente le coût de fabrication de l’antenne et complexifie le circuit de commande des éléments reconfigurables. - La limitation en bande passante, qui a longtemps cantonné ce type d’antenne à des applications bande étroite, est principalement liée au comportement de la cellule unitaire constitutive du réseau. Dans cette thèse, nous nous intéressons donc à la conception de nouvelles topologies de cellules déphaseuses, passives et surtout reconfigurables, qui permettent, tout en conservant une relative simplicité de réalisation, d’offrir une large bande passante. De plus, le contrôle de la phase, dans le cas des cellules reconfigurables, doit être réalisé avec un nombre réduit de composants afin de respecter la contrainte de faible coût de fabrication. / Microstrip printed reflectarrays experience strong development since the late 80s. This type of antenna has the potential to form complex radiation patterns with relative simplicity, low cost, low losses and low profile. However, it still has some shortcomings: - The non-regularity of the geometry of the cell on the surface of the array, in the case of passive antenna, may cause degradation on the radiation pattern, especially at the transition between two extreme geometries, when a new phase cycle begins. - The high number of components used to control the phase of the reflected wave, in the case of reconfigurable antenna, increases the manufacturing cost of the antenna and complicates the control circuit of the reconfigurable elements. - The limited bandwidth has long confined this type of antenna to narrowband applications and is mainly due to the intrinsic bandwidth of the unit cell. In this thesis, we therefore focus on the design of new, passive and reconfigurable, phase-shifting cells that can provide a wide bandwidth while maintaining a simple implementation. In addition, the control of the phase, in the case of reconfigurable cells, must be made with a reduced number of components in order to comply the constraint of low manufacturing cost. Double polarisation linéaire Complexité réduit Large bande Reconfigurable Cost control Phase shifters Adaptive antennas 621.3
29	Conception d’une cellule déphaseuse pour réseau réflecteur reconfigurable à deux polarisations circulaires indépendantes / Unit-cell for reflectarrays operating with independent dual-circular polarizations Mener, Simon 26 November 2013 (has links) Cette thèse, menée en partenariat avec le CNES et la DGA s’inscrit dans un contexte international très actif sur les réseaux réflecteurs ou reflectarrays. Un reflectarray est constitué d’une source primaire placée au-dessus d’un réseau de cellules contrôlant les propriétés du champ réfléchi. Une reconfiguration du diagramme de rayonnement peut être réalisée de manière électronique en introduisant des éléments actifs dans chacune des cellules. Dans ce contexte, le travail réalisé a consisté à étudier une nouvelle topologie de cellule permettant de réfléchir indépendamment deux ondes incidentes, en polarisations circulaires gauche et droite, en bande X. Cette cellule, basée sur la superposition d’une cellule sélective en polarisation et d’une cellule simple polarisation, est conçue de façon à être compatible avec une reconfiguration électronique à l’aide de commutateurs. Après un important travail de simulation électromagnétique, une première validation expérimentale, menée à l’échelle de la cellule unitaire, a mis en évidence de très bonnes performances dans les deux polarisations (pertes inférieures à 1dB, déphasage atteignant 2 bits de résolution). A cette occasion, un banc de caractérisation spécifique a été développé. Une étude de faisabilité de la cellule reconfigurable a également été menée afin d’identifier les technologies de commutateur les plus pertinentes et de quantifier les perturbations apportées par la circuiterie de commande. Finalement, un démonstrateur de réseau à états figés a été réalisé et mesuré. Constitué de 97 cellules, il a permis de démontrer les potentialités de la structure développée, pour une application spatiale réaliste : dépointage jusqu’à 26°, bande passante de 800 MHz en bande X, réjection de polarisation croisée>20dB correspondant à une pureté de polarisation circulaire satisfaisante (TE<2dB). Il s’agit de la première antenne à réseau réflecteur qui permette de gérer indépendamment et simultanément les deux orientations de la polarisation circulaire à la même fréquence tout en offrant des capacités de reconfigurabilité. / This thesis done in partnership with the French Space Agency (CNES) and the French Defense Agency (DGA) is placed in a very active international context on reflectarrays antennas. A reflectarray consists of a primary source located above microstrip elements on a grounded substrate. The microstrip elements are designed to reradiate the incident wave. A reconfiguration of the radiation pattern can be electronically achieved by introducing switches in each element. In this context, for space applications in X-band, the objective of this thesis is to propose a dual-circular polarization (CP) unit-cell able to separate at the same frequency, the two incident circular polarizations. This unit-cell, made of two layers with reconfigurable capabilities, is based on a circular polarization selective surface (CPSS) and on a single polarization cell. After intensive electromagnetic simulations, the unit-cell in dual-circular polarization with reconfigurable capabilities has been experimentally validated using a specific waveguide measurement. In fact, the unitcell reflects independently and simultaneously the two incidents circular polarizations for a phase resolution around 2 bits in LHCP and in RHCP. A feasibility study of the reconfigurable cell was also carried out to identify the most relevant technologies. Then, a reflectarray in X-band has been designed, fabricated and measured. Made up of 97 cells, it has demonstrated the potentialities of the structure for a realistic space application: scan angle up to 26 °, bandwidth of 800MHz in X-band, cross-polarization rejection>20dB and good polarization purity (AR<2dB). This is the first time that a dual circular polarization reflectarray with reconfigurable capabilities has been validated with the unique capability to reflect independently and simultaneously the two incident circular polarization at the same frequency. Bipolarisation circulaire Cellules déphaseuses Reconfigurabilité Phase shifters Adaptive antennas Artificial satellites 621.3
30	Novel Phase Shifters Using Reconfigurable Filters Brussenskiy, Georgiy 01 January 2024 (has links) (PDF) Phase shifters play a crucial role in radar, satellite communications, and 5G networks. Recently, the idea of using filters as phase shifters have attracted much interest due to providing many benefits such as smaller area, lower noise figure, easier fabrication method as compared with other technologies, reduced cost, and the ability to work as multi-functioning device. This work focuses on the implementation of bandstop-based and bandpass-based filtering phase shifters. For the bandstop-based approach, some of the resonating structures that were examined are stubs, LC tanks, L-shaped/U-shaped half wavelength resonators and many others. Periodic stub loading filter design method was compared against traditional filter synthesis method in order to determine which approach can provide better insertion loss range, higher phase range, and wider bandwidth. Optimization of stub impedance and the size of the device was presented. With regards to bandpass-based filtering phase shifters, microstrip-based and substrate integrated waveguide-based designs were investigated. The benefits of microstrip technology include low profile, low cost, ease of fabrication and integration. Microstrip-based designs were implemented using square shaped and octagon shaped split ring resonators. Then, substrate integrated waveguide (SIW) cavity-based designs were proposed and realized using hexagon resonators. The advantages of SIW-based filters are low insertion loss, high power handling, high immunity to external noise and crosstalk. A novel SIW-based filtering phase shifter with tunable transmission zero and tunable center frequency was developed aimed at maximizing device performance. Phase Shifters Reconfigurable Filters Tunable Transmission Zero Substrate Integrated Waveguide Coupling Matrix Synthesis Systems and Communications

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