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Contribution à l'analyse CEM globale de structures et de circuits. Application aux antennes Vivaldi en présence d'un système non linéaire pour la récupération d'énergie : une approche FDTD / Contribution to the global EMC analysis of structures and circuits : application to Vivaldi antennas integrated with a nonlinear system for Energy Harvesting : FDTD approachAlaoui abdallaoui, Ismail 07 May 2018 (has links)
Les systèmes électroniques sont au cœur de notre vie quotidienne, ils sont intégrés dans la plupart des objets que nous utilisons chaque jour, et dans des secteurs clés comme l’aéronautique, l’automobile, le spatial, l’électronique grand public... Les techniques d’alimentation classiques (pile ou batterie) restent difficiles à envisager dans certaines applications car, elles sont limitées en autonomie, elles nécessitent des remplacements périodiques et leur recyclage est coûteux. Afin de détourner ces contraintes, le concept de la transmission d’énergie sans fil se présente comme une alternative aux systèmes d’alimentation classiques. La récupération d'énergie électromagnétique a beaucoup attiré l'attention puisque la puissance RF est largement diffusée à partir de nombreuses ressources électromagnétiques fiables. De plus, les circuits électroniques et notamment microondes deviennent de plus en plus rapides à cause des fréquences de travail de plus en plus élevées. L’analyse fréquentielle seule ne peut répondre à un certain nombre d’interrogations dans ces circuits. Une analyse purement temporelle devient nécessaire pour résoudre et répondre à toutes les problématiques. Parmi les problèmes posés dans les circuits microondes, on s’intéresse à deux approches totalement complémentaires:• L’Intégrité du Signal qui représente le dysfonctionnement des circuits du à la distorsion des signaux. • La Compatibilité ElectroMagnétique qui est le résultat de l’encombrement des composants électroniques dans les circuits. La première approche se base sur les modèles de composants et peut prédire parfaitement la qualité des signaux pendant le placement et le routage des cartes électroniques. En revanche, il sera très difficile de mettre en évidence les causes du comportement anormal du circuit en question. La deuxième approche complémentaire de la première, et qui est l’analyse par la compatibilité électromagnétique permettra de couvrir les causes du problème tels que diaphonie (Cross Talk), rayonnement et susceptibilité des systèmes dans le but de corriger le circuit pour qu’il fonctionne correctement.La méthode de travail adoptée dans cette thèse consiste dans un premier temps à identifier les différents problèmes. Ensuite proposer des solutions via des codes de calcul existants (FDTD, FEM, MoM…) et qu’on pourra développer (2D) ou bien via des logiciels adaptés tels que Spice, Matlab, EMPro, ADS…..etc. / Electronic systems are integrated into most objects that we use every day, also in different key sectors such as, automotive, railway, spacial, defense and consumer electronics... Conventional feeding techniques remain difficult to envisage in certain applications because they are limited in their autonomy energy, and they require periodic replacements and their recycling is expensive. In this mind, the wireless power transfer is a very interesting solution, less expensive and aesthetic. This solution needs to pick up the RF power transmitted through the free space by a Rectenna and convert it to a DC voltage, to feed one or several wireless devices or to increase the operating life of batteries.The high operating frequencies makes the microwave circuits faster. Frequency analysis can’t answer a number of questions in these circuits. The introduction of the temporal analysis becomes necessary to solve and answer all the problems encountered. In fact, we are interested in two complementary approaches:• Signal integrity, which represents the malfunction of the circuits due to the distortion of the signals• ElectroMagnetic Compatibility, which is the result of the congestion of the electronic components in the circuits.• The first approach is based on component models and can perfectly predict signal quality during placement and routing of electronic boards. On the other hand, it will be difficult to highlight the causes of the abnormal behavior of the circuit. The second approach, is complementary of the first one, which is the analysis by the electromagnetic compatibility, who will allow to cover the causes of the problems such as cross talk, radiation and defined the susceptibility of this systems to work correctly.The working method adopted in this thesis consists in first identifying the various problems. Then propose solutions via existing calculation codes (FDTD, FEM, MoM ...) who can be developed or via the software such as Spice, Matlab, EMPro, ADS …Key words: Wireless power transfer, UWB systems, numerical methods, Rectenna systems, RF/DC converter, EMC analysis.
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Système de détection embarqué ULB millimétrique pour la perception de l'environnement / UWB millimeter embedded detection system for environment perceptionDiao, Pape Sanoussy 03 July 2019 (has links)
Avec le contexte actuel des défis sécuritaires, la détection de petits objets devient un enjeu majeur pour lutter contre les actes malveillants. Mais les évolutions des technologies en bandes millimétriques et le potentiel de ces bandes, notamment autour de 60 GHz peuvent faciliter la conception de systèmes de plus en plus performants, permettant de répondre à ces enjeux. Cette thèse s’inscrit dans ce contexte pour proposer un système de détection ultra-large bande (ULB) millimétrique pour des applications de courte portée. Après un état de l'art détaillé des fondamentaux de la détection, nous présentons une validation de l'estimation de la surface équivalente radar (SER) par simulation avec le logiciel HFSS et par mesures en chambre anéchoïque. Ces deux études nous ont permis d'identifier les éléments essentiels à l'analyse système et les paramètres critiques de la détection d'objets canoniques cylindres et plaques. Une fois l'analyse système cernée, nous avons proposé une approche de détection multi-bande basée sur le radar monostatique pour améliorer la couverture de détection des systèmes, mais aussi et surtout pour pallier la limitation de la détection des objets en fonction de leur orientation par rapport à l'axe de viser de l'antenne. Nous avons également proposé une architecture (émetteur-récepteur) simple pouvant être associée au principe de détection. Le dimensionnement du système nous a permis d'identifier les amplificateurs faible bruit (LNAs) comme éléments critiques du récepteur et ainsi d'établir leurs spécifications pour atteindre les performances visées. Une comparaison des technologies SG13S de IHP et D007IH de OMMIC est menée dans la dernière partie de ce travail. Le choix de la technologie est justifié et la conception des LNAs sous ADS Keysight est détaillée. Une simulation de l'ensemble du système basée sur les performances des LNAs conçus et sur les simulations de SER est présentée pour illustrer la mise en œuvre de la détection. Enfin, les performances de la détection sont évaluées pour des cibles cylindriques et les apports du système proposé sont illustrés en comparaison avec une détection classique mono-bande / With the current context of security challenges, small objects detection is becoming a major issue in the fight against malicious acts. However, developments in millimeter-band technologies and the potential of these bands, particularly around 60 GHz, can facilitate the design of increasingly efficient systems to meet these challenges. This thesis is part of this context to propose an ultra-wideband (UWB) millimeter-wave detection system for short-range applications.After a detailed state-of-the-art of the fundamentals of detection, we present a validation of the radar cross-section (RCS) estimation by simulations with HFSS software and by measurements in anechoic chamber. These two studies allowed us to identify the essential elements for system analysis and the critical parameters for the detection of canonical objects such as cylinders and plates.Once the system analysis was identified, we proposed a multi-band detection approach based on monostatic radar to improve the detection coverage of the systems, but also and especially to overcome the limitation of objects detection according to their orientation in relation to the antenna boresight. We also proposed a simple architecture (transceiver) that could be associated with the detection principle. The system design allowed us to identify low noise amplifiers (LNAs) as critical elements of the receiver and thus establish their specifications to achieve the targeted performances.A comparison of IHP's SG13S and OMMIC's D007IH technologies is conducted in the last part of this work. The choice of technology is justified and the design of LNAs under ADS Keysight is detailed. A simulation of the entire system based on the performance of the designed LNAs and RCS simulations is presented to illustrate the implementation of detection. Finally, detection performances are evaluated for cylindrical targets and the contributions of the proposed system are illustrated in comparison with conventional single-band detection
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Ultra-wideband Spread Spectrum Communications using Software Defined Radio and Surface Acoustic Wave CorrelatorsGallagher, Daniel 01 January 2015 (has links)
Ultra-wideband (UWB) communication technology offers inherent advantages such as the ability to coexist with previously allocated Federal Communications Commission (FCC) frequencies, simple transceiver architecture, and high performance in noisy environments. Spread spectrum techniques offer additional improvements beyond the conventional pulse-based UWB communications. This dissertation implements a multiple-access UWB communication system using a surface acoustic wave (SAW) correlator receiver with orthogonal frequency coding and software defined radio (SDR) base station transmitter. Orthogonal frequency coding (OFC) and pseudorandom noise (PN) coding provide a means for spreading of the UWB data. The use of orthogonal frequency coding (OFC) increases the correlator processing gain (PG) beyond that of code division multiple access (CDMA); providing added code diversity, improved pulse ambiguity, and superior performance in noisy environments. Use of SAW correlators reduces the complexity and power requirements of the receiver architecture by eliminating many of the components needed and reducing the signal processing and timing requirements necessary for digital matched filtering of the complex spreading signal. The OFC receiver correlator code sequence is hard-coded in the device due to the physical SAW implementation. The use of modern SDR forms a dynamic base station architecture which is able to programmatically generate a digitally modulated transmit signal. An embedded Xilinx Zynq ™ system on chip (SoC) technology was used to implement the SDR system; taking advantage of recent advances in digital-to-analog converter (DAC) sampling rates. SDR waveform samples are generated in baseband in-phase and quadrature (I & Q) pairs and upconverted to a 491.52 MHz operational frequency. The development of the OFC SAW correlator ultimately used in the receiver is presented along with a variety of advanced SAW correlator device embodiments. Each SAW correlator device was fabricated on lithium niobate (LiNbO3) with fractional bandwidths in excess of 20%. The SAW correlator device presented for use in system was implemented with a center frequency of 491.52 MHz; matching SDR transmit frequency. Parasitic electromagnetic feedthrough becomes problematic in the packaged SAW correlator after packaging and fixturing due to the wide bandwidths and high operational frequency. The techniques for reduction of parasitic feedthrough are discussed with before and after results showing approximately 10:1 improvement. Correlation and demodulation results are presented using the SAW correlator receiver under operation in an UWB communication system. Bipolar phase shift keying (BPSK) techniques demonstrate OFC modulation and demodulation for a test binary bit sequence. Matched OFC code reception is compared to a mismatched, or cross-correlated, sequence after correlation and demodulation. Finally, the signal-to-noise power ratio (SNR) performance results for the SAW correlator under corruption of a wideband noise source are presented.
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Ultra-wideband location tracking of mobile devicesHietarinta, Daniel January 2022 (has links)
Today’s most widely used tracking solutions for consumers involve the Global Positioning System (GPS) which meets most needs when it comes to rough estimation of location. GPS however is limited in accuracy with a horizontal error of around 5 meters and cannot be used in the areas where the satellites cannot provide a strong enough signal e.g. indoor areas or near mountains and other sources of blockage. Ultra-wideband (UWB) abolishes these two issues, providing an accuracy at centimeter level and works great in indoor areas. This thesis dives into the theory behind tracking devices with UWB and includes an implementation of the tracking as well as covers noteworthy issues, shortcomings, and future work. The app that is developed within this thesis runs on Android mobile devices and can locate and track another Android mobile device running the same app. Results were clear that the concept works, but more filtering needs to be done in order to remove the remaining noise.
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Balanced antennas for mobile handset applications. Simulation and Measurement of Balanced Antennas for Mobile Handsets, investigating Specific Absorption Rate when operated near the human body, and a Coplanar Waveguide alternative to the Balanced Feed.Alhaddad, A.G. January 2012 (has links)
The main objectives of this research are to investigate and design low profile antennas
for mobile handsets applications using the balanced concept. These antennas are
considered to cover a wide range of wireless standards such as: DCS (1710¿1880 MHz),
PCS (1850¿1990 MHz), UMTS (1920¿2170 MHz), WLAN (2400¿2500 MHz and 5000
¿ 5800 MHz) and UWB frequency bands. Various antennas are implemented based on
built-in planar dipole with a folded arm structure.
The performance of several designed antennas in terms of input return loss, radiation
patterns, radiation efficiency and power gain are presented and several remarkable
results are obtained. The measurements confirm the theoretical design concept and show
reasonable agreement with computations. The stability performance of the proposed
antenna is also evaluated by analysing the current distribution on the mobile phone
ground plane. The specific absorption rate (SAR) performance of the antenna is also
studied experimentally by measuring antenna near field exposure. The measurement
results are correlated with the calculated ones.
A new dual-band balanced antenna using coplanar waveguide structure is also proposed,
discussed and tested; this is intended to eliminate the balanced feed network. The
predicted and measured results show good agreement, confirming good impedance
bandwidth characteristics and excellent dual-band performance.
In addition, a hybrid method to model the human body interaction with a dual band
balanced antenna structure covering the 2.4 GHz and 5.2 GHz bands is presented.
Results for several test cases of antenna locations on the body are presented and
discussed. The near and far fields were incorporated to provide a full understanding of
the impact on human tissue. The cumulative distribution function of the radiation
efficiency and absorbed power are also evaluated. / UK Engineering and Physical Sciences Research Council (EPSRC)
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Modelling and design of compact wideband and ultra-wideband antennas for wireless communications. Simulation and measurement of planer inverted F antennas (PIFAs) for contemporary mobile terminal applications, and investigations of frequency range and radiation performance of UWB antennas with design optimisation using parametric studies.Hraga, Hmeda I. January 2013 (has links)
The rapidly growing demand for UWB as high data rates wireless communications technology, since the Federal Communications Commission (FCC) allocated the bandwidth of UWB from 3.1GHz to 10.6 GHz. Antenna also plays an essential role in UWB system. However, there are some difficulties in designing UWB antenna as compared to narrowband antenna. The primary requirement of UWB antennas is be able to operate over frequencies released by the FCC. Moreover, the satisfaction of radiation properties and good time domain performance over the entire frequency range are also necessary.
In this thesis, designing and analysing printed crescent shape monopole antenna, Planar Inverted F-L Antenna (PIFLA) and Planar Inverted FF Antenna (PIFFA) are focused. A Planar Inverted FF Antenna (PIFFA) can be created to reduce the potential for interference between a UWB system and other communications protocols by using spiral slot.
The antennas exhibits broadside directional pattern. The performances such as return loss, radiation pattern and current distribution of the UWB antennas are extensively investigated and carried out. All the results have been demonstrated using simulation and experimentally whereby all results satisfy the performance under - 10dB point in the bandwidth of UWB.
In addition the miniaturization of MIMO/diversity Planar Inverted-F antenna (PIFA) which is suitable for pattern diversity in UWB applications is presented. This antenna assembly is formed by two identical PIFAs, a T-shaped decoupling structure which connects the two PIFAs and a finite ground plane with a total compact envelope dimension of 50 ¿ 90 ¿ 7.5mm3. The radiation performance of the proposed MIMO antenna was quite encouraging and provided an acceptable agreement between the computed and measured envelope correlation coefficient and channel capacity loss. / General Secretariat of Education and Scientific Research Libya
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Ultrawideband Time Domain Radar for Time Reversal ApplicationsLopez-Castellanos, Victor 31 March 2011 (has links)
No description available.
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Coexistencia e integración de comunicaciones inalámbricas en sistemas de transmisión ópticosPérez Soler, Joaquín 25 November 2009 (has links)
Las redes y sistemas de telecomunicación actuales se enfrentan a la necesidad de proporcionar regímenes binarios en la red de acceso cada vez más elevados a un mayor número de usuarios. El principal objetivo de esta Tesis Doctoral es proporcionar y evaluar nuevas técnicas que permitan la distribución eficiente de señales de radiofrecuencia con elevado régimen binario, como las tecnologías inalámbricas UWB y WiMAX, en redes de acceso integradas basadas en sistemas radio-sobre-fibra. Por ello se ha contemplado el estudio de la coexistencia y distribución de comunicaciones UWB y WiMAX tanto en el acceso vía radio, como en la transmisión óptica. Sin olvidar el estudio de la linealización del modulador electro-óptico Mach-Zehnder como dispositivo clave en las redes de acceso integradas.
En primer lugar, esta Tesis Doctoral estudia los requisitos para la convergencia inalámbrica de servicios basados en MB-OFDM UWB y WiMAX 802.16e en entornos de redes inalámbricas personales, proporcionando márgenes de seguridad para asegurar la interoperabilidad entre ambas. Estos márgenes pueden aplicarse en el futuro desarrollo de tecnologías avanzadas de mitigación de la interferencia como detección y exclusión en cognitive radio. La coexistencia de MB-OFDM UWB y WiMAX en redes ópticas de acceso utilizando RoF. Los resultados obtenidos, tanto para sistemas RoF sobre fibra multimodo como monomodo, permiten delimitar el alcance en cada tipo de medio óptico para el despliegue de sistemas RoF sobre FTTH. A su vez, se propone y demuestra experimentalmente una nueva técnica de multiplexación por división de polarización en la transmisión óptica que facilita la coexistencia en RoF. Finalmente, se propone y demuestra experimentalmente una técnica de linealización óptica dual paralelo para moduladores Mach-Zehnder que permite aumentar el margen dinámico de este modulador y mejorar las prestaciones de los sistemas RoF con señales de banda ancha. / Pérez Soler, J. (2009). Coexistencia e integración de comunicaciones inalámbricas en sistemas de transmisión ópticos [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/6476
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Systemanalyse und Entwicklung Six-Port basierter Funkempfängerarchitekturen unter Berücksichtigung analoger StöreffekteMailand, Marko 09 January 2008 (has links) (PDF)
Due to the increasing demand of broadband capability and reconfigurability for mobile applications, there is an enormous interest to develop appropriate analog receiver front-ends. In this respect, one promising candidate group is the Six-Port-based direct conversion receiver. The presented work focuses on the investigation of Six-Port-based mobile receiver front-ends with their specific systematical signal processing. Thereby, issues of spurious interfering signals which are generated within the down conversion process of such receivers are of special interest. Based on a comprehensive description of the analog signal processing within additive frequency conversion, a reason could be identified why existing Six-Port receivers have not found any practical application in mobile communication yet – the dynamic DC-offset. With this insight compensation techniques were developed to overcome the negative influences of the dynamic DC-offset. Furthermore, this work presents novel Six-Port-based receiver architectures which, on the one hand, keep the advantages of additive mixing systems like: low power consumption, broadband capability and simplicity of implementation especially for mm-wave transmissions. On the other hand, these novel architectures comprise compensation techniques such that systematically generated spurious signals are inherently compensated in the analog part of the receiver. Moreover, the influence of impairments of phase and amplitude within the IQ-branches of a receiver was investigated. The resulting, unwanted IQ-imbalance was shown to be a mixing method (multiplicative or additive) independent spurious effect. It is suggested to compensate for IQ-imbalance in the digital part of the receiver system. This can be realized with the use of adaptive algorithms. The comparison with conventional analog receiver architectures (especially homodyne receivers) with respect to the reception of today’s and future digitally modulated transmission signals indicate the proposed Six-Port-based receiver architectures to be suitable candidates to fulfill the difficult tasks of modern mobile communication.
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Systemanalyse und Entwicklung Six-Port basierter Funkempfängerarchitekturen unter Berücksichtigung analoger StöreffekteMailand, Marko 22 October 2007 (has links)
Due to the increasing demand of broadband capability and reconfigurability for mobile applications, there is an enormous interest to develop appropriate analog receiver front-ends. In this respect, one promising candidate group is the Six-Port-based direct conversion receiver. The presented work focuses on the investigation of Six-Port-based mobile receiver front-ends with their specific systematical signal processing. Thereby, issues of spurious interfering signals which are generated within the down conversion process of such receivers are of special interest. Based on a comprehensive description of the analog signal processing within additive frequency conversion, a reason could be identified why existing Six-Port receivers have not found any practical application in mobile communication yet – the dynamic DC-offset. With this insight compensation techniques were developed to overcome the negative influences of the dynamic DC-offset. Furthermore, this work presents novel Six-Port-based receiver architectures which, on the one hand, keep the advantages of additive mixing systems like: low power consumption, broadband capability and simplicity of implementation especially for mm-wave transmissions. On the other hand, these novel architectures comprise compensation techniques such that systematically generated spurious signals are inherently compensated in the analog part of the receiver. Moreover, the influence of impairments of phase and amplitude within the IQ-branches of a receiver was investigated. The resulting, unwanted IQ-imbalance was shown to be a mixing method (multiplicative or additive) independent spurious effect. It is suggested to compensate for IQ-imbalance in the digital part of the receiver system. This can be realized with the use of adaptive algorithms. The comparison with conventional analog receiver architectures (especially homodyne receivers) with respect to the reception of today’s and future digitally modulated transmission signals indicate the proposed Six-Port-based receiver architectures to be suitable candidates to fulfill the difficult tasks of modern mobile communication.
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