Using Three Dimensional Finite-Difference Time-Domain Method to Analyze CPW and Antenna

Shiu, Shing-Chin

23 June 2000

In this paper,we used Finite-Difference Time-Domain Method to Analyze CPW and Antenna.In CPW ,we had to process excitiation source and ABC.Or we couldn`t get correct result.In antenna analysis,we used KSIR to calculate antenna pattern.

Coplanar Waveguide

Finite-Difference Time-Domain

Far Field Transformation

An Efficient 2D FDTD Method for Computing EMI Due to Power Delivery System of Packages

Liu, I-Wei

26 July 2010

The operation speed of power delivery system of packages has been upgraded to GHz. The instant current will pass to the power plane of the mother board by way of the IC pins and result in electromagnetic wave propagation between the power plane and the ground plane, then to produce the programs of electromagnetic interference. In this thesis, we will analyze the EMI of power delivery system of packages by finite-difference time-domain in two dimensions structure in three sections. In firist section, to computing EMI in finite-difference time-domain in two dimensions structure. In second section, to analyze more complicated power delivery plane, ex: EBG, in finite-difference time-domain in two dimensions structure. In three section, to add property of capacitors on power plane to reduce EMI in two dimensions structure. Above all, we hope to built a fast computing method to compute EMI to solve the time-consuming problems of full-wave simulated software. And to supply the engineer to deal with the similar problems in packages efficiently.

Decoupling Capacitor

Theory for Slot-corrected

Near- to Far-Field Transformation

Finite-Difference Time-Domain

Near- to Far-Field Transformation for Arbitrarily-Shaped Rotationally-Symmetric Antenna Measurement Surfaces

Philipson, Joshua Benjamin Julius

12 November 2020

The wireless industry is such that suppliers of antennas have to adapt their designs to requirement changes over a period of just a few months. In these short design cycles time is crucial. Radiation pattern testing of the antennas at various points in this design cycle are nowadays mostly done using spherical near-field techniques, where the tangential electric field is acquired over an imaginary sphere close to, and surrounding, the antenna under test, and this data then transformed into a far-zone radiation pattern. There are some applications where acquisition over a rotationally symmetric surface other than a spherical one would not only reduce test times, but allow equipment cost reductions as well. However, near-field to far-field transformations for finite non-spherical measurement surface shapes are not available. Such a transformation is proposed, implemented and validated in this thesis. It uses the method of moments, customized to a rotationally symmetric surface (body of revolution) to effect this transformation.

near-field antenna measurements

near-field to far-field transformation

method of moments

body of revolution

Antenna characterization using phaseless near-field antenna measurements

Brown, Trevor

12 September 2016

This thesis focuses on the application of electromagnetic inverse source techniques to characterize antennas using phaseless (amplitude-only) near-field (NF) measurement data. Removing the need to measure phase reduces the overall cost of the measurement apparatus since simple power meters can be used instead of expensive vector network analyzers. It has also been shown in the literature that a phaseless approach can improve the accuracy of the calculated far-field (FF) pattern in the presence of probe positioning errors compared to the amplitude-and-phase approach. A brief discussion on the state-of-the-art methods for characterizing antennas using phaseless near-field measurement data is presented. Two general approaches used most often to perform near-field to far-field (NF-FF) transformations, namely modal expansion and source reconstruction, are explained in detail for scenarios with and without phase information. A phaseless source reconstruction method (SRM) is the primary focus of this work. The SRM is an application of an electromagnetic inverse source technique and therefore, the complexities of solving the associated ill-posed inverse source problem are discussed. The application of the SRM to spherical and planar measurement geometries are presented along with the concerns regarding regularization resulting from discretizing the ill-posed system. A multiplicative regularization (MR) scheme originally developed for inverse scattering is adapted to suit the nonlinear cost functional for the phaseless planar measurement case and the mathematical framework is derived in detail. The resulting MR-SRM is fully automated and incorporates adaptive regularization. The developed algorithms are evaluated using several examples with synthetic phaseless NF data demonstrating the benefits and limitations of the source reconstruction method and the multiplicative regularization scheme. The application of the SRM to antenna diagnostics using phaseless NF data is also shown. Finally, the developed planar algorithms are tested with experimentally collected phaseless measurement data to demonstrate their potential as suitable antenna characterization techniques that can be of interest to the antenna measurement community. / October 2016

Phaseless measurements

Inverse problems

Antenna measurements

Optimization methods

Source reconstruction method

Near-field to far-field transformation

Transformation de front d'ondes par des méthodes matricielles / Matrix methods for wavefront transformation

Farouq, Mohamed

28 September 2015

La caractérisation des sources de rayonnement électromagnétique par des techniques de champ proche est aujourd'hui largement utilisée. Ces techniques consistent à mesurer le champ rayonné à proximité de la source pour en déduire, par traitement mathématique, le champ dans d'autres zones de l'espace (champ proche ou champ lointain). Les applications sont nombreuses comme par exemple la caractérisation des diagrammes de rayonnement des antennes ou la détermination des périmètres de sécurité autour des antennes de station de base. Par ailleurs, la mesure en champ proche trouve également des applications dans le diagnostic des sources.Ce travail de thèse porte sur une nouvelle méthode de calcul des coefficients du développement modal à partir d'une mesure sur une surface échantillonnée irrégulièrement ou arbitraire. Ces coefficients permettent ensuite d'évaluer le diagramme de rayonnement de la structure rayonnante dans toutes les directions de l'espace.Le principe de la méthode matricielle consiste à mesurer les composantes tangentielles du champ électromagnétique sur une surface. Les coefficients modaux sont obtenus par l'inversion d'un système d'équations linéaires reliant le champ électrique mesuré et les fonctions d'ondes.Cette méthode permet de désolidariser la géométrie de la surface de mesure du système de coordonnées dans lequel est exprimé le développement modal. Il en résulte de nombreux avantages, comme le choix d'une surface de mesure quelconque, pour des raisons de compacité, de simplicité de mise en œuvre ou de suppression d'erreur de troncature. / The characterization of electromagnetic radiation sources by near field techniques is now widely used. These involve measuring the radiated field close to the source to deduce, by mathematical processing, the field in other areas of space (near field and far field). There are many applications such as the evaluation of the antenna far field radiation patterns or the determination of safety perimeters around base station antennas. Furthermore, the near-field measurement technique can be used in the sources diagnostic.In our study, we present a new method for calculating the modal expansion coefficients from irregularly sampled or arbitrary measurement surfaces. The calculation of these modal coefficients allows the assessment of the radiation pattern of the antenna under test in every spatial directions.The principle of the matrix method is to calculate the modal coefficients by solving a system of linear equations relating the measured electric field and wave functions. Once the modal coefficients are known the far field of the structure is achieved.This method allows the separation between the geometry of the measuring surface and the coordinate system wherein the modal expansion is expressed. This leads to many advantages, such as selecting any measurement surfaces, for the reasons of compactness, implementation simplicity or truncation errors suppression.

Electromagnétisme

Mesure d'antennes

Propagation

Surfaces irrégulières

Diagnostic

Electromagnetic

Near-field far-field transformation

Antennas measurement

Propagation

Irregular surfaces

Diagnostic

Illusions thermiques basées sur les métamatériaux et les métasurfaces : conduction et rayonnement / Thermal illusions based on metamaterials and metasurfaces : heat conduction and thermal radiation

Alwakil, Ahmed Diaaeldin

27 June 2018

Les techniques de camouflage, mimétisme ou invisibilité ont récemment connu une forte émergence, qui se poursuit aujourd’hui avec l’apparition des méta-surfaces. C’est dans ce contexte que ce travail de doctorat a été réalisé, notamment avec un premier objectif d’étendre ces outils et concepts aux problèmes inverses du domaine de la diffusion de la chaleur. La suite du travail a concerné le rayonnement thermique, les méta-surfaces et les transformations de champ. Après avoir étendu les techniques de mimétisme au domaine de la conduction, nous avons résolu le problème inverse associé, qui consiste à camoufler des objets imposés en forme ou conductivité. Ce premier travail a permis de mettre en évidence les classes de transformation qui laissent invariantes les paramètres physiques, conférant ainsi plus de pragmatisme au domaine du mimétisme. Nous avons ensuite considéré le cas du rayonnement thermique, et démontré pour la première fois que les illusions par rayonnement étaient envisageables, en appui sur l’invariance du théorème de fluctuation/dissipation. Dans une deuxième étape, nous avons mis au point une nouvelle méthode pour calculer le rayonnement thermique par des objets de forme arbitraire, mettant en jeu des méta-surfaces inhomogènes, anisotropes, chirales et non locales. Nous montrons également comment tirer profit des méta-surfaces pour remplacer les capes volumiques tout en conservant la fonction de camouflage. Cette technique est particulièrement prometteuse pour les applications, même si elle reste intrinsèquement liée à l’éclairement. Des techniques similaires sont développées pour que soit facilité l’utilisation de transformations discontinues de l’espace. / Mimetism, camouflage or invisibility have motivated numerous efforts in the last decade, which are now extended with metasurfaces. This PhD work fits this international context and was first focused on inverse problems in heat conduction before we address thermal radiation and metasurfaces, field transformation. After we generalize the mimetism techniques to heat diffusion, we solved the associated inverse problem which consists of the camouflage of given objects, that is, objects with shape or conductivity that are before hand chosen. The results allowed us to emphasize the class of transformations which hold the physical parameters, hence giving more pragmatism to the field of mimetism. Then we addressed the case of thermal radiation and proved for the first time that mimetism effects could also be controlled in this field, on the basis of the fluctuation/dissipation theorem. In a second step, we built an original technique able to predict the thermal radiation from objects of arbitrary shapes. This technique involves inhomogeneous, anisotropic, chiral and nonlocal metasurfaces. We also show how to take more benefits of metasurfaces in order to replace the bulk mimetism cloaks. We believe this technique to give again more push forward to the field, though the mimetism efficiency now relies on the illumination conditions. Similar techniques are further developed to allow a practical use of discontinuous space transformations. Eventually, field transformation is introduced to complete all these results.

Chaleur

Conduction

Rayonnement thermique

Transformations optiques

Échanges thermiques

Transformations de champ

Fluctuation dissipation

Illusions thermiques

Mimétisme

Invisibilité

Modèles de circuit

Thermal

Heat Transfer

Heat conduction

Thermal Radiation

Transformation Optics

Circuit Model

Field Transformation

Thermal Illusion

Fluctuation Electrodynamics

Invisibility

Mimetism

Caractérisation radioélectrique des satellites de télécommunications du futur / Radioelectric measurements of future telecommunication satellites

Balma, Téegwendé Serge

29 January 2018

Les paramètres radioélectriques des satellites sont actuellement mesurés directement, à l’aide d’une base compacte. Cependant, les li-mites de ces bases sont atteintes à cause de l’augmentation des dimensions des satellites, du nombre et de la complexité des antennes qu’ils comportent.Les techniques de champ proche constituent une solution prometteuse sous la forme de base pla-naire. Ces techniques consistent à mesurer le champ rayonné à proximité de la source pour en déduire, par traitement mathématique, le champ à grande distance.Ce travail de thèse porte sur l’adaptation des techniques de champ proche au test des satellites de télécommunications. La caractérisation du rayonnement des antennes par ces techniques estaujourd’hui largement utilisée. Toutefois, un développement théorique doit être complété et des méthodes de mesures proposées pour le test de l’ensemble des paramètres de la charge utile. Des difficultés spécifiques liées à la fonction du satellite (transpondeur) et à l’accès limité aux antennes et à l’électronique du satellite doivent être prise en compte dans la mise en oeuvre de ces méthodes de mesure.Enfin les mesures en champ proche sont affectées par plusieurs causes d’erreurs. L’identification des sources de ces erreurs et l’évaluation de leurs contributions au résultat final constituent une partie importante du travail de thèse. L’étude globale permet de dimensionner un système de mesure complet bénéficiant d’un bon niveau d’optimisation. / Nowadays, the radioelectric charac-teristics of satellites are directly measured by means of a com-pact range basis. However, the limits of these bases are affected by the growth of the satellite dimensions, in addition to the number and the complexity of the integrated an-tennas.On the other hand, near field techniques formed a promising solution under the planar range form. These techniques consist of measuring the radiated field near the source and accordingly deduce the far field by the means of mathemati-cal analysis.The purpose of this thesis is to adapt near field techniques for testing telecommunication satel-lites. In fact, these techniques are widelyused for antenna pattern measurements. However, a theoretical development has to be completed and measurement methods need to be proposed for testing all payload parameters. Unfortunately, specific difficulties related to the satellite function (transponder) and the limited access to antennas and satellite electronics have to be taken into account in the implementation of these measurement methodologies.Finally, the near field measurements are affected by many causes of errors. The identification of the error sources and the evaluation of their contribution to the final results constitute an important part of the thesis work. The global study allows dimensioning a complete measurement system with a good optimization.

Satellites

Mesure d'antennes et de charge utile

Analyse d'incertitude et précision

Base compacte

Satellites

Near Field to Far Field Transformation

Antenna and Payload Measurement

Compact range

Contribución a los métodos de optimización basados en procesos naturales y su aplicación a la medida de antenas en campo próximo

Pérez López, Jesús Ramón

16 December 2005

Durante la última década, los métodos de optimización heurísticos basados en imitar a nivel computacional procesos naturales, biológicos, sociales o culturales, han despertado el interés de la comunidad científica debido a su capacidad para explorar eficientemente espacios de soluciones multimodales y multidimensionales. En este ámbito, esta tesis aborda el desarrollo, análisis y puesta a punto de diferentes métodos de optimización tradicionales y heurísticos. En concreto, se considera un método de búsqueda local basado en símplex y varios métodos heurísticos, tales como el recocido simulado, los algoritmos genéticos y la optimización con enjambre de partículas. Para estos dos últimos algoritmos se investigan diferentes esquemas con el objetivo de superar las limitaciones propias de los esquemas clásicos.La puesta a punto de los diferentes métodos de optimización se realiza considerando como problema de referencia la caracterización de la radiación de antenas a partir de medidas en campo próximo sobre geometría plana, utilizando un método de transformación de campo cercano a campo lejano basado en corrientes equivalentes. Para cada método de optimización se incluye un análisis paramétrico, en los casos en los que se ha considerado necesario, así como resultados de transformación de campo teóricos obtenidos para diferentes antenas de apertura y antenas de bocina piramidal. Los resultados de un estudio comparativo, realizado utilizando fuentes teóricas y medidas, demuestran la utilidad del método y permiten concluir que la optimización con enjambre de partículas es el algoritmo que proporciona las mejores prestaciones para esta aplicación.Los métodos de optimización desarrollados e investigados en este trabajo han sido también aplicados a otros problemas como son la síntesis de agrupaciones lineales o el modelado de fuente en aplicaciones de compatibilidad electromagnética. / For the last decade, heuristic optimization methods based on imitating natural, biological, social or cultural processes in a computational way have aroused great interest among the scientific community, due to its ability to explore efficiently multimodal and high-dimension solution spaces. On this basis, this thesis tackles the development, analysis and tuning of different traditional and heuristic optimization methods. In short, a local search method based on simplex and several heuristic methods, such as simulated annealing, genetic algorithms and particle swarm optimization are considered. For these last two algorithms different schemes are investigated so as to overcome the typical limitations of classical schemes.The tuning of the optimization methods is carried out considering as a reference problem the antenna radiation characterization from near-field measurements over a planar geometry, using a near-field to far-field transformation method based on equivalent currents. A parametric analysis is included for each optimization method, in those cases in which it has been considered necessary, as well as theoretical field transformation results obtained with aperture and pyramidal horn antennas. Results of a comparative study, carried out using theoretical sources and measurements, demonstrate the usefulness of the method and make it possible to conclude that the particle swarm optimization is the algorithm that provides the best performance for this application.The optimization methods developed and investigated in this work have also been applied to other problems, such as the synthesis of linear arrays or the source modelling in electromagnetic compatibility applications.

near-field to far-field transformation

far-field

near-field

downhill simplex

local optimization

particle swarm optimization

simulated annealing

genetic algorithms

compatibilidad electromagnética

agrupaciones de antenas

cámara anecoica

medida de antenas

transformación de campo

campo lejano

campo cercano

Simplex descendente

optimización local

recocido simulado

algoritmos genéticos

antenna measurements

anechoic chamber

linear arrays

electromagnetic compatibility

Teoría de la señal y comunicaciones

537

62

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