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Design and implementation of the four-beam smart antennas based on butler matrixLi, Wei-Ren 07 July 2003 (has links)
The switched-beam antenna is one type of the smart antennas, which consists of the antenna array and the beamforming network. The four-beam smart antenna generates four beams to cover a 120¢X area, which can be used to improve the carrier-to-interference ratio and the frequency reuse of a cellular system.
Due to the attractive features of microstrip antennas such as low profile, easy fabrication, and low cost, we use microstrip antennas as array elements. In this thesis, we propose a novel four-beam beamforming network which consists of a 4¡Ñ4 Butler Matrix and four 180¢X power dividers. This network is able to provide low side-lobe level. A modified Butler Matrix not only simplifies the circuit of the 8¡Ñ8 Butler Matrix, but also meet the requirement of the original Butler Matrix. From the result of measurement, the side-lobe level of each beam of the modified Butler Matrix is less than ¡V10 dB. We also show that this method is applicable to any Butler matrix.
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DUAL-BAND SWITCHED BEAM SYSTEM WITH HIGH FREQUENCY RATIO (1:1.8) FOR TELEMETRY APPLICATIONSLee, Jung Kyu, De Flaviis, Franco 10 1900 (has links)
ITC/USA 2006 Conference Proceedings / The Forty-Second Annual International Telemetering Conference and Technical Exhibition / October 23-26, 2006 / Town and Country Resort & Convention Center, San Diego, California / In this paper, we propose a dual-band switched beam system operating at 4.05 and 7.4 GHz. This system comprise of a dual frequency Butler matrix feeding a microstrip antenna array. Very good agreement is shown between measured and simulated data. The system can provide a tilted beam of ±13° and ±48° at the lowest frequency band and ±9° and ±27° at the higher frequency band.
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Design of an 8x8 cross-configuration Butler matrix with interchangeable 1D and 2D arraysBartlett, Chad 23 July 2019 (has links)
An ever-increasing demand for wider bandwidths in communication, radar, and imaging systems has emerged. In order to facilitate this growing demand, progressive research into millimeter-wave technologies has become vital in achieving next generation networks such as 5G. Being cost effective and easy to manufacture, Substrate Integrated Waveguide (SIW) circuits have been demonstrated as a viable candidate for high-frequency applications due to their low-loss, high quality-factor, and high power-handling capabilities.Research on beam-forming networks, specifically the Butler matrix, has demonstrated powerful beam-steering capabilities through the use of passive component networks. Through these clever configurations, a cost effective and robust option is available for us to use. In order to further millimeter-wave research in this area, this thesis presents a modified configuration of the Butler Matrix in SIW that is physically reconfigurable; by separating the Butler matrix from the antenna array at a pre-selected point, the array can be easily interchanged with other 1-Dimensional,and 2-Dimensional slot antenna arrays. Although this system does not fall under the rigorous definitions of Reconfigurable Antennas, it should be noted that the interchangeability of 1 and 2 dimensional arrays is not typically expressed in Butler matrix configurations. Design and simulations are carried out in CST Microwave Studio to inspect individual components as well as system characteristics. Circuit prototypes are then manufactured and tested in an anechoic chamber to validate simulation results and the design approach. / Graduate / 2020-07-17
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An Improved Out-of-band 90° Branch-line Coupler with Application to Butler Beamforming NetworkAkash Bhargava (15388997) 02 May 2023 (has links)
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<p>This thesis introduces a 2.4 GHz hybrid 3-dB coupler with improved out-of-band rejection by incorporating a setup of transverse transmission lines, extensions, and open-circuit stubs at each of the coupler branches. To achieve matching at the design frequency, the <em>ABCD</em> matrix of the above-mentioned setup is calculated and associated to that of a 90° transmission line, leading to exact analytical equations for the impedances and electrical lengths. Simulated coupler design shows a return loss and isolation better than –27 dB as well as an in-band and out-of-band transmission losses better than –4 dB and –25 dB, respectively.</p>
<p>The resulting design is applied to a 4×4 Butler matrix, which consists of other components; namely, crossovers, phase shifters and phase matchers. After designing and validating each of these components, they are integrated in the Butler matrix. To validate the radiation (i.e., beamforming) patterns, a microstrip patch antenna array is also designed and verified. The overall network (i.e., Butler matrix, antenna array) is simulated and parameters including phase-differences and 2D and 3D radiation patterns are validated. These electrical parameters are also measured for the fabricated Butler matrix. Based on the 2D and 3D radiation patterns, beamforming is obtained at ±10° and ±30°.</p>
<p>Beamforming has applications in many different areas. Some applications like tracking and localization, satellite communication, high power beam-steering, and harmonic radar are also referenced in this thesis.</p>
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DIGITAL DIRECTION FINDING SYSTEM DESIGN AND ANALYSISLIU, HUAZHOU 02 September 2003 (has links)
No description available.
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Multi-beam Antenna Array System with Butler Matrix for mmWave ApplicationsWang, Xiaozhou 18 June 2024 (has links)
The growing demand for high data rates, reliable connections, low latency, and increased user density has driven the operating frequency of modern wireless communication systems towards the millimeter-wave (mmWave) band. Large-scale antenna arrays capable of supporting simultaneous multi-beamforming are crucial for these mmWave systems. Passive beamforming networks, particularly Butler matrices (BM), offer several advantages for mmWave applications due to their low complexity, high energy efficiency, zero DC power consumption, and ability to generate multiple orthogonal beams. However, existing BM designs are often limited to low-order matrices, supporting a restricted number of radiating elements and featuring bulky cubic structures unsuitable for the microwave range. The contributions of this work include extensions in the Butler matrix order to support a massive antenna array, simplification of the Butler matrix topology to reduce the insertion loss, and layout optimization for straightforward antenna array integration. The novel multi-beam antenna systems for the one- and two-dimensional beamforming at mmWave band are designed and experimentally validated. First of all, a theoretical analysis of the Butler matrix topology is conducted to find effective solutions for matrix order extension, simplification, and loss reduction. Then, a multi-beam system consisting of a compact 8×8 one-dimension BM and an antenna array is implemented. To further extend the number of multi-beams, a 28 GHz multi-beam array system based on high-dimension 16 × 16 one-dimension BM and 1 × 16 linear antenna array is proposed. Additionally, a 28 GHz multi-beam array system fed by a planar 16 × 16 twodimensional Butler matrix is examined. Utilizing the proposed concept for the planarization of the cubic-formed two-dimensional Butler matrix, a system implemented with the multi-layer lamination in a dramatically reduced size provides 16 spatial orthogonal beams over a conical space. Furthermore, two new concepts for the planar and uni-planar 32 × 32 two-dimensional Butler matrix are developed not only for more beams but also to reduce the required signal layers.
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An ultra-compact and low loss passive beamforming network integrated on chip with off chip linear arrayLepkowski, Stefan 08 June 2015 (has links)
The work here presents a review of beam forming architectures. As an example, the author presents an 8x8 Butler Matrix passive beam forming network including the schematic, design/modeling, operation, and simulated results. The limiting factor in traditional beam formers has been the large size dictated by transmission line based couplers. By replacing these couplers with transformer-based couplers, the matrix size is reduced substantially allowing for on chip compact integration. In the example presented, the core area, including the antenna crossover, measures 0.82mm×0.39mm (0.48% the size of a branch line coupler at the same frequency). The simulated beam forming achieves a peak PNR of 17.1 dB and 15dB from 57 to 63GHz. At the 60GHz center frequency the average insertion loss is simulated to be 3.26dB. The 8x8 Butler Matrix feeds into an 8-element antenna array to show the array patterns with single beam and adjacent beam isolation.
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Étude et conception de matrices d'alimentation multifaisceaux pour réseaux à rayonnement direct ou dans le plan focal d'un réflecteur / Study and design of multibeam feed networks for direct radiating arrays or arrays in the focal plane of a reflectorLeclerc, Céline 24 October 2013 (has links)
Dans le cadre de cette thèse, on s'intéresse dans un premier temps à des matrices d'alimentation de type passif connues qui permettent de produire des faisceaux orthogonaux, et notamment à la matrice de Butler. On s'aperçoit qu'il n'existe qu'une méthode itérative permettant de déterminer les paramètres S d'une matrice de Butler symétrique. C'est pourquoi, on cherche à déterminer de manière analytique la matrice [S] d'une matrice de Butler symétrique à N = 2^n entrées et N sorties. On établit des formules de récurrence issues de l'étude de ce type de matrices pour plusieurs tailles. Des formules analytiques en sont déduites qui sont valables quelle que soit la valeur de N. On poursuit l'étude des matrices d'alimentation de réseau d'antennes en s'intéressant à la source focale d'une antenne multifaisceaux devant réflecteur basée sur une géométrie originale constituée de coupleurs directionnels tridimensionnels entrelacés. Cette structure est simulée. Ses nombreux paramètres sont optimisés afin d'aboutir à une solution répondant au cahier des charges. Une maquette est réalisée et testée. Les résultats obtenus sont prometteurs. Au final, cette source possède l'avantage d'avoir un fort niveau de réutilisation de ses éléments rayonnants et donc de limiter l'encombrement du système global qui est souvent un point critique, dans les satellites notamment. Pour finir, on s'intéresse à une structure dont le but est d'avoir une station au sol capable de suivre une cible sans dépointage. La poursuite en azimut est assurée par une partie mécanique, de type joint tournant ; celle en élévation par un module électronique. Le système se doit d'être compact, fiable, et de limiter les pertes ainsi que les coûts. Des compromis sont donc à effectuer. La partie rayonnante est réalisée en guide, la partie alimentation en technologie planaire. Une solution est proposée afin de faire la transition entre ces deux technologies : le circuit de répartition est directement relié à l'excitation des éléments rayonnants en mettant ces deux parties sur une même feuille de substrat. Ainsi, moins de câbles et de connecteurs sont nécessaires, ce qui diminue l'encombrement et les coûts. / In this PhD thesis, some feed networks are studied. First, a N x N symmetric Butler matrix is considered. Analytical formulas allowing constructing its [S] matrix are found and demonstrated. Second, a multibeam antenna focal array based on 3-D directional couplers is considered. This device has a high level of re-use of its radiating elements. Therefore, its global size is reduced. Its conception is explained. Measurement results are exposed. Last, a mechanic / electronic device is studied. It is used for tracking. It is a complex device with several parts. The fact that the conception of each part depends on each other is highlighted. Compromises and choices need to be made.
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Anténa s řiditelným svazkem / Beam steering antennaKrejčíř, Dominik January 2021 (has links)
The master s thesis deals with the design of the beamsteering antenna. Methods of the beamsteering and the final antenna design are described. This antenna operates in the ISM band with the central frequency of 5,8 GHz. The antenna is designed in the CST Studio Suite 2020. Butler matrix was designed as a feed network implemented as substrate integrated waveguide. An array of patch antennas was used for radiation.
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Etude de Systèmes Micro-ondes d'Alimentation d'Antennes Réseaux pour Applications Multifaisceaux / Study of Microwave Beam Forming Networks for Multiple Beam Array AntennasFonseca, Nelson Jorge Gonçalves 15 October 2010 (has links)
Les réseaux d’alimentation d’antennes multifaisceaux sont un sous-système particulièrement important dans la mesure où ils permettent de réutiliser une même ouverture rayonnante pour l’ensemble des faisceaux à produire. Ces solutions trouvent naturellement application dans le spatial, l’espace disponible pour aménager des antennes étant fortement contraint sur les satellites. Plusieurs solutions de réseaux d’alimentation sont disponibles dans la littérature, incluant des structures quasi-optique ou lentilles et des structures guidées. Nous avons approfondie cette deuxième catégorie en étudiant différentes solutions, incluant les matrices de Blass, de Butler, de Nolen, ainsi que des structures à lois de phase uniformes. En particulier, un mode de dimensionnement des matrices de Nolen, défini comme un cas particulier asymptotique d’un algorithme de dimensionnement de matrices de Blass, a été proposé et validé expérimentalement en bande S. La flexibilité du dimensionnement des matrices de Nolen proposé a été exploitée pour concevoir une matrice à distribution d’amplitude non-uniforme, afin de réduire le niveau des lobes secondaires. Enfin, le caractère dispersif d’une alimentation en série a été utilisé pour rendre le pointage angulaire du faisceau produit par une antenne réseau linéaire indépendant de la fréquence de fonctionnement et pourrait être étendu à des matrices de Blass et Nolen. Des structures à lois de phase uniformes et à distribution d’amplitudes uniforme et gaussienne ont été approfondies, afin de mettre en évidence notamment le niveau de pertes intrinsèques. La structure à distribution d’amplitude gaussienne a été modifiée pour l’adapter à des applications d’antennes réseaux circulaires. L’ensemble des informations regroupées dans ce mémoire permet d’identifier la topologie de réseau d’alimentation la mieux adaptée à une application donnée. Une combinaison de différents concepts peut s’avérer une bonne solution dans certains cas. / Beam forming networks for multiple beam antennas are a very important antenna sub-system as they enable to reuse the same radiating aperture to produce all the beams. These solutions naturally find application in space as stringent accommodation constraints on board of satellites ask for space saving. Several concepts are available in the literature, including quasi-optic solutions and guided wave solutions. We investigated on this second category, including namely Blass, Butler and Nolen matrices as well as beam forming networks producing uniform phase distribution. In particular, we proposed a designed method, defined as an asymptotic singular case of a more general Blass matrix design procedure. Experimental validation was carried out with a specific design in S-band. Flexibility on the design of Nolen matrix has been used to generate non-uniform amplitude distribution to reduce side-lobe level. Also, natural phase dispersion of a serial feeding network has been used to produce frequency independent beam pointing linear arrays with potential application to Blass and Nolen matrices. Beam forming networks with uniform phase distribution associated to uniform and Gaussian amplitude distributions were also investigated, in particular to highlight the level of the intrinsic losses. The structure with Gaussian amplitude distribution was also modified to be adapted to circular array antennas. All this information should help to identify the best suited beam forming network concept for a given application. In some particular cases, a combination of different concepts can even be considered.
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