Effect of manufacturing tolerances upon resistive vane type attenuators

Bundy, Robert Caleb, 1921-

January 1956

No description available.

Electric resistors.

Microwaves -- Attenuation.

Attenuators, Rotary-vane.

Beam-forming module for backhaul link in a Relay-aided 4G network

Petropoulos, Ioannis, Voudouris, Konstantinos N., Abd-Alhameed, Raed, Jones, Steven M.R.

25 May 2015

Yes / A novel beam-forming module based on Wilkinson power divider technology, including attenuators and phase shifter chips is designed, fabricated and evaluated to be incorporated in a Relay Station connecting it with the Base Station under a 4G network. The proposed module is a 1:8 port circuit, utilizing two substrates, providing approximately 700 MHz bandwidth over 3.5 GHz frequency band and less than −20 dB transmission line coupling. Moreover an external control unit that feeds the beam-forming module with code-words that define the proper amplitude/phase of the excitation currents is established and described. The presented module is connected to a planar array and tested for two beam-forming scenarios, providing satisfactory radiation patterns.

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

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

Propagation effects in optical waveguides, fibres and devices

Tomljenovic-Hanic, Snjezana, snjezana@physics.usyd.edu.au

January 2003

This thesis consist of a theoretical study of propagation effects in optical waveguides, fibres and photonic crystals, with some comparison with experiment.¶ Chapter 1 gives a brief introduction with the current view of optical components in photonic integrated circuits and issues related to the loss mechanism.¶ In Chapter 2 the characteristics of single-mode propagation and transient effects in practical square- and rectangular-core buried channel planar waveguides are quantified, assuming a cladding which is unbounded in one transverse dimension and bounded in the other. The wavelength cut-off condition for the fundamental mode is determined when the cladding index is asymmetric and composed of step-wise, uniform index regions.¶ In Chapter 3, the application of segmented reflection gratings in planar devices that can function as either a single- or two-wavelength add/drop filter is investigated and a numerical technique developed in Chapter 2 is applied to the waveguides with high extinction ratio. The role of the segmented gratings is analogous to that of a blazed grating, but they can provide a higher reflectivity level at the Bragg wavelength, eliminate back reflection into the fundamental mode and provide arbitrarily small channel spacing in the two-wavelength case.¶ Chapters 4 address the problem of bend loss in a single-mode slab waveguide. A new theoretical strategy for reducing bend loss is presented and compared to existing designs. The results obtained in this chapter are the basis for the following two chapters.¶ Chapter 5 deals with bend loss in single-mode buried channel waveguides and demonstrates that the new strategy can lead to significant bend loss reduction when compared to other strategies, and, conversely, can be used to enhance bend loss for a fixed bend radius for application to devices such as optical attenuators.¶ In Chapter 6, a novel design of a variable optical attenuator based on a bent channel waveguide is proposed, realized by applying a new strategy for bend loss control in a polymer buried channel waveguide.¶ Chapter 7 investigates effects of the additional rings in a single mode step-index fibre on bend loss. It is supported with the experimental results of Ron Bailey from Optical the Fibre Technology Centre, University in Sydney.¶ In Chapter 8, bend loss of a one-dimensional photonic crystal is quantified and compared to bend loss of a standard single-mode slab waveguide and a bend-resistant waveguide.¶

propagation effects

optical waveguides

fibres

devices

photonic crystals

bend loss

optical attenuators

grating

The conversion of an attenuator to phase shifter and the calibration of both

January 1946

by John Reed.

TK7855.M41 R43 no.15

Phase modulation

Radio attenuators

Wave guides

Hybrid Photonic Signal Processing

Ghauri, Farzan Naseer

01 January 2007

This thesis proposes research of novel hybrid photonic signal processing systems in the areas of optical communications, test and measurement, RF signal processing and extreme environment optical sensors. It will be shown that use of innovative hybrid techniques allows design of photonic signal processing systems with superior performance parameters and enhanced capabilities. These applications can be divided into domains of analog-digital hybrid signal processing applications and free-space--fiber-coupled hybrid optical sensors. The analog-digital hybrid signal processing applications include a high-performance analog-digital hybrid MEMS variable optical attenuator that can simultaneously provide high dynamic range as well as high resolution attenuation controls; an analog-digital hybrid MEMS beam profiler that allows high-power watt-level laser beam profiling and also provides both submicron-level high resolution and wide area profiling coverage; and all optical transversal RF filters that operate on the principle of broadband optical spectral control using MEMS and/or Acousto-Optic tunable Filters (AOTF) devices which can provide continuous, digital or hybrid signal time delay and weight selection. The hybrid optical sensors presented in the thesis are extreme environment pressure sensors and dual temperature-pressure sensors. The sensors employ hybrid free-space and fiber-coupled techniques for remotely monitoring a system under simultaneous extremely high temperatures and pressures.

Photonic Signal Processing

Microwave Photonics

Optical Sensors

Variable Optical Attenuators

Laser Beam Profiler

Electromagnetics and Photonics

Optics

DESIGN OF MONOLITHICALLY INTEGRATED RF-MEMS MULTI-FUNCTIONAL PASSIVES FOR HYBRID BEAMFORMING ARCHITECTURES IN BEYOND-5G AND 6G SCENARIOS

Tagliapietra, Girolamo

21 October 2024

The recent years have witnessed an unprecedented growth in the number of connected devices and amount of bandwidth required by the multiple services offered by wireless devices. The current 5G standard addresses such issues by adopting higher carrier frequencies and antennas with a large number of radiating elements. The former solution enables to exploit larger bandwidths in the millimeter-wave (mmWave) portion of the spectrum, while the latter one allows access points to serve an increasingly higher number of users. Both find realization in the Multiple-Input-Multiple-Output (MIMO) antenna systems with their enhanced beamforming capabilities. While the adoption of the hybrid digital-analog beamforming architecture lightens the overall system complexity, the need of miniaturized, high-performance and broadband hardware components is still an open issue. Passive Radio Frequency (RF) components in MicroElectroMechanical-Systems technology (RF-MEMS) offer notable and broadband electrical performances, while maintaining the marked miniaturization required for the hardware to be employed in the MIMO antennas, characterizing the current and future telecommunications scenario. Whilst numerous examples of single RF-MEMS switches, attenuators and phase shifters are available in the literature since about two decades, still limited attention is dedicated to the development of MEMS-based multi-device monolithic networks embedding such devices. High-performance RF-MEMS networks of this kind could represent the base of future MIMO beamforming architectures. Given such a context, the fundamental core of this thesis is the design and the realization of ad hoc RF-MEMS devices to be integrated in a reconfigurable monolithic module, operating in the realistic scenario of the mm-Wave portion of the spectrum allocated to 5G in Europe (24.25–27.5 GHz). The resulting devices consist in a 3-bit attenuator, three 1-bit phase-shifting cells and a Single-Pole-Double-Throw (SPDT) switch, each relying on membranes featuring a reduced actuation voltage, in the 5–9 V range, for an easier interfacing with electronics based on Complementary Metal–Oxide–Semiconductor (CMOS). To this purpose, the ad hoc designed MEMS switching membranes, along with prototypes of the building blocks to be embedded in the final module, are designed, optimized and fabricated. The experimental measurements performed on the prototypes of membranes (i.e. micro-switches), attenuation cells, optimized resistors and a phase shifter are compared to FEM-based (Finite Element Method) simulated results. Such comparison validates the simulation approach, in both the electromagnetic and the electro-mechanical domains, by which the proposed module is then designed and optimized in its final layout. To the best of our knowledge, this project is among the first to investigate the development of a monolithic module, entirely based on RF-MEMS passives, implementing both the attenuation and the phase shifting functionalities that can be employed in hybrid beamforming architectures at each antenna element. More in detail, the module features at least 25 attenuation and phase shifting states, from -5.39 dB to -13.51 dB by variable steps, and from 10.59° to 158.46°, respectively. Concerning the SPDT switch, satisfying electrical performances have been demonstrated in terms of return loss (<-10 dB), insertion loss (<-1.2 dB) and isolation (<-25 dB) over the 0–30 GHz interval. Despite their increased complexity, appealing results have marked the proposed attenuator and the phase-shifting cells, whose return and insertion losses are always better than -10 dB and -3 dB, respectively, along the frequency interval of interest. With an overall footprint not exceeding 9.51x3.35 mm2, the designed module effectively combines the miniaturization, broadband, and linear electrical behavior of RF-MEMS, making it a suitable candidate for the MIMO antennas of the current and future telecommunications scenario.

Strategie vyjadřování atenuace a akcentuace ve španělských žurnalistických textech. / Strategy of attenuation and accentuation in Spanish news texts.

PAPEŽOVÁ, Michaela

January 2016

This graduate thesis is concerned with a comparative analysis of attenuators and intensifiers in Czech and Spanish language. The research has been conducted on Czech and Spanish journalist texts from major newspaper and magazines. The theoretical analysis starts by classifying expressions that are used to intensify or attenuate. The author follows the traditional Spanish classification which has been extended with expressions that she finds important. All expressions are examined from both the grammatical and expressive perspective. The analysis then continues by introducing the types of journalists texts used in the research. The research is based on comparison of attenuators and intensifiers in both languages and their influence on the reader.