Global ETD Search

411	The Impulse-Radiating Antenna Rosenlind, Johanna January 2009 (has links) As the interest in intentional electromagnetic interference (IEMI) increases, so does the need of a suitable antenna which endures those demanding conditions. The ultrawideband (UWB) technology provides an elegant way of generating high-voltage UWB pulses which can be used for IEMI. One UWB antenna, invented solely for the purpose of radiating pulses, is the impulse radiating antenna (IRA). In the course of this master thesis work, a suitable geometry of the IRA is suggested, and modelled, for the high-voltage application of 90 kV. Broadband antenna IRA time domain simulations impedance matching electrical breakdown CST Microstripes intentional electromagnetic interference IEMI ultrawide band UWB high-voltage pulses Other engineering physics Övrig teknisk fysik
412	Photonic crystals: Analysis, design and biochemical sensing applications Kurt, Hamza 06 July 2006 (has links) The absence of appropriate media to cultivate photons efficiently at the micro or nano scale has hindered taking the full advantage of processing information with light. The proposal of such a medium for light, known as photonic crystals (PCs)--multi-dimensional artificially periodic dielectric media--brings the possibility of a revolution in communications and sensing much closer. In such media, one can manipulate light at a scale on the order of the wavelength or even shorter. Applications of PCs other than in communication include bio-sensing because of the peculiar properties of PCs such as the capability of enhance field-matter interaction and control over the group velocity. As a result, PC waveguide (PCW) structures are of interest and it is expected that PC sensors offer the feasibility of multi-analyte and compact sensing schemes as well as the ability of the detection of small absolute analyte quantities (nanoliters) and low-concentration samples (picomoles), which may be advantages over conventional approaches such as fiber optic and slab waveguide sensors. Depending on the nature of the analyte, either dispersive or absorptive sensing schemes may be implemented. Light propagation is controlled fully only with 3D PCs. One of the problems arising due to reducing the dimension to 2D is that PCs become strongly polarization sensitive. In many cases, one wants to implement polarization insensitive devices such that the PC provides a full band gap for all polarizations. To address this problem, a novel type of PC called annular PC is proposed and analyzed. The capability of tuning the TE and TM polarizations independently within the same structure provides great flexibility to produce polarization-independent or polarization-dependent devices as desired. PCW bends are expected to be the essential building blocks of photonic integrated circuits. Sharp corners having small radii of curvature can be obtained. To enhance the low-loss and narrow-band transmission through these bends, PC heterostructures waveguide concept is introduced. We show that in PCWs formed by joining different types of PCs in a single structure, light can flow around extremely sharp bends in ways that are not possible using conventional PCWs based on a single type of PC. Finite-difference time-domain method Biochemical sensors Plane wave method Terahertz region Photonic crystal waveguide bend Annular photonic crystal Photonic crystals Photonic band gap
413	Prospects for Mirror-Enabled Polymer Pillar I/O Optical Interconnects for Gigascale Integration Ogunsola, Oluwafemi Olusegun 27 October 2006 (has links) Digital systems have derived performance benefits due to the scaling down of CMOS microprocessor feature sizes towards packing billions of transistors on a chip, or gigascale integration (GSI). This has placed immense bandwidth demands on chip-to-chip and chip-to-board interconnects. The present-day electrical interconnect may limit bandwidth as transmission rates grow. As such, optical interconnects have been proposed as a potential solution. A critical requirement for enabling chip-to-chip and chip-to-board optical interconnection is out-of-plane coupling for directing light between a chip and the board. Any solution for this problem must be compatible with conventional packaging and assembly requirements. This research addresses the prospects for integrating waveguides with mirrors and polymer pillar optical I/O interconnects to provide such a compatible, out-of-plane, chip-to-board packaging solution through the design, analysis, fabrication, and testing of its constituent parts and their ultimate integration. Mirrors Polymer pillars Finite-difference time-domain FDTD Optical interconnects Gigascale integration Silicon Optical interconnects Digital integrated circuits Finite differences Data processing
414	Time Domain Scattering From Single And Multiple Objects Azizoglu, Suha Alp 01 June 2008 (has links) (PDF) The importance of the T-matrix method is well-known when frequency domain scattering problems are of interest. With the relatively recent and wide-spread interest in time domain scattering problems, similar applications of the T-matrix method are expected to be useful in the time domain. In this thesis, the time domain spherical scalar wave functions are introduced, translational addition theorems for the time domain spherical scalar wave functions necessary for the solution of multiple scattering problems are given, and the formulation of time domain scattering of scalar waves by two spheres and by two scatterers of arbitrary shape is presented. The whole analysis is performed in the time domain requiring no inverse Fourier integrals to be evaluated. Scattering examples are studied in order to check the numerical accuracy, and demonstrate the utility of the expressions.
415	Analysis Of Conventional Low Voltage Power Line Communication Methods For Automatic Meter Reading And The Classification And Experimental Verification Of Noise Types For Low Voltage Power Line Communication Network Danisman, Batuhan 01 February 2009 (has links) (PDF) In this thesis, the conventional low voltage power line communication methods is investigated in the axis of automated meter reading applications and the classification and experimental verification of common noise types for low voltage power line communication network. The investigated system provides the real time transmission of electricity consumption data recorded by electricity meters, initially to a local computer via a low voltage line through a low speed PLC (Power Line Carrier) environment and subsequently to a corporate network through a high speed data transmission medium. The automated meter system provides a more effective tracking and data acquisition, a more detailed and vigorous knowledge about consumer behavior for subscriber assessment in electricity distribution in association with a brand new management and system supervision concept in electricity distribution control and management technology. The theoretical studies are experimentally verified for the Turkish low voltage power infrastructure through laboratory experiments performed in METU Electrical and Electronics Engineering Department, Electrical Machines and Drives Laboratory and R&amp / D Laboratories of MAKEL facilities in Hadimk&ouml / y. The single phase voltage of the mains line between the phase and neutral is monitored to exhibit the disturbing effects of various noise sources. The resulting voltage spectrum is logged by using digital data acquisition devices in time and frequency domain. The waveforms are converted to frequency domain using the Fast Fourier Transform (FFT) functions of the MATLAB. The experimental results are compared to the theoretical findings obtained through literature survey. QA General 15707
416	Development Of Multi-layered Circuit Analog Radar Absorbing Structures Yildirim, Egemen 01 July 2012 (has links) (PDF) A fast and efficient method for the design of multi-layered circuit analog absorbing structures is developed. The method is based on optimization of specular reflection coefficient of a multi-layered absorbing structure comprising of lossy FSS layers by using Genetic Algorithm and circuit equivalent models of FSS layers. With the introduced method, two illustrative absorbing structures are designed with -15 dB reflectivity for normal incidence case in the frequency bands of 10-31 GHz and 5-46 GHz, respectively. To the author&rsquo / s knowledge, designed absorbers are superior in terms of frequency bandwidth to similar studies conducted so far in the literature. For broadband scattering characterization of periodic structures, numerical codes are developed. The introduced method is improved with the employment of developed FDTD codes to the proposed method. By taking the limitations regarding production facilities into consideration, a five-layered circuit analog absorber is designed and manufactured. It is shown that the manufactured structure is capable of 15 dB reflectivity minimization in a frequency band of 3.2-12 GHz for normal incidence case with an overall thickness of 14.2 mm.
417	Analytical time domain electromagnetic field propagators and closed-form solutions for transmission lines Jeong, Jaehoon 15 May 2009 (has links) An analytical solution for the coupled telegrapher’s equations in terms of the voltage and current on a homogeneous lossy transmission line and multiconductor transmission line is presented. The resulting telegrapher’s equation solution is obtained in the form of an exact time domain propagator operating on the line voltage and current. It is shown that the analytical equations lead to a stable numerical method that can be used in the analysis of both homogeneous and inhomogeneous transmission lines. A numerical dispersion relation is derived proving that this method has no numerical dispersion down to the two points per wavelength Nyquist limit. Examples are presented showing that exceptionally accurate results are obtained for lossy single and multiconductor transmission lines. The method is extended to represent the general solution to Maxwell’s differential equations in vector matrix form. It is shown that, given the electromagnetic field and boundary conditions at a given instant in time, the free space time domain propagator and corresponding dyadic Green’s functions in 1-, 2-, and 3-dimensions can be used to calculate the field at all subsequent times. Propagator Time domain analysis Lossy circuits Nonuniform transmission line Coupled transmission lines Multiconductor transmission lines Green's function Maxwell's equations Path Integral
418	EM simulation using the Laguerre-FDTD scheme for multiscale 3-D interconnections Ha, Myunghyun 07 November 2011 (has links) As the current electronic trend is toward integrating multiple functions in a single electronic device, there is a clear need for increasing integration density which is becoming more emphasized than in the past. To meet the industrial need and realize the new system-integration law [1], three-dimensional (3-D) integration is becoming necessary. 3-D integration of multiple functional IC chip/package modules requires co-simulation of the chip and the package to evaluate the performance of the system accurately. Due to large scale differences in the physical dimensions of chip-package structures, the chip-package co-simulation in time-domain using the conventional FDTD scheme is challenging because of Courant-Friedrich-Levy (CFL) condition that limits the time step. Laguerre-FDTD has been proposed to overcome the limitations on the time step. To enhance performance and applicability, SLeEC methodology [2] has been proposed based on the Laguerre-FDTD method. However, the SLeEC method still has limitations to solve practical 3-D integration problems. This dissertation proposes further improvements of the Laguerre-FDTD and SLeEC method to address practical problems in 3-D interconnects and 3-D integration. A method that increases the accuracy in the conversion of the solutions from Laguerre-domain to time-domain is demonstrated. A methodology that enables the Laguerre-FDTD simulation for any length of time, which was challenging in prior work, is proposed. Therefore, the analysis of the low-frequency response can be performed from the time-domain simulation for a long time period. An efficient method to analyze frequency-domain response using time-domain simulations is introduced. Finally, to model practical structures, it is crucial to model dispersive materials. A Laguerre-FDTD formulation for frequency-dependent dispersive materials is derived in this dissertation and has been implemented. Unconditionally stable method Finite-difference time-domain Computational electromagentics Laguerre-FDTD Integrated circuits Three-dimensional integrated circuits Semiconductors
419	Interposer platforms featuring polymer-enhanced through silicon vias for microelectronic systems Thadesar, Paragkumar A. 08 June 2015 (has links) Novel polymer-enhanced photodefined through-silicon via (TSV) and passive technologies have been demonstrated for silicon interposers to obtain compact heterogeneous computing and mixed-signal systems. These technologies include: (1) Polymer-clad TSVs with thick (~20 µm) liners to help reduce TSV losses and stress, and obtain optical TSVs in parallel for interposer-to-interposer long-distance communication; (2) Polymer-embedded vias with copper vias embedded in polymer wells to significantly reduce the TSV losses; (3) Coaxial vias in polymer wells to reduce the TSV losses with controlled impedance; (4) Antennas over polymer wells to attain a high radiation efficiency; and (5) High-Q inductors over polymer wells. Cleanroom fabrication and characterization of the technologies have been demonstrated. For the fabricated polymer-clad TSVs, resistance and synchrotron x-ray diffraction (XRD) measurements have been demonstrated. High-frequency measurements up to 170 GHz and time-domain measurements up to 10 Gbps have been demonstrated for the fabricated polymer-embedded vias. For the fabricated coaxial vias and inductors, high-frequency measurements up to 50 GHz have been demonstrated. Lastly, for the fabricated antennas, measurements in the W-band have been demonstrated. Silicon interposer D-band W-band RF Through-silicon via (TSV) Packaging Interconnects Optical interconnects Antenna Inductor Coaxial TSV Time-domain De-embedding
420	Möglichkeiten der prozessbegleitenden Charakterisierung von Fleisch auf Basis der dielektrischen Zeitbereichsreflektometrie Herm, Cornelia 27 November 2013 (has links) (PDF) Da die dielektrischen Eigenschaften eines jeden Materials, also auch von Fleisch, charakteristisch sind und von Faktoren wie beispielsweise dem Feuchtigkeitsgehalt und der chemischen Zusammensetzung sowie der physikalischen Struktur abhängig sind, gibt es bereits seit einigen Jahren verschiedene Forschungsansätze im Bereich der dielektrischen Messmethoden. Ein neu entwickeltes Messverfahren für die Be-stimmung der Qualitätsparameter Lagerdauer und eventuell erfolgter Gefrierprozesse bei Fisch basiert auf der dielektrischen Zeitbereichsreflektometrie. Die Klärung der Frage, in wie weit dieses Verfahren auch bei Frischfleisch angewendet werden kann, ist das Ziel der vorliegenden Dissertation. In Vorversuchen wurde zunächst die generelle Anwendbarkeit des Verfahrens im Fleischbereich anhand verschiedener Lager- und Gefrierversuche geprüft. Basierend auf diesen Ergebnissen gliederten sich die experimentellen Untersuchungen in fol-gende Abschnitte: Ermittlung der Lagerdauer von SB-verpackten Minutensteaks vom Schweinelachs (MAP) sowie von Hähnchenbrustfilets, Erkennung von Gefrierprozes-sen bei Hähnchenbrustfilets und Schweinelachsen, Gefrierlagerdauerbestimmung verschiedener Fleischsorten (Schweinelachs, Schweinebauch und Rinderbugstück) bei drei unterschiedlichen Gefriertemperaturen und Erkennung von Fremdwasserzu-sätzen bei Hähnchenbrustfilets. Die Vorversuche zeigten eine generelle Eignung des Verfahrens zur Untersuchung von Lagerzeiten und Gefrierprozessen bei Fleisch. Im Bereich der Lagerdauererkennung ist eine Anwendung, auch für SB-verpackte Produkte (in Schutzatmosphäre), denkbar, das Verfahren muss hier allerdings bezüg-lich der zu Grunde liegenden linearen Auswertungsmodelle noch optimiert werden (Kurvenanpassung notwendig). Ebenso konnten gute Ergebnisse in der Gefrierlager-dauerbestimmung erzielt werden, auffällig waren die Fleischsorten-übergreifend bes-seren Ergebnisse der Messungen an vor dem Einfrieren einige Tage gelagerten Pro-ben. Gute Ergebnisse erbrachten auch die Messungen bezüglich der Gefrierprozess-erkennung (Proben frisch, einmal-gefroren und doppelt-gefroren). Ein Einsatz des Verfahrens ist besonders im Geflügelfleischbereich denkbar und angesichts der ge-setzlichen Bestimmungen für Geflügelfleisch (keine Fleischzubereitungen aus gefro-rener und aufgetauter Ware) auch überaus wünschenswert. Die besten Ergebnisse lieferte das Verfahren bei der Fremdwassererkennung an Hähnchenbrustfilets, was auf Grund des starken Dipolcharakters von Wasser bei einem auf Dielektrizität beru-henden Messverfahren auch erklärbar ist. Selbst die zusätzlich mit Geflügelfleisch-Proteinhydrolysatpulver versetzten Proben konnten (bedingt durch die Strukturverän-derungen im Probenmaterial) eindeutig von den unbehandelten Proben abgegrenzt werden, was mittels laborchemischer Analyse über das Wasser-Protein-Verhältnis nicht möglich gewesen wäre. Ein Einsatz des Verfahrens für diese Anwendung erscheint besonders sinnvoll, um der Überwachung und Qualitätssicherung ein ge-eignetes Instrument für die schnelle Feststellung von Wasserzusätzen (bei unverän-dertem Wasser-Eiweiß-Verhältnis) geben zu können. Vor dem praktischen Einsatz dieser Messmethode müssen größere Validierungsver-suche durchgeführt werden, um geeignete Kalibrationssätze für die Anwendung an unbekannten Proben, besonders im Geflügelfleischbereich, zur Verfügung zu haben. Ein Einsatz des Verfahrens zur Qualitätsbestimmung im Fleischbereich ist generell möglich und wäre auf Grund der schnellen Ergebnislieferung und einfachen Handha-bung der (mobilen) Messeinrichtung für Überwachung und Qualitätskontrolle wünschenswert. / As the dielectric properties of each material, thus also for meat, are characteristically and depend on factors as for instance humidity and the chemical composite as well as physical structure there are existing different research approaches in the array of dielectric measurement methods already for many years. A new developed meas-urement method for the estimation of the quality parameters storage time and option-ally occurred freezing processes on fish is basing on the dielectric time domain reflec-tometry. The clarification of the question how far this method can also be used for fresh meat is the intention of the present graduate thesis. In preliminary tests initially the general applicability of the method in the meat sector by means of different storage and freezing examinations was reviewed. Basing on these results the experimental examinations were divided into the following parts: evaluation of the storage time of packaged minute steaks from the pork chop (MAP) as also of chicken breast filets, estimation of freezing processes of chicken breast filets and pork chops, freezing storage time recognition of different meat varieties (pork chop, pork belly and beef bow pieces) with three different freezing temperatures and evaluation of added water in chicken breast filets. The preliminary tests indicated a general ability of the method for the recognition of storage times and freezing processes on meat. In the array of storage time evaluation an appliance, also for MAP-packaged products (in controlled atmosphere), is thinkable, however the method has to be optimized concerning the underlying linear evaluation models (curve fitting is necessary). As well there could be aimed good results for the freezing storage time recognition, the meat variety comprehensive better results for measurements on pattern which were stored some days previously were flashy. Good results were also adduced by the measurements concerning the freezing process recognition (pattern fresh, once- and double-frozen). An application of the technology is notably thinkable for the poultry meat sector and, in the face of the legal requirements for poultry meat (no preparation of frozen and thawed material allowed) also exceedingly desirable. The best results were carried out using the method for the recognition of added water in chicken breast filets, what is explainable by reason of the strong dipole character of water within a measurement method based on dielectricity. Even the pattern additionally glazed with poultry hydrolyzed protein powder could definitely be differentiated from the untreated pattern, what could not be realized with the water protein percentage using a laboratory chemical analysis. After all an appliance of the method for this application seems particularly reasonable, as a suitable instrument for the fast recognition of added water (with an unmodified water-protein-ratio) could be given to the monitoring and quality assurance. Before starting the practically application of this measurement method there have to be accomplished larger validation examinations, to have suitable calibration kits for the application on unknown pattern at one´s disposal, especially in the poultry meat sector. The assignment of the method for quality evaluation in the meat sector is generally possible and would be desirable for the monitoring and quality control by the reason of its fast result delivery and easy handling of the (mobile) measurement arrangement. Fleischqualität dielektrische Zeitbereichsreflektometrie Hochfrequenz Frischfleisch Gefrierprozess Fremdwasserzusatz quality dielectric time domain reflectometry high frequency fresh meat freezing process added water ddc:636.089

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