Global ETD Search

31	Characterization and modeling of devices and amplifier circuits at millimeter wave band / Mesure et modélisation de dispositifs et d’amplificateurs aux fréquences millimétriques Hamani, Rachid 12 December 2014 (has links) Ces travaux de thèse portent sur l’étude des solutions innovantes de caractérisation destinées à l’amélioration de la précision du schéma équivalent petit signal à des fréquences d’ordre millimétrique. Après un état de l’art dans ce domaine et suite à plusieurs caractérisations au niveau composant, une nouvelle structure de test “nouvelle approche” est conçue, réalisée et caractérisée. Cette approche est basée sur une nouvelle méthode d’extraction du schéma équivalent petit signal à partir d’une structure adaptée. Cette méthode réalise une adaptation des impédances du transistor sous test aux impédances des équipements de mesure. Comme résultats, la transmission du signal entre la source et le composant sous test ainsi que la précision de la mesure des paramètres extraits sont améliorés. La méthode développée permet la validation des modèles compacts des composants fabriqués en technologie BiCMOS 0.25μm au niveau circuit. Les mesures réalisées ont montré une bonne amélioration de l’extraction entre un transistor sous test seul et un transistor sous test adapté. La méthode d’investigation proposée permet l’extraction des modèles à des très hautes fréquences avec une meilleure précision. Cette thèse ouvre donc des perspectives pour la caractérisation en bande millimétrique notamment caractérisation des structures adaptées en impédances et de méthodes de de-embedding dédiées à ces dernières. / This thesis deals with the study of innovative solutions for small signal characterization at millimeter wave frequency. After a state of the art in this field and following to several characterizations at device level, a new test structure “new approach” is designed, fabricated, and characterized. The approach of characterizing at circuit level is based on a new method to extract the small signal equivalent circuit using matched test structures. This method proposed here makes the DUT impedances carefully match the characteristic impedances of the measurement equipment. In results, the transmission of the signal from the source to the DUT is improved while the parameters extraction accuracy is improved. The developed method enables the BiCMOS 0.25μm compact models validation in circuit level in mm-Wave band and enables accurate parameter extraction in a narrow band at higher frequencies. The verification results demonstrated that the new test structure significantly outperformed the conventional method in measurement accuracy specifically in very high frequency. Some aspects of the matched test structure could be subject of further investigation. In particularly topics such as, characterization over multiple test structure geometries and deembedding test structure losses. Bande millimétrique Caractérisation RF Structures de test RF Paramètres S Circuit RF Millimeter waves RF characterization RF test structures S-parameters RF circuit 621.381 5
32	ROCKET MOTOR PLUME EFFECTS ON TM SIGNALS - MODEL CORROBORATION Johnston, Jerry W., LaPoint, Steve 10 1900 (has links) International Telemetering Conference Proceedings / October 28-31, 1996 / Town and Country Hotel and Convention Center, San Diego, California / This paper presents the interim results of an effort to corroborate analytic model predictions of the effects of rocket motor plume on telemetry signal RF propagation. When space is available, telemetry receiving stations are purposely positioned to be outside the region of a rocket motor's plume interaction with the RF path; therefore, little historical data has been available to corroborate model predictions for specific rocket motor types and altitudes. RF signal strength data was collected during the flight of HERA target missile by White Sands Missile Range (WSMR) using a transportable telemetry receiving site specifically positioned to be within the rocket plume region of influence at intermediate altitudes. The collected data was analyzed and compared to an RF plume attenuation model developed for pre-mission predictions. This work was directed by the US Army Kwajalein Atoll (USAKA)/ Kwajalein Missile Range (KMR) Safety Division. Telemetry RF Propagation RF Plume Attenuation Link Margin Analysis
33	Transposeurs intégrés ultra large bande continûment accordable de 1 à 20 GHz, utilisant les technologie de silicium micro-usiné dans un perspective de consommation ultra faible (quelques mW) / Ultra wideband transposer integrated continuously tunable from 1-20 GHz, using the technology of silicon micro-machined in a perspective of extremely low power consumption (few mW) Pagazani, Julien 05 June 2012 (has links) Le sujet de cette thèse porte sur la réalisation d'un bloc de transposition de fréquence de 1 à 20GHz à base de composants MEMS. Cette thèse s'est traduite par la conception et la réalisation d'un nouveau type de capacité MEMS RF variable, qui se base sur des structures rotatives de type gyroscope pour l'actionnement, et sur une variation de surface pour la variation de capacité. Comparée à différentes architectures publiées à ce jour, cette structure a l'avantage d'avoir la partie actionnement (la partie MEMS) et la partie RF (la capacité) isolées électriquement, ce qui permet d'éviter le phénomène d'auto actionnement avec la puissance du signal RF traversant. Un autre avantage de la structure développée est la possibilité d'avoir simultanément 8 capacités variables sur une puce unique, avec un seul système d'actionnement. La fabrication de ces puces nécessite l'utilisation d'un wafer SOI pour la partie MEMS et d'un wafer en verre pour la partie RF, ce qui offre la possibilité d'une mise en boitier du MEMS directement pendant le procédé de fabrication. Ces travaux ont également porté sur l'étude du phénomène de pullin dans le cadre des peignes interdigités incurvés (curved combdrive), laissant apparaître les paramètres physiques critiques lors du dimensionnement. Cette étude paramétrique a été utilisée pour améliorer la structure d'actionnement en utilisant des peignes interdigités à largeur de doigt et à gap variable, pour repousser ce phénomène de pullin en dehors de la plage utile d'actionnement. Cette nouvelle capacité variable a ensuite été intégrée dans un système simple d'oscillateur accordable sur alumine pour valider ses performances RF et pourra être associée à un mélangeur pour réaliser le bloc complet de transposition de fréquence / This thesis deals with the realisation of a frequency transposition block from 1 to 20 GHz based on MEMS components. It results in the design and fabrication of a new kind of tuneable RF MEMS capacitor based on a rotational gyroscope structure for the actuation part and on a surface variation for the capacitance change. Compared to other architectures published, this structure presents the advantage to have an actuation part (the MEMS part) and a RF part (the capacitor) that are electrically separated in order to avoid the phenomenon of self-actuation with RF signal crossing power. Another advantage of this structure is the possibility to simultaneously tune 8 different capacitors on a single chip, with only one actuation system. The fabrication of the chips requires the use of a SOI wafer for the MEMS part and a glass wafer for the RF part, which offers on chip packaging opportunity. This work also focused on the study of the pull-in effect in the case of curved comb-drives, highlighting the most critical physical parameters for the design. This parametric study has been used to improve the actuation structure and more particularly the topology of the curved comb-drives by variation of the finger width and gap. These modifications were done in order to push the pull-in effect out of the actuation operating range. This new tuneable capacitor has been integrated into a simple VCO circuit on alumina to validate the RF performances and could be associated to a RF mixer in order to realize the full frequency transposition block MEMS RF WideBand VCO MEMS RF WideBand VCO
34	Design of a Multi-Array Radio-Frequency Coil for Interventional MRI of the Female Breast Serano, Peter James 05 May 2009 (has links) A new method for the simulation of radio frequency (RF) coils has been developed. This method utilizes the FEM simulation package Ansoft HFSS as a base for the modeling of RF coils with complex biological loading effects. The abilities of this software have been augmented with custom MATLAB code to enable the fast prediction of lumped element values needed to properly tune and match the coil structure as well as to perform the necessary post processing of simulation data in order to quickly generate and evaluate field data of the resonating coil and compare design variations. This method was evaluated for accuracy and implemented in the re-design of an existing four channel breast coil array for clinical imaging of the female breasts. Based on the simulation results, a commercially viable printed circuit board (PCB) implementation was developed and tested in a clinical 1.5 T MR scanner. The new design allows for wide open bilateral access to the breast regions in order to accommodate various interventional procedures. The layout has also increased axillary B1 field coverage with minor penalty to the signal-to-noise ratio of the coil array, enabling high-resolution imaging over a wide field-of-view. MRI RF RF Coil Array Electromagnetic Simulation Magnetic Resonance Imaging
35	GE PETtrace RF power failures related to poor power quality Bender, B. R., Erdahl, C. E., Dick, D. W. 19 May 2015 (has links) (PDF) Introduction Anyone who has ever overseen the installation of a new cyclotron is aware of the importance of addressing the numerous vendor-supplied site specifications prior to its arrival. If the site is not adequately prepared, the facility may face project cost overruns, poor cyclotron performance and unintended maintenance costs. Once a facility has identified the space, providing sufficient power is the next step. Every cyclotron vendor will provide you with a set of power specifications, but meeting these specifications can be difficult, especially when the cyclotron is placed in an existing structure. The cyclotron is an interesting collection of power supplies providing power to sensitive electronic circuitry. It is not sufficient to just provide enough power; you must also provide quality power. It is hoped that our efforts to resolve our poor power quality problems will assist others as they replace aging cyclotrons in existing institutions whose power quality has degraded over the years. The University of Iowa Hospitals and Clinics completed installation of a GE PETtrace 800 cyclotron in November 2011. Four months prior to installation, GE service personnel arrived to do a power assessment. The result was that we met their specifications, but with reservations. We could easily provide the quantity of power required, but the specification also states that GE recommends that primary power remain at 480 VAC ± 5%. GE service personnel attached a power quality analyzer to the cyclotron main power panel and determined that we did have some events of 7 to 8 % sag, but they were in-frequent, perhaps once or twice a week lasting 20 to 50 msec. Sags were confirmed to be the result of large non-linear loads elsewhere in the hospital. If these occurred during a run, they may shut down the cyclotron, specifically the RF power supply. Further investigation revealed the presence of harmonics on our power. Harmonics are the multiples of 60Hz power that are reflected back into your facility’s power grid from large motor drivers. Commercial air handler, water pump and fan motors often use variable frequency drives (VFDs) for proportional control to meet the changing facility demands. This pro-vides a significant on-going cost savings, but may play havoc with power quality throughout the institution. Harmonic distortion is often quantified as a total harmonic distortion (THD) percentage. Though not specifically mentioned in the site-specifications, our experience here will show that it is important not to overlook harmonic distortion. Its effects can be varied, erratic and wide-spread throughout the cyclotron system. When asked, GE service referred us to IEEE standards for electrical systems and equipment which states that THD is recommended to be below 5 % for most applications, but below 3 % for sensitive settings including airports and hos-pitals1. Mitigation of voltage sag and harmonic distortion is an expensive and complex topic. It is recommended that you consult with your cyclotron vendor to determine if there exists a field-tested solution. Additionally, you should consult a power systems specialist to do an audit of your building’s power system. Material and Methods Characterization of Power Quality: This was accomplished using a Hioki 3197 Power Quality Analyzer and a couple Dranetz PX-5 Power Xplorers. Each monitoring cycle logged data for about a week, which seemed to be about the limit for these units when logging both THD and surge/sag events down to the duration of a single 60Hz cycle. Analysis of the circuit diagrams and communication with GE engineers indicated that the main power contactors to the cyclotron RF system were dropping power to protect the system. The feedback for this shutoff is a detection signal from the front-end EHT (high-voltage generation) circuit that is set at a level to be representative of the 5% AC deviation specification. RF Power System Contactors: Every time the contactors of the RF power distribution system are energized/de-energized, some arching occurs at the contact surfaces. This arching pits the contactor surfaces such that over time the contactor surfaces become irregular and potentially resistive. Since the RF protection circuit triggered by the EHT circuit is downstream from the contactors, it is not so hard to envision why the system becomes more sensitive over time2. Additionally, the harmonic distortion also exists on the AC voltage energizing the contactors. As a result, they may not actuate as smoothly (de-pendent of degree of harmonic distortion) and further hasten the normal rate of pitting of contactor surfaces. Results and Conclusion Within weeks of installation, we began to get RF power shutoffs. They were infrequent at first, but soon began to occur numerous times a week, then numerous times a day. At approximately 3 months post installation, it was often difficult to get through a standard 30 to 45 minute bombardment to make F-18 for our daily patient FDG doses. We limped along for over a year until the University was willing to invest in a solution to address our power problems. Periodic Power Analyses: These analyses, per-formed over the next year, indicated that our power quality worsened in the winter and re-turned to functional levels in the summer. The instance of voltage sag remained approximately the same throughout the year (a few short sags per week), but the THD was down to 6 % in the summer and nearly 10% in the winter. This result, combined with RF shutdown tracking and lack of correlation between observed power sags and RF shutdowns, led us to the conclusion that our very high harmonic distortion combined with small power fluctuations (< 5 %) were the culprit. Mitigation Planning: There are a number of power conditioning technologies, but imposing the need to remove both voltage sag as well as harmonic distortion, quickly narrows the field. What remains are the following options: 1) UPS line conditioner with batteries, 2) UPS line conditioner with flywheel or 3) motor-generator power isolator. Battery maintenance costs ruled out the UPS battery line conditioner. Of the remaining two, if you have the space, the motor-generator is the simplest and cheapest (favored by forward military hospital units). But for the space constrained user, like us, the UPS flywheel line conditioner became the preferred option. Additionally, it was identified in a power audit that the THD was only 4% at the transformers connected directly to the local power utility company supply (upstream of load effect and harmonic distortion sources). This was to be expected as load effects and harmonic distortion are worse if your tie-in point to the building power grid is at the same level or downstream of their sources. Additionally, a test was performed during a hospital backup generator test, wherein the suspected primary offenders (large motors and VFDs) were diverted to backup. As a result, the THD measured at the cyclotron primary power panel dropped by 2.5 %. Working with University electricians, an outside power consultant, GE engineering and University Hospital Radiology Engineering, a two phase plan was created. Phase 1: With a repurposed utility transformer, the cyclotron and PET cameras got their own dedicated transformer connected to the main utility power feed. We also replaced the old contactors in the RF power distribution system. Since installation, the measured THD has remained at 4.5 to 5 % year round and the sag incidence and magnitude are slightly improved. Phase 2: With a quote from GE for a flywheel UPS we should be able to fully condition the power entering our facility, removing the load effect voltage sags as well as the harmonic distortion. One year of operation after Phase 1 implementation, it has been decided that Phase 1 was all that was required. We haven’t had a single new instance of RF shutdown since. GE PETtrace RF Power GE PETtrace RF Power ddc:530
36	Nanocomposites magnétiques à conductivité macroscopique nulle pour applications en RF / Magnetic nanocomposites with zero macroscopic conductivity for RF applications Takacs, Hélène 06 October 2015 (has links) L'ultra-miniaturisation en RF bute sur le paradigme historique du magnétisme : la trop grande conductivité des métaux de transition (Fe, Co, Ni) et de leurs alliages présentant par ailleurs les plus fortes perméabilités. A l'opposé, leurs oxydes (ferrites) sont bien isolants mais leurs propriétés à haute fréquence sont drastiquement plus faibles. Dans ce contexte, l'idée de matériaux magnétiques artificiels à base de polymère encapsulant des nanoparticules magnétiques métalliques se pose en alternative. Dans cette thèse, deux formulations de ce type encore peu développé de nanocomposites ont été réalisées, l'une à base de cobalt/polystyrène, l'autre à base de nickel/polystyrène. La grande originalité de ce travail porte sur une structure « cœur-double coquille », constituée de prime abord par la nanoparticule métallique pour le cœur, garantissant des propriétés magnétiques élevées. La première coquille est constituée de graphène (quelques nanomètres) jouant un double rôle : assurer une protection efficace et durable du cœur contre l'oxydation et servir de plateforme de fonctionnalisation chimique pour la deuxième coquille. La deuxième coquille est une couche ultra-fine de polystyrène dont le rôle est d'assurer à son tour l'isolation électrique des nanoparticules et de promouvoir un ordre ferromagnétique dipolaire grâce à une distance interparticulaire faible et bien contrôlée. Enfin, les films sont constitués d'un polymère hôte, qui est également en polystyrène. Ce choix permet une compatibilité chimique optimale entre les nanoparticules fonctionnalisées et la matrice. Dans un souci d'optimisation du procédé (réalisé intégralement par sono-chimie), les formulations ont d'abord été largement caractérisées afin d'améliorer la dispersion des nanoparticules en solution (par ultra-sonication), d'augmenter les interactions de surface entre les deux coquilles, par greffage covalent ou non, ainsi que la stabilité des suspensions colloïdales. Ces formulations ont ensuite été utilisées pour réaliser des films d'épaisseur micrométrique par spin-coating. Le greffage sera la clé d'une excellente tenue mécanique des films. Des spin-curves originales sont établies sur une grande plage de composition et permettent l'obtention de façon reproductible de films homogènes et uniformes sur des substrats 4 pouces. Dans le prolongement du dépôt, deux briques technologiques très innovantes (brevets) s'appuyant sur les propriétés d'énergie de surface très particulières des nanocomposites métal-polymère seront développées visant la planarisation/densification des films sur substrats durs et leur transfert (continu ou localisé) sur substrats flexibles. Un effort très important a été consacré ensuite à la collecte du panel le plus complet possible de propriétés de structure de ces composites en raison de leur grande complexité. Tour à tour, nous avons exploré les propriétés hydrodynamiques, structurales, interfaciales, thermiques et physico-chimiques en ayant recours à un grand nombre de techniques de nano-caractérisation. Au final, les propriétés fonctionnelles, c'est à dire magnétiques, électriques et radioélectriques sont expliquées avec un effort constant de précision et d'analyse comparative. On retient de ce travail quatre faits marquants : 1) des taux de charge en volume proches des limites physiques (~ 20 vol.%), 2) une combinaison DC unique entre aimantation à saturation élevée (0,6 T) et très grande résistivité (1010 µΩ.cm), 3) un caractère électrique percolatif dual (ohmique et tunnel) révélant aussi des défauts de conduction locale par clusters, et enfin 4) des perméabilité et permittivité effectives de l'ordre de 1,5 et 2,8 qui ont pu être évaluées avec succès jusqu'à ~ 15 GHz. / Ultra-miniaturization of RF components faces a historical paradigm in magnetism: on one hand transition metals (Fe, Co, Ni) display the highest permeabilities but are too conductive. On the other hand, oxides are insulating but their properties are extremely low at high frequency. In that context, artificial magnetic materials based on metallic magnetic nanoparticles embedded in a polymer matrix could be an alternative. In this work, two nanocomposites formulations using sonochemistry were studied: one based on cobalt/polystyrene and the other on nickel/polystyrene. The originality lays on a core-double shell structure. The core is the metallic nanoparticle that provides high magnetization. The first shell is graphene (a few nm) that both ensures an efficient protection against oxidation and serves as a chemical functionalization surface. The second shell is an ultra-thin layer of polystyrene which role is to electrically insulate the nanoparticles and to promote a strong dipolar ferromagnetic order thanks to a well-controlled and short interparticle distance. At last the matrix is also polystyrene for chemical compatibility between functionalized nanoparticles and the matrix. In order to optimize the process, the formulations were first thoroughly characterized with the aim of improving nanoparticles dispersion, increasing interactions between the shells – by covalent or non-covalent grafting – as well as the suspensions stability. These formulations were then used to obtain micron-thick films by spin-coating. Grafting is the key of a good mechanical cohesion. Original and reproducible spin-curves are established over a broad range of nanoparticles fraction in order to yield homogeneous and uniform films on 4-inch wafers. Two film deposition-related processes involving surface energy of the nanocomposites were developed for film planarization and transfer objectives. A great effort has been made for precisely understanding structural properties of such complex nanocomposites. A wide number of nanocharacterization techniques were used for determining hydrodynamic, structural, interfacial, thermal and chemical properties. Finally, functional properties – i.e. magnetic, electrical and radioeletric properties – are detailed with comparative analysis. Four results can be highlighted: 1) a high volume fraction of nanoparticles, close to physical boundary (~ 20 vol.%), 2) a unique combination of high magnetization (0.6 T) and high resistivity (1010 µΩ.cm), 3) a dual electrical percolative behavior (ohmic and tunnel) revealing at the same time local conduction defects by clusters, and 4) effective permeability and permittivity of around 1.5 and 2.8 up to ~ 15 GHz, respectively. Nanoparticules Magnétisme Rf Nanocomposites Nanoparticles Magnetism Rf Nanocomposites 620 540
37	Nouveau système de contrôle Radiofréquence de micro-algues pour la santé et le bien-être / New Radiofrequency Monitoring of microalgae cultivation for health and welfare Zhou, Xi 06 December 2016 (has links) Le développement des produits à base de polysaccharides issus de microalgues implique une étude poussée des voies biotechnologiques de culture. Afin d'optimiser ces nouveaux produits dès la formation des microalgues, un nouveau système de contrôle non-destructif en ligne et sans contact a été développé dans le cadre de cette thèse. Il s'appuie sur la mesure par induction des propriétés diélectriques (conductivité et permittivité) dans le domaine des radiofréquences (1-400MHz). Ce document montre, qu'à l'échelle d'investigation correspondante, il est possible de suivre aussi bien l'évolution du milieu de culture que la formation d'exopolymères via la mesure de la permittivité complexe de ces matériaux. La preuve de concept a nécessité la mise au point d'un circuit résonant bas coût particulièrement sensible, utilisé en émission-réception, et la résolution théorique et expérimentale d'un problème inverse adapté aux champs proches. Ce système implanté dans un photobioréacteur prototype a permis d'extraire l'évolution de grandeurs caractéristiques propres au suivi de culture de microalgues. Cette thèse s'inscrit dans un projet collaboratif plus large de valorisation d'actifs issus de microalgues avec les sociétés Phycosource, Pronovalg, Bio-EC, et LVMH dans le cadre d'un FUI. / The development of products based on polysaccharides from microalgae involves extensive study of biotechnological ways of cultivation. In order to optimize these new products, from the formation of microalgae, a new non-destructive testing system online and without contact has been developed as part of this thesis. It is based on the measurement by induction of dielectric properties (permittivity and conductivity) in the field of radio frequency (1-400MHz). This document shows that inside the corresponding scale of investigation, it is possible to follow both the evolution of the culture medium and the exopolymer formation, via the measurement of complex permittivity of these materials. The proof of concept, required the development of a resonant low cost system particularly sensitive, used as a transceiver, and theoretical and experimental solution of an inverse problem in near fields. This system that operates in a photobioreactor prototype, was used to extract the evolution of characteristics variables of microalgae cultivation. This thesis is part of a larger collaborative project valuation of assets derived from microalgae with Phycosource companies Pronovalg, Bio-EC, and LVMH as part of a FUI. Instrumentation Électronique Électromagnétisme Rf Cnd Instrumentation Electronic Electromagnetism Rf Ndt
38	Chaotic Based Self-Synchronization for RF Steganography Radar/Communication Waveform Gonnella, Michael A. January 2018 (has links) No description available. Engineering Electrical Engineering RF RF Steganography Digital Communications Radar
39	Behavioural and neural correlates of tinnitus Berger, Joel I. January 2014 (has links) Tinnitus, often defined as the perception of sound in the absence of an external stimulus, affects millions of people worldwide and, in extreme cases, can be severely debilitating. While certain changes within the auditory system have been linked to tinnitus, the exact underlying causes of the phenomenon have not, as yet, been elucidated. Animal models of tinnitus have considerably furthered understanding of the some of the changes associated with the condition, allowing researchers to examine changes following noise exposure, the most common trigger for tinnitus. This thesis documents the development of an animal model of tinnitus, using the guinea pig to examine neural changes following induction of tinnitus. In the first study, a novel adaptation of a behavioural test was developed, in order to be able to determine whether guinea pigs were experiencing tinnitus following the administration of sodium salicylate, a common inducer of tinnitus in humans. This test relies on a phenomenon known as prepulse inhibition, whereby a startle response can be reduced in amplitude by placing a gap in a low-level, continuous background noise immediately prior to the startling stimulus. The hypothesis for this test is that if the background sound is adjusted to be similar to an animal’s tinnitus (induced artificially following noise exposure or drug administration), the tinnitus percept will fill in the gap and the startle response will not be reduced. The results from this first study indicated that using the Preyer reflex (a flexion of the pinnae in response to a startling stimulus) as this startle measure was more robust in guinea pigs than the commonly-used whole-body startle. Furthermore, transient tinnitus was reliably identified following salicylate administration. Following the development and validation of this test, a study was conducted to determine whether guinea pigs experienced tinnitus following unilateral noise exposure. Neural changes commonly associated with the condition (increases in spontaneous firing rates and changes in auditory brainstem responses) were examined, to determine whether there were any differences between animals that did develop tinnitus following noise exposure and those that did not. Two different methods were applied to the behavioural data to determine which animals were experiencing tinnitus. Regardless of the behavioural criteria used, increased spontaneous firing rates were observed in the inferior colliculus of noise-exposed guinea pigs, in comparison to control animals, but there were no differences between tinnitus and no-tinnitus animals. Conversely, significant reductions in the latency of components of the auditory brainstem response were present only in the tinnitus animals. The final study examined whether the original hypothesis for the behavioural test (that tinnitus is filling in the gap) was valid, or whether there was an alternative explanation for the deficits in behavioural gap detection observed previously, such as changes in the temporal acuity of the auditory system preventing detection of the gap. Recordings were made in the inferior colliculus of noise-exposed animals, separated into tinnitus and no-tinnitus groups according to the behavioural test, as well as unexposed control animals, to determine whether there were changes in the responses of single-units in detecting gaps of varying duration embedded in background noise. While some minor changes were present in no-tinnitus animals, tinnitus animals showed no significant changes in neural gap detection thresholds, demonstrating that changes in temporal acuity cannot account for behavioural gap detection deficits observed following noise exposure. Interestingly, significant shifts in the response types of cells were observed which did appear to relate to tinnitus. The present data indicate that the Preyer reflex gap detection test is appropriate for examining tinnitus in guinea pigs. It also suggests that increases in spontaneous firing rates at the level of the inferior colliculus cannot solely account for tinnitus. Changes in auditory brainstem responses, as well as shifts in response types, do appear to relate to tinnitus and warrant further investigation. 617.8
40	Design and testing of an orthogonal LCP interconnect for RF applications in high vibration environments Guidoni, Luca 27 May 2016 (has links) A new design is presented for a wideband orthogonal interconnect between two perpendicular printed wiring boards, employing novel geometries and materials to minimize stress under cyclic loading. This will ensure fatigue survivability in high vibration environments, opening the door to vertical interconnection in RF circuit design. This is, to the best of knowledge, the first complete design and prototype for an orthogonal interconnect at the board level for broadband RF circuits. An analytical approach is used to define the driving parameters in the stress distribution within a smooth curve joining two perpendicular surfaces using analytical geometries, and Finite Element Analysis is used to finalize the design and ensure all constituent materials in the interconnect are subjected to stresses below their fatigue strength at 10 million cycles at full deflection. A manufacturing process is then proposed using thermoforming to shape the Liquid Crystal Polymer base material into the desired geometry, as well as an assembly solution to mount the interconnect to an RF signal feed card. Finally, a test setup is designed allowing for high cycle fatigue testing within the order of hours, including the capability to monitor performance of the interconnect by tracking DC continuity through a simulated application using a single post design. The prototype interconnect is tested to failure and is shown to survive 18 million cycles of a typical loading application before failure of the LCP springs occurs in the mode predicted by the initial FEA model. Orthogonal interconnect RF interconnect Fatigue

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