Global ETD Search

21	DEVELOPMENT OF A MUFFLER INSERTION LOSS FLOW RIG Chen, Jonathan 01 January 2019 (has links) Mufflers and silencers are commonly used to attenuate noise sources such as internal combustion engines and HVAC systems. Typically, these environments contain mean flow that can affect the acoustic properties of the muffler components and may produce flow generated noise. To characterize the muffler performance, common metrics such as insertion and transmission loss and noise reduction are used in industry. Though transmission loss without flow is often measured and is a relatively simple bench top experiment and useful for model validation purposes, mean flow can significantly affect the muffler performance. There are a few existing and commercial transmission loss rigs that incorporate flow into the measurement procedure. These rigs are useful for model verification including flow but do not predict how the muffler will perform in the system since the source, termination, and pipe lengths significantly impact performance. In this research, the development of an insertion loss test rig is detailed. This testing strategy has the advantage of being simpler, quantifying the self-generated noise due to flow, and taking into account the effect of tailpipe length and a realistic termination. However, the test does not include the actual source and is not as useful for model validation. An electric blower produces the flow and a silencer quiets the flow. Loudspeakers are positioned just downstream of the flow silencer and they are used as the sound source. The low frequency source is a subwoofer installed in a cylindrical enclosure that includes a conical transition from speaker to pipe. Special care is taken to reduce any flow generated noise. Qualification of the system is detailed by comparing the measured transmission loss, noise reduction, and insertion loss to one-dimensional plane wave models. The results demonstrate that the developed rig should be useful as a muffler evaluation tool after a prototype has been constructed. The rig can also be used for transmission loss and noise reduction determination which will prove beneficial for laboratory testing. Insertion Loss Transmission Loss Noise Reduction Flow-Induced Noise Plane Wave Theory Source Properties Acoustics, Dynamics, and Controls
22	Novel Transducer Calibration and Simulation Verification of Polydimethylsiloxane (PDMS) Channels on Acoustic Microfluidic Devices Padilla, Scott T. 06 July 2017 (has links) The work and results presented in this dissertation concern two complimentary studies that are rooted in surface acoustic waves and transducer study. Surface acoustic wave devices are utilized in a variety of fields that span biomedical applications to radio wave transmitters and receivers. Of interest in this dissertation is the study of surface acoustic wave interaction with polydimethylsiloxane. This material, commonly known as PDMS, is widely used in the microfluidic field applications in order to create channels for fluid flow on the surface of a piezoelectric substrate. The size, and type of PDMS that is created and ultimately etched on the surface of the substrate, plays a significant role in its operation, chiefly in the insertion loss levels experienced. Here, through finite element analysis, via ANSYS® 15 Finite Element Modeling software, the insertion loss levels of varying PDMS sidewall channel dimensions, from two to eight millimeters is investigated. The simulation is modeled after previously published experimental data, and the results demonstrate a clear increase in insertion loss levels with an increase in channel sidewall dimensions. Analysis of the results further show that due to the viscoelastic nature of PDMS, there is a non -linear increase of insertion loss as the sidewall dimensions thicken. There is a calculated variation of 8.31 decibels between the insertion loss created in a microfluidic device with a PDMS channel sidewall thickness of eight millimeters verse a thickness of two millimeters. Finally, examination of the results show that insertion loss levels in a device are optimized when the PDMS sidewall channels are between two and four millimeters. The second portion of this dissertation concerns the calibration of an ultrasonic transducer. This work is inspired by the need to properly quantify the signal generated by an ultrasonic transducer, placed under a static loading condition, that will be used in measuring ultrasonic bone conducted frequency perception of human subjects. Ultrasonic perception, classified as perception beyond the typical hearing limit of approximately 20 kHz, is a subject of great interest in audiology. Among other reasons, ultrasonic signal perception in humans is of interest because the mechanism by which either the brain or the ear interprets these signals is not entirely understood. Previous studies have utilized ultrasonic transducers in order to study this ultrasonic perception; however, the calibration methods taken, were either incomplete or did not properly account for the operation conditions of the transducers. A novel transducer calibration method is detailed in this dissertation that resolves this issue and provides a reliable means by which the signal that is being created can be compared to the perception of human subjects. Ultrasonic Bone Conduction Piezoelectricity Insertion Loss Finite Element Analysis Surface Acoustic Waves Acoustics, Dynamics, and Controls Mechanical Engineering
23	Optimalizace modelu odrušovacího filtru / Optimization of EMI filter Circuitry Surovec, Vojtěch January 2011 (has links) In introduction of work, I presented the state of the art of measuring insertion loss of the EMI filter and the description of individual methods of measuring is also included. After that I dealt with global optimization methods and some of them I theoretically described. Mainly PSO method was studied carefully, and the principle of optimization in details are presented in the thesis, because this method was used for optimization of the filters parameters in the thesis. Next part of work deals with theoretical and mathematical expression of insertion loss of the EMI filters. Due to the mathematical expression of the insertion loss, the values of parasitic elements of given filter have been optimized in different measuring systems. This optimization was applied on synthetic data. By this step the functionality of optimization was proved and also the fitness function has been tuned and optimised. The last part of thesis works with optimization on measured data of given filters. I found out inaccuracy in mathematical expression of given model of EMI filter, therefore it was necessary to come up with the new filter model. The accuracy increases by using the new filter model. In next step the new model was enlarged by new spurious components.
24	Application Of Absorptive Treatments On Traffic Noise Barriers In Florida Chua, Chin Boon 01 January 2004 (has links) In this thesis, the parallel barrier analysis feature in the Federal Highway Administration Traffic Noise Model (FHWA TNM), which is based on RAYVERB was used to explore the effects of multiple reflections due to single and parallel barriers and the use of absorptive treatment. Database was developed from the data collected from previous research efforts was used to generate a best fit equation model that can be used as a predetermining tool to determine the magnitude of parallel barrier insertion loss. The best fit equation model was then used to test against measured/model result and TNM prediction results for its validity. Absorptive materials were also studied such that 3 top of them were selected and recommended for Florida highway barrier use. It was found that the top three absorptive treatments for use on Florida highway barriers have been determined to be cementitous material, metal wool and glass fiber. These materials can be used to reduce the sound reflections for single and parallel barriers. The developed best fit equation model from this research is Deg = -2.17NRC - CW[superscript 0.42] + 1.97eln(BH) + RH[superscript 0.29] + DBB[superscript 0.27]; the prediction results give moderately high R[superscript 2] value of 0.55 if compared to the results from database. Prediction results from best fit equation model was also found to be consistent with the results from the measure/modeled results, providing further proof of the validity of the model. However, if compared results from equation model, TNM and measured/model (measured and model compared results using ANSI method), TNM was shown to provide higher insertion loss degradation. It was found that the most effective placement of absorptive material was the pattern which covers the barrier from the bottom up; it was also found that only about 60% from the bottom of the barrier area requires covering with high NRC absorptive treatment (NRC greater than or equals to 0.8) without sacrificing insertion loss. Also, if the barrier area near the top includes an easily obtainable NRC value of 0.4, only 40% to 50% of the bottom barrier needs absorptive treatment with a higher, more expensive NRC rating. These findings can substantially reduce the cost of conventional absorptive barrier which have full coverage of high NRC absorptive treatment. This research has begun important improvements in noise barrier design, additional work can be continued to further verify all the findings in this thesis such that easier and better equation model can be developed to calculate insertion loss degradation and cheaper absorptive barrier with less absorptive material usage can be built. Absorptive materials Absorptive treatments Insertion loss degradation Parallel barriers Single barriers Sound reflections Traffic noise barriers Traffic noise control Civil and Environmental Engineering Engineering
25	Fluidic Tuning of a Four-Arm Spiral-Based Frequency Selective Surface Wells, Elizabeth Christine 2011 May 1900 (has links) Frequency selective surfaces (FSSs) provide a variety of spatial filtering functions, such as band-pass or band-stop properties in a radome or other multilayer structure. This filtering is typically achieved through closely-spaced periodic arrangements of metallic shapes on top of a dielectric substrate (or within a stack of dielectric materials). In most cases, the unit cell size, its shape, the substrate parameters, and the inter-element spacing collectively impact the response of the FSS. Expanding this design space to include reconfigurable FSSs provides opportunities for applications requiring frequency agility and/or other properties. Tuning can also enable operation over a potentially wider range of frequencies and can in some cases be used as a loading mechanism or quasi-ground plane. Many technologies have been considered for this type of agility (RF MEMS, PIN diodes, etc.). This includes the recent use of microfluidics and dispersions of nanoparticles, or fluids with controllable dielectrics, which have entered the design space of numerous other EM applications including stub-tuners, antennas, and filters. In this work they provide a material based approach to reconfiguring an FSS. An FSS based on a four-arm spiral with tunable band-stop characteristics is presented in this work. A thin colloidal dispersion above each element provides this tuning capability. The radial expansion and contraction of this dispersion, as well as the variable permittivity of the dispersion, are used to load each element individually. This design incorporates thin fluidic channels within a PDMS layer below the substrate leading to individual unit cells that provide a closed pressure-driven subsystem that contains the dispersion. With the capability to individually control each cell, groups of cells can be locally altered (individually or in groups) to create gratings and other electromagnetically agile features across the surface or within the volume of a radome or other covering. Simulations and measurements of an S-band tunable design using colloidal Barium Strontium Titanate dispersed Silicone oil are provided to demonstrate the capability to adjust the stop-band characteristics of the FSS across the S-band. FSS Frequency Selective Surface RF Radio Frequency BSTO Barium Strontium Titanate Oxide Si Silicone PDMS Polydimethylsiloxane φ Volume Fraction ε Permittivity dB Decibels GHz Gigahertz Freq Frequency S12 Reverse Voltage Gain or Transmission IL Insertion Loss
26	Modely odrušovacích filtrů / Models of EMC filters Kejík, Zdeněk January 2009 (has links) Basic problems of the EMI mains filter is explained in the introduction of this thesis. These problems appear during the measurement of insertion loss of filters and by design of EMI mains filter. The important problem is uncertainly of the terminating impedances. Eventualities measurement insertion loss of EMI mains filter and motivation of creation filter models are shown. The following part of this project shows the electronic components, from which are realized the EMI mains filter. Parasitic properties of these real devices are also discussed. The circuitry of EMI mains filter is described by the Modified Nodal Voltage Method. The optimization method called Participle Swarm Optimization is introduced, too. Basic principle and terminology are mentioned. The third part of this project is focused on the own filter and spurious components. Influence of own filter and spurious filters components on insertion loss curve are showed. Magnetic factor coefficient k is searched by the optimization method PSO. The last part of this thesis deals with creation of the alternative circuits with spurious filters components. The performances of the alternative circuits were compared with the measured data for symmetrical and asymmetrical measurement setup. The breakages in the insertion loss curve were used for determining the spurious components.
27	Měřící metody klíčových parametrů v optických sítích / Measuring methods of key parameters in optical networks Balon, Jiří January 2010 (has links) The main goal of the master’s thesis was to familiarize with optical networks dilemma and its measuring during fabrication. The whole thesis is divided into several parts where the first part deals with optic fiber dilemma. It describes its kinds, properties and also suggests a basic principle of optic signal dispersion using these fibers. It describes also optical network FTTx architecture (Fiber To The x). The second part of the thesis focuses on methods of measuring key parameters of optical networks. Is brings out the methods of measuring optical loss and dispersive influences. The last and final part in focused on creating a methodical manual for measuring these networks during its fabrication and verifying measuring methods stated in the theoretical part inside a real network. Measuring was implemented on an optical network of Masaryk University in Brno.
28	Compact Superconducting Dual-Log Spiral Resonator with High Q-Factor and Low Power Dependence. Excell, Peter S., Hejazi, Z.M. January 2002 (has links) No / A new dual-log spiral geometry is proposed for microstrip resonators, offering substantial advantages in performance and size reduction at subgigahertz frequencies when realized in superconducting materials. The spiral is logarithmic in line spacing and width such that the width of the spiral line increases smoothly with the increase of the current density, reaching its maximum where the current density is maximum (in its center for ¿/2 resonators). Preliminary results of such a logarithmic ten-turn (2 × 5 turns) spiral, realized with double-sided YBCO thin film, showed a Q.-factor seven times higher than that of a single ten-turn uniform spiral made of YBCO thin film and 64 times higher than a copper counterpart. The insertion loss of the YBCO dual log-spiral has a high degree of independence of the input power in comparison with a uniform Archimedian spiral, increasing by only 2.5% for a 30-dBm increase of the input power, compared with nearly 31% for the uniform spiral. A simple approximate method, developed for prediction of the resonant frequency of the new resonators, shows a good agreement with the test results. Quaternary compound Copper oxide Barium oxide Yttrium oxide Experimental study Resonance frequency Insertion loss Current density Logarithmic function Low-power electronics Spiral shape High temperature superconductor Superconducting thin films Superconducting microwave devices Superconducting resonator High Q factor
29	Réalisation des couches minces PMN-PT dans la technologie MEMS pour les applications hyperfréquences / Integration of PMN-PT thin films in RF-MEMS technology Bui Meura, Kim Anh 19 October 2012 (has links) Les systèmes d’information actuels reposent fortement sur les technologies micro-ondes utilisées pour les communications hertziennes. L’amélioration des performances des MEMS radio fréquence aptes à fonctionner dans la bande X (8 GHz et 12 GHz) est un enjeu important pour des applications de télécommunications mais aussi pour les applications radar. Pour y parvenir l’intégration de matériaux ferroélectriques à haute constante diélectrique est requise. Les matériaux qui possèdent de telles propriétés et qui sont les plus adaptés, sont les composés qui dérivent de la structure pérovskite. Intégrer ce type de matériaux dans des commutateurs radio-fréquence (MEMS-RF) pose de nouveaux chalenges en termes de maîtrise du matériau et de compatibilité avec les technologies MEMS existantes. Cette thèse s’est portée sur le composé PMN-PT avec la composition 65/35 qui possède une permittivité relative supérieure à 10000 sous forme de matériau massif.Ce travail de thèse a été consacré à l’étude de l’intégration du composé PMN-PT dans des composants passifs que sont les commutateurs MEMS. Dans la gamme de fréquence d’intérêt, de 500 MHz jusqu’à 20 GHz, les propriétés de ces matériaux ont été peu étudiées sur les matériaux massifs et encore moins sous forme de films minces. L’objectif de cette thèse était de réaliser les couches minces ferroélectriques et de tester leur compatibilité dans l’ensemble du fonctionnement d’un composant MEMS mais aussi de mener une étude réciproque : l’analyse des FeMEMS (MEMS basé sur les ferroélectriques) permettant de compléter les connaissances de ces matériaux dans cette gamme de fréquence. Ce travail est d’intérêt pour l’industrie de la technologie MEMS mais aussi pour la science des matériaux ferroélectriques mais aussi par la compréhension des mécanismes physiques gouvernant aux propriétés diélectriques en termes de pertes notamment dans ce domaine de fréquences.Les caractérisations des MEMS-RF présentées dans cette thèse ont démontré la compatibilité du MEMS PMN-PT dans la gamme de fréquence entre 500MHz et 10 GHz avec de très bonnes performances. En utilisant cette adaptation, la technologie actuelle est ainsi capable de couvrir tous les bandes de fréquence les plus importantes : la bande de télécommunication civile de 1 GHz à 5 GHz en utilisant le PMN-PT, la bande X pour les satellites entre 5 GHz et 15 GHz avec PZT et la bande de haute fréquence de 15 GHz à 40 GHz pour la défense avec les diélectriques traditionnels (Si3N4). / The current information systems depend strongly on the microwave technology used for wireless communications. The enhanced performance of MEMS radio frequency capacity in X-band (8 GHz and 12 GHz) is an important issue not only for Telecom applications but also for Radar applications. The integration of ferroelectric materials with high-k t is highly demanded to replace the traditional dielectrics. This high-k property is accessible for compounds derived from the perovskite structure. Incorporating such materials in switches radio-frequency (RF-MEMS) impose however new chalenges in terms of the compatibility with the existing MEMS technologies. This thesis is focused on the compound PMN-PT with composition 65/35, which has a relative permittivity greater than 10,000 in the form of bulk material.This thesis has been devoted to the study of the integration of PMN-PT thin films in passive components such as MEMS switches. In the frequency range of interest, 500 MHz to 20 GHz, the properties of these materials have not been studied in bulk materials and even less in the form of thin films. The aim of this thesis was to fabricate the ferroelectric thin films and test their compatibility in the overall operation of a MEMS component. This study provides a reciprocal analysis FeMEMS (MEMS based on ferroelectrics) to complete knowledge of these materials in this frequency range. This work makes interest to both the industry and MEMS ferroelectric materials science who is trying to understand the physical mechanisms governing the dielectric properties in terms of losses in this particular range of frequencies.The characterizations of RF-MEMS presented in this thesis have demonstrated the compatibility of MEMS PMN-PT in the frequency range between 500MHz to 10 GHz with very good performance. Using this adaptation, the current technology is able to cover the most important frequency bands: the civil band telecommunication 1 GHz to 5 GHz using the PMN-PT, the X-band satellites between 5 GHz and 15 GHz with PZT and high frequency band of 15 GHz to 40 GHz for the defense with traditional dielectric (Si3N4). MEMS-RF FeMEMS PMN-PT PZE LSMO Au/Pt/Au Ferroelectrics High-k matériels Pyro-chlore Membrane Relaxation Dispersion Pérovskite Diffraction des Rayons X Bande X Perte d’Insertion Perte de Transmission Constante diélectrique RF-MEMS FeMEMS PMN-PT PZT LSMO Au/Pt/Au Ferroelectrics High-k materials Pyrochlores Membrane Relaxation Dispersion Perovskite X-Ray Diffraction X band Insertion Loss Transmission Loss Dielectric constant
30	Mikropáskové vazební směrové a hybridní členy - laboratorní úloha / Microstrip Directional and Hybrid Couplers - a laboratory experiment Orság, Petr January 2008 (has links) The diploma thesis deals with the elaboration of a laboratory experiment with basic types of microstrip directional and hybrid couplers in the frequency range up to tens GHz. The thesis is concerned on branch line directional coupler, rat-race directional coupler, De Rondeho coupler, coupled-line coupler, and Lange directional coupler. Simulated results are confronted with measured results obtained by a skalar network analyzer. From overall findings the relevant laboratory experiment was configured and designed.

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