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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

GUI Application for measuring instrument. : Noise measurement system.

tariq, tariq January 2013 (has links)
The always growing demands on the electronics design of modern electron microscopes cause increased requirements to the measurement tasks in the electronics development of these systems. In this thesis, we report the findings of designing noise measurements setup in Carl-Zeiss, Oberkochen. The aim of this thesis was to explore the design setup for noise measurement and to provide an interface which help us analyze these measurements using C# and agilent multimeter. This was achieved by the construction and evaluation of a prototype for a noise measurment application. For this purpose Design Science Research (DSR) was conducted, situated in the domain of noise measurement research. The results consist of a set of design principles expressing key aspects needed to address when designing noise measurement functionality. The artifacts derived from the development and evaluation process each one constitutes an example of how to design for noise measurement functionality of this kind.
2

Frequency synthesis applications of SiGe BiCMOS processes

Horst, Stephen J. 07 November 2011 (has links)
Silicon Germanium BiCMOS technology has been demonstrated as an ideal platform for highly integrated systems requiring both high performance analog and RF circuits as well as large-scale digital functionality. Frequency synthesizers are ideal candidates for this technology because the mixed-signal nature of modern frequency synthesis designs fundamentally requires both digital and analog signal processing. This research targets three areas to improve SiGe frequency synthesizers. A majority of this work focuses on applying SiGe frequency synthesizers to extreme environment applications such as space, where low temperatures and ionizing radiation are significant design issues to contend with. A second focus area involves using SiGe HBTs to minimize noise in frequency synthesizer circuits. Improved low frequency "pink" noise in SiGe HBTs provide a significant advantage over CMOS devices, and frequency synthesis circuits are significantly affected by this type of noise. However, improving thermal "white" noise is also considered. Finally, an analysis of AM-PM distortion is considered for SiGe HBTs. The studies presented focus on identifying the physical mechanisms of observed phenomena, such as single event transients or phase noise characteristics in oscillators. The ultimate goal of this research is to provide a reference of effective design parameters for circuit and system designers seeking to take advantage of the properties of SiGe device physics.
3

Slug flow induced corrosion studies using electrochemical noise measurements

Deva, Yashika Poorvi January 1995 (has links)
No description available.
4

Modelocked external-cavity semiconductor laser noise characterization and application to photonic arbitrary waveform generation

Yilmaz, Tolga 01 April 2003 (has links)
No description available.
5

Šumová diagnostika PN přechodu usměrňovacích diod / Noise diagnostics of rectifier diodes PN junctions

Klimíček, Jaromír January 2008 (has links)
The thesis deals with the design of the measurement installation, which is intended for the microplasma noise measurements. This noise is being generated in the defective parts of the PN junction. The goal of this work is to design the measurement installation and to realize the fully functional workbench for the analogical noise related measurements and to determine the transfer function of the measurement installation. Main part of the work is to choose proper parameters for the measuring devices and to design the software intended for the automated measurements. Consequently, we have to process the measured waveforms of the microplasma noise, to determine the dependency of the noise on the signal magnitude and to calculate the power spectral noise density. Finally, we have to determine the transfer function of the measurement installation and to design the inversion filter.
6

Avaliação da exposição ocupacional ao ruído em atividades que utilizam fones de ouvido (headsets e headphones). / Evaluation of noise occupational exposure in activities that involve communication through headsets and headphones.

Felicio, Jair 05 June 2008 (has links)
Com o avanço técnico-científico e a necessidade de rapidez nas comunicações dos diversos segmentos da economia e da vida moderna, a utilização de fones de ouvido não se restringe mais somente aos serviços de Telefonia (telefonistas, atendentes, técnicos e cabistas), operadores de telemarketing ou teleatendimento, mas também a outras profissões como pilotos de aeronaves e de helicópteros, músicos, operadores de áudio e vídeo, além de profissionais de inúmeras outras atividades que necessitam utilizar fones para comunicações, como na indústria naval, do petróleo, da mineração (telemineração, mineração remota), etc. Com isso, a avaliação de risco de surdez ocupacional deve ser adequada à realidade de milhares de pessoas hoje envolvidas com a utilização de fones de ouvido. Essa questão se amplia quando se considera uma legião de pessoas que diariamente passa horas ouvindo música em seus tocadores digitais de música com o volume tão alto que qualquer um ao lado delas pode também ouvir os mesmos sons. Principalmente devido aos outros tipos de exposição, mais difundidos, a exposição ocupacional ao ruído é um assunto bastante discutido, e há, inclusive, critérios adequados de avaliação dos níveis sonoros, que estão, no entanto, voltados para os sons que podem ser medidos na zona auditiva em campo aberto, mas não no interior do pavilhão auricular, que é o caso do presente trabalho. Considerando tal lacuna relacionada aos critérios adotados na avaliação dos níveis sonoros, este trabalho objetiva: estudar os trabalhos sobre as medições sonoras que são atualmente realizadas no interior do pavilhão auricular; demonstrar que o estudo da avaliação do nível sonoro em atividades que utilizam fones de ouvido ainda é incipiente, complexo e oneroso; identificar qual(is) norma(s) é(são) mais adequada(s) para avaliar os níveis de ruído em fones. Para tanto, fez-se uma revisão da literatura, utilizando como materiais e métodos, de forma comparativa, os resultados das experiências e dos estudos do autor e de outros especialistas frente às normas disponíveis pertinentes relativas aos critérios metodológicos de medição dos níveis de ruído em fones de ouvido. Concluindo, esta pesquisa traz importantes parâmetros necessários para uma avaliação confiável e subsídios para o desenvolvimento de uma Instrução Técnica ou elaboração de uma Norma de Higiene Ocupacional NHO específica para este tipo de avaliação. / New electronic technologies have improved the communication systems in general ways, and consequently sound devices have become better, cheaper and widely used. In the professional field, millions of workers use every day headsets and headphones talking to clients, transmitting information and news to control centers, and also listening music. It is a common practice among telephone operators, telemarketing attendees, pilots, musicians, police officers, etc; also, young people using modern sound and video players with individual speakers. If on one side the communication systems are much better, on other way the sound pressure levels inside of headsets or headphones are a big concern, especially when people are listening their favorite songs. Sometimes the sound levels are so high that anyone around is able to listen its music. It is a fact very known that the acoustic energy may destroy the cochlea cells after long noise exposures at high levels. Therefore, million of users of those electronic apparatus are exposure to a potential hearing loss risk in spite of experimenting pleasure moments or just doing their job. The problem of hearing losses is more complicate to headset or headphone users because there is not criterion very well established as it is common to general workers. The standards for prevention of hearing losses are addressed to environment noise that is measured outside of the auricular pavilion. The technology applied to measure sound levels inside of auricular pavilion is complex and there are a few instruments available in the market. However, the most important limitation is absence of technical criteria that define which acoustic situations could be considered a hearing loss risk. Considering all these limitations, this paper has the following objectives: review technical articles that present evaluations of noise inside of auricular pavilion; demonstrate that published studies in this matter are embryonic face to complexity and costs involved with; identify the most appropriate standard to evaluate noise levels inside of auricular pavilion. Thus, the Material and Methods adopted in this paper are based on a comparative review of the literature available, including results from experiences developed by the own author, and other data published by several experts. The numbers, records and levels, etc presented here are related to the respective methods or criteria. Therefore, the information, data, discussion, analyses, and conclusions presented in this paper are addressed to motivate new studies and debates that may result in a new national or international standard easier and less expensive than those are complied today. New proceedings should be developed with clear instructions that avoid misunderstanding and guide different practitioners to reproduce studies with similar methodologies. Concluding, this paper introduces important parameters that are necessary to evaluate noise generated by headphones in workplaces, and, also, gives some guidelines and subsidies to develop a measuring procedure or a technical standard related to occupational hygiene in this matter.
7

Avaliação da exposição ocupacional ao ruído em atividades que utilizam fones de ouvido (headsets e headphones). / Evaluation of noise occupational exposure in activities that involve communication through headsets and headphones.

Jair Felicio 05 June 2008 (has links)
Com o avanço técnico-científico e a necessidade de rapidez nas comunicações dos diversos segmentos da economia e da vida moderna, a utilização de fones de ouvido não se restringe mais somente aos serviços de Telefonia (telefonistas, atendentes, técnicos e cabistas), operadores de telemarketing ou teleatendimento, mas também a outras profissões como pilotos de aeronaves e de helicópteros, músicos, operadores de áudio e vídeo, além de profissionais de inúmeras outras atividades que necessitam utilizar fones para comunicações, como na indústria naval, do petróleo, da mineração (telemineração, mineração remota), etc. Com isso, a avaliação de risco de surdez ocupacional deve ser adequada à realidade de milhares de pessoas hoje envolvidas com a utilização de fones de ouvido. Essa questão se amplia quando se considera uma legião de pessoas que diariamente passa horas ouvindo música em seus tocadores digitais de música com o volume tão alto que qualquer um ao lado delas pode também ouvir os mesmos sons. Principalmente devido aos outros tipos de exposição, mais difundidos, a exposição ocupacional ao ruído é um assunto bastante discutido, e há, inclusive, critérios adequados de avaliação dos níveis sonoros, que estão, no entanto, voltados para os sons que podem ser medidos na zona auditiva em campo aberto, mas não no interior do pavilhão auricular, que é o caso do presente trabalho. Considerando tal lacuna relacionada aos critérios adotados na avaliação dos níveis sonoros, este trabalho objetiva: estudar os trabalhos sobre as medições sonoras que são atualmente realizadas no interior do pavilhão auricular; demonstrar que o estudo da avaliação do nível sonoro em atividades que utilizam fones de ouvido ainda é incipiente, complexo e oneroso; identificar qual(is) norma(s) é(são) mais adequada(s) para avaliar os níveis de ruído em fones. Para tanto, fez-se uma revisão da literatura, utilizando como materiais e métodos, de forma comparativa, os resultados das experiências e dos estudos do autor e de outros especialistas frente às normas disponíveis pertinentes relativas aos critérios metodológicos de medição dos níveis de ruído em fones de ouvido. Concluindo, esta pesquisa traz importantes parâmetros necessários para uma avaliação confiável e subsídios para o desenvolvimento de uma Instrução Técnica ou elaboração de uma Norma de Higiene Ocupacional NHO específica para este tipo de avaliação. / New electronic technologies have improved the communication systems in general ways, and consequently sound devices have become better, cheaper and widely used. In the professional field, millions of workers use every day headsets and headphones talking to clients, transmitting information and news to control centers, and also listening music. It is a common practice among telephone operators, telemarketing attendees, pilots, musicians, police officers, etc; also, young people using modern sound and video players with individual speakers. If on one side the communication systems are much better, on other way the sound pressure levels inside of headsets or headphones are a big concern, especially when people are listening their favorite songs. Sometimes the sound levels are so high that anyone around is able to listen its music. It is a fact very known that the acoustic energy may destroy the cochlea cells after long noise exposures at high levels. Therefore, million of users of those electronic apparatus are exposure to a potential hearing loss risk in spite of experimenting pleasure moments or just doing their job. The problem of hearing losses is more complicate to headset or headphone users because there is not criterion very well established as it is common to general workers. The standards for prevention of hearing losses are addressed to environment noise that is measured outside of the auricular pavilion. The technology applied to measure sound levels inside of auricular pavilion is complex and there are a few instruments available in the market. However, the most important limitation is absence of technical criteria that define which acoustic situations could be considered a hearing loss risk. Considering all these limitations, this paper has the following objectives: review technical articles that present evaluations of noise inside of auricular pavilion; demonstrate that published studies in this matter are embryonic face to complexity and costs involved with; identify the most appropriate standard to evaluate noise levels inside of auricular pavilion. Thus, the Material and Methods adopted in this paper are based on a comparative review of the literature available, including results from experiences developed by the own author, and other data published by several experts. The numbers, records and levels, etc presented here are related to the respective methods or criteria. Therefore, the information, data, discussion, analyses, and conclusions presented in this paper are addressed to motivate new studies and debates that may result in a new national or international standard easier and less expensive than those are complied today. New proceedings should be developed with clear instructions that avoid misunderstanding and guide different practitioners to reproduce studies with similar methodologies. Concluding, this paper introduces important parameters that are necessary to evaluate noise generated by headphones in workplaces, and, also, gives some guidelines and subsidies to develop a measuring procedure or a technical standard related to occupational hygiene in this matter.
8

Šíření hluku z objektu pro chov prasat do okolního prostředí. / The spread of noise from building where the breeding pigs are kept into surrounding enviroment.

VÁVRA, Michal January 2012 (has links)
This thesis deals with the evaluation of noise pollution caused by the operation of pig farm in the village Ponedrazka. The aim of this study was to measure noise at predetermined locations, its evaluation and comparison with the current legislative notice. Measurements were carried out during the vegetation growing season as well as during non vegetation season.
9

Chov skotu bez tržní produkce mléka z hlediska hlukové zátěže okolního prostředí. / Cattle suckler from the aspect of noise pollution surroundings.

POUZAR, Vlastimil January 2011 (has links)
This work concerns the evaluation of noise pollution surroundings of the company in foothills the Šumava, which deal of cattle suckler. The base of this work is the noise measurements at selected sites and his evaluation. The part of this work is the questionnaire survey in the surrounding pastures.
10

The Nordic Prediction Method For Railway Traffic Noise : Improvements of the current corrections forrailway bridges, switches and crossings

HELGADÓTTIR, KRISTÍN, BJÖRNSDÓTTIR, RAGNHEIÐUR January 2019 (has links)
Railway noise is a very important and growing health hazard in today´s society.Railway systems pass through towns and cities and create noise. When trainsride through or over railway bridges, switches and crossings the noise increasessubstantially, causing great annoyance to the residents in the area.At the present time, acoustic regulations exist in most countries and are set to achievea good environmental quality in residential areas, schools, hospitals, offices andhotels.A few calculation models exist for railway traffic noise, such as The NPM 1996,NORD2000 and Cnossos-EU. The NPM 1996 is currently used in Sweden to calculatenoise propagation from railway traffic. To uphold the regulations set, it is importantthat the method used is as precise as possible. All of these calculation modelsare based on several correction factors. Today, the current corrections for trackconditions, that is railway bridges, switches and crossings, are not very accurate andneed to be reconsidered.The aim of this project was to investigate and quantify the error of the NPM correctionfactors and give some indication of how they should be adjusted. This is done to makethe noise prediction from railway traffic more accurate and thus protect the residentsfrom these health risks.The specific objective was to perform significant amount of field measurements ofnoise from trains on different steel bridges, switches and crossings, as well as on afew concrete bridge according to the measurement standard Nordtest NT 098. Thefield work was carried out over the period March to May, when weather conditionsmet the criteria for field measurements, in and around the Stockholm area.The results obtained revealed that the correction factors for steel bridges andcrossings are considerably lower in the NPM than measured in this project. However,the correction factors for switches and concrete bridges are similar to the ones inthe NPM. In this thesis, a part of the correction factors have only been invalidatedto a degree. It has been shown that each bridge is unique and perhaps there is apossibility of finding similarities between some type of bridges. However, much moreiv |measurements are needed to see any correlation between each bridge type. Thus,further and more comprehensive measurements have to be carried out in order toestablish new accurate correction factors for track conditions in the Nordic PredictionMethod.

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