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Design, Fabrication, and Testing of an Integrated Optical Hydrogen and Temperature SensorCarriere, Nicholas 21 November 2013 (has links)
In this thesis, the details of the design, fabrication, and characterization of an optical, integrated hydrogen gas and temperature sensor are explored. The hydrogen sensor is implemented by
coating a ridge waveguide with a thin layer of palladium and shows very good response time and detection response for hydrogen concentrations ranging from 0.5-4%, both of which compare very favourably to similar existing technologies. Multiple film thicknesses were tested and it
was found that thinner films give a faster response time at the expense of a reduced detection
response. The temperature sensor is implemented with a multi-mode interferometer coupled ring resonator and has a sensing range of 100 K with good sensitivity. Both sensors are fabricated on a silicon-on-insulator platform and could easily be integrated together onto a single chip as part of an optical nose technology that would have the ability to sense multiple environmental factors simultaneously.
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[en] OPTICAL SENSOR TEMPERATURE ANALYSIS USING COUPLED MODES / [pt] ANÁLISE DE UM SENSOR ÓTICO DE TEMPERATURA PELA TEORIA DOS MODOS ACOPLADOSTARCISIO MARTINS DANTAS 15 December 2006 (has links)
[pt] Apresenta-se aqui um modelamento teórico para
descontinuidades na casca de guias dielétricos, tanto para
o Slab quanto para fibra ótica, propondo-se apenas estudar
o comportamento do modo fundamental em ambas as estruturas.
Todo o desenvolvimento é feito a partir da
expansão das componentes transversais de campo segundo
coeficientes de acoplamento. A análise de tais
coeficientes descrevem as potências de transmissão e
reflexão da descontinuidade. Em seguida, aplica-se as
condições de contorno à descontinuidade para solucionar o
conjunto de equações integro-diferenciais formado pela
expansão.
Tal modelamento é útil no desenvolvimento de sensores de
temperatura onde a ponta sensora é exatamente a estrutura
estudada.
Comparações qualitativas são feitas entre os
resultados teóricos e medidas feitas em laboratório com
este tipo de sensor. / [en] We show here a theoretical model for descontinuity in clad
of dielectric guides, for Slab as much as optical fiber.
We just studied the behavior of dominant mode, in both
structures.
All development is done starting with expansion of
transversal components fo field according to the coupled
coefficients.
The analysis of such coefficients shows the transmission
powers and descontinuity reflexion. Next, we apply the
boundary value problems to descontinuity to solve the sets
integro-differential equations formed by the expansion.
This model is useful in the development fo temperature
sensors, where the sensor is exactly the studied structure.
Qualitative comparisons are done between the theoretical
results and the experimental measures using the kind of
sensor.
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Automatizace domu / Home AutomationRástočný, Martin January 2017 (has links)
This thesis analysis a theoretical basis of the home automatization. The thesis contains the overview of commercial realizations of an intelligent house. The thesis also contains design of device, which could distinguish low and high tariff. Design of device is focused on wireless control of aquarium. In the following chapters a overview of components, design of circuits, practical realization and test of whole system.
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Acoustic Waveguides and Sensors for High Temperature and Gamma Radiation EnvironmentHe, Jiaji 12 January 2021 (has links)
Sensing in harsh environments is always in great need. Although many sensors and sensing systems are reported, such as optical fiber sensors and acoustic sensors, they all have drawbacks. In this dissertation, fused quartz and sapphire acoustic waveguides and sensors are developed for high temperature and heavy gamma radiation. The periodic structure, acoustic fiber Bragg grating (AFBG), is the core sensor structure in this dissertation. To better analyze the propagation of acoustic waves, the acoustic coupled more analysis is proposed. It could solve for the reflection spectrum of the AFBG with at most 2.1% error.
For the waveguide, the fused quartz "suspended core" waveguide is designed. It achieved strong acoustic energy confinement so surface perturbations no longer affected the wave propagation. Single crystal sapphire fiber features low acoustic loss, and survivability under high temperature. It is also chosen as an acoustic waveguide.
AFBGs are fabricated in both waveguides. The fused quartz suspended core AFBG is shown to sense temperature up to 1000 C and to have stable reading at 700 C for 14 days. The sapphire AFBG as a temperature sensor works up to 1500 C and also provides continuous stable reading at 1100 C for 12 days. Both waveguides with AFBGs are then tested under long-term gamma radiation. Despite some fluctuations from radiation-related causes, the readings of both sensors generally remain stable. Given the experimental observations, the fused quartz AFBG waveguide and the sapphire AFBG waveguide are shown to work well in high temperature and gamma radiations. / Doctor of Philosophy / Sensing in harsh environments, like high temperature, high pressure, and corrosive environment, is always in great need. Efficient and safe operation of instruments like nuclear reactors could be better secured. Although many sensors and sensing systems are reported, such as optical fiber sensors and acoustic sensors, they all have drawbacks so new designs are constantly in need.
In this dissertation, silica (a glass commonly acquired by melting sand) and sapphire (used in iphone screens due to its transparency and hardness) acoustic waveguides and sensors are developed. A periodic structure known as acoustic fiber Bragg grating (AFBG) is the core sensor structure in this dissertation. A calculation method is proposed first. Acoustic wave needs a waveguide to propagate somewhere further, and a new waveguide structure is made to keep the acoustic energy within the very center of the waveguide, so any change on the outer surface does not affect the wave inside. Also, sapphire has good acoustic property and is used.
The AFBGs are fabricated in both waveguides. These sensing waveguides are shown to work at >1000 C temperature and provide stable reading for more than 10 days. Long term exposure to gamma radiation for weeks or months resulted in stable performances. Therefore, it is concluded that silica and sapphire waveguide sensors are successfully developed for high temperature and nuclear radiation applications.
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Sapphire Fiber Optic Sensor for High Temperature MeasurementTian, Zhipeng 10 January 2018 (has links)
This dissertation focuses on developing new technologies for ultra-low-cost sapphire fiber-optic high-temperature sensors. The research is divided into three major parts, the souceless sensor, the simple Fabry-Perot (F-P) interrogator, and the sensor system.
Chapter 1 briefly reviews the background of thermal radiation, fiber optic F-P sensors, and F-P signal demodulation. The research goal is highlighted.
In Chapter 2, a temperature sensing system is introduced. The environmental thermal radiation was used as the broadband light source. A sapphire wafer F-P temperature sensor head was fabricated, with an alumina cap designed to generate a stable thermal radiation field. The radiation-induced optical interference pattern was observed. We demodulated the temperature sensor by white-light-interferometry (WLI). Temperature resolution better than 1°C was achieved.
Chapter 3 discusses a novel approach to demodulate an optical F-P cavity at low-cost. A simple interrogator is demonstrated, which is based on the scanning-white-light-interferometry (S-WLI). The interrogator includes a piece of fused silica wafer, and a linear CCD array, to transform the F-P demodulation from the optical frequency domain to the spatial domain. By using the light divergence of an optical fiber, we projected a tunable reference F-P cavity onto an intensity distribution along a CCD array. A model for S-WLI demodulation was established. Performance of the new S-WLI interrogator was investigated. We got a good resolution similar to the well-known traditional WLI.
At last, we were able to combine the above two technologies to a sapphire-wafer-based temperature sensor. The simple silica wafer F-P interrogator was optimized by focusing light to the image sensor. This approach improves the signal to noise ratio, hence allows the new integrator to work with the relatively weak thermal radiation field. We, therefore, proved in the experiment, the feasibility of the low-cost sourceless optical Fabry-Perot temperature sensor with a simple demodulation system. / PHD / Temperature measurements for high temperature harsh environments is a challenge industrial task. In this work, a low-cost sapphire fiber high temperature sensor is introduced which uses single crystal sapphire fiber as the light guiding and a sapphire-wafer-based Fabry-Perot (F-P) interferometer as the temperature sensing element. The research goal is to provide an optical sensing system whose price is competitive to the high temperature thermocouples.
Two technologies were developed to reduce the cost of the sensing system, the sourceless sensor head design and the low-cost wafer-based F-P interrogator.
The sourceless sensor head makes use of the environmental thermal radiation as a broadband light source, together with the white light interferometry signal demodulation method, for temperature measurements. In this case, the system avoids using not only an external light, but also the light driver and the light coupling element.
A low-cost F-P cavity interrogation method was introduced to demodulate the sapphire-wafer-based temperature sensing F-P cavity. The signal demodulation is based on the scanning white light interferometry, but a reliable and low-cost reference F-P cavity is introduced. It includes only a piece of transparent wafer and a CCD array to transfer the interference fringe from the spectra domain to the spatial domain and therefore a low cost CCD can be directly applied to identify the optical path distance of the sensing OPD.
Eventually, the above two technologies were able to put together and an extremely low-cost F-P temperature sensing system was built. It has a good potential for further applications and commercialization.
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Distributed temperature sensing with neodymium-doped optical fiberLounsbury, Jimson S. 04 January 2011 (has links)
Polymer electrolyte membrane (PEM) fuel cells are being studied for use as high efficiency power plants in alternative fuel vehicles. To maintain high efficiency the operating temperatures of the membranes in these fuel cells must be closely monitored and controlled. However, the environment inside of the fuel cell is not favorable for traditional temperature sensing, so a new optical-fiber-based, distributed temperature sensor was proposed to address this need.
This thesis investigates the properties of neodymium-doped optical fiber for use as a distributed temperature sensor for PEM fuel cells. The optical absorption spectrum was measured to identify the energy band structure and determine upconversion excitation schemes. The temperature coefficient of the Nd³⁺-doped silica fiber fluorescence decay time was measured for several bands of emission. Finally, two-photon upconversion was attempted from the lower excited states of Nd:YAG and Nd:silica. / Graduation date: 2012
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A Transceiver with Delay Cell and Over-current Protection and A Digital Over-temperature Protector for FlexRay ECUsLin, Sheng-Chih 11 July 2012 (has links)
This thesis is composed of two critical circuit designs for FlexRay ECU (Electron-ics Control Unit), i.e., a transceiver with over-current protection, and a digital over-temperature protection circuit.
Regarding the transceiver with over-current protection, to reduce the glitch prob-lem, we propose to use delay cells in the transmitter. In order to avoid the transmitter current which is higher than the upperbound defined by FlexRay specifications, we propose a current comparator circuit to detect the state where the transmitter should stop sending signals.
The temperature protection is required for FlexRay specifications. We propose an over-temperature circuit in the thesis. By utilizing an oscillator-based structure, fre-quency to digital converter (FDC) circuit is developed as the core of the temperature protection mechanism. It will convert the frequency signal and output the sensed tem-perature in a digital code format. The output frequency at different process and temper-ature corners show a linear feature such that the range and accuracy of temperature de-tection is enhanced.
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CMOS temperature sensor utilizing interface-trap charge pumpingBerber, Feyza 30 October 2006 (has links)
The objective of this thesis is to introduce an alternative temperature sensor
in CMOS technology with small area, low power consumption, and high resolution
that can be easily interfaced. A novel temperature sensor utilizing the interfaceâÂÂtrap
charge pumping phenomenon and the temperature sensitivity of generation current
is proposed.
This thesis presents the design and characterization of the proposed temperature
sensor fabricated in 0.18õm CMOS technology. The prototype sensor is characterized
for the temperature range of 27oCâÂÂ120oC. It has frequency output and exhibits linear
transfer characteristics, high sensitivity, and high resolution. This temperature sensor
is proposed for microprocessor thermal management applications.
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Applications of monolithic fiber interferometers and actively controlled fibersRugeland, Patrik January 2013 (has links)
The objective of this thesis was to develop applications of monolithic fiber devices and actively controlled fibers. A special twin-core fiber known as a ‘Gemini’ fiber was used to construct equal arm-length fiber interferometers, impervious to temperature and mechanical perturbations. A broadband add/drop multiplexer was constructed by inscribing fiber Bragg gratings in the arms of a Gemini Mach-Zehnder interferometer. A broadband interferometric nanosecond switch was constructed from a micro-structured Gemini fiber with incorporated metal electrodes. Additionally, a Michelson fiber interferometer was built from an asymmetric twin-core fiber and used as a high-temperature sensor. While the device could be readily used to measure temperatures below 300 °C, an annealing process was required to extend the range up to 700 °C. The work included development, construction and evaluation of the components along with numerical simulations to estimate their behaviors and to understand the underlying processes. The thesis also explored the use of electrically controlled fibers for filtering in the microwave domain. An ultra-narrow phase-shifted fiber Bragg grating inscribed in a fiber with internal electrodes was used as a scanning filter to measure modulation frequencies applied to an optical carrier. A similar grating was used inside a dual-wavelength fiber laser cavity, to generated tunable microwave beat frequencies. The studied monolithic fiber interferometers and actively controlled fibers provide excellent building blocks in such varied field as in microwave photonics, telecommunications, sensors, and high-speed switching, and will allow for further applications in the future. / Syftet med denna avhandling var att utveckla tillämpningar av monolitiska fiber komponenter samt aktivt kontrollerbara fiber. En speciell tvillingkärnefiber, även kallad ’Geminifiber’ användes för att konstruera fiber interferometrar med identisk armlängd som ej påverkas av termiska och mekaniska variationer. En bredbanding utbytarmultiplexor konstruerades genom att skriva in fiber Bragg gitter inuti grenarna på en Gemini Mach-Zehnder interferometer. Geminifibrer med interna metallelektroder användes för att konstruera en bredbandig nanosekundsnabb interferometrisk fiberomkopplare. Därtill användes en tvillingkärnefiber som en hög-temperatursensor. Även om komponenten direkt kan användas upp till 300 °C, måste den värmebehandlas för att kunna användas upp till 700 °C. Arbetet har innefattat utveckling, konstruktion och utvärdering av komponenterna parallellt med numeriska simuleringar för att analysera deras beteenden samt få insikt om de underliggande fysikaliska processerna. Avhandlingen behandlar även tillämpningar av en elektriskt styrbar fiber för att filtrera radiofrekvenser. Ett ultrasmalt fasskiftat fiber Bragg gitter skrevs in i en fiber med interna elektroder och användes som ett svepande filter för att mäta modulationsfrekvensen på en optisk bärfrekvens. Ett liknande gitter användes inuti en laserkavitet för att generera två olika våglängder samtidigt. Dessa två våglängder användes sedan för att generera en svävningsfrekvens i mikrovågsbandet. De undersökta monolitiska fiberinterferometrarna och de aktivt styrbara fibrerna erbjuder en utmärkt byggsten inom så pass skiljda områden som Mikrovågsfotonik, Telekommunikation, Sensorer samt Höghastighets-omkopplare och bör kunna användas inom många olika tillämpningar i framtiden. / <p>QC 20130226</p>
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Zařízení pro monitorování teploty a vlhkosti s bezdrátovým přenosem dat / Temperature and humidity monitoring devices with wirelless communicationHorváth, Michal January 2020 (has links)
The diploma thesis is about designing device which monitors temperature and humidity. In the first part of thesis are explained basic terms, importance of key variables and on market offered products are described. After that the thesis describes device concept design with schematic designs. From designed schematics are described printed circuit board designs. Next part is about device commissioning and correction of errors caused by incorrect design. Last part is about program designing and device testing.
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