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31	Srovnání přístrojových transformátorů proudu a proudových senzorů s ohledem na funkci rozdílové ochrany / Comparison of Instrument Transformers and Current Sensors with Respect to the Function of Differential Protection Rajchman, Zbyněk January 2012 (has links) Current transformers and current sensors are devices which are mostly used for current measurement in high voltage systems. These devices transform measured currents to range which are workable for measurement and protection devices. Theoretical part includes from third to seventh chapter. These chapters contain construction analysis and characteristic points for both device and problems of protecting the transformer with differential protection. Practical part includes from eighth to tenth chapter. This chapter consists results from laboratory measurement. Results are used for verification with theoretical part of the thesis. Conclusion of this thesis comparing properties and summarises results from laboratory measurement.
32	Spínaný zdroj 5,5kV/4,3kW s polovodiči z karbidu křemíku / Switching supply source 5,5kV/4,3kW with silicon-carbide semiconductors Gabriel, Petr January 2013 (has links) This thesis is about to introduce the development of switched power supply with output voltage of 5,5 kV and power of 4,3 kW. This thesis directly follows the outputs of two previous semester projects. Main task is about to finish the development of remaining printed circuit boards and perform launching of all parts of developed power supply. Next necessary task is about to assemble a functional prototype of the supply using the developed parts, performing a series of measurement supply’s parameters and creating of technical documentation of mechanical part. There are all stages of supply’s development included in this thesis. From the first part, that describes various types of converters, through the design of all the supply’s parts, to final implementation of functional prototype. There are the results of measurement supply’s parameters at the end of this thesis.
33	Process monitoring of turbine blades : Monitoring of blade tip clearance using eddy current sensors Andersson, Hampus January 2022 (has links) This thesis has been a collaboration between the Royal Institute of Technology (KTH) and Siemens Energy which invest in the research facility at KTH. The objective was to investigate the use of eddy current sensors in real-time monitoring of turbine blades. The main focus has been on finding a use for blade tip clearance and a correlation for the insufficient sampling that eddy current sensors suffer from. At the same time, it was desirable to also investigate the use of the same sampled data for blade tip vibration. The research on eddy current sensors is important for their relative low price compared to other instruments and how resistance it is to contamination found in turbines, enabling real-time monitoring. The testing has been conducted at the Energy Technology department which utilizes a scaled version of a full-sized turbine to investigate performance measurements. It is scaled to have the same stage loading for both blisks investigated. Two different blisks have been used for this project, one with thicher but fewer blades and one with thinner but more blades. On each blisk different types of sampling have been done in order to capture suitable data for both tip timing and tip vibration. This resulted in sampling with static RPM and sweeps over certain regions as well as full sweeps from design RPM to standstill. A computer model was developed to evaluate the sampled data. In the model, the sample points were interpolated to compensate for the insufficient sampling, enabling tip gap measurements. Measurements and calibration were done on the blisks for the possibility of using a compensation curve in order to be able to compensate for the signal error. The results show that eddy current sensors and setup used here have a good capability of capturing the tip clearance with precision in the range of hundreds of millimeter on the blisk with thicker blades and up to a certain rotational speed on the blisk with thinner blades. In regards to the tip vibration, eddy current system had problems capturing the time of arrival with sufficient precision correctly. / Den här uppsatsen har varit ett sammarbete mellan Kunglig Tekniska Högskolan (KTH) och Simens Energy vilka investerar i forskningen som bedrivs på KTH. Målet var att undersöka användningen av eddy current sensors för övervakning av turbinbliskar. Huvudfokus har varit att hitta användning av sensorerna för topspelsmätningar och ta fram en korregering av den otillräckliga insamlingen av data som eddy current sensorer lider av. Samtidigt var det önskvärt att samtidigt undersöka samma insamlade data för att utvärdera bladvibrationer. Forskning på eddy current sensorer är viktig för dess relativt låga pris jämfört med andra alternativ samt att de dess höga motståndskraft mot smuts som ofta finns i miljöer där turbiner används. Testerna har gjorts på instutitionen för Energiteknik vilka använder en nedskalad versioner av den verkliga storleken på turbinen för att utföra mätningar på. Två olika bliskar har använts för detta projekt, en med grövre men färre blad samt en med tunnare och fler blad. Stegbelastningen är dock samma för båda. På båda bladen har olika typer mätningar gjorts för att kunna fånga passade data för båda topspelsmätningar och bladvibrationer. Detta gav data med statiskt varvtal, långsamma svepningar över specialla regioner och svepningar över från designvarvtal ner till stillastående. En datormodell har utvecklats för utvärdera insamlade data. I modellen sker en interpolering som kompenserar för de låga antalet samplade punkter på bladet. Mätnigar och kalibreringar är gjorda på bliskarna för att skapa en kompenseringskurva åt signalfel i utdatan. Resultatet visar att eddy current systemet har goda möjligheter att visa rätt toppspel med god precition för blisken med tjocka blad och upp till ett visst varvtal på den med tunnare blad. När det kommer till bladvibrationer hade sensorerna och datormodellen svårt att fånga rätt ankomst tid för bladet med tillräckligt hög precision. Blade tip clearance Blade tip timing Eddy current sensor Turbine monitoring Maintenance. Bladtoppspel Bladvibrationer Eddy current sensorer Turbinövervakning Underhåll. Engineering and Technology Teknik och teknologier
34	Redes de período longo em fibras ópticas aplicadas ao sensoriamento de corrente elétrica em Vant’s Delgado, Felipe de Souza 24 August 2017 (has links) Submitted by Renata Lopes (renatasil82@gmail.com) on 2017-10-02T19:31:50Z No. of bitstreams: 1 felipedesouzadelgado.pdf: 2621698 bytes, checksum: f2d2c40acc8fdf80a70c9f39aabc0cc9 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2017-10-09T19:46:37Z (GMT) No. of bitstreams: 1 felipedesouzadelgado.pdf: 2621698 bytes, checksum: f2d2c40acc8fdf80a70c9f39aabc0cc9 (MD5) / Made available in DSpace on 2017-10-09T19:46:37Z (GMT). No. of bitstreams: 1 felipedesouzadelgado.pdf: 2621698 bytes, checksum: f2d2c40acc8fdf80a70c9f39aabc0cc9 (MD5) Previous issue date: 2017-08-24 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Esta dissertação apresenta a produção de redes de período longo em fibras ópticas por descargas de arcos elétricos e o seu uso em aplicações de sensoriamento de corrente em veículos aéreos não tripulados. Os aspectos teóricos fundamentais para o entendimento das redes de período longo são apresentados. Além disso, discutiu-se os diferentes tipos de acoplamentos de energia que podem ocorrer em uma rede de período longo e também, os mecanismos responsáveis pela formação dessas redes produzidas por descargas de arco elétrico. A fabricação de redes de período longo utilizando a técnica de arco elétrico foi descrita e o comportamento da perda dependente da polarização das redes produzidas foi investigado. Além disso, é apresentado um novo método para a produção de redes de período longo com perda dependente da polarização reduzida. Constatou-se que por meio de alterações no ângulo de incidência das descargas elétricas na fibra óptica em relação à um ponto de referência, é possível promediar os efeitos induzidos pontualmente por cada descarga de arco elétrico e assim, reduzir a perda dependente da polarização intrínseca dessas redes. Por fim, é apresentada a aplicação de uma rede produzida por arco elétrico combinada a um ímã de neodímio, compondo um novo dispositivo de sensoriamento para medir a corrente elétrica exigida pelos motores elétricos de um veículo aéreo não tripulado. / This dissertation presents the fabrication of long-period fiber gratings through electric arc discharges and their application in current sensing in unmanned aerial vehicles. The theoretical aspects of long-period gratings are presented. Besides, we discussed the different types of coupling that could occur in a long-period fiber grating, as well as the mechanisms responsible for the formation of the gratings produced by electric arc discharges. The manufacture process of the long-period gratings using the electric arc technique was described and the behavior of the polarization dependent loss of these gratings was investigated. In addition, a new method for the production of long period gratings with reduced polarization dependent loss is introduced. It has been found that by changing the incidence angle of the electric discharges in the optical fiber in relation to a reference point, it is possible to average the effects induced by each electric arc discharge and, therefore, reducing the intrinsic polarization dependent loss of these gratings. Finally, the application of a grating produced by electric arc combined with a neodymium permanent magnet is presented. This combination allows us to measure the electric current required by a motor of an unmanned aerial vehicle. CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA Redes de período longo Fibra óptica Sensores ópticos Perda dependente da polarização Sensor de corrente elétrica Veículo aéreo não tripulado Long-period grating Optical fiber Optical sensors Polarization dependent loss Current sensor Unmanned aerial vehicle
35	Zazen pro diagnostiku asynchronnch motor / Device for diagnostic of induction machine Buln, Tom January 2014 (has links) The aim of the thesis is to study the problems of induction motors, which belong among the most widespread and used machines. Due to their expansion, it is advisable to start the fault monitoring to prevent any more damage and losses. It can be used for condition monitoring different types of methods, which are variety technically and costly demanding to implement. It is used the method of measurement using stator currents in this thesis, because these currents are already monitored and it is easy to create devices for a more detailed analysis. The whole monitoring is carried out using products from National Instruments. The program of monitoring is created in graphical setting of LabVIEW. The analysis is conducted by calculating the Fast Fourier transform of the time signal. The result is the frequency spectrum, which contains frequency peaks and some of these peaks represent failure. The test data are collected with a DAQ device and then the same data are used for creating a methodology for evaluating online analysis and it is subsequently implemented into CompactRIO.
36	Employment of dual frequency excitation method to improve the accuracy of an optical current sensor, by measuring both current and temperature. Karri, Avinash 12 1900 (has links) Optical current sensors (OCSs) are initially developed to measure relatively large current over a wide range of frequency band. They are also used as protective devices in the event a fault occurs due to a short circuit, in the power generation and distribution industries. The basic principal used in OCS is the Faraday effect. When a light guiding faraday medium is placed in a magnetic field which is produced by the current flowing in the conductor around the magnetic core, the plane of polarization of the linearly polarized light is rotated. The angle of rotation is proportional to the magnetic field strength, proportionality constant and the interaction length. The proportionality constant is the Verdet constant V (λ, T), which is dependent on both temperature and wavelength of the light. Opto electrical methods are used to measure the angle of rotation of the polarization plane. By measuring the angle the current flowing in the current carrying conductor can be calculated. But the accuracy of the OCS is lost of the angle of rotation of the polarization plane is dependent on the Verdet constant, apart from the magnetic field strength. As temperature increases the Verdet constant decreases, so the angle of rotation decreases. To compensate the effect of temperature on the OCS, a new method has been proposed. The current and temperature are measured with the help of a duel frequency method. To detect the line current in the conductor or coil, a small signal from the line current is fed to the reference of the lock in. To detect the temperature, the coil is excited with an electrical signal of a frequency different from the line frequency, and a small sample of this frequency signal is applied to the reference of the lock in. The temperature and current readings obtained are look up at the database value to give the actual output. Controlled environment is maintained to record the values in the database that maps the current and temperature magnitude values at the DSP lock in amplifier, to the actual temperature and current. By this method we can achieve better compensation to the temperature changes, with a large dynamic range and better sensitivity and accuracy. accuracy optical current sensor Dual frequency excitation method improvement current measurement temperature Faraday effect. Magnetooptics. Electromagnetic waves -- Polarization. Electronic excitation. Transducers.
37	Experimentální elektromagnetické vystřelovací zařízení s více stupni / Experimental electromagnetic acceleration device with more stages Kovařík, Martin January 2018 (has links) This master thesis deals with design and realization of multistage electromagnetic accelerating device (gun) and possibilities to increase its effectivity. This work contains a simulation of a magnetic circuit and designs of each components, inclusive of control circuits. Reached effectivity will be measured by appropriate methods.
38	Porovnání konvenčních PTP a PTN s proudovými a napěťovými senzory / Comparison of conventional CT and VT with current and voltage sensors Dvořák, Petr January 2019 (has links) The diploma thesis deals with conventional transformers and current and voltage sensors. The first half of thesis describes mainly the basic concepts and accuracy classes of these converters used in electrical substations. The emphasis is given primarily on the differences. In the second half of thesis is presented an exact type of converters, which are installed in the substation Medlánky. There is an analysis of measured data from long – term monitoring from this substation and comparing the results from conventional transformers compared to the results from more modern sensors.
39	Využití a potlačování dvojlomných jevů v optovláknových senzorických aplikacích / Utilization and Suppression of Birefringence Phenomena in Optical Fiber Sensory Applications Motúz, Rastislav January 2019 (has links) The thesis deals with integral and distributed optical fiber sensors of electric current. In the area of integral sensors the analysis is performed by Jones matrix calculus and the simultaneous influence of induced circular and undesired linear birefringence using an ortho-conjugation retroreflector. Furthermore, the proposed conjugation loop variant using half-wave phase retarders is analyzed. The theoretical conclusions are confirmed by simulation and experimental measurement. In the field of distributed fiber optic sensors, analysis and simulation for the detection of plasma currents in thermonuclear fusion reactors, based on the POTDR technique, is performed. An improvement procedure is proposed for circular-shaped vacuum vessel reactors. Plasma current detection procedure in divertor-type reactors have been newly designed and simulated to investigate the effect of the OTDR detector noise on plasma current detection accuracy.
40	Entwurf von physikalischen und chemischen Modellen für die Impedanzspektroskopie Tröltzsch, Uwe 07 July 2015 (has links) Die Modellierung natürlicher und technischer Systeme spielt eine wichtige Rolle, um deren Verhalten zu simulieren und vorherzusagen. Die Impedanzspektroskopie ist in diesem Zusammenhang eine interessante Methode, da die Impedanz oft einfach messbar ist. Die herausfordernde Aufgabe ist die Interpretation gemessener Daten. Das Verständnis des Zusammenhanges zwischen realen Effekten und gemessener Impedanz anhand eines Impedanzmodells ist eine zentrale Problemstellung. Die Herleitung solcher Modelle wird in dieser Arbeit anhand drei verschiedenartiger Beispiele aus dem Gebiet der Messtechnik untersucht. Wirbelstromsensoren werden allgemein zur Messung von Abstand und Materialeigenschaften eingesetzt. Anhand eines Modells wird untersucht, wie diese Größen simultan bestimmbar sind. Die Messung der Zusammensetzung von Materialgemischen ist vielfach technisch relevant. Am Beispiel von Waschlaugen und Dispersionen mit Carbon Nano Tubes wird gezeigt, wie deren Zusammensetzung die Impedanz beeinflusst und welche Eigenschaften messbar sind. Batterien spielen eine wichtige Rolle zur Speicherung elektrischer Energie. Mit einem fraktionalen Differentialgleichungsmodell erfolgt eine Simulation der Batteriespannung unter wechselnden Einsatzbedingungen. Anhand der Anwendungen wird deutlich, dass es keinen Automatismus zur Modellerstellung und kein Modell für alles geben kann. Um so mehr liefert das vorgeschlagene Vorgehen einen Einstieg in die Modellerstellung. / Modeling natural and technical systems is important in order to simulate and predict their behavior. Impedance spectroscopy is an interesting method in the field of modeling because the impedance often is easily measurable. Nevertheless, interpretation of measured data is the challenging task in this field. The fundamental problem is understanding the relationship between real physical effects, measured impedance and impedance model. Fundamentals and advanced methods for deriving impedance models are investigated for three different problems in the field of measurement and sensor technology in this work. Eddy current sensors are commonly used to measure distance and material properties. Based on a model, it is investigated how these quantities can be determined simultaneously. Measuring the composition of material mixtures has many technical applications. Using the example of dispersions containing laundry detergents and dispersions with carbon nanotubes shows how their composition effects the impedance and measurable quantities. Batteries play an important role for storing electrical energy. Applying a fractional differential equation model allows a simulation of the battery voltage under varying operating conditions. Based on these applications it becomes clear, there can be no fully automated model creation method. A scientific analysis of the underlying problem is always required. The more the proposed approach provides an introduction to modeling. info:eu-repo/classification/ddc/537 ddc:537 info:eu-repo/classification/ddc/607 ddc:607 info:eu-repo/classification/ddc/620 ddc:620

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