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Suppression of Electromagnetic Interference for a Clock circuit by Using the Spread Spectrum TechniqueHsieh, Heng-chou 25 July 2007 (has links)
With the increasing system clock, a clock circuit will cause an amount of electromagnetic interference. To reduce EMI of the products, various EMI strategies have been developed. In the thesis, we study the suppression of electromagnetic interference of a clock circuit by using the spread spectrum technique. The basic idea of the spread spectrum is to slightly modulate the frequency of the clock signal and the energy of the signal will be dispersed to a controllable range to reduce the peak energy of each harmonic wave in the spectrum, and the products can pass the electromagnetic compatibility test more easily. We obtain the attenuation factor of spread spectrum from the theoretical derivation, including modulation index and modulation profiles. From the numerical simulation, we verify that spread spectrum technique can suppress the peak energy. We propose the attenuation formulas which can control the attenuation of every frequency point. To verify our findings, we use a spread spectrum clock generator from market to perform measurement. The trapezoidal waveform can be used to represent a clock circuit. Its waveform includes rise time and duty cycle. We will discuss the influence of rise time and duty cycle on the spread spectrum technique. Shorter rise time will cause high order harmonics in the high speed clock circuit. We verify that spread spectrum technique can suppress high order harmonics from both the simulation and experiment. Because every harmonic can be suppressed, the spread spectrum technique has the good suppression effect for the whole system.
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Implementation of a Function GeneratorYou, Xin, Wang, Yongchun January 2012 (has links)
Function generator has been widely used in each electronics fields recent years. In this thesis, the authors will introduce some basic structure and working principles of a function generator, moreover a function generator which can create three kinds of wave: sine wave, square wave and triangle wave has been implemented. There are many ways to build the function generator; a method of combine the operational amplifier and discrete components is introduced in this thesis. First use the RC Wien bridge oscillator to achieve sinusoidal wave; and convert it into square wave by using the shaping circuit. Lastly, use the integrating circuit to obtain triangle wave. The basic simulation software Multisim has been used to simulate the circuit.
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Power system dynamic enhancement using phase imbalance series capacitive compensation and doubly fed induction generator-based wind farms2013 April 1900 (has links)
ABSTRACT
Wind energy is among the fastest growing renewable energy technologies in the world that has been increasing by about 30% a year globally. Wind energy has proven to be a clean, abundant and completely renewable source of energy. Owing to the rapidly increasing use of wind power, the aspect of integrating high level of penetrations wind power into the grid is becoming more and more of reality. Examples of large wind farms in the United States are the 781.5 MW Roscoe wind farm in Texas, the 735.5 MW Horse Hollow Wind Energy Center in Taylor and Nolan County, Texas, the 845 MW Shepherds Flat wind farm in Oregon and the 1550 MW Alta wind farm being developed in California.
As most large wind farms in North America employ Doubly-fed Induction Generator (DFIG) wind turbines, their voltage-sourced converter-based back-to-backs offer independent control of the real and reactive power. The use of these control capabilities have been recently proposed for damping power swings, inter-area oscillations as well as subsynchronous resonance. There is, however, a question that is always associated with the use of voltage-sourced converter -based back-to-back wind farms for damping power system oscillations: what happens when there is no wind? The keyword to the answer is “combined”. The potential benefit of using these types of wind farms for damping power system oscillations should always be combined with conventional damping devices (power system stabilizers, thyristor controlled series capacitor, static synchronous series compensator, high voltage dc systems, etc.).
This thesis reports the results of digital time-domain simulation studies that are carried out to investigate the potential use of supplemental controls of DFIG-based wind farms combined with a phase imbalanced hybrid series capacitive compensation scheme for damping power system oscillations. The thesis also addresses the recent concern over the case of large share of wind power generation which results in reducing the total inertia of the synchronous generators and degrading the system transient stability. In this regards, the results of the investigations have shown that in such a case; properly designed supplemental controllers for the wind farm converters could be an asset in improving the system transient stability rather than degrading it.
Time-domain simulations are conducted on a benchmark model using the ElectroMagnetic Transients program (EMTP-RV).
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Negative sequence impedance measurement for distributed generator islanding detectionWrinch, Michael C. 05 1900 (has links)
This thesis presents a method of detecting electrical islands in low voltage distributed generator networks by measuring negative sequence impedance differences between islanded and utility connections. Extensive testing was conducted on a commercial building and 25 kV distributed generator fed network by measuring naturally occurring and artificially injected negative sequence components. Similarly, this technique was tested using the IEEE 399-1990 bus test case using the EMTP software. The practical measurements have been matched to simulations where further system performance characteristics of detecting power system islands has been successfully demonstrated. Measured results indicate that unbalanced load conditions are naturally occurring and readily measurable while deliberately unbalanced loads can increase the accuracy of negative sequence impedance islanding detection. The typically low negative sequence impedance of induction motors was found to have only a small effect in low voltage busses, though large machines can effect the threshold settings. Careful placement of the island detector is required in these situations. The negative sequence impedance measurement method is an improvement on previous impedance measurement techniques for islanding detection due to its accuracy, and distinctly large threshold window which have challenged previous impedance based islanding detection techniques.
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Scratchpad-oriented address generation for low-power embedded VLIW processorsTalavera Velilla, Guillermo 15 October 2009 (has links)
Actualmente, los sistemas encastados están creciendo a un ritmo impresionante y proporcionan cada vez aplicaciones más sofisticadas. Un conjunto de creciente importancia son los sistemas multimedia portátiles de tiempo real y los sistemas de comunicación de procesado digital de señal: teléfonos móviles, PDAs, cámaras digitales, consolas portátiles de juegos, terminales multimedia, netbooks, etc. Estos sistemas requieren computación específica de alto rendimiento, generalmente con restricciones de tiempo real y calidad de servicio (Quality of Service - QoS), que han de ejecutarse con un nivel bajo de consumo para extender la vida de la batería y evitar el calentamiento del dispositivo. También se requiere una arquitectura flexible para satisfacer las restricciones del "time-to-market". En consecuencia, los sistemas encastados necesitan una solución programable, de bajo consumo y alta capacidad de computación para satisfacer todos los requerimientos.Las arquitecturas de tipo Very Long Instruction Word parecen una buena solución ya que proporcionan el suficiente rendimiento a bajo consumo con la programabilidad requerida. Estas arquitecturas se asientan sobre el esfuerzo del compilador para extraer el paralelismo disponible a nivel datos y de instrucciones para mantener las unidades computacionales ocupadas todo el rato. Con la densidad de los transistores doblando cada 18 meses, están emergiendo arquitecturas cada vez más complejas con un alto número de recursos computacionales ejecutándose en paralelo. Con esta, cada vez mayor, computación paralela, el acceso a los datos se está convirtiendo en el mayor impedimento que limita la posible extracción del paralelismo. Para aliviar este problema, en las actuales arquitecturas, una unidad especial trabaja en paralelo con los principales elementos computacionales para asegurar una eficiente transmisión de datos: la Unidad Generadora de Direcciones (Address Generator Unit), que puede implementarse de diferentes formas.El propósito de esta tesis es probar que optimizar el proceso de la generación de direcciones es una manera eficiente de solucionar el proceso de acceder a los datos al mismo tiempo que disminuye el tiempo de ejecución y el consumo de energía.Esta tesis evalúa la efectividad de los diferentes dispositivos que actualmente se usan en los sistemas encastados, argumenta el uso de procesadores de tipo "very long instruction word" y presenta la infraestructura de compilador y exploración arquitectural usada en los experimentos. Esta tesis también presenta una clasificación sistemática de los generadores de direcciones, un repaso de las diferentes técnicas de optimización actuales acorde con esta clasificación y una metodología, usando técnicas ya publicadas, sistemática y óptima que reduce gradualmente la energía necesitada. También se introduce el entorno de trabajo que permite una exploración arquitectural sistemática y los métodos usados para obtener una unidad de generación de direcciones. Los resultados de este unidad de generación de direcciones reconfigurable se muestran en diferentes aplicaciones de referencia (benchmarks) y la metodología sistemática se muestra en una aplicación completa real. / Nowadays Embedded Systems are growing at an impressive rate and provide more and more sophisticated applications. An increasingly important set of embedded systems are real-time portable multimedia and digital signal processing communication systems: cellular phones, PDAs, digital cameras, handheld gaming consoles, multimedia terminals, netbooks, etc. These systems require high performance specific computations, usually with real-time and Quality of Service (QoS) constraints, which should run at a low energy level to extend battery life and avoid heating. A flexible system architecture is also required to successfully meet short time-to-market restrictions. Hence, embedded systems need a programmable, low power and high performance solution in order to deal with these requirements.Very Long Instruction Word architectures seem a good solution for providing enough computational performance at low-power with the required programmability to speed the time-to-market. Those architectures rely on compiler effort to exploit the available instruction and data parallelism to keep the data path busy all the time. With the density of transistors doubling each 18 months, more and more complex architectures with a high number of computational resources running in parallel are emerging. With this increasing parallel computation, the access to data is becoming the main bottleneck that limits the available parallelism. To alleviate this problem, in current embedded architectures, a special unit works in parallel with the main computing elements to ensure efficient feed and storage of the data: the Address Generator Unit, which comes in many flavors. The purpose of this dissertation is to prove that optimizing the process of address generation is an effective way of solving the problem of accessing data while decreasing execution time and energy consumption.As a first step, this thesis evaluates the effectiveness of different state-of-the-art devices commonly used in the embedded domain, argues for the use of very long instruction word processors and presents the compiler and architecture framework used for our experiments. This thesis also presents a systematic classification of address generators, a review of literature according to the classification of the different optimizations on the address generation process and a step-wise methodology that gradually reduces energy reusing techniques that already have been published. The systematic architecture exploration framework and methods used to obtain a reconfigurable address generation unit are also introduced.Results of the reconfigurable address generator unit are shown on several benchmarks and applications, and the complete step-wise methodology is demonstrated on a real-life example.
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A Generator Perspective on Vertical Axis Wind TurbinesBülow, Fredrik January 2013 (has links)
The wind energy conversion system considered in this thesis is based on a vertical axis wind turbine with a cable wound direct drive PM generator. Diode rectifiers are used to connect several such units to a single DC-bus and a single inverter controls the power flow from the DC-bus to a utility grid. This work considers the described system from a generator perspective i.e. the turbine is primarily seen as a torque and the inverter is seen as a controlled load. A 12 kW VAWT prototype with a single turbine has been constructed within the project. The power coefficient of this turbine has been measured when the turbine is operated at various tip speed ratios. This measurement determines both how much energy the turbine can convert in a given wind and at what speed the turbine should be operated in order to maximise the energy capture. The turbine torque variation during the revolution of the turbine has also been studied. A PM generator prototype has been constructed in order to study power loss in the stator core at low electrical frequencies. Heat exchange between the stator and the air-gap between the stator and the rotor has been studied. Heat exchange between the stator and the air-gap is increased by turbulence caused by the rotor. The generator was also used in a demonstration of a DC-grid where two diode rectified PM generators supplied power to a single DC load. An initial study of an inverter suitable for grid connection of the 12 kW PM generator has been performed. Several turbine control strategies are evaluated in simulations. The control strategies only require the parameter "turbine speed" to determine the optimal system load.
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Concept for a modular assembly direct drive permanent magnet generator : Development of model and winding schemeSkoog, Henric January 2010 (has links)
In this thesis, a concept for a modular assembly direct drive permanent magnetgenerator is presented. The maximum forces that act on the different parts of thegenerator during normal operation have been calculated and used in solid mechanicsimulations in SolidWorks. The result is a rough first draft of a generator designwhere the stator has been divided into five modules and the rotor into six modules.This division is done in order to avoid symmetries in the generator that could lead toproblems with self-oscillation.The modulization of the stator brings about certain difficulties, both for the magneticcircuit and for the winding scheme. Different solutions for optimization of themagnetic circuit are analyzed from both a physical and a construction technicalperspective. A winding scheme is produced and the winding process tested in awinding dummy produced according to the conceptual generator design.
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Dämplindningens inverkan på spänningens kurvform i en vattenkraftsgenerator / The influence from the damper winding on the voltageshape in a hydro power generatorPerup, Marielle January 2010 (has links)
Harmonics are a well-known problem that has to be dealt with in the design of thegenerator. Internationally accepted standards limits the amount of harmonics allowedin the no-load voltage. These limits can be difficult to fulfill with integral slot winding,where the number of slots per pole and phase is an integer. The presence of thedamper winding often makes the problem with harmonics even worse and harmonicswith frequencies of order 6q±1 arise with significant amplitude. How the damperwinding is designed affect the content of harmonics in the no-load voltage and the aimwith these … has been to investigate in which extent design of the damper windingaffects the contents of harmonics.Simulations with the 2-D finite element method have showed that if the damper barsis centered in the pole shoe, the amplitude of the harmonics of order 6q±1dependsboth on the ratio between the stator slot pitch and damper bars slot pitch and if thedamper bars are connected between the poles or not.If the damper bars is displaced with ¼ stator slot pitch alternately, the amplitude ofthe harmonics of order 6q±1 is reduced and the influence of the ratio between thestator slot pitch and the damper bars slot pitch will vanish. To minimize the loss inthe damper bars the distance between the damper bars should then be equal thedistance between the stator slots.
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A Template-Based Code Generator for the OpenModelica CompilerLindberg, Rickard January 2010 (has links)
A new, template-based code generator has been implemented for the OpenModelica compiler. All data needed for target code generation has been collected in a new data structure that is then sent to templates which generate target code based on that data. This simplifies the implementation of the code generator and also makes it possible to write a different set of templates to generate target code in a different language. The new, template-based code generator currently only supports generation of target code for simulating Modelica models. In that scenario it translates models roughly at the same speed as the old code generator.
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Peltierelement - spillvärme till el : Peltier element - waste heat into electricityHansson, Elisabet January 2012 (has links)
The purpose of this thesis has been to determine experimentally how good a peltier element is to convert waste heat from wood burning. Three different peltier elements were used in a comparison study. The comparison was mainly done to know how much power could be obtained from each element. Even, a circuit with a step-up function has been created to give a higher output voltage than the peltier element itself. The result of the experiments was a low output power, the highest value reached 2.18W. Also, the Carnot efficiency has been calculated for the three different elements and the efficiency ranged between 14 and 33%. From the circuit a constant 3.3V output was delivered. The main conclusion of this project is that furthermore Studies are needed in the material field because the elements available at the market today have too low efficiency.
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