Global ETD Search

21	Electrical Impedance Spectroscopy Applied in Plant Physiology Studies Liu, Xing, s3072856@student.rmit.edu.au January 2006 (has links) Electrical Impedance Spectroscopy (EIS) is a relatively new method applied to food quality assessment. EIS allows relatively inexpensive assessment, is fast, easy to operate and non-invasive. It has been adopted for investigation of fundamental electrical properties of plant tissues. Although the applications of EIS for food quality determination have been reported previously, the analytical relationships between electrical impedance properties and quality criteria have not yet been fully developed. Further exploration is thus important in acquiring more data on electrical impedance characteristics of fruits and vegetables and researching new approaches for determination of their quality. This dissertation aims to investigate the electrical impedance properties of fruits and vegetables, and explore the relationship between impedance and quality criteria. In particular, the present dissertation outlines experimental research conducted on relationships between impedance properties and fruit tastes as well as the impedance changes observed during ripening process. Impedance measurement to monitor moisture content changes in the progress of drying is also included in this research. In summary, the impedance properties have merits in fruits and vegetables quality assessment. The current used subjective visual inspection and assessment could be replaced by the EIS based approach as it is a more precise measurement of food quality. Further study is required to give this method practical value. electrical impedance spectroscopy impedance equivalent electrical circuit model apple Brix titratable acidity banana peel colour grade cucumber moisture content
22	Corpus Technologica : En religionshistorisk analys av Robert Anton Wilsons version av The Eight Circuit Model of Consciousness i ljuset av den västerländska esoterismen Ekeberg, Dennis January 2012 (has links) This is a thesis about The Eight Circuit Model, a modern mind map developed for the purpose of illumination and enlighenment by Dr. Timothy Leary in the 1970s. Later, authors such as Robert Anton Wilson and Antero Alli elaborated upon the idea to make it more wholesome and compatible with other ideas expressing the same basic principle. In short, it is an intellectual abstraction of the evolution of consciousness through a series of eight stages, which Leary called Circuits. By looking at the brain as an evolving bio-computer, with thoughts working as software, upgrading itself through neurological imprints, Learys created a Hero's Journey for the modern age.The thesis tries to analyze this idea, as it is presented in Robert Anton Wilsons Prometheus Rising, through the lens of the discourse category ”Western Esoterism.” A hard-to-define subject but described as ”the dialectic of the hidden and the revealed in the field of religion.” The Eight Circuit Model Robert Anton Wilson Timothy Leary Esoterism Discourse Psychology Sociology Technology Self-Help Drugs & Religion
23	An FRA Transformer Model with Application on Time Domain Reflectometry Tavakoli, Hanif January 2011 (has links) Frequency response analysis (FRA) is a frequency-domain method which is used to detect mechanical faults in transformers. The frequency response of a transformer is determined by its geometry and material properties, and it can be considered as the transformer’s fingerprint. If there are any mechanical changes in the transformer, for example if the windings are moved or distorted, its fingerprint will also be changed so, theoretically, mechanical changes in the transformer can be detected with FRA. A problem with FRA is the fact that there is no general agreement about how to interpret the measurement results for detection of winding damages. For instance, the interpretation of measurement results has still not been standardized.The overall goal of this thesis is to try to enhance the understanding of the information contained in FRA measurements. This has been done in two ways: (1) by examining the FRA method for (much) higher frequencies than what is usual, and (2) by developing a new method in which FRA is combined with the ideas of Time Domain Reflectometry (TDR). As tools for carrying out the above mentioned steps, models for the magnetic core and the winding have been developed and verified by comparison to measurements.The usual upper frequency limit for FRA is around 2 MHz, which in this thesis has been extended by an order of magnitude in order to detect and interpret new phenomena that emerge at high frequencies and to investigate the potential of this high-frequency region for detection of winding deteriorations.Further, in the above-mentioned new method developed in this thesis, FRA and TDR are combined as a step towards an easier and more intuitive detection and localization of faults in transformer windings, where frequency response measurements are visualized in the time domain in order to facilitate their interpretation. / QC 20111122 complex permeability lumped circuit model frequency response analysis time domain reflectometry high frequency modeling transformer diagnosis reluctance network method.
24	Magneto-Dielectric Wire Antennas Theory and Design January 2013 (has links) abstract: There is a pervasive need in the defense industry for conformal, low-profile, efficient and broadband (HF-UHF) antennas. Broadband capabilities enable shared aperture multi-function radiators, while conformal antenna profiles minimize physical damage in army applications, reduce drag and weight penalties in airborne applications and reduce the visual and RF signatures of the communication node. This dissertation is concerned with a new class of antennas called Magneto-Dielectric wire antennas (MDWA) that provide an ideal solution to this ever-present and growing need. Magneto-dielectric structures (μr>1;εr>1) can partially guide electromagnetic waves and radiate them by leaking off the structure or by scattering from any discontinuities, much like a metal antenna of the same shape. They are attractive alternatives to conventional whip and blade antennas because they can be placed conformal to a metallic ground plane without any performance penalty. A two pronged approach is taken to analyze MDWAs. In the first, antenna circuit models are derived for the prototypical dipole and loop elements that include the effects of realistic dispersive magneto-dielectric materials of construction. A material selection law results, showing that: (a) The maximum attainable efficiency is determined by a single magnetic material parameter that we term the hesitivity: Closely related to Snoek's product, it measures the maximum magnetic conductivity of the material. (b) The maximum bandwidth is obtained by placing the highest amount of μ" loss in the frequency range of operation. As a result, high radiation efficiency antennas can be obtained not only from the conventional low loss (low μ") materials but also with highly lossy materials (tan(δm)>>1). The second approach used to analyze MDWAs is through solving the Green function problem of the infinite magneto-dielectric cylinder fed by a current loop. This solution sheds light on the leaky and guided waves supported by the magneto-dielectric structure and leads to useful design rules connecting the permeability of the material to the cross sectional area of the antenna in relation to the desired frequency of operation. The Green function problem of the permeable prolate spheroidal antenna is also solved as a good approximation to a finite cylinder. / Dissertation/Thesis / Ph.D. Electrical Engineering 2013 Electrical engineering Electromagnetics Antenna Circuit Model Conformal Antennas Electrically Small Antennas Magnetic Dipoles Magneto-Dielectric Antennas Permeability
25	Výpočet parametrů asynchronního motoru metodou konečných prvků / Calculation of parameters of induction motor using FEM Pešek, Michal January 2011 (has links) This project is focused on finite element method, for purposes of asynchronous motor modeling. Program FEMM is used here, which works with two-dimensional models. The model is based on an existing motor. Then was conducted a series of simulations that are used to calculate the parameters of the circuit model. Then was measured the existing asynchronous motor and performed the calculation of the circuit model parameters of the motor. Compared with data obtained from motor and models Then was compared their torque characteristics. Moments was identified at certain slip frequencies and voltage or current in circuit model.
26	Development of battery models for on-board health estimation in hybrid vehicles Riesco Refoyo, Javier January 2017 (has links) Following the positive reception of electric and hybrid transport solutions in the market, manufacturers keep developing their vehicles further, while facing previously undertaken challenges. Knowing the way lithium-ion batteries behave is still one of the key factors for hybrid electric vehicles (HEVs) development, especially for the requirements of the battery management system during their operation. Hence, this project focuses on the necessity of robust yet reasonably simple and cost-effective models of the battery for estimating the health status during the operation of the vehicles. With this aim, the procedure and models to calculate the state-of-health (SOH) indicators, internal resistance and capacity, are proposed and the results discussed. Two machine-learning based models are presented, a support vector machine (SVM) and a neural network (NN), together with one equivalent circuit model (ECM). The data used for training and validating the models comes from testing the batteries in the laboratory with standard performance tests and real driving cycles along the battery lifespan. However, data sets measured in actual heavy-duty vehicles during their operation for three years is also analysed and compared. With respect to this matter, a study of the battery materials, behaviour and operation attributes is carried out, highlighting the main aspects and issues that affect the development of the models. The inputs for the models are signals that can be measured on-board in the vehicles, as current, voltage or temperature, and other derived from them as the state-of-charge (SOC) calculated by the internal battery management unit. Time-series of the variables are used for simulation purposes. The management of signals and implementation of the models is done in the environment of Matlab-Simulink, using some of its in-built functions and other specifically developed. The models are evaluated and compared by means of the normalized root mean squared error (NRMSE) of the voltage output profile compared to that of the tested batteries, but also the error of the internal resistance calculations calculated from the voltage profile for the three models, and the internal parameters in case of the ECM. While despite the difficulties faced with the data, the models can eventually perform accurate estimations of the resistance, the results of the capacity estimations are omitted in the document due to the lack of useful information derived. Nevertheless, the calculation procedure and other considerations to take into account regarding the capacity estimation and data sets are undertaken. Finally, the conclusions about the data used, battery materials and methods evaluated are drawn, laying down recommendations as to design the performance tests following the conditions of the driving cycles, and indicating the higher general performance of the SVM respect the other two methods, while asserting the usefulness of the ECM. Moreover, the battery with NMC material composition is observed to be easier to predict by the models than LFP, also showing different evolution of its internal resistance. Lithium-ion battery State-of-health Resistance Capacity Materials Model Equivalent circuit model Support vector machine Neural networks Materials Engineering Materialteknik
27	Analytical Exploration and Quantification of Nanowire-based Reconfigurable Digital Circuits Raitza, Michael 22 December 2022 (has links) Integrated circuit development is an industry-driven high-risk high-stakes environment. The time from the concept of a new transistor technology to the market-ready product is measured in decades rather than months or years. This increases the risk for any company endeavouring on the journey of driving a new concept. Additionally to the return on investment being in the far future, it is only to be expected at all in high volume production, increasing the upfront investment. What makes the undertaking worthwhile are the exceptional gains that are to be expected, when the production reaches the market and enables better products. For these reasons, the adoption of new transistor technologies is usually based on small increments with foreseeable impact on the production process. Emerging semiconductor device development must be able to prove its value to its customers, the chip-producing industry, the earlier the better. With this thesis, I provide a new approach for early evaluation of emerging reconfigurable transistors in reconfigurable digital circuits. Reconfigurable transistors are a type of MOSFET that features a controllable conduction polarity, i.e., they can be configured by other input signals to work as PMOS or NMOS devices. Early device and circuit characterisation poses some challenges that are currently largely neglected by the development community. Firstly, to drive transistor development into the right direction, early feedback is necessary, which requires a method that can provide quantitative and qualitative results over a variety of circuit designs and must run mostly automatic. It should also require as little expert knowledge as possible to enable early experimentation on the device and new circuit designs together. Secondly, to actually run early, its device model should need as little data as possible to provide meaningful results. The proposed approach of this thesis tackles both challenges and employs model checking, a formal method, to provide a framework for the automated quantitative and qualitative analysis. It pairs a simple transistor device model with a charge transport model of the electrical network. In this thesis, I establish the notion of transistor-level reconfiguration and show the kinds of reconfigurable standard cell designs the device facilitates. Early investigation resulted in the discovery of certain modes of reconfiguration that the transistor features and their application to design reconfigurable standard cells. Experiments with device parameters and the design of improved combinational circuits that integrate new reconfigurable standard cells further highlight the need for a thorough investigation and quantification of the new devices and newly available standard cells. As their performance improvements are inconclusive when compared to established CMOS technology, a design space exploration of the possible reconfigurable standard cell variants and a context-aware quantitative analysis turns out to be required. I show that a charge transport model of the analogue transistor circuit provides the necessary abstraction, precision and compatibility with an automated analysis. Formalised in a DSL, it enables designers to freely characterise and combine parametrised transistor models, circuit descriptions that are device independent, and re-usable experiment setups that enable the analysis of large families of circuit variants. The language is paired with a design space exploration algorithm that explores all implementation variants of a Boolean function that employs various degrees and modes of reconfiguration. The precision of the device models and circuit performance calculations is validated against state-of-the-art FEM and SPICE simulations of production transistors. Lastly, I show that the exploration and analysis can be done efficiently using two important Boolean functions. The analysis ranges from worst-case measures, like delay, power dissipation and energy consumption to the detection and quantification of output hazards and the verification of the functionality of a circuit implementation. It ends in presenting average performance results that depend on the statistical characterisation of application scenarios. This makes the approach particularly interesting for measures like energy consumption, where average results are more interesting, and for asynchronous circuit designs which highly depend on average delay performance. I perform the quantitative analysis under various input and output load conditions in over 900 fully automated experiments. It shows that the complexity of the results warrants an extension to electronic design automation flows to fully exploit the capabilities of reconfigurable standard cells. The high degree of automation enables a researcher to use as little as a Boolean function of interest, a transistor model and a set of experiment conditions and queries to perform a wide range quantitative analyses and acquire early results.:1 Introduction 1.1 Emerging Reconfigurable Transistor Technology 1.2 Testing and Standard Cell Characterisation 1.3 Research Questions 1.4 Design Space Exploration and Quantitative Analysis 1.5 Contribution 2 Fundamental Reconfigurable Circuits 2.1 Reconfiguration Redefined 2.1.1 Common Understanding of Reconfiguration 2.1.2 Reconfiguration is Computation 2.2 Reconfigurable Transistor 2.2.1 Device geometry 2.2.2 Electrical properties 2.3 Fundamental Circuits 3 Combinational Circuits and Higher-Order Functions 3.1 Programmable Logic Cells 3.1.1 Critical Path Delay Estimation using Logical Effort Method 3.1.2 Multi-Functional Circuits 3.2 Improved Conditional Carry Adder 4 Constructive DSE for Standard Cells Using MC 4.1 Principle Operation of Model Checking 4.1.1 Model Types 4.1.2 Query Types 4.2 Overview and Workflow 4.2.1 Experiment setup 4.2.2 Quantitative Analysis and Results 4.3 Transistor Circuit Model 4.3.1 Direct Logic Network Model 4.3.2 Charge Transport Network Model 4.3.3 Transistor Model 4.3.4 Queries for Quantitative Analysis 4.4 Circuit Variant Generation 4.4.1 Function Expansion 5 Quantitative Analysis of Standard Cells 5.1 Analysis of 3-Input Minority Logic Gate 5.1.1 Circuit Variants 5.1.2 Worst-Case Analysis 5.2 Analysis of 3-Input Exclusive OR Gate 5.2.1 Worst-Case Analysis 5.2.2 Functional Verification 5.2.3 Probabilistic Analysis 6 Conclusion and Future Work 6.1 Future Work A Notational conventions B prism-gen Programming Interfaces Bibliography Terms & Abbreviations info:eu-repo/classification/ddc/006 ddc:006
28	Prediction and analysis of model’s parameters of Li-ion battery cells Dareini, Ali January 2016 (has links) Lithium-ion batteries are complex systems and making a simulation model of them is always challenging. A method for producing an accurate model with high capabilities for predicting the behavior of the battery in a time and cost efficient way is desired in this field of work. The aim of this thesis has been to develop a method to be close to the desired method as much as possible, especially in two important aspects, time and cost. The method which is the goal of this thesis should fulfill the below five requirements: 1. Able to produce a generic battery model for different types of lithium-ion batteries 2. No or low cost for the development of the model 3. A time span around one week for obtaining the model 4. Able to predict the most aspects of the battery’s behavior like the voltage, SOC, temperature and, preferably, simulate the degradation effects, safety and thermal aspects 5. Accuracy with less than 15% error The start point of this thesis was the study of current methods for cell modeling. Based on their approach, they are divided into three categories, abstract, black box and white box methods. Each of these methods has its own advantages and disadvantages, but none of them are able to fulfill the above requirements. This thesis presents a method, called “gray box”, which is, partially, a mix of the black and white boxes’ concepts. The gray box method uses values for model’s parameters from different sources. Firstly, some chemical/physical measurements like in the case of the white box method, secondly, some of the physical tests/experiments used in the case of the black box method and thirdly, information provided by cell datasheets, books, papers, journals and scientific databases. As practical part of this thesis, a prismatic cell, EIG C20 with 20Ah capacity was selected as the sample cell and its electrochemical model was produced with the proposed method. Some of the model’s parameters are measured and some others are estimated. Also, the abilities of AutoLion, a specialized software for lithium-ion battery modeling were used to accelerate the modeling process. Finally, the physical tests were used as part of the references for calculating the accuracy of the produced model. The results show that the gray box method can produce a model with nearly no cost, in less than one week and with error around 30% for the HPPC tests and, less than this, for the OCV and voltage tests. The proposed method could, largely, fulfill the five mentioned requirements. These results were achieved even without using any physical tests/experimental data for tuning the parameters, which is expected to reduce the error considerably. These are promising results for the idea of the gray box which is in its nascent stages and needs time to develop and be useful for commercial purposes. Lithium-ion battery equivalent circuit model electrochemical model AutoLion software predicting and analysis of parameters key parameters tuning the parameter knowledge-based data physical and chemical measurements physical tests EIG C20
29	Étude et conception d’une plateforme microfluidique pour la détection de séquence ADN par spectroscopie d’impédance / Study and design of a microfluidic platform for DNA sequence detection by impedance spectroscopy Bourjilat, Ayoub 17 November 2017 (has links) L’objectif de cette thèse est la conception de biocapteurs capables de détecter la présence de séquences d’ADN sans utilisation de marqueurs chimiques ou de traitement préalable de l’échantillon. Le principe de mesure utilise la spectroscopie d’impédance pour la détection du changement provoqué par la présence de la séquence ADN sur le biocapteur. Notre étude s’appuie sur des simulations analytiques et numériques pour définir les dimensions des capteurs adaptés aux mesures en basse fréquence ainsi que le développement d’un modèle de circuit équivalent qui prend en considération les effets d'interfaces. La fabrication du capteur a été réalisée en plusieurs étapes. Dans un premier temps, la conception et la fabrication en salles blanches ont été optimisées pour des structures interdigitées avec différentes géométries et différents types de substrat (Verre, Si, SiO2). Après la validation du modèle, par des mesures sur des solutions de conductivité étalon et sur plusieurs concentrations d’ADN, l’analyse des résultats nous a conduits à proposer une nouvelle structure à électrodes concentriques mieux adaptée aux mesures d’impédance en basses fréquences pour des milieux liquides. Deux prototypes de taille micrométriques, l’un à électrode interdigitée et l’autre à électrode concentrique ont été développés pour une étude comparative / The objective of this thesis is the conception of a biosensor able to detect the presence of DNA sequences without any use of chemical markers or a prior treatment of the samples. The measurements are performed using impedance spectroscopy technique to detect the changes caused by the presence of DNA sequences on the biosensor. Our study is based on analytic and numeric simulations, which allows us to define the dimensions of the sensors adapted to low frequency measurements and to propose an equivalent circuit model taking into account the effects of the electrical double layer. The sensor was manufactured in several steps. Initially, clean room design and manufacturing were optimized for interdigitated structures with different geometries and substrate types (Glass, Si, SiO2). The data analysis of the measurement on standard conductivity and on several DNA concentrations using interdigitated electrode biosensor, allows us to propose a new design with concentric electrodes which is more adapted to low frequency impedance measurement according to a comparative study between interdigitated and concentric electrodes Spectroscopie d’impédance Biocapteurs ADN Modèle de circuit équivalent Modélisation double couche électrique Impedance spectroscopy DNA biosensors Equivalent circuit model Electrical double layer 621.38 610.284
30	Design Of Series-fed Printed Slot Antenna Arrays Excited By Microstrip Lines Mustafa, Incebacak 01 October 2010 (has links) (PDF) Series-fed printed slot antenna arrays excited by microstrip lines are low profile, easy to manufacture, low cost structures that found use in applications that doesn&rsquo / t require high power levels with having advantage of easy integration with microwave front-end circuitry. In this thesis, design and analysis of microstrip line fed slot antenna arrays are investigated. First an equivalent circuit model that ignores mutual coupling effects between slots is studied. A 6-element array is designed by using this equivalent circuit model. From the measurement and electromagnetic simulation results of this array, it is concluded that mutual coupling effects should be considered in order to achieve a successful design that meets the design specifications related to the main beam direction and sidelobe levels of the antenna. Next, an improved equivalent circuit model proposed for stripline fed slot antenna arrays is studied. It is observed that, the mutual coupling effects are incorporated into the equivalent model through the utilization of active impedance concept. Finally, the design equations proposed in the improved equivalent circuit model are derived for the microstrip line fed slot antenna array structure. To demonstrate the validity and the accuracy of the derived design equations, results obtained by the proposed analysis method are compared with simulation and measurement results. It is concluded that the proposed method successfully predicts the radiation pattern of the array by including the mutual coupling effects.

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