Global ETD Search

191	Comparison Between PWM and SVPWM Three-Phase Inverters in Industrial Applications Nusair, Ibrahim Rakad January 2012 (has links) No description available. Electrical Engineering Engineering three-phase inverters PWM SVPWM space vector pulse width modulation pulse width modulation converters
192	Update of electrical installation in Volvo FM/FMX Crew Cab Ehrinton, Jakob, Vähäkangas, Elias January 2023 (has links) In today's society, technology that does not have integrated app control or digital control is considered outdated. In fact, the technological growth of new features and innovations has grown exponentially over the past 100 years. This rapid development makes it difficult for manufacturers of larger products and machinery to keep up, both due to time constraints and economic reasons. The purpose of the thesis was to evaluate the benefits of digitalizing the electrical system in a vehicle, as well as developing a demorig with accompanying electrical architecture that demonstrates its feasibility. During the course of the work, it became clear that the major benefits of digitalizationwere a reduction in errors and malfunctions, while increasing flexibility and communication capabilities. Finally, a fully functional solution was presented that was tailored to meet the requirements of Volvo Trucks, with the goal of being implemented in the next version of their Crew Cab. The logic behind the system was functionally tested in a demo rig that included all components from the cab. The project demonstrated a significant reduction in cabling with the ability to control components with high precision through pulse width modulation signals and transistors. Volvo Trucks Electrical Development Digital PWM Pulsbreddsmodulering Transistors Schematics Programming Annan elektroteknik och elektronik
193	Derivation of Parabolic Current Control with High Precision, Fast Convergence and Extended Voltage Control Application Zhang, Lanhua 24 October 2016 (has links) Current control is an important topic in modern power electronics system. For voltage source inverters, current control loop ensures the waveform quality at steady state and the fast response at transient state. To improve the current control performance, quite a few nonlinear control strategies have been presented and one well-known strategy is the hysteresis current control. It achieves fast response without stability issue and it has high control precision. However, for voltage source inverter applications, hysteresis current control has a wide switching frequency range, which introduces additional switching loss and impacts the design of harmonic filter. Other nonlinear current control strategies include one-cycle control, non-linear carrier control, peak current control, charge control, and so on. However, these control strategies are just suitable for specific topologies and it cannot be directly used by voltage source inverters. The recently proposed parabolic current control solves the frequency variation problem of hysteresis current control by employing a pair of parabolic carriers as the control band. By the use of parabolic current control, approximate-constant switching frequency can be achieved. Due to the cycle-by-cycle control structure, it inherently has fast response speed and high precision. These advantages make it suitable for voltage source inverters, including stand-alone inverters, grid connected inverters, active power filters, and power factor correction applications. However, parabolic current control has some limitations, such as dead-time effects, only working as bipolar PWM, complex hardware implementation, non-ideal converging speed. These problems are respectively solved in this dissertation and solutions include dead-time compensation, the implementation on dual-carrier unipolar PWM, sensorless parabolic current control, single-step current control. With the proposed dead-time compensation strategy, current control precision is improved and stable duty-cycle range are extended. Dual-carrier PWM implementation of parabolic current control has smaller harmonic filter size and lower power loss. Sensorless parabolic current control decreases the cost of system and enhances the noise immunity capability. Single-step current control pushes the convergence speed to one switching operation with simple implementation. High switching frequency is allowed and power density can be improved. Detailed analysis, motivation and experimental verification of all these innovations are covered in this dissertation. In addition, the duality phenomenon exists in electrical circuits, such as Thevenin's theorem and Norton's theorem, capacitance and inductance. These associated pairs are called duals. The dual of parabolic current control is derived and named parabolic voltage control. Parabolic voltage control solves the audible noise problem of burst mode power converters and maintains high efficiency in the designed boost converter. / Ph. D. Parabolic Current Control Voltage Source Inverters Dead-time Compensation Parabolic Voltage Control Dual-carrier PWM Convergence Speed
194	High Efficiency DC-DC Converter for EV Battery Charger Using Hybrid Resonant and PWM Technique Wan, Hongmei 11 September 2012 (has links) The battery charger plays an important role in the development of electric vehicles (EVs) and plug-in hybrid electric vehicles (PHEVs).This thesis focuses on the DC-DC converter for high voltage battery charger and is divided into four chapters. The background related to EV battery charger is introduced, and the topologies of isolated DC-DC converter possibly applied in battery charge are sketched in Chapter 1. Since the EV battery charger is high voltage high power, the phase-shifted full bridge and LLC converters, which are popularly used in high power applications, are discussed in detail in Chapter 2. They are generally considered as high efficiency, high power density and high reliability, but their prominent features are also limited in certain range of operation. To make full use of the advantages and to avoid the limitation of the phase-shifted full bridge and LLC converters, a novel hybrid resonant and PWM converter combining resonant LLC half-bridge and phase shifted full-bridge topology is proposed and is described in Chapter 3. The converter achieves high efficiency and true soft switching for the entire operation range, which is very important for high voltage EV battery charger application. A 3.4 kW hardware prototype has been designed, implemented and tested to verify that the proposed hybrid converter truly avoids the disadvantages of LLC and phase-shifted full bridge converters while maintaining their advantages. In this proposed hybrid converter, the utilization efficiency of the auxiliary transformer is not that ideal. When the duty cycle is large, LLC converter charges one of the capacitors but the energy stored in the capacitor has no chance to be transferred to the output, resulting in the low utilization efficiency of the auxiliary transformer. To utilize the auxiliary transformer fully while keeping all the prominent features of the previous hybrid converter in Chapter 3, an improved hybrid resonant and PWM converter is proposed in Chapter 4. The idea has been verified with simulations. The last chapter is the conclusion which summaries the key features and findings of the two proposed hybrid converters. / Master of Science LLC Resonant Converter Hybrid Resonant and PWM Converter Phase-shifted Full Bridge Converter DC-DC Converter Electric Vehicle Battery Charger
195	Digitally assisted control techniques for high performance switching DC-DC converters Khan, Qadeer Ahmad 25 June 2014 (has links) Digitally controlled switching DC-DC converters have recently emerged as an attractive alternative to conventional switching converters based on analog control techniques. This research focuses on eliminating the issues associated with the state of the art switching converters by proposing three novel control techniques: (1) a digitally controlled Buck-Boost converter uses a fully synthesized constant ON/OFF time-based fractional-N controller to regulate the output over a 3.3V-to-5.5V input voltage range and provides seamless transition from buck to buck-boost modes (2) a hysteretic buck converter that employs a highly digital hybrid voltage/current mode control to regulate output voltage and switching frequency independently (3) a 10MHz continuous time PID controller using time based signal processing which alleviates the speed limitations associated with conventional analog and digital. All the three techniques employ digitally assisted control techniques and require no external compensation thus making the controllers fully integrated and highly cost effective. / Graduation date: 2013 / Access restricted to the OSU Community at author's request from June 25, 2012 - June 25, 2014 voltage regulator dc-dc converter digitally controlled dc-dc converter PWM controller PID compensator digital PWM control analog PWM control buck converter boost converter buck-boost converter LED driver hysteretic dc-dc converter high speed dc-dc converter fixed frequency hysteretic control DC-to-DC converters -- Automatic control Digital control systems
196	Даљинско управљање дигиталном пнеуматиком у концепту Индустрије 4.0 / Daljinsko upravljanje digitalnom pneumatikom u konceptu Industrije 4.0 / Remote control of the digital pneumatics in a scope of Industry 4.0 Reljić Vule 28 August 2020 (has links) <p>У овој докторској дисертацији, акценат је стављен на анализу даљински<br />управљаних дигиталних пнеуматских система у концепту Индустрије 4.0.<br />Доприноси тезе су сљедећи: 1) Показано је на који начин је могуће, постојеће<br />пнеуматске системе надградити тако да се омогући даљинско управљање<br />кретањем пнеуматских радних елемената, даљинска регулација притиска и<br />даљинска регулација протока. 2) Показано је на који начин је могуће развити<br />даљински управљан дигитални пнеуматски систем, који има могућност<br />даљинске промјене управљачких параметара (радног притиска и/или<br />протока) у току процеса рада, и који је искључиво софтверски<br />реконфигурабилан, те реализован на оптималан начин, чиме достиже ниво<br />флексибилности потребан да се задовољи основни концепт Индустрије 4.0.<br />Примјена добијених резултата могућа је у свим индустријским, а потом и<br />неиндустријским системима, у којима постоје пнеуматски радни елементи.</p> / <p>U ovoj doktorskoj disertaciji, akcenat je stavljen na analizu daljinski<br />upravljanih digitalnih pneumatskih sistema u konceptu Industrije 4.0.<br />Doprinosi teze su sljedeći: 1) Pokazano je na koji način je moguće, postojeće<br />pneumatske sisteme nadgraditi tako da se omogući daljinsko upravljanje<br />kretanjem pneumatskih radnih elemenata, daljinska regulacija pritiska i<br />daljinska regulacija protoka. 2) Pokazano je na koji način je moguće razviti<br />daljinski upravljan digitalni pneumatski sistem, koji ima mogućnost<br />daljinske promjene upravljačkih parametara (radnog pritiska i/ili<br />protoka) u toku procesa rada, i koji je isključivo softverski<br />rekonfigurabilan, te realizovan na optimalan način, čime dostiže nivo<br />fleksibilnosti potreban da se zadovolji osnovni koncept Industrije 4.0.<br />Primjena dobijenih rezultata moguća je u svim industrijskim, a potom i<br />neindustrijskim sistemima, u kojima postoje pneumatski radni elementi.</p> / <p>In this PhD thesis, the emphasis is placed on the analysis of remotely<br />controlled digital pneumatic systems in the scope of Industry 4.0. The<br />contributions of the thesis are the following: 1) The possibility of upgrading an<br />existing pneumatic systems to allow remote motion control of pneumatic<br />actuators, remote pressure control and remote flow control, is shown. 2) The<br />possibility of developing a remotely controlled digital pneumatic system, which<br />has the ability of remote change of the control parameters (the operating<br />pressure and/or the flow) during the operating process, and which is<br />exclusively software reconfigurable and optimally implemented, is shown. At<br />that way, it is achieving a level of flexibility needed to meet the basic concept<br />of Industry 4.0. The application of the obtained results is possible in all<br />industrial and then non-industrial systems, where pneumatic actuators exist.</p>
197	Μελέτη και κατασκευή ηλεκτρονικού μετατροπέα ισχύος για την οδήγηση και τον έλεγχο κινητήρα τύπου DC brushless / Study and construction of a three phase inverter for driving and control of a DC brushless motor Τσούμας, Ευάγγελος 13 October 2013 (has links) Η παρούσα διπλωματική εργασία πραγματεύεται τη μελέτη, το σχεδιασμό, την πρσοομοίωση και την κατασκευή κυκλώματος για την οδήγηση και τον έλεγχο στροφών κινητήρα τύπου DC Brushless.Η εργασία αυτή εκπονήθηκε στο εργαστήριο Ηλεκτρομηχανικής Μετατροπής Ενέργειας του τμήματος Ηλεκτρολόγων Μηχανικών και Τεχνολογίας Ηλεκτρονικών Υπολογιστών. Σκοπός της παρούσας εργασίας είναι η μελέτη και η κατασκευή κυκλώματος τριφασικού αντιστροφέα ισχύος για να επιτύχουμε οδήγηση και έλεγχο κινητήρα τύπου DC Brushless. Ο κινητήρας αυτού του τύπου είναι Σύγχρονος κινητήρας Μόνιμου Μαγνήτη. Για το λόγο αυτό το πρώτο πράγμα που μελετήθηκε στην παρούσα εργασία είναι κάποιες θεμελιώδεις ιδιότητες του μαγνητικού πεδίου, καθώς και τα χαρακτηριστικά των μαγνητικών υλικών που χρησιμοποιούνται σε τέτοιους τύπους κινητήρων. Στην συνέχεια αναλύονται οι κινητήρων Brushless DC ως προς την κατασκευή τους καθώς και τη λειτουργία τους. Παρατίθενται οι εξισώσεις που περιγράφουν τη λειτουργία τους και οι χαρακτηριστικές ροπής-ταχύτητας και επιπλέον γίνεται σύγκριση αυτών με κινητήρες άλλων τύπων. Ακολουθεί η περιγραφή της προσομοίωσης του συστήματος η οποία πραγματοποιήθηκε στο πρόγραμμα προσομοίωσης ηλεκτρικών κυκλωμάτων Simulink του Matlab. Αναλύεται η λογική στην οποία βασιστήκαμε για την προσομοίωση και παρατίθενται οι κυματομορφές της τάσης και του ρεύματος σε διάφορα σημεία του κυκλώματος. Έπειτα γίνεται μια θεωρητική ανάλυση του κυκλώματος του αντιστροφέα που κατασκευάστηκε καθώς και όλων των άλλων κυκλωμάτων και στοιχείων που απαιτήθηκαν για τη λειτουργία της διάταξης. Επιπλέον περιγράφεται η μέθοδος παλμοδότησης που χρησιμοποιήθηκε για την έναυση/σβέση των διακοπτικών στοιχείων ισχύος. Τέλος γίνεται αναλυτική παράθεση του τελικού κυκλώματος που κατασκευάστηκε. Προχωράμε με την περιγραφή των ιδιοτήτων και δυνατοτήτων του μικροελεγκτή που χρησιμοποιήθηκε στην πλακέτα μας, καθώς επίσης και με τη λογική που ακολουθήθηκε κατά τον προγραμματισμό του. Τέλος παραθέτονται τα αποτελέσματα των πειραμάτων και τα παλμογραφήματα που ελήφθησαν κατά τη διεξαγωγή τους. Γίνεται σχολιασμός των αποτελεσμάτων αυτών και αξιολόγηση της κατασκευής. / This thesis is focused in the study and development of a Drive System for a DC Brushless motor. This work was conducted in the Laboratory of Electromechanical Energy Conversion, at the department of Electrical and Computer Engineering, in the University of Patras, Greece. DC Brushless motors, have been used in the last years they are used in a number of applications. They combine all the benefits of a DC motor, such as their operation simplicity and their linear characteristics, avoiding the brushes and the necessary excitation of DC motors, making them a suitable choice for low and medium power applications. The main purpose of this project is the Study and Construction of a Three-Phase Voltage Source Inverter for the control of the performance of a DC Brushless Motor by the implementation of a Scalar control. This thesis began with the simulation of the motor, since it is necessary for the understanding of its dynamic behavior. Then an analysis on the design and construction of the required circuit boards is done. Finally the used microcontroller (dsPIC family) was studied thoroughly, before writing the necessary code(C & assembly) for open and closed loop control. Finally, measurements were taken for the open loop control system. Conclusions were made as far as the behavior of the motor and ways to optimize the control were discussed. Αντιστροφείς τάσης 621.313 2 Brushless DC Oriental motors Pulse-width modulation (PWM) Simulink MPLAB KiCad MATLAB
198	Design and implementation of the main controller of a solid-state transformer Schietekat, Louis Magnus 12 1900 (has links) Thesis (MScEng)--Stellenbosch University, 2011. / ENGLISH ABSTRACT: The Solid-State Transformer (SST) is presented as an alternative to the traditional Line-Frequency Transformer (LFT) used for voltage-level transformation in distribution grids. The LFT technology is highly matured which results in low costs and high efficiency. The SST however, introduces several advantages compared to the LFT, some of which are input unity power-factor, near perfect output-voltage regulation, frequency variation as well as harmonic filtering. The SST consists of three power-electronic converter stages: The input stage, the isolation stage and the output stage. The input and isolation stages are implemented with a multilevelconverter topology incorporating a converter-stack for each phase. Each stack consists of N converter building blocks, called cells. In this thesis the design and implementation of the main controller is presented. The main controller, together with N cell controllers, is responsible for the control of the cells within the respective stack. Three main controllers are thus implemented within the SST. Each cell consists of an Active Rectifier (AR) and a DC-DC Converter (DC-DC). The SST control design thus starts with the AR control which is subsequently expanded to Cascaded Active-Rectifier (CAR) control. Design is completed with the addition of the DC-DC control. Time domain simulations of the AR- and CAR-control are presented and discussed. Test measurements, verifying functionality of each control design-phase, are presented and discussed. / AFRIKAANSE OPSOMMING: Die Drywingselektroniese Transformator (DET) word voorgestel as ’n alternatief vir die Lyn Frekwensie Transformator (LFT) wat gebruik word vir spannings-vlak tranformasie op distribusie vlak. The LFT tegnologie is ver gevorderd wat ly tot hoë effektiwiteit en lae kostes. The DET bied wel voordele soos intree eenheids arbeid faktor, na aan perfecte uittree-spannings regulasie, frequensie variasie sovel as harmoniese filrteering. Die DET bestaan uit drie drywingselektroniese omsetter stadiums: Die intree-stadium, die isolasie-stadium en die uittree-stadium. The intree- en isolasie-stadiums word geïmplimenteer met ’n multivlak-omsetter topologie wat bestaan uit ’n omsetter-stapel vir elke fase. Elke stapel bestaan uit N omsetter boustene wat selle genoem word. In hierdie tesis word the ontwerp en implementasie van die hoofbeheerder voorgestel. Die hoofbeheerder, tesame met N selbeheerders, is verantwoordelik vir die beheer van elke sel in die spesifieke stapel. In die DET word daar dus drie hoofbeheerders gebruik. Elke sel bestaan uit ’n Aktiewe Gelykrigter (AG) en ’n GS-GS omsetter (GS-GS). Die DET beheerontwerp begin dus met die (AG) beheer wat daarna uitgebrei word na Kaskade Aktiewe Gelykrigter (KAG) beheer. Die beheer ontwerp word voltooi deur die byvoeging van die GSGS beheer. Tyd-gebied simulasies van die AG- en KAG-beheer word voorgelê en bespreek. Toetsmetings wat die funksionaliteit van elke beheer ontwepsfase verifeer, word voorgelê. Solid state transformer control Cascaded active-rectifier control Back-to-back converter control Multisampling PWM Dissertations -- Electronic engineering Theses -- Electronic engineering
199	Projeto e análise de controladores robustos aplicados a inversores trifásicos de fontes ininterruptas de energia (UPS) Barden, Alisson Thomas January 2016 (has links) O objetivo principal deste trabalho é o desenvolvimento de controladores robustos baseados no princípio do modelo interno, em referenciais síncrono e estacionário, para aplicação ao estágio de saída de uma fonte ininterrupta de energia (UPS) a fim de minimizar a distorção na tensão de saída causada pela conexão de cargas não lineares balanceadas e desbalanceadas. A formulação em referencial estacionário (abc) é realizada através da aplicação de controladores com múltiplos modos ressonantes, a fim de se estabelecer erro nulo ao seguimento de referência senoidal e rejeição de distúrbios na tensão de saída devido às correntes com elevado conteúdo harmônico drenadas pelas cargas. Além disso, o controle é formulado em referencial síncrono (dq0) utilizando controladores Proporcional-Integral (PI) convencionais muito difundidos na maioria das aplicações comerciais de UPS. O projeto de ambos controladores é realizado utilizando uma metodologia de controle robusto com realimentação de estados, onde os parâmetros dos controladores são determinados através da resolução de um problema de otimização convexa sujeito a um conjunto de restrições na forma de desigualdades matriciais lineares (LMI). Uma análise comparativa de desempenho é realizada entre controladores com um modo ressonante (sintonizado na fundamental) e o PI em dq0, pois apresentam estruturas funcionalmente equivalentes sob a ótica do princípio do modelo interno aplicada a seus respectivos referenciais. Além do mais, demonstra-se a melhoria no desempenho com o uso dos controladores múltiplo ressonantes em referencial estacionário onde escolhe-se as frequências de ressonância de cada modo de maneira a suprimir os efeitos de harmônicas específicas na tensão de saída da UPS. A análise comparativa entre os controladores propostos é realizada através de simulações numéricas, utilizando os procedimentos de ensaio dinâmico e estático e as exigências estabelecidas pela norma internacional IEC 62040-3. / The main objective of this work is the development of robust controllers based on the internalmodel principle, in synchronous and stationary frames, applied to the output stage of an uninterruptible power supply (UPS), in order to minimize the output voltage distortion caused by the connection of balanced and unbalanced nonlinear loads. The formulation in stationary abc-frame is accomplished through the aplication of a multiple resonant controller, so that, it is possible to achieve zero-error tracking of the sinusoidal reference and disturbances rejection on the output voltage due to the high amount of harmonic currents drained by the loads. Moreover, a controller in synchronous reference frame (dq0 axis) is formulated through the application of conventional Proportional-Integral (PI) controllers which are widely used in comercial UPS applications. The design of both controllers is formulated using a state-feedback robust controlmethod, in which the controller parameters are determined by solving a convex optimization problem subject to a set of LMI constraints. A comparative analysis on the performance of the single-mode resonant controller (tuned at the fundamental frequency) and the PI controller is performed, because these controllers are functionally equivalent in the sense of the internal model principle applied to their respective frames. Furthermore, the improvement in performance is demostrated with the use of multiple resonant controllers in stationary abc-frame where the resonance frequencies are chosen to suppress the effects of a specific harmonic in the UPS output voltage. The comparative analysis of the proposed controllers is performed through numerical simulations, making use of the dynamical and steady-state test methods and performance requirements defined by the IEC 62040-3 international stardard. Controle robusto Controlador ressonante Inversores Sistema trifásico Resonant control PI control Stationary reference frames Synchronous reference frames Robust control Three-phase PWM inverter LMI Uninterruptible power supplie UPS
200	DESIGN AND DEVELOPMENT OF AN EMBEDDED DC MOTOR CONTROLLER USING A PID ALGORITHM / Kontrol av DC-Motor i enbyggda system med hjlp av PID & PWM Jones, Omar January 2010 (has links) <p>This project was held at London South Bank University in the UK, with corporation with staff from Linköping University in Sweden as Bachelor thesis.</p><p>This report will guide you through the used techniques in order to achieve a successful cooler/Fan project with a minimum budget and good energy saving methods.</p><p>The steps of setting the used software and components are supported with figures and diagrams. You will find full explanation of the used components and mathematics, in additional to a complete working code.</p> IDE ATmega8. ATmega328 8051 C-language Programming Language Arduino Freeduino AVRstudio kiel uVision microcontroller pid pwm dc-motor closed-loop Electrical engineering Elektroteknik

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