Global ETD Search

101	Improving Hard Disk Drive Write IO Performance with Phase Change Memory as a Buffer Cache Balasubramanian, Sanchayeni January 2017 (has links) No description available. Computer Engineering Buffer cache PCM Hard Disk Drives performance
102	Control Strategies and Parameter Compensation for Permanent Magnet Synchronous Motor Drives Monajemy, Ramin 30 October 2000 (has links) Variable speed motor drives are being rapidly deployed for a vast range of applications in order to increase efficiency and to allow for a higher level of control over the system. One of the important areas within the field of variable speed motor drives is the system's operational boundary. Presently, the operational boundaries of variable speed motor drives are set based on the operational boundaries of single speed motors, i.e. by limiting current and power to rated values. This results in under-utilization of the system, and places the motor at risk of excessive power losses. The constant power loss (CPL) concept is introduced in this dissertation as the correct basis for setting and analyzing the operational boundary of variable speed motor drives. The control and dynamics of the permanent magnet synchronous motor (PMSM) drive operating with CPL are proposed and analyzed. An innovative implementation scheme of the proposed method is developed. It is shown that application of the CPL control system to existing systems results in faster dynamics and higher utilization of the system. The performance of a motor drive with different control strategies is analyzed and compared based on the CPL concept. Such knowledge allows for choosing the control strategy that optimizes a motor drive for a particular application. Derivations for maximum speed, maximum current requirements, maximum torque and other performance indices, are presented based on the CPL concept. High performance drives require linearity in torque control for the full range of operating speed. An analysis of concurrent flux weakening and linear torque control for PMSM is presented, and implementation strategies are developed for this purpose. Implementation strategies that compensate for the variation of machine parameters are also introduced. A new normalization technique is introduced that significantly simplifies the analysis and simulation of a PMSM drive's performance. The concepts presented in this dissertation can be applied to all other types of machines used in high performance applications. Experimental work in support of the key claims of this dissertation is provided. / Ph. D. control strategies power losses PMSM motor drives operational boundary
103	Variable-Speed Switched Reluctance Motor Drives for Low-Cost, High-Volume Applications Kim, Jaehyuck 29 March 2010 (has links) Demand for energy-saving variable speed drives in low-cost, high-volume appliances has increased due to energy and environmental concerns and hence the need to comply with new regulations. Switched reluctance motor (SRMs) have been considered by many as attractive alternatives for brush commutated motors or permanent magnet brushless dc motors (PMBDCMs) in such cost-sensitive applications. The SRMs' unique features such as simple and fault-tolerant structure and unidirectional flow of their phase currents endow them with the possibility of various configurations on both machine and converter topologies for different applications. In the present study, three different variable-speed motor drive systems are proposed, studied, and implemented for their deployment in low-cost, high-volume applications with the power rating of 1.5kW or less. Two different two-phase SRMs and three different power converters are employed to realize three different low-cost drive systems. The first drive system is realized using a novel converter requiring only a single-controllable switch and an asymmetric two-phase 8/4 SRM capable of self-starting and four-quadrant operation. The second drive system is realized using another novel converter requiring two controllable switches, that way to achieve better control and utilization of the asymmetric 8/4 motor. The target applications for both drive systems are low power, low performance drives such as fans, hand tools, small appliances, etc. The third system is realized using a high-speed two-phase 4/2 SRM and a split ac source converter, which is designed for high-speed applications such as vacuum cleaners, ultracentrifuges, etc. The control and design aspects for each drive system are studied. Selection of optimal firing angles and optimal number of winding turns are also investigated. All of the drive systems are first demonstrated on the position sensor-based speed-control scheme. To make the drive system even more cost-competitive, operation without the position sensor using the novel parameter insensitive sensorless control scheme is proposed and implemented. Concept, analysis, simulation, and experimental verification of the proposed sensorless scheme are discussed in detail. / Ph. D. optimal efficiency variable-speed drives Switched reluctance motor power converter
104	Resonance Compensation of Large AC Drivetrains with Significant Time Lag Gurian, Sanford 06 March 2001 (has links) AC main drives, such as cycloconverters, offer the possibility of higher speed and torque response over their DC counterparts. The price to be paid, however, is torque ripple which is a function of the operating frequency. Even a small value of ripple, at an underdamped plant resonant frequency, may be multiplied by the plant "Q" to a large enough value to cause trouble. Typical classical approaches used in the rolling mill industry to deal with mechanical resonance tend to fall apart with large values of time lag. We investigate a modified LQR/LQE approach using a torque sensor as the feedback element. The result is a low order SISO filter that suppresses the effects of the torque ripple on the underdamped plant. / Master of Science rolling mills control systems resonance compensation AC drives
105	Single-Phase, Single-Switch, Sensorless Switched Reluctance Motor Drive Utilizing a Minimal Artificial Neural Net Hudson, Christopher Allen 20 September 2005 (has links) Artificial Neural Networks (ANNs) have proved to be useful in approximating non- linear systems in many applications including motion control. ANNs advocated in switched reluctance motor (SRM) control typically have a large number of neurons and several layers which impedes their real time implementation in embedded sys- tems. Real time estimation at high speeds using these ANNs is diffcult due to the high number of operations required to process the ANN controller. An insuffcient availability of time between two sampling intervals limits the available computation time for both processing the neural net and the other functions required for the motor drive. One ideal application of ANNs in SRM control is rotor position estimation. Due to reliability issues, elimination of the rotor position sensors is absolutely required for high volume, high speed and low cost applications of SRM's. ANNs provide a means by which drive designers can implement position sensorless drive technology that is both robust and easily implemented. It is demonstrated that a new and novel ANN configuration can be implemented for accurate rotor position estimation in a sensorless SRM drive. Consisting of just 4 neurons, the neural estimator is the smallest of its kind for SRM rotor position estimation. The breakthrough that provided the reduction was the addition of a non- linear input. Typical input spaces for SRM position neural estimators consist of both current,and fux-linkage. The neural network was trained on-line using these inputs and a third, non-linear input provided by a preprocessed product of the two typical inputs. / Master of Science Neural Network Motor Drives Motors Controls Flux SRM
106	Development of a Testbed for Evaluation of Electric Vehicle Drive Performance Katsis, Dimosthenis C. 01 December 1997 (has links) This thesis develops and implements a testbed for the evaluation of inverter fed motor drives used in electric vehicles. The testbed consists of a computer-controlled dynamometer connected to power analysis and data collection tools. The programming and operation and of the testbed is covered. Then it is used to evaluate three pairs of identical rating inverters. The goal is to analyze the effect of topology and software improvements on motor drive efficiency. The first test analyzes the effect of a soft-switching circuit on inverter and motor efficiency. The second test analyzes the difference between space vector modulation (SVM) and current-band hysteresis. The final test evaluates the effect of both soft-switching and SVM on drive performance. The tests begin with a steady state analysis of efficiency over a wide range of torque and speed. Then drive cycles tests are used to simulate both city and highway driving. Together, these dynamic and steady state test results provide a realistic assessment of electric vehicle drive performance. / Master of Science Electric Vehicles Inverter Fed Drives Efficiency Drive Cycles
107	Self Commissioning, Parameter Adaptation And Sensorless Operation Of Vector Controlled Induction Motor Drives Palani Vel, S 11 1900 (has links) (PDF) No description available. Motors Induction Electric Motors Sensors Detectors Induction Motor Drives Induction Motor Vector Control Vector Controlled Drives Electronic Engineering
108	Contribution à l’étude de la stabilité des systèmes électriques distributés autour d’un bus commun d'alimentation / Stability investigation of distributed power system Awan, Ahmed-Bilal 02 December 2011 (has links) La stabilité est un facteur très important dans tous les modes de fonctionnement pour un Système à Puissance Distribué (SPD). En SPD, les charges sont connectées au bus DC à travers d’un filtre entré LC. La plupart des charges de SPD d'avions présents une caractéristique de charge à puissance constante dans un domaine de fonctionnement dans laquelle ils sont étroitement contrôlés. Ainsi, elles peuvent être modélisées comme une résistance négative. Changement de la charge dans un sous-système peut conduire un système stable dans l'instabilité.Une solution pratique pour diminuer le risque d'instabilité est présentée dans cette thèse qui consiste à modifier le contrôle des convertisseurs ou système onduleur-moteur connecté au bus DC. Cette solution permet de stabiliser le système, même avec un condensateur plus petit. Dans la première partie de la thèse, une méthode linéaire est présentée qui permet étudier la stabilité locale d'un système onduleur-moteur connecté au réseau par un filtre LC et un redresseur. Une technique de compensation d’oscillation est utilisée pour améliorer la marge de stabilité du système et la taille de la capacité dc-link sans modifier la structure des boucles de courant ou de couple. Cette technique consiste à superposer une puissance stabilisant sur la puissance absorbée par le drive. Bien que les modèles linéaires puissent être employées avec succès pour décrire le comportement d'un système physique au niveau local, ils échouent souvent de fournir une caractérisation satisfaisante de large-signal. Dans la deuxième partie, deux méthodes pour la stabilisation large-signal du système électrique sont présentées. Dans la dernière partie, une nouvelle méthode, basée sur les spécifications dynamiques est proposée pour étudier la stabilité d'un système électrique en cascade / Stability is the first and very important factor in all modes of operation for a Distributed Power System (DPS). In DPS, loads are connected to the DC-bus through an input LC filter. Most of the loads in DPS of aircraft present a constant power load characteristic within a domain of operation in which they are tightly controlled. So they can be modeled as negative resistance. Change of the load in one subsystem may lead a stable system into instability. A practical solution to decrease the risk of instability presented in this thesis which consists in modifying the control of the converters or inverter-motor drive system connected to the DC-bus. This solution permits to stabilize the system even with a smaller size of capacitor. In the first part of the thesis, a linear method is presented which allows investigating local stability of an inverter-motor-drive system connected to the grid through an LC filter and a rectifier. An oscillation compensation technique is used to improve the stability margin of the system and the size of the dc-link capacitance without modifying structure of the torque or current loops. This technique consists in superposing a stabilizing power on the absorbed power by the drive. Although linear models can be successfully employed to locally describe the behavior of a physical system, they often fail to provide a satisfactory large signal characterization. In the second part, two methods for the large signal stabilization of the electrical system are presented. In the last part, a new method, based on dynamic specifications, is proposed to study the stability of a cascaded electric system Stabilité Systèmes linéaire Systèmes non linéaire Capacitance dc-link Drives ac Robustesses Stability Linear systems Nonlinear systems Dc-link capacitance Ac drives 621.3
109	Criterios para o uso eficiente de inversores de frequencia em sistemas de bombeamento de agua / Criterion for the effcient use of variable speed drive in water public systems Rodrigues, Wlamir 08 September 2007 (has links) Orientador: Edevar Luvizotto Junior / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Civil, Arquitetura e Urbanismo / Made available in DSpace on 2018-08-09T10:53:20Z (GMT). No. of bitstreams: 1 Rodrigues_Wlamir_D.pdf: 3842184 bytes, checksum: b2d244ce79104124ad706f65f2c5c853 (MD5) Previous issue date: 2007 / Resumo: Instalações de bombeamento são comumente encontradas em qualquer sistema que envolva o transporte de líquidos, como sistemas públicos de abastecimento. Num passado não tão distante, os projetos dessas instalações eram superdimensionados e, na maioria das vezes, nunca chegavam a operar em sua plenitude. A operação de controle de vazão, através de uma válvula na saída da estação de bombeamento, sempre foi uma ação nociva a estrutura em todos os sentidos, além do desperdício de energia elétrica que esse tipo de operação provocava. Paralelamente, a energia elétrica se tornou muito dispendiosa, e a sua geração muito mais complicada com impactos cada vez maiores no meio ambiente. Em condições tão desfavoráveis, o inversor de freqüência se tornou peca importante na missão de racionalizar o uso da energia elétrica sem afetar a operação do sistema. Neste trabalho são estudadas duas instalações de bombeamento da cidade de Campinas ¿ SP, dotadas de inversores de freqüência, onde são comparadas operações com e sem o uso deste dispositivo, suas vantagens e desvantagens, possibilidades e limitações. Com o auxilio de três modelos matemático-computacionais, um que reproduziu uma das instalações, outro de auditoria energética e um terceiro de otimização, especialmente desenvolvidos para esse estudo, foi possível a simulação de cenários operacionais, buscando extrair a máxima eficiência do inversor e a conseqüente otimização do sistema como um todo. Ao final do trabalho são propostos critérios, resultantes do estudo desenvolvido, que podem servir como parâmetros quando da adoção de inversores de freqüência em sistema de bombeamento / Abstract: The pumping systems are frequently found in any process which involves transport of liquids, like the public water systems. In a recent past, these pumping systems plans were oversized and, frequently, did not work in their full potential. The flow regulated by throttling has always presented, in all senses, a harmful effect to the installation. Moreover, this kind of action has caused waste of electric energy. Along with that the cost of electric energy has been increasing and its production has created damages to the environment. Since we have so many negative conditions, the variable speed drive has become the most important part to rationalize the use of electric energy causing no affect on the operation of the system. This work studies two pump stations located in the city of Campinas, which are operated with variable speed drives. At these pumping stations, comparisons are made with and without the use of this equipment, considering its advantages and disadvantages, its possibilities and limitations. Three mathematicmodels were especially developed for this study, the first to reproduce one of the systems, the second to make an energetic audit and the third to optimize the results. Making use of these three models it was possible to simulate operational scenarios to reach the maximum efficiency from variable speed drive and the optimization of the system as a whole. As a conclusion of this study, some criteria are presented to support the use of variable speed drive in the pumping system / Doutorado / Recursos Hidricos / Doutor em Engenharia Civil Estações de bombeamento Drives com velocidade variavel Energia elétrica - Conservação Motores elétricos Pumping stations Variable speed drives Electric power conservation Electric motors
110	Investigations On Boundary Selection For Switching Frequency Variation Control Of Current Error Space Phasor Based Hysteresis Controllers For Inverter Fed IM Drives Ramchand, Rijil 07 1900 (has links) (PDF) Current-Controlled Pulse Width Modulated (CC-PWM) Voltage Source Inverters (VSIs) are extensively employed in high performance drives (HPD) because of the considerable advantages offered by them, such as, excellent dynamic response and inherent over-current protection, as compared to the voltage-controlled PWM (VC-PWM) VSIs. Amongst the different types of CC-PWM techniques, hysteresis current controllers offer significant simplicity in implementation. However, conventional type of hysteresis controllers (with independent comparators) suffers from some well-known drawbacks, such as, limit cycle oscillations (especially at lower speeds of operation of machine), overshoot in current error, generation of sub-harmonic components in the current, and random (non-optimum) switching of inverter voltage vectors. Common problems associated with the conventional, as well as current error space phasor based hysteresis controllers with fixed bands (boundary), are the wide variation of switching frequency in the fundamental output cycle and variation of switching frequency with the change in speed of the load motor. These problems cause increased switching losses in the inverter, non-optimum current ripple, excess harmonics in the load current and subsequent additional machine heating. A continuously varying parabolic boundary for the current error space phasor is proposed previously to get the switching frequency variation pattern of the output voltage of the hysteresis controller based PWM inverter similar to that of voltage controlled space vector PWM (VC SVPWM) based VSI. But the major problem associated with this technique is the requirement of two outer parabolas outside the current error space phasor boundary for the identification of sector change which gives rise to some switching frequency variations in one fundamental cycle and over the entire operating speed range. It also introduces 5th and 7th harmonic components in the voltage causing 5th and 7th harmonic currents in the induction motor. These harmonic currents causes 6th harmonic torque pulsations in the machine. This thesis proposes a new technique which replaces the outer parabolas and uses current errors along orthogonal axes for detecting the sector change, so that a fast and accurate detection of sector change is possible. This makes the voltage harmonic spectrum of the proposed hysteresis controller based inverter exactly matching with that of a constant switching frequency SVPWM based inverter. This technique uses the property that the current error along one of the orthogonal axis changes its direction during sector change. So the current error never goes outside the parabolic boundary as in the case of outer parabolas based sector change technique. So the proposed new technique for sector change eliminates the 5th and 7th harmonic components from the applied voltage and thus eliminates the 5th and 7th harmonic currents in the motor. So there will be no introduction of 6th harmonic torque pulsations in the motor. Using the proposed scheme for sector change and parabolic boundary for current error space phasor, simulation study was carried out using Matlab-Simulink. Simulation study showed that the switching frequency variations in a fundamental cycle and over the entire speed range of the machine upto six step mode operation is similar to that of a VC-SVPWM based VSI. The proposed hysteresis controller is experimentally verified on a 3.7 kW IM drive fed with a two-level VSI using vector control. The proposed current error space phasor based hysteresis controller providing constant switching frequency is completely implemented on the TI TMS320LF2812 DSP controller platform. The three-phase reference currents are generated depending on the frequency command and the controller is tested with drive for the entire operating speed range of the machine in forward and reverse directions. Steady state and transient results of the proposed drive are presented in this thesis. This thesis also proposes a new hysteresis controller which eliminates parabolic boundary and replaces it with a simple online computation of the boundary. In this proposed new hysteresis controller the boundary computed in the present sampling interval is used for identifying next vector to be switched. This thesis gives a detailed mathematical explanation of how the boundary is computed and how it is used for selecting vector to be switched in a sector. It also explains how the sector in which stator voltage vector is present is determined. The most important part of this proposed hysteresis controller is the estimation of stator voltages along alpha and beta axes during active and zero vector periods. Estimation of stator voltages are carried out using current errors along alpha and beta axes and steady state equivalent circuit of induction motor. Using this estimated stator voltages along alpha and beta axes, instantaneous phase voltages are computed and used for finding individual voltage vector switching times. These switching times are used for the computation of hysteresis boundary for individual vectors. So the hysteresis boundary for individual vectors are exactly calculated and used for vector change detection, making phase voltage harmonic spectrum exactly similar to that of constant switching frequency VC SVPWM inverter. Sector change detection is very simple, since we have the estimated stator voltages along alpha and beta axes to give exact position of stator voltage vector. Simulation study to verify the steady state as well as transient performance of the proposed controller based VSI fed IM drive is carried out using Simulink tool box of Matlab Simulation Software. The proposed hysteresis controller is experimentally verified on a 3.7 kW IM drive fed with a two-level VSI using vector control. The proposed current error space phasor based hysteresis controller providing constant switching frequency profile for phase voltage is implemented on the TI TMS320LF2812 DSP controller platform. The three-phase reference currents are generated depending on the frequency command and the proposed hysteresis controller is tested with drive for the entire operating speed range of the machine in forward and reverse directions. Steady state and transient results of the proposed drive are presented for different operating conditions. Induction Motors Inverter Motors Switching Frequency Induction Motor Drives IM Drives Hysteresis Controller Space Phasor Voltage Source Inverter (VSI) Heat Engineering

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