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431	Étude et mise en œuvre d'une machine synchrone spéciale alimentée par un convertisseur statique. Caron, Jean Paul, January 1900 (has links) Th. doct.-ing.--Génie électrique--Nancy--I.N.P.L., 1981.
432	Mélangeurs d'émission à diode à avalanche, étude théorique et expérimentale : application aux télécommunications numériques sur onde porteuse millimétrique. Vaterkowski, Jean-Louis, January 1900 (has links) Th.--Sci. phys.--Lille 1, 1979. N°: 445.
433	Dilution torque control of a gasoline engine Maugham, Robin January 2002 (has links) No description available. 629 Continuosly variable transmission
434	Control and performance studies on the differential compound engine Hall, J. January 1989 (has links) No description available. 621.43 Engine-transmission control
435	Single-pole switching schemes for EHV transmission systems Alias, Qais M. January 1986 (has links) No description available. 621.319 Power transmission lines
436	Theoretical and experimental investigation of shield effects in microstrip Dumbell, Keith David January 1989 (has links) No description available. 621.319 Microstrip transmission lines
437	Dimensionnement optimal des sources d'énergie des véhicules blindés terrestres par la prise en compte de leur profil d'emploi Dreulle, Dominique 15 February 2018 (has links) L’électrification croissante des véhicules militaires va de pair avec la révolution « électrique » de ces dernières décennies. Aujourd’hui un véhicule militaire intègre plus de 120 consommateurs électriques. Cette évolution de l’électrification est également accompagnée de l’apparition de nouvelles fonctions comme le déplacement du blindé en mode furtif, animé grâce à une motorisation électrique. Dans ce contexte nous proposons de pré-dimensionner les différentes sources d’énergie du véhicule (dispositif de stockage, moteur, générateur, convertisseur). La transmission électrique est de type hybride parallèle mono-axe, l’arbre de sortie de la machine électrique est confondu avec l’arbre de sortie du moteur thermique. Ce choix est identique au prototype de véhicule blindé actuellement en étude. L’originalité des travaux repose sur le développement d’un modèle de l’emploi du véhicule pour sa phase d’utilisation la plus sensible, à savoir le combat de haute intensité. Ce modèle basé sur la matrice de Markov permet de générer aléatoirement de très nombreuses missions à partir d’une base de données enregistrée lors d’exercices d’entraînement au combat de haute intensité. Une seconde originalité réside dans la méthode de pré-dimensionnement proposée, associant le modèle d’emploi (statistique) aux modèles des flux de puissances décrivant le comportement du blindé. Le pré-dimensionnement obtenu est donc optimisé par rapport aux missions potentiellement réalisables par le véhicule. / Following the example of the civil automotive sector, the electrification of military vehicles has widely increased during the last decades. Today, a military armoured vehicle embeds more than 120 electrical consumers. New functionalities has appeared like the hybrid electrical propulsion mode that allows stealthy moves. In this context, we propose to size the different components of the electrical propulsion such as the electric motor/alternator, storage device, electronic power converter. The propulsion selected is of parallel hybrid type. The rotary shaft of the electric motor is of the same as the combustion engine’s. This choice is similar to an armoured vehicle prototype under development today. The first original contribution of this research is the design and the use of a predictive model for a mission scenario. This model has been developed for the most critical phase, which is the high intensity engagement. This model is based on a Markov matrix, that allows to produce a lot of different missions through a random process. Input data have been recorded during several high intensity combat real training sessions. A second original contribution is the calculation method proposed. It combines the statistical modelling of the missions with the modelling of the power flows that describe the vehicle behaviour. So, the results obtained are optimized with regard to the extended field of the possible vehicle missions. Flux de puissance Transmission hybride
438	Recherche(s) sur le statut de l'entreprise agricole / Look for on the status of the agricultural company Guillaume-Susini, Jordane 30 January 2015 (has links) Le monde rural est un secteur clé de notre économie. L'exploitation agricole n'est pas une entreprise comme les autres. La loi protège cette activité dont la transmission peut se révéler délicate. L'entreprise agricole française demeure bien souvent de type familial, même si les techniques les plus modernes y sont employées. Les problèmes humains y sont donc particulièrement importants, notamment dans le cadre de la transmission. Dans la pratique, de nombreuses questions doivent être résolues. Qui prendra la suite ? Un membre de la famille ? Un étranger ? Comment évaluer ? Que faut-il conserver ? Quels impôts devront être payés ? Combien de temps s'y prendre à l'avance ? Quelle personne consulter sur ces sujets très importants pour la survie de l'exploitation, la retraite de l'exploitant et la bonne gestion du patrimoine familial ? Les différents Conseils tels que le notaire sont des accompagnateurs dans cette opération, parfois longue et complexe. L’objectif de cette thèse est de traiter la transmission de l’entreprise agricole et les outils qui lui sont offerts à cette fin en examinant les intérêts d’une préparation en amont de la transmission avec la création d'une structure sociétaire par rapport à la transmission d'une entreprise individuelle (choix de la forme la plus adaptée, modalités de la mise en société et moyens d'adaptation aux objectifs particuliers) et d’observer qu'il peut également s'avérer intéressant d'organiser l'entreprise déjà exploitée sous forme de société, pour transformer sa forme juridique ou restructurer les activités et le patrimoine immobilier, ou adapter les statuts.Ces développements permettront de constater que l’entreprise agricole a un statut juridique en devenir. En effet, d’une façon générale, le Droit Français ne reconnaît pas l'entreprise agricole comme universum jus, sauf à cette entreprise à emprunter la forme d'une société impliquant la naissance d'une personne morale.Des étapes sont nécessaires à la reconnaissance juridique de l’entreprise agricole. Sur un plan juridique, et, jusqu'à 2006, la loi n'utilisait pas le terme d'"entreprise", mais celui d'"exploitation" (mot ambigu désignant à la fois l'activité agricole, et l'unité de production qui la réalise).Or s’il est ardu de définir l’Entreprise agricole, c’est justement cette absence de définition juridique qui rend difficile sa transmission.Le statut du fermage a été un obstacle préexistant à la loi d’orientation agricole du 5 janvier 2006, réforme pouvant paraître incomplète malgré les atouts de nouveaux outils juridiques tels que le fonds agricole (institution comparable au fonds de commerce tant du point de vue de la composition et des fonctions, que de la constitution , de la transmission et du nantissement) et le bail cessible, condition inéluctable du fonds agricole…des remèdes étant ainsi sujets à recherches…l’idéal étant d’aboutir, à terme, à une sorte de « Bien unique» à transmettre / Rural world is a key sector of our economy. The farm is not a company as the others. The law protects this activity; the transmission of which can show itself delicate. The French agricultural company is very often familial, even if the most modern techniques are used on it. The human problems are particularly important for it thus, in particular with the transmission.In the practice, numerous questions must be resolved. Who will succeed? A member of or out of the family? How to estimate? What is it necessary to preserve? What taxes must be paid? How long to take itself there in advance? What person to consult on these subjects very important for the survival of the enterprise, the retreat of the developer and the good management of family heritage? The various advises such as the solicitor are guides in this operation, sometimes long and complex.The objective of this thesis is to handle the transmission of the agricultural company and the tools which are offered to him to this goal, by examining the interests of a preparation upstream to the transmission with the creation of a structure member compared with the transmission of a sole proprietorship (choice of the most adapted shape, the modalities of the putting in company and ways of adaptation to the particular objectives) and to observe that he can also turn out interesting to organize the company already exploited in the form of company, to transform his legal shape or restructure the activities and the real estate property, or adapt the statuses.These developments will allow to notice that the agricultural company has a legal status in future.Indeed, generally speaking the French law does not recognize the agricultural company universum juice, except for this company to borrow the shape of a society implying the birth of a legal entity.Stages are necessary for the legal recognition of the agricultural company. On a legal plan, and, until 2006, the law did not use the term of "company", but that of "exploitation"("operation") (ambiguous word indicating at the same time the agricultural activity, and the production unit which realizes it).Now if it is difficult to define the agricultural Company, it is exactly this absence of legal definition that makes difficult its transmission.The status of the farm rent was an obstacle preexisting before the agricultural guidance law of January 5th, 2006, reform which can seem incomplete in spite of the new legal tools such as the agricultural fund (institution comparable to the business both from the point of view of the composition and the functions, and of the constitution, of the transmission and of the pledge) and the transferable lease, the inevitable condition of the agricultural fund… Remedies being so subject to researches, the ideal being to succeed, eventually later, in a kind of "unique property" to transmit Transmission Succession 343.076
439	Microprocessor controlled communication line level meter Delport, Pierre January 1996 (has links) Thesis (Masters Diploma(Technology) - Cape Technikon, Cape Town, 1996 / ESKOM control a massive power grid in a vast geographical area in the R.S.A.. This power originates at the power stations, from where it is distributed to the users. All the power generated is pumped into a National Power Grid. The backbone of the network consists of the following supply voltages: • 765 kV • 400 kV • 132 kV These voltages are stepped down locally at substations to lower voltages for the customers. Bigger customers (e.g. Municipalities, Mines, etc.) are bulk users and use high voltages. Lower voltages range from 220V up to 66kV. In order to ensure a good service to all power user customers ESKOM must be able to identify power failures and other abnormal conditions as quickly as possible and react fast to restore power again. When supervising a power grid good communication systems are essential. Communications systems serve as links between the following functional systems: • Contacting personnel with radio (Mobile or Handheld) • Contacting personnel \\ith pagers (Digital or Analogue) • Receiving up to date information on the SCADA network • Protection on power lines and transformers (Fault conditions) Without good telecommunication ESKOM will not be able to control the national grid efficiently. The Telecommunication Department fulfil a vital role ensuring that the National Grid functions at its optimum. It is normally impossible to do an accurate measurement of the power level in dBm or dBv on a communication line while an RTU is communicating to the MASTER. This is mainly because the duration of the data burst on the communication line is less than the sample time required by the level meters available. The time duration on a TELKOR PUTU general poll is 250ms. With the available digital meters (e.g. W & G SPM33A) it is totally impossible to get a power level reading because the sampling time of the instrument is I second. With the analogue meters available (e.g. W&G SPM09, SPM31) it is possible to get a reading, but this normally between 2 dBm and 4 dBm Iow, because of the dynamic behaviour of the moving coil. Thus before the pointer of the meter has reached the correct level, the burst of data has stopped This is characterised by three quantities: 1. The inertia (1) of the moving coil about its axis of rotation. 2. The opposing torque (S) developed by the coil suspension 3. The damping constant (D) A solution is to sample the receive and transmit levels during polling with an electronic circuit and feed it into an ADC connected to a Microcontroller (e.g. 8031 family). The Microcontroller will do all the converting and mathematical functions and will output a value through a DAC. This output value will be a current (mA) value directly proportional to the input level (e.g. -20dBm to OdBm = 0 to 5mA). These RX and IX level values can be fed into analogue inputs of the RTU. This realtime measurement of the levels on communication lines will be available at the SCADA master. These values can then be trended and if a downward trend is observed, maintenance can be done on the line before a failure. This should result in higher availability of the SCADA network. Communication transmission lines Telecommunication
440	Polarisation mode dispersion compensation Watley, Daniel Andrew January 2000 (has links) No description available. 621.319 Optical transmission

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