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Academic literature on the topic 'Coefficient de température de puissance'
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Journal articles on the topic "Coefficient de température de puissance"
Nguyen Ba Vy, Vy. "Evaluation de la thermotolérance du vaccin V4 lyophilisé contre la maladie de Newcastle." Revue d’élevage et de médecine vétérinaire des pays tropicaux 45, no. 3-4 (March 1, 1992): 235–40. http://dx.doi.org/10.19182/remvt.8909.
Full textZouak, Belkacem, and Mohammed Said Belkaïd. "Etude et simulation d’un système de refroidissement par effet Peltier pour les cellules solaires photovoltaïques." Journal of Renewable Energies 22, no. 2 (October 6, 2023): 171–78. http://dx.doi.org/10.54966/jreen.v22i2.735.
Full textDjoudi, Abdelhak, Hachemi Chekireb, Seddik Bacha, El Madjid Berkouk, and Saida Makloufi. "Commande adaptative par les modes de glissement d’une éolienne à base d’une MADA pilotée par un convertisseur matriciel." Journal of Renewable Energies 18, no. 1 (October 18, 2023): 71–79. http://dx.doi.org/10.54966/jreen.v18i1.487.
Full textBaazaoui, Ahlem, Joel Alexis, Olivier Dalverny, and Moussa Karama. "Caractérisation expérimentale du comportement mécanique d'assemblage haute température pour l'électronique de puissance." MATEC Web of Conferences 7 (2013): 02013. http://dx.doi.org/10.1051/matecconf/20130702013.
Full text-ROUAUD, Cédric. "Modèle thermique réduit d'un module triphasé de puissance pour son contrôle en température." Revue de l'Electricité et de l'Electronique -, no. 09 (2004): 34. http://dx.doi.org/10.3845/ree.2004.091.
Full textAllard, B., G. Coquery, L. Dupont, Z. Khatir, M. Lazar, S. Lefebvre, R. Meuret, H. Morel, and D. Planson. "Composants à semi-conducteur de puissance pour des applications à haute température de fonctionnement." J3eA 4 (2005): 010. http://dx.doi.org/10.1051/bib-j3ea:2005610.
Full textCORDOVA LLANOS, V., X. HUMBEL, J. BOISSON, T. PICHARD, R. PHILIPPE, and M. POMIES. "Analyse du potentiel de récupération de chaleur des eaux usées prenant en compte l’impact sur la STEU." 3 3 (March 21, 2022): 63–71. http://dx.doi.org/10.36904/tsm/202203063.
Full textBourque, Jimmy, Jean-Guy Blais, and François Larose. "L’interprétation des tests d’hypothèses : p, la taille de l’effet et la puissance." Revue des sciences de l'éducation 35, no. 1 (May 19, 2009): 211–26. http://dx.doi.org/10.7202/029931ar.
Full textDerai, Sid Ali, and Abdelhamid Kaabeche. "Modélisation et dimensionnement d’un système hybride Eolien/ Photovoltaïque autonome." Journal of Renewable Energies 19, no. 2 (January 9, 2024): 265–76. http://dx.doi.org/10.54966/jreen.v19i2.566.
Full textLocatelli, Marie-Laure, Sombel Diaham, Samir Zelmat, and Thierry Lebey. "Étude d'un polyimide haute température pour la passivation des composants de puissance à base de carbure de silicium." Revue internationale de génie électrique 9, no. 4-5 (October 30, 2006): 417–31. http://dx.doi.org/10.3166/rige.9.417-431.
Full textDissertations / Theses on the topic "Coefficient de température de puissance"
Torres, aguilar Moira. "Development of photovoltaic module outdoor performance indicators based on experimental platforms." Electronic Thesis or Diss., Institut polytechnique de Paris, 2024. http://www.theses.fr/2024IPPAX025.
Full textA crucial factor in accelerating the energy transition towards solar photovoltaic (PV) is the improvement of accuracy in power estimations from solar installations, the main motivation of this PhD thesis. The rating of a module is done under Standard Test Conditions (STC) (irradiance of 1000 W/m², module temperature (Tmod) of 25 °C, Air Mass of 1.5) not usually found outdoors, making it necessary to study the behavior of a PV module operating under real-life conditions.This work starts by providing a case-study of the impact of environmental factors such as irradiance (G), Tmod, snow, wind, shading, and soiling on the power output of a PV outdoor testbench and a grid-connected rooftop PV power plant, both located on the campus of École Polytechnique near Paris. Based on this analysis, different filters are proposed to clean the dataset for performance evaluation. The testbench is comprised of modules of five different technologies (a-Si/µc-Si, c-Si, CIS, HIT, CdTe). The rooftop installation has a capacity of 16.3 kWp with 52 panels of 6 different models (white and black backsheet, PERC full and half-cells, Q.ANTUM half-cells, bifacial), all based on monocrystalline silicon.Then, the performance characterization of said installations is carried out, for a 4-year period for the outdoor testbench and a 3.5-year period for the rooftop installation. This is done by utilizing performance indicators like reference yield, module yield, and performance ratio (PR), along with their temperature-corrected counterparts. Monthly PR values show diverse seasonal variation depending on the module type, some of them showing a strong degradation over time.On average, there is a 5% PR loss due to temperature effect for the c-Si-based modules and about half for the thin-film modules in the testbench. The average PR during winter, considering the temperature effect, is between 89-93 % for c-Si and HIT and between 77-90 % for thin-films. During this time, losses in PR due to shading of 10 % for the black backsheet, 15 % for the white backsheet, less than 5 % for the half-cells, and 7% for the bifacial module were observed in the rooftop installation.The PR loss for the modules in the testbench led to an estimated degradation rate in %/year of -0.12, -0.30, -0.8, -0.46, -1.88 for a-Si/µc-Si, c-Si, CIS, HIT, CdTe respectively and of 1%/year for the rooftop installation.The final analysis is the experimental retrieval of the power temperature coefficient (γ), commonly used to perform temperature corrections on PV power estimations and assumed to be constant, its STC value (γSTC) is usually taken from the module’s datasheet. Thus, this work studies its dependence on G (γG) and analyzes the possibility of using γG in a PV power estimation model to improve its accuracy. This is done for different data sources of G (pyranometer, photodiode, retrieved from short-circuit current measurements, modelled from global-direct-diffuse irradiance) and Tmod (measured, retrieved from open-circuit voltage measurements). The results showed a dependence of γ on the level of G, the irradiance sensor providing the measurements utilized for its computation, and the filters used to clean the data. Using a γG calculated with pyranometer or modelled irradiances and a measured Tmod yielded no improvement on the power estimation for the testbench modules whereas one using photodiode measurements reduced the relative mean absolute error (rMAE) by up to 2.9 %, proving more adequate for c-Si technologies. Furthermore, computing γG using a G and Tmod estimated from the module’s I-V curve measurements resulted in a decrease of rMAE of up to 3.6%, a method proving to be adequate for c-Si technologies and useful in compensating for degradation in thin-film modules. However, the improvements were modest, a 1% betterment of the total power estimation for the testbench
Viverge, Pierre-Jean. "Convertisseur de faible puissance pour environnement haute température." Lyon, INSA, 1993. http://www.theses.fr/1993ISAL0061.
Full textThis complete study covers the analysis from 20°C to l85°C of the realisation bases and behaviour of a low power AC/DC converter. After the choice of he power supply structure, we propose rules, remarks and cautions for such type of converter for low and high temperature electronic as well. The study shows the evolution of t he convert er components and elements versus temperature. The devices are tested alone and inside their environment. In particular, we analyse the bidirectional switch behaviour versus temperature because it can induce problems if we don't apply specific rules of choice about its components. We study the 185°C running of the complete converter (using hundred components ) and we show that it is possible to use a low power converter during 400 hours at l85°C then 100 hours at 200°C
Drevin-Bazin, Alexia. "Module de puissance à base SiC fonctionnant à haute température." Thesis, Poitiers, 2013. http://www.theses.fr/2013POIT2251/document.
Full textThe development of power electronic devices operating under high temperature environments is a great challenge for microelectronic industry. The objective of this thesis, supported by the HCM society (SERMA Group) is to propose a complete assemblage able to operate under high temperature. The first part of this study presents the different die attach techniques: eutectic solder alloys, sintered nanosilver and the TLPB method. The implementation for techniques was optimized via the variation of various experimental parameters by using a Fisher-Taguchi method. The as-proposed protocol corresponds to values of maximal shear stress. Moreover, an alternative solution to the substrate metallization was proposed to suppress any diffusion between the different elements deposited on the ceramic substrate.In the second part the mechanical behavior of joints under various levels of thermal and mechanical stress was studied. Creep experiments were carried out on the eutectic solders to describe the thermo-mechanical behavior of the complete module. The parameters characteristic of creep were experimentally determined. Finally, in the last part of this study the growth of Ti3SiC2 MAX phases were studied onto α-SiC substrates differently oriented by thermal annealing of TiAl layers deposited by magnetron sputtering. The Ti3SiC2 phase of low contact resistivity is proposed as new ohmic contact materials in dual n and p-type SiC-based devices. A step flow mechanism was proposed to explain that Ti3SiC2 grow, preferentially along the SiC basal planes, from a heterogeneous surface nucleation
Liu, Qiang. "Etude du comportement électrique de transistor de puissance pour l'automobile en haute température." Lyon, INSA, 1994. http://www.theses.fr/1994ISAL0125.
Full textThe knowledge of power semiconductor device electrical behaviour at about 200°C case temperature represents a great interest for future automotive electrical application. In this thesis, our work deals with two aspects : a study of functionality at high temperature for three types of power transistors (Darlington, MOSFET and IGBT) used by automobile (in particular for the application of transistorized injection and ignition) and a study of reliability for the "ignition" fonction at high temperature. The average junction temperature concerned by this study ranges from 30°C to 220°C. The study of functionality gives the electrical performance depending on junction temperature up to 220°C for different types of devices, Darlington, MOSFET and IGBTs, commercially available. The characteristics are affected by great changes in physical parameters of silicon with the increase in junction temperature. At off-state, the obvious increase in leakage current with ternperature is the same for the three devices. At on-state, their electrical behaviours are different for small votage bias and for current not greater than the nominal current. The measurement of drifts of electrical characteristics due to storage at high temperature, thermal cycle and thermal shock, can not demonstrate the systematic incompatibility between good functionalicy and presence of a 200°C ambient temperature. Finally, the study of the behaviour of Darlington, MOSFET and IGBT power devices, working in the ignition circuit, at 220°C of average junction temperature, has shown for each three technologies, that a characteristic may be critical for the reliability of the "ignition" function at high temperature
Blanchart, Philippe. "Thermistances BaTi03 à coefficient de température positif microstructure et propriétés électriques." Limoges, 1990. http://www.theses.fr/1990LIMO0083.
Full textLocatelli, Marie-Laure. "Etude du comportement électrique du transistor bipolaire de puissance en haute température." Lyon, INSA, 1993. http://www.theses.fr/1993ISAL0036.
Full textThe high temperature power device field concerns both the high ambient temperature applications an the systems opera ting at usual ambient temperature for which an increase in the power-to-weigh ratio is needed. In this frame, we particularly examined the electrical behaviour of the bipolar power transistor in the [30°C, 260°C] temperature range. We studied and analysed from a physical point view the on- and off-state characteristics, as also the switching characteristics under resistive and inductive load. An evaluation of the device dissipation versus junction temperature was made for each Phase of its switching operation Having left away all ageing and reliability problems, this study showed that the bipolar power transistor functionality is maintained in all the temperature range, though a perceptible performance diminution. The increase in power dissipation when the temperature is augmented leads to a limitation of the advantage of a high temperature operation of the component. Silicon, which is the sole semiconductor used for existing power devices, is personally involved especially because of its intrinsic carrier concentration and carrier mobility dependences on temperature. The analysis of the high temperature bipolar power transistor electrical characteristics, and the knowledge of the silicon carbide physical properties let us deduce the theoretical advantages of such a new semiconductor with regard to improvement of the bipolar power transistor performance at high temperature
Hamieh, Youness. "Caractérisation et modélisation du transistor JFET en SiC à haute température." Phd thesis, INSA de Lyon, 2011. http://tel.archives-ouvertes.fr/tel-00665817.
Full textYoussef, Toni. "Modélisation multiphysique d'un assemblage de puissance haute température destiné à l'environnement aéronautique." Thesis, Bordeaux, 2016. http://www.theses.fr/2016BORD0167/document.
Full textToday’s main challenge for aeronautical equipment manufacturers is to respond to the more electrical aircraft regulations. Moreover, there are many applications in aircraft area where high temperature technologies are needed. Nowadays, the replacement of hydraulic systems for electric ones leads to place the power inverters in a harsh environment, for example in the engine nacelle. The equipment is under high constraints such as high and low temperatures, wide temperature cycling, high humidity and low pressure. Combined to these environmental constraints, the new aircraft system is submitted to weight and operating cost reduction. As a consequence, efforts shall be done to reduce weight and volume of the power converter without losing its performance. To reach such a goal, the design of the converter must enable a high level of integration, efficiency and reliability. In particular, fatigue damage has a significant influence on such modules electrical power performance. And fatigue-related performance testing remains a costly endeavor for aeronautical equipment. A finite number of destructive tests can be carried out in specific facilities for a fairly low number of configurations. The purpose of these destructive tests is to investigate the failure modes appearing regarding this accelerated ageing. Therefore numerical simulations have been envisaged since non-destructive, easily evolving and usable for a high number of configurations, though needing data from experimental assays. In this study, we propose a method dealing with the main constraints for such equipment, i.e. electrical, thermal and mechanical simulation. Those three physical problems have different characteristic time and are strongly coupled with a non-trivial behavior. To optimize the resources usage and have a relevant representation of the problem, a 1D electrical / 3D thermal / 3D mechanical coupled method has been implemented over a co-simulation bus. Different time steps, different abstraction levels and different skills are used to provide predictions of the multiphysical fatigue behavior of power modules
Baazaoui, Ahlem. "Optimisation thermomécanique du packaging haute température d’un composant diamant pour l’électronique de puissance." Phd thesis, Toulouse, INPT, 2015. http://oatao.univ-toulouse.fr/14490/1/baazaoui.pdf.
Full textPlanson, Dominique. "Contribution a l’étude de composants de puissance haute température en carbure de silicium." Lyon, INSA, 1994. http://www.theses.fr/1994ISAL0013.
Full textThe potentialities of silicon carbide are studied as a semiconductor material in order to obtain a power device able to operate in the range (1500 V - 1A). The nowadays knowledge of the material properties allows to design SiC components with the help of computer aided design, in order to meet the trade-off material/device/technology. The electrical characteristics of three types of transistors (bipolar, MOSFET and JFET) are studied with bidimensional electrical simulations (PISCES software). A power device periphery termination is needed to prevent the avalanche breakdown under high voltage condition. Two classical terminations used in silicon device (field-rings and mesa structure) are studied regarding the SiC related constraints. Finally, the etching of SiC appears to be a crucial process step in power device manuf acturing. Experimental results are presented about plasma etching in a DECR (Distributed Electron Cyclotron Resonance) etching system