Littérature scientifique sur le sujet « Générateur à induction à six phases »
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Articles de revues sur le sujet "Générateur à induction à six phases"
Benaida, Fouad, et Noureddine Benouzza. « Diagnosis of Broken Rotor Bars in Six-Phases Squirrel Cage Induction Motor ». International Review of Electrical Engineering (IREE) 17, no 5 (31 octobre 2022) : 489. http://dx.doi.org/10.15866/iree.v17i5.21723.
Texte intégralIduh, Samuel E., et Silas E. Omugbe. « The design and practical implementation of a six-phase induction motor ». Journal of Advances in Science and Engineering 3, no 1 (1 août 2020) : 1–77. http://dx.doi.org/10.37121/jase.v3i1.95.
Texte intégralEhara, Masahiko, Mamoru Iwami, Yoshio Ichinose, Toshiya Hirayama, M. John Albert, R. Bradley Sack et Shoichi Shimodori. « Induction of Fimbriated Vibrio cholerae O139 ». Clinical Diagnostic Laboratory Immunology 5, no 1 (1 janvier 1998) : 65–69. http://dx.doi.org/10.1128/cdli.5.1.65-69.1998.
Texte intégralBetin, Franck, et Gérard-André Capolino. « Shaft Positioning for Six-Phase Induction Machines With Open Phases Using Variable Structure Control ». IEEE Transactions on Industrial Electronics 59, no 6 (juin 2012) : 2612–20. http://dx.doi.org/10.1109/tie.2011.2138113.
Texte intégralCarvalho Souza, Francisco Elvis, Werbet Silva, Andrés Ortiz Salazar, José Paiva, Diego Moura et Elmer Rolando Llanos Villarreal. « A Novel Driving Scheme for Three-Phase Bearingless Induction Machine with Split Winding ». Energies 14, no 16 (12 août 2021) : 4930. http://dx.doi.org/10.3390/en14164930.
Texte intégralFnaiech, M. A., F. Betin, G. A. Capolino et F. Fnaiech. « Fuzzy Logic and Sliding-Mode Controls Applied to Six-Phase Induction Machine With Open Phases ». IEEE Transactions on Industrial Electronics 57, no 1 (janvier 2010) : 354–64. http://dx.doi.org/10.1109/tie.2009.2034285.
Texte intégralGör, Halil. « Feasibility of Six Metaheuristic Solutions for Estimating Induction Motor Reactance ». Mathematics 12, no 3 (2 février 2024) : 483. http://dx.doi.org/10.3390/math12030483.
Texte intégralKianinezhad, R., B. Nahid-Mobarakeh, L. Baghli, F. Betin et G. A. Capolino. « Modeling and Control of Six-Phase Symmetrical Induction Machine Under Fault Condition Due to Open Phases ». IEEE Transactions on Industrial Electronics 55, no 5 (mai 2008) : 1966–77. http://dx.doi.org/10.1109/tie.2008.918479.
Texte intégralMurillo, Carla, Ann B. Weil, George E. Moore, Matthias Kreuzer et Jeff C. Ko. « Electroencephalographic and Cardiovascular Changes Associated with Propofol Constant Rate of Infusion Anesthesia in Young Healthy Dogs ». Animals 13, no 4 (14 février 2023) : 664. http://dx.doi.org/10.3390/ani13040664.
Texte intégralRathore, Vishal, et Krishna Bihari Yadav. « Mathematical Modeling and Numerical Analysis of SPIM Drive Using Modified SVPWM Technique ». ECTI Transactions on Electrical Engineering, Electronics, and Communications 20, no 2 (21 juin 2022) : 152–62. http://dx.doi.org/10.37936/ecti-eec.2022202.246877.
Texte intégralThèses sur le sujet "Générateur à induction à six phases"
Nurwati, Tri. « Contribution to fuzzy logic controller of six-phase induction generator for wind turbine application ». Electronic Thesis or Diss., Amiens, 2019. http://www.theses.fr/2019AMIE0064.
Texte intégralThe squirrel cage induction generator plays a significant role in various wind turbine applications. In this dissertation, the squirrel cage six-phase induction generator (SC6PIG) with 24 poles has been studied. This generator can operate even 1, 2 or 3 phases of the stator windings or inverter legs are lost. The proposed model of the SC6PIG is arranged based on the basic voltage equations of the induction machine and the general torque and rotor speed equations which use axis abcdef. Its parameters use similar to the parameters of αβ and dq models to apply the model in healthy and faulty conditions. When a stator winding opens, this model can work as an internal circuit-oriented model by opening or closing a switch but requires less computation time. Associated to the indirect rotor field oriented control (IRFOC), this model has been simulated successfully. Then a fuzzy logic control (FLC) system which uses MacVicar-Whelan matrix has been established in order to eliminate the power ripples that occur when one phase is missing. To validate the proposed method that has been previously simulated, tests have been carried out on the 24 kW prototype induction generator of the wind turbine
Rezazadeh, Souteh Seyed Ghasem. « Conception et optimisation d'une machine à induction à six phases avec enroulements concentrés pour véhicule électrique ». Electronic Thesis or Diss., Amiens, 2021. https://pedag.u-picardie.fr/moodle/upjv/mod/resource/view.php?id=274133.
Texte intégralElectrical Machine is an important research area in electrical engineering with numerous industrial applications. Induction machine is considered as one of the most employed electrical machines in industrial applications because of its firm structure, robustness, simplicity, reasonable cost, long lifetime, and high reliability. Multiphase induction machine, especially the six-phase one, is a sensible solution to increasing reliability compared to a three-phase induction machine for applications such as an electric vehicle. Increasing the number of phases on the machine can result in the ride through capability in case of loss of one or more phases. Furthermore, the multiphase configuration provides other advantages, such as high power-handling capability by dividing the required power between phases, reduced torque pulsations, reduced stator copper losses, and reduced rotor harmonic currents. Another solution in the way of improving induction machine performance is using concentrated winding because it has many advantages such as shorter non-overlapping end turns, higher fault-tolerant capability, and easier manufacturing procedure. The main drawback of concentrated winding, however, is its low-quality air gap flux density, which usually limits the winding application to permanent magnet synchronous machines. Considering the aforementioned drawback, applying concentrated winding to induction motors deteriorates their performances significantly, which renders the concentrated winding advantages ineffective. In this research work, the main goal is to improve the performance of the six-phase induction motors with concentrated windings. For this purpose, a new feasible concentrated winding layout, namely pseudo-concentrated winding, is proposed using winding function analysis, which has a higher fundamental harmonic of the air gap flux density compared to the conventional concentrated windings. Using the pseudo-concentrated winding instead of the conventional one enhances the performance parameters of the six-phase induction motor such as output power, efficiency, and power factor significantly. To enhance the motor performance, even more, a new optimum six-phase induction motor equipped with the pseudo-concentrated winding is designed and fabricated considering the winding features such as shorter end winding and lower fundamental harmonic of air gap flux density compared to the conventional distributed winding. The performance results of the motor show that the six-phase induction motor equipped with the pseudo-concentrated winding could have high-performance parameters even compared to the motor equipped with the distributed winding. Considering the aforementioned facts, it seems that using an induction motor equipped with the pseudo-concentrated winding can be an appropriate solution for electric vehicle application. To investigate more, an outer rotor six-phase induction motor equipped with the pseudo-concentrated winding is designed and optimized for light-duty low-power electric vehicles. As expected, the fabricated optimum outer rotor six-phase induction motor provides acceptable performance for the in-wheel application. In this research work, a novel pseudo-concentrated winding is introduced with better magnetic characteristics compared to the conventional concentrated windings, which allows applying it to the induction motors without having a noticeable performance drop compared to the distributed winding. The pseudo-concentrated winding has a lower air gap flux density amplitude compared to the distributed winding; therefore, for using this winding layout in induction motor application, a new stator lamination should be designed considering the magnetic characteristics of the pseudo-concentrated winding to achieve acceptable performance parameters
Actes de conférences sur le sujet "Générateur à induction à six phases"
Lekhchine, S., T. Bahi et Y. Soufi. « Field oriented control of a six phases induction motor ». Dans 2013 Eighth International Conference and Exhibition on Ecological Vehicles and Renewable Energies (EVER 2013). IEEE, 2013. http://dx.doi.org/10.1109/ever.2013.6521523.
Texte intégralAroquiadassou, Gerard, Humberto Henao et Gerard-Andre Capolino. « Experimental Analysis of the dq0 Stator Current Component Spectra of a 42V Fault-Tolerant Six-Phase Induction Machine Drive with Opened Stator Phases ». Dans 2007 IEEE International Symposium on Diagnostics for Electric Machines, Power Electronics and Drives. IEEE, 2007. http://dx.doi.org/10.1109/demped.2007.4393070.
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