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Journal articles on the topic 'Double-excitation synchronous machine'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Nedjar, B., S. Hlioui, Y. Amara, L. Vido, M. Gabsi, and M. Lecrivain. "A New Parallel Double Excitation Synchronous Machine." IEEE Transactions on Magnetics 47, no. 9 (September 2011): 2252–60. http://dx.doi.org/10.1109/tmag.2011.2134864.

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2

Asfirane, Salim, Sami Hlioui, Yacine Amara, and Mohamed Gabsi. "Study of a Hybrid Excitation Synchronous Machine: Modeling and Experimental Validation." Mathematical and Computational Applications 24, no. 2 (March 27, 2019): 34. http://dx.doi.org/10.3390/mca24020034.

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This paper deals with a parallel hybrid excitation synchronous machine (HESM). First, an expanded literature review of hybrid/double excitation machines is provided. Then, the structural topology and principles of operation of the hybrid excitation machine are examined. With the aim of validating the double excitation principle of the topology studied in this paper, the construction of a prototype is presented. In addition, both the 3D finite element method (FEM) and 3D magnetic equivalent circuit (MEC) model are used to model the machine. The flux control capability in the open-circuit condition and results of the developed models are validated by comparison with experimental measurements. The reluctance network model is created from a mesh of the studied domain. The meshing technique aims to combine advantages of finite element modeling, i.e., genericity and expert magnetic equivalent circuit models, i.e., reduced computation time. It also allows taking the non-linear characteristics of ferromagnetic materials into consideration. The machine prototype is tested to validate the predicted results. By confronting results from both modeling techniques and measurements, it is shown that the magnetic equivalent circuit model exhibits fairly accurate results when compared to the 3D finite element method with a gain in computation time.
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3

Awah, Chukwuemeka Chijioke, and Ogbonnaya Inya Okoro. "Torque characteristics of double-stator permanent magnet synchronous machines." Archives of Electrical Engineering 66, no. 4 (December 20, 2017): 815–28. http://dx.doi.org/10.1515/aee-2017-0062.

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Abstract The torque profile of a double-stator permanent magnet (PM) synchronous machine of 90 mm stator diameter having different rotor pole numbers as well as dual excitation is investigated in this paper. The analysis includes a comparative study of the machine’s torque and power-speed curves, static torque and inductance characteristics, losses and unbalanced magnetic force. The most promising flux-weakening potential is revealed in 13- and 7-rotor pole machines. Moreover, the machines having different rotor/stator (Nr/Ns) pole combinations of the form Nr = Ns ± 1 have balanced and symmetric static torque waveforms variation with the rotor position in contrast to the machines having Nr = Ns ± 2. Further, the inductance results of the analyzed machines reveal that the machines with odd rotor pole numbers have better fault-tolerant capability than their even rotor pole equivalents. A prototype of the developed double-stator machine having a 13-pole rotor is manufactured and tested for verification.
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4

Felicetti, Roberto, Curt Johan David Abrahamsson, and Urban Lundin. "The influence of eddy currents on the excitation winding impedance of solid and laminated salient pole synchronous machines." Electrical Engineering 102, no. 4 (July 1, 2020): 2553–66. http://dx.doi.org/10.1007/s00202-020-01053-z.

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Abstract This work investigates the establishment of steady-state eddy currents in solid and laminated salient poles and rotor rim of synchronous machines due to a periodic excitation voltage. It shows that the presence of eddy currents in the rotor magnetic circuit has the double effect of increasing the excitation winding AC-resistance and decreasing its magnetizing AC-inductance. According to that a simple analytical model is presented in here which allows a rapid rough estimation of the excitation winding AC-resistance when little information is available about the machine geometry and its electric/magnetic materials properties. The model is then verified by reproducing in frequency the excitation winding AC-resistance and the related power loss measured in two synchronous generators. Finally, the limits of reliability and applicability of the model are discussed. The model has implications for periodic field winding current control and voltage regulation in synchronous machines.
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5

Nezli, Lazhari, and Mohand Mahmoudi. "Vector Control with Optimal Torque of a Salient-Pole Double Star Synchronous Machine Supplied by Three-Level Inverters." Journal of Electrical Engineering 61, no. 5 (September 1, 2010): 257–63. http://dx.doi.org/10.2478/v10187-010-0037-0.

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Vector Control with Optimal Torque of a Salient-Pole Double Star Synchronous Machine Supplied by Three-Level InvertersThis work relates to the study of the vector control of the salient-pole double star synchronous machine drive (DSSM) fed by three-level inverters which are controlled by PWM hysteresis strategy. Indeed, it is a question of carrying out a decoupling between rotor flux and electromagnetic torque, by introducing a vector control with an optimal torque working and by imposing constant flux regime. Furthermore, to ensure a decoupled dynamic behavior of the machine as in the case of a DC machine, a regulation of the rotor current has been introduced through a chopper operating at 5 kHz chopping frequency, feeding the excitation circuit. The obtained results are very satisfactory and reveal the effectiveness of the proposed approach.
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6

Hoang, Trung-Kien, Lionel Vido, Frederic Gillon, and Mohamed Gabsi. "Structural optimization to maximize the flux control range of a double excitation synchronous machine." Mathematics and Computers in Simulation 158 (April 2019): 235–47. http://dx.doi.org/10.1016/j.matcom.2018.08.013.

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7

Zhao, Chenchen, Yubin Wang, Wei Xu, Xianglin Li, and Xingtian Feng. "Analysis of air-gap permeance functions in flux-modulation double-stator electrical excitation synchronous machine." IET Electric Power Applications 14, no. 9 (September 1, 2020): 1550–57. http://dx.doi.org/10.1049/iet-epa.2019.0757.

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8

Wang, Yubin, Wei Xu, Xiaodong Zhang, and Wenzhong Ma. "Harmonic Analysis of Air Gap Magnetic Field in Flux-Modulation Double-Stator Electrical-Excitation Synchronous Machine." IEEE Transactions on Industrial Electronics 67, no. 7 (July 2020): 5302–12. http://dx.doi.org/10.1109/tie.2019.2934061.

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9

Soe, Saint Saint, and Yan Aung Oo. "Design of Slotted and Slotless AFPM Synchronous Generators and their Performance Comparison Analysis by using FEA Method." International Journal of Electrical and Computer Engineering (IJECE) 5, no. 4 (August 1, 2015): 810. http://dx.doi.org/10.11591/ijece.v5i4.pp810-820.

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Axial-flux permanent magnet machines are popular and widely used for many applications due to their attractive features such as light weight, low noise, high torque, robust and higher efficiency due to lack of field excitation. The main essence of this paper is to perform slotted and slotless axial-flux permanent magnet synchronous generator design based on theoretical sizing equations and then finite element analysis is reinforcement in order to get a more reliable and accuracy machine design. A comparative study of machine design and performances over the same rating but different configurations i.e., slotted and slotless are also discussed. And then, finite-element method (FEM) software was made for the slotted stator and slotless stator (AFPMSG) in order to compare their magnetic flux density and efficiency. The AFPMSG topology considered in this paper is a three-phase double-rotor single-stator topology with 16 pole-pairs, 2kW rated power and 188 rpm rated speed.
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10

Li, Xiao Hao, Wei Zhao, and Qun Chao Zhao. "Harmonic Vibration Control Synchronization Simulation for Double Exciting Motors of Single-Mass Nonlinear System." Advanced Materials Research 722 (July 2013): 352–56. http://dx.doi.org/10.4028/www.scientific.net/amr.722.352.

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For nonlinear harmonic vibration synchronization vibration machine have been widely used in metallurgy, mining, agriculture and other fields, but the harmonic vibration synchronization mechanism for the multi-excitation sources which used to driven the nonlinear vibration machine to realize the harmonic vibration synchronization movement is not clear. In order to study the problem, the nonlinear electromechanical coupling dynamic model has been established for the single-mass harmonic vibration synchronization nonlinear machine in the paper, and by analyzing the coupling dynamic characteristics of the double exciting motors, the harmonic vibration control synchronous simulation model and corresponding harmonic vibration control synchronization strategy have been established. Under the different initial conditions and different Working conditions, the harmonic vibration control synchronization process for the double exciting motors have been simulated. Based on the simulation results, the harmonic vibration control synchronization mechanism for the double exciting motors which used to drive the nonlinear vibration machine have been analyzed and discussed, and the validity of the harmonic vibration control synchronization strategy for the double exciting motors to realize the harmonic vibration synchronization movement has been verified. All these can provide the reference basis for the subsequent nonlinear vibration machine to carry out the harmonic vibration synchronization status application.Introduction
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11

Mbadiwe, Enwelum I., and Erwan B. Sulaiman. "Evaluation of Performance of Flux Switching Motor in Segmented Rotor Using Permanent Magnet For Direct Drive." International Journal of Engineering & Technology 7, no. 4.30 (November 30, 2018): 383. http://dx.doi.org/10.14419/ijet.v7i4.30.22328.

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The torque action provided by combustion engine in conventional vehicles has been boosted by added electric motor, a device which also provide torque, for fuel economy in hybrid electric vehicle. Meanwhile, the complicated nature of combustion engine still poses economic imperatives as petroleum resources are getting depleted. Interestingly, vehicles propelled by electric motor powered by electricity, will completely eliminate combustion engine using fossil oil and also provide clean and reliable vehicles for personal transportation. Since electric motor is a core component, high torque motors are necessary for direct drive application. This papers presents a feasible 24 stator - 10 rotor segments flux switching motor (FSM) using 1 kg weight of PM. FSM is advance form of synchronous machine with double frequency that locates all active materials on the stator only. Permanent magnet (PM) flux source is chosen because it offers loss free excitation without external circuit connection. The JMAG® Studio tool version 14.1 was employed for 2D- FEA design and performance investigation of motor in terms of cogging torque and average torque. Finally, simulation result of proposed motor successfully achieved 352Nm and constant power of 36kW projecting it as viable candidate for high torque necessary for direct drive application.
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12

Amara, Yacine, Mohamed Gabsi, Lionel Vido, AH Ben Hamed, and Michel Lécrivain. "Machines synchrones à double excitation. Principes et structures." Revue internationale de génie électrique 10, no. 1-2 (May 9, 2007): 151–88. http://dx.doi.org/10.3166/rige.10.151-188.

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13

Zhao, Chao Hui, Jian Long Sun, Jin Cai Li, and Xin Hu. "Operating Mode Analysis on Paratactic Structure Hybrid Excitation Synchronous Generators for Wind Power Generation." Advanced Materials Research 818 (September 2013): 166–71. http://dx.doi.org/10.4028/www.scientific.net/amr.818.166.

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In order to deal with the difficulty of magnetic field adjustment in permanent magnet synchronous machines, this paper proposed a novel paratactic structure hybrid excitation synchronous generator (HESG) and presented the basic configuration and its principle. Then, with the analysis of armature reactions, it introduced the detailed working performances of permanent magnet synchronous generator (PMSG) and the electric excitation synchronous generator (EESG) in HESGunder different field current conditions. We can classify the operating modes of HESGinto three categories: double-generation mode, single-generation mode and generation-motor mode whose boundaries were deduced. Finally, the experimental results proved the correctness of those analyses.
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14

Hosseinpour, Alireza, Mohammad Mardaneh, and Akbar Rahideh. "Two‐dimensional analytical model for double field excitation synchronous machines." IET Generation, Transmission & Distribution 15, no. 6 (January 12, 2021): 1081–93. http://dx.doi.org/10.1049/gtd2.12082.

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15

Bellara, A., H. Bali, R. Belfkira, Y. Amara, and G. Barakat. "Analytical Prediction of Open-Circuit Eddy-Current Loss in Series Double Excitation Synchronous Machines." IEEE Transactions on Magnetics 47, no. 9 (September 2011): 2261–68. http://dx.doi.org/10.1109/tmag.2011.2138710.

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16

Ammara, Yacine, Hami Ben Ahmed, Mohamed Gabsi, Michel Lécrivain, and Franck Chabot. "Machines synchrones à double excitation Analyse et optimisation du fonctionnement pour la traction électrique." Revue internationale de génie électrique 7, no. 1-2 (April 30, 2004): 163–99. http://dx.doi.org/10.3166/rige.7.163-199.

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17

Bali, H., Y. Amara, G. Barakat, R. Ibtiouen, and M. Gabsi. "Analytical Modeling of Open Circuit Magnetic Field in Wound Field and Series Double Excitation Synchronous Machines." IEEE Transactions on Magnetics 46, no. 10 (October 2010): 3802–15. http://dx.doi.org/10.1109/tmag.2010.2053039.

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18

-VIDO, Lionel. "Apport des machines synchrones à double excitation pour la traction automobile : application aux véhicules électriques ou hybrides." Revue de l'Electricité et de l'Electronique -, no. 09 (2006): 25. http://dx.doi.org/10.3845/ree.2006.086.

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19

Wang, Yubing, Chenchen Zhao, and Xianglin Li. "Vibration and Noise Analysis of Flux-modulation Double Stator Electrical-Excitation Synchronous Machine." IEEE Transactions on Energy Conversion, 2021, 1. http://dx.doi.org/10.1109/tec.2021.3084607.

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