Relevant bibliographies by topics / Armature reaction effect

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  2. Books
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Armature reaction effect'

Author: Grafiati
Published: 3 June 2025
Last updated: 31 July 2025

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Journal articles on the topic "Armature reaction effect"

1

Qi, Ji, Ziqiang Zhu, Luocheng Yan, et al. "Influence of Armature Reaction on Electromagnetic Performance and Pole Shaping Effect in Consequent Pole Pm Machines." Energies 16, no. 4 (2023): 1982. http://dx.doi.org/10.3390/en16041982.

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Consequent pole permanent magnet (CPPM) machines can improve the ratio of average torque to PM volume, but suffer from more serious armature reactions. In this paper, the variations of electromagnetic performance of surface-mounted PM (SPM), conventional CPPM machines, and pole-shaped CPPM machines with armature reaction at currents up to 5 times overload are analyzed and compared. The flux densities, flux linkages, back EMFs, inductances, torque characteristics, and demagnetization withstand capabilities are analyzed by the finite element method (FEM) and frozen permeability method. It is val
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2

Jeong, Jinseok, Hayoung Shi, Kichang Lee, and Beomsoo Kang. "Improvement of Electric Propulsion System Model for Performance Analysis of Large-Size Multicopter UAVs." Applied Sciences 10, no. 22 (2020): 8080. http://dx.doi.org/10.3390/app10228080.

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In this study, an improved model of the electric propulsion system is proposed in order to analyze the performance of large-size multicopter unmanned aerial vehicles. The main improvement of the proposed model is to reflect the armature reaction of the motor, which effectively explains the significant performance degradation in high-power operation. The armature reaction is a phenomenon, in which the main field flux is interfered by a magnetic flux and, as the size and output of the motor increase, the effect of armature reaction also rapidly increases. Therefore, the armature reaction must be
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3

Zhang, Fugang, Haibin Yin, and Yufeng Li. "Accurate Analytical Models of Armature Reaction Field for Multi-Segment Primaries Ironless PMLSM Based on Subdomain Method." Symmetry 14, no. 10 (2022): 2091. http://dx.doi.org/10.3390/sym14102091.

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Multi-segment-primary (MSP) ironless Permanent Magnet Linear Synchronous Machine (PMLSM) can be widely applied in long primary, long stroke, and heavy load applications. Therefore, an accurate armature reaction field analysis is very important to control this novel topology motor. In order to simplify the research process, a two-segment-primary (TSP) ironless PMLSM in this article was proposed as the smallest unit. The analytical models of the armature reaction field of the motor based on the subdomain method (SDM) were established considering the finite length of the segment-primary (SP) and
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Shen, Yue, Ling Tan Zhang, Li Min Sheng, and Lin Li. "Analysis for Impacts of Internal Impedance on the Load Characteristic of a Permanent Magnet Synchronous Generator." Advanced Materials Research 732-733 (August 2013): 1135–41. http://dx.doi.org/10.4028/www.scientific.net/amr.732-733.1135.

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The load characteristic analysis of permanent magnet synchronous generator is presented. An internal impedance mathematic model of the generator was built with phasor analysis method for analyzing the relationship between exterior voltage characteristic or voltage regulation rate, active power and armature reactance. The research results demonstrated that the internal impedance of generator has both current and power factor angle negative feedback characteristic, which makes the voltage regulation rate be improved to a certain extent and the improved effect lying on both the direct-axis armatu
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Dou, YiPing, YouGuang Guo, Jian Guo Zhu, and HaiYan Lu. "Effect of Armature Reaction of a Permanent-Magnet Claw Pole SMC Motor." IEEE Transactions on Magnetics 43, no. 6 (2007): 2561–63. http://dx.doi.org/10.1109/tmag.2007.892321.

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KAMANO, Takuya, Takayuki SUZUKI, and Kazuo YAMABOSHI. "Effect of Armature Reaction and Mutual Induction on Characteristics of DC Servo Motors." Transactions of the Society of Instrument and Control Engineers 25, no. 1 (1989): 84–91. http://dx.doi.org/10.9746/sicetr1965.25.84.

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7

Jang, Kibong. "Effect of IPMSM d-q Axis Parameters According to Magnetic Saturation and Armature Reaction." Journal of Electrical Engineering and Technology 10, no. 2 (2015): 539–44. http://dx.doi.org/10.5370/jeet.2015.10.2.539.

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Ruuskanen, Vesa. "Effect of armature reaction on the core losses of the permanent magnet synchronous motor." Electrical Engineering 99, no. 1 (2016): 85–92. http://dx.doi.org/10.1007/s00202-016-0401-6.

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Seok-Myeong Jang and Sang-Sub Jeong. "Armature reaction effect and inductance of moving coil linear oscillatory actuator with unbalanced magnetic circuit." IEEE Transactions on Magnetics 37, no. 4 (2001): 2847–50. http://dx.doi.org/10.1109/20.951325.

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Dalal, Ankit, and Praveen Kumar. "Analytical Model for Permanent Magnet Motor With Slotting Effect, Armature Reaction, and Ferromagnetic Material Property." IEEE Transactions on Magnetics 51, no. 12 (2015): 1–10. http://dx.doi.org/10.1109/tmag.2015.2459036.

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Books on the topic "Armature reaction effect"

1

Canadian Society of Civil Engineers., ed. Effect of armature reaction in synchronous motors and rotary converters. s.n., 1991.

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Book chapters on the topic "Armature reaction effect"

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Akiyama Yuji and Niwa Yuta. "Propositions for the Analysis of Commutation Phenomena of Universal Motors Using the State Function Method." In Studies in Applied Electromagnetics and Mechanics. IOS Press, 2011. https://doi.org/10.3233/978-1-60750-750-5-439.

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The universal motors of our advanced research use FEM simulations to perform modeling of universal motors rotating at ultrahigh speed, by using the like state function method with respect to the details regarding the commutation scintillation or arc phenomenon of the commutators, the air gap surface, and its contact condition of the brushes. As a result, at the design stage, the commutation scintillation phenomenon was quantitatively estimated and an investigation was performed with respect to the configuration of the iron core. Furthermore, an example of this modeling method based on FEM anal
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Conference papers on the topic "Armature reaction effect"

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Muteba, Mbika. "Performance Evaluation of a Dual Stator-Winding Three-Phase Asynchronous Generator with Armature Reaction Effect." In 2019 IEEE Transportation Electrification Conference and Expo (ITEC). IEEE, 2019. http://dx.doi.org/10.1109/itec.2019.8790537.

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Upadhyay, Parag, and K. R. Rajagopal. "Effect of Armature Reaction and Skewing on the Performance of Radial-flux Permanent Magnet Brushless DC Motor." In 2006 International Conference on Power Electronic, Drives and Energy Systems. IEEE, 2006. http://dx.doi.org/10.1109/pedes.2006.344368.

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Mulelu, Thuso Karen, and Mbika Muteba. "Performance Analysis of a Residential Wind-Turbine Dual-Stator Winding Synchronous Reluctance Generator with Armature Reaction Effect." In 2019 8th International Conference on Renewable Energy Research and Applications (ICRERA). IEEE, 2019. http://dx.doi.org/10.1109/icrera47325.2019.8996505.

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Zheng, Yinzhao, Dawei Liang, Zi Qiang Zhu, Hailong Liu, and Yanjian Zhou. "Effect of Armature Reaction on Asymmetric PM Loss and Temperature Distributions in V-shape Interior Permanent Magnet Synchronous Machines." In 2022 Second International Conference on Sustainable Mobility Applications, Renewables and Technology (SMART). IEEE, 2022. http://dx.doi.org/10.1109/smart55236.2022.9990454.

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Kumar, Praveen, Md Motiur Reza, and R. K. Srivastava. "Effect of relative phase-shift of magnetic field axes on armature reaction and performance of Hybrid Permanent Magnet Induction Machine." In 2016 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES). IEEE, 2016. http://dx.doi.org/10.1109/pedes.2016.7914460.

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Zheng, Yinzhao, Dawei Liang, Z. Q. Zhu, Yanjian Zhou, Hailong Liu, and Hai Xu. "Effect of Armature Reaction on Asymmetric PM Eddy Current Loss and Temperature Distributions of SPMSMs Accounting for Slot/pole Number Combinations." In 2023 IEEE Energy Conversion Congress and Exposition (ECCE). IEEE, 2023. http://dx.doi.org/10.1109/ecce53617.2023.10362076.

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7

Jeong, Chae Lim, Il Man Seo, Hyung Kyu Kim, and Jin Hur. "Analysis of an armature reaction effect in the case of a special spoke type BLDC motor using a ferrite permanent-magnet." In 2015 9th International Conference on Power Electronics and ECCE Asia (ICPE 2015-ECCE Asia). IEEE, 2015. http://dx.doi.org/10.1109/icpe.2015.7167972.

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Shin, Kyung-Hun, Kyong-Hwan Kim, Keyyong Hong, and Jang-Young Choi. "Armature reaction magnetic field and inductance of tubular linear synchronous machines with axially magnetized permanent magnets accounting for flux-passing iron pole effect." In 2016 IEEE Conference on Electromagnetic Field Computation (CEFC). IEEE, 2016. http://dx.doi.org/10.1109/cefc.2016.7816100.

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9

Fu, DongXue, Hewei Zhao, Qimin Wu, Chunwei Yuan, Dong Wang, and Hongbo Qiu. "Inductance Characteristics of the Axial-Radial Hybrid Excitation Motor with Fractional Slot Centralized Winding." In SAE 2024 Vehicle Powertrain Diversification Technology Forum. SAE International, 2025. https://doi.org/10.4271/2025-01-7056.

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<div class="section abstract"><div class="htmlview paragraph">The inductance parameter is important for the flux regulation performance of the hybrid excitation motor, and the axial structure leads to the change in the inductance parameter of the axial-radial hybrid excitation motor (ARHEM). To clarify the inductance characteristic of the ARHEM with different winding construction and the mutual coupling effect between the axial excitation and permanent magnet excitation on the inductance. Firstly, the structure of the ARHEM is presented. Secondly, the self and mutual inductance cha
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Tessarolo, Alberto, Mario Mezzarobba, and Michele Degano. "Analytical calculation of air-gap armature reaction field including slotting effects in fractional-slot concentrated-coil SPM multiphase machines." In 2011 International Conference on Power Engineering, Energy and Electrical Drives (POWERENG). IEEE, 2011. http://dx.doi.org/10.1109/powereng.2011.6036542.

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