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Автор: Grafiati
Опубліковано: 14 березня 2023

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Статті в журналах з теми "Multiple three-phase electrical machines"

1

Zabaleta, Mikel, Emil Levi, and Martin Jones. "A Novel Synthetic Loading Method for Multiple Three-Phase Winding Electric Machines." IEEE Transactions on Energy Conversion 34, no. 1 (March 2019): 70–78. http://dx.doi.org/10.1109/tec.2018.2850976.

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2

Abduallah, Ahmad Anad, Obrad Dordevic, Martin Jones, and Emil Levi. "Regenerative Test for Multiple Three-Phase Machines With Even Number of Neutral Points." IEEE Transactions on Industrial Electronics 67, no. 3 (March 2020): 1684–94. http://dx.doi.org/10.1109/tie.2019.2903750.

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3

Shchur, Ihor, and Daniel Jancarczyk. "Electromagnetic Torque Ripple in Multiple Three-Phase Brushless DC Motors for Electric Vehicles." Electronics 10, no. 24 (December 13, 2021): 3097. http://dx.doi.org/10.3390/electronics10243097.

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This paper investigated an electromagnetic torque ripple level of BLDC drives with multiple three-phase (TP) permanent magnet (PM) motors for electric vehicles. For this purpose, mathematical models of PM machines of different armature winding sets-single (STP), dual (DTP), triple (TTP), and quadruple (QTP) ones of asymmetrical configuration and optimal angular displacement between winding sets were developed and corresponding computer models in the Matlab/Simulink environment were created. In conducted simulation, the influence of various factors on the electromagnetic torque ripple of the multiple-TP BLDC drives was investigated—degree of modularity, magnetic coupling between armature winding sets, and drive operation in open and closed-loop control systems. Studies have shown an increase of the electromagnetic torque ripple generated by one module in the multiple TP BLDC drives with magnetically coupled winding sets, due to additional current pulsations caused by magnetic interactions between the machine modules. However, the total electromagnetic torque ripples are much lower than in similar drives with magnetically insulated winding sets. Compared with the STP BLDC drive, the multiple TP BLDC drives with the same output parameters showed a reduction of the electromagnetic torque ripple by 27.6% for the DTP, 32.3% for the TTP, and 34.0% for the QTP BLDC drive.
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4

Cistelecan, Mihail V., Fernando J. T. E. Ferreira, and Mihail Popescu. "Adjustable Flux Three-Phase AC Machines With Combined Multiple-Step Star-Delta Winding Connections." IEEE Transactions on Energy Conversion 25, no. 2 (June 2010): 348–55. http://dx.doi.org/10.1109/tec.2009.2035692.

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5

Jedryczka, Cezary. "Comparative analysis of the three- and six-phase fractional slot concentrated winding permanent magnet machines." COMPEL - The international journal for computation and mathematics in electrical and electronic engineering 36, no. 3 (May 2, 2017): 811–23. http://dx.doi.org/10.1108/compel-09-2016-0431.

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Purpose The purpose of this paper is to analyse and compare the functional parameters of three- and six-phase permanent magnet synchronous motors (PMSM) with fractional-slot concentrated windings (FSCW). Design/methodology/approach The investigations are focused on the comparison of the distortions of back electromotive force (emf) and magnetomotive force (mmf) waveforms, as well as torque ripples, radial force spatial harmonics and motor performance studies. The finite element models of the test machine and a personally developed computer code have been used to calculate motor characteristics and analyse and synthesise multiphase winding layouts, respectively. Findings Compared with the traditional three-phase PMSM designs, the proposed six-phase machines are characterized by a significantly lower content of sub-harmonics in mmf waveform distribution. Moreover, the investigated six-phase machines exhibited a higher average value of electromagnetic torque, significantly lower torque ripples and a reduced value of low-order harmonics of the radial component of the electromagnetic force in the air-gap of the machine. Originality/value The analyses presented in this paper show that six-phase PMSM with FSCWs are advantageous to their counterpart three-phase machines. Specifically, they are more suited to working with multiple drives supplying a segmented winding system while simultaneously offering higher performance. This suitability to the use of a multi-drive supply for one motor offers flexibility and cost reduction while increasing the fault tolerance of a power train system.
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6

Jacobina, Cursino BrandÃo, Euzeli Cipriano dos Santos, Edison Roberto Cabral da Silva, Mauricio BeltrÃo de Rossiter Correa, Antonio Marcus Nogueira Lima, and Talvanes Meneses Oliveira. "Reduced Switch Count Multiple Three-Phase AC Machine Drive Systems." IEEE Transactions on Power Electronics 23, no. 2 (March 2008): 966–76. http://dx.doi.org/10.1109/tpel.2007.915027.

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7

Du, Changshen, Quanbao Cheng, Kai Li, and Yong Yu. "Self-Sustained Collective Motion of Two Joint Liquid Crystal Elastomer Spring Oscillator Powered by Steady Illumination." Micromachines 13, no. 2 (February 8, 2022): 271. http://dx.doi.org/10.3390/mi13020271.

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For complex micro-active machines or micro-robotics, it is crucial to clarify the coupling and collective motion of their multiple self-oscillators. In this article, we construct two joint liquid crystal elastomer (LCE) spring oscillators connected by a spring and theoretically investigate their collective motion based on a well-established dynamic LCE model. The numerical calculations show that the coupled system has three steady synchronization modes: in-phase mode, anti-phase mode, and non-phase-locked mode, and the in-phase mode is more easily achieved than the anti-phase mode and the non-phase-locked mode. Meanwhile, the self-excited oscillation mechanism is elucidated by the competition between network that is achieved by the driving force and the damping dissipation. Furthermore, the phase diagram of three steady synchronization modes under different coupling stiffness and different initial states is given. The effects of several key physical quantities on the amplitude and frequency of the three synchronization modes are studied in detail, and the equivalent systems of in-phase mode and anti-phase mode are proposed. The study of the coupled LCE spring oscillators will deepen people’s understanding of collective motion and has potential applications in the fields of micro-active machines and micro-robots with multiple coupled self-oscillators.
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8

Jedryczka, Cezary, Wojciech Szelag, and Zbigniew Jerry Piech. "Multiphase permanent magnet synchronous motors with fractional slot windings." COMPEL - The international journal for computation and mathematics in electrical and electronic engineering 35, no. 6 (November 7, 2016): 1937–48. http://dx.doi.org/10.1108/compel-03-2016-0120.

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Анотація:
Purpose The purpose of this paper is to investigate advantages of multiphase permanent magnet synchronous motors (PMSM) with fractional slot concentrated windings (FSCW). The investigation is based on comparative analysis and assessment of FSCW PMSM wound as 3, 6, 9 and 12 phase machines suited for low speed applications. Design/methodology/approach The investigations are focussed on distortions of back electromotive (emf) and magnetomotive force (mmf) with the torque ripples and motors’ performance taken into account. The finite element models with the aid of customized computer code have been adopted for motor winding design and back emf, mmf and motor performance analyses. Findings The novel multiphase winding layouts were found to offer lower content of sub-harmonics in the mmf waveforms compared with the traditional three-phase machine designs. Moreover, the investigated multiphase machines exhibited higher average value of the electromagnetic torque, while the multiphase PMSM machines with FSCW were further characterized by significantly lower torque pulsations. Originality/value The analyses presented in this paper demonstrate that PMSM with FSCW are advantageous to their counterpart three-phase machines. Specifically, they offer higher performance and are more suitable to work with multiple drives supplying segmented winding system. This ability of using multi-drive supply for one motor offers flexibility and cost reduction while increasing fault tolerant power train system.
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Jenal, Mahyuzie, Erwan Sulaiman, Faisal Khan, and Md Zarafi Ahmad. "2D-FEA Based Design Study of Salient Rotor Three-Phase Permanent Magnet Flux Switching Machine with Concentrated Winding." Applied Mechanics and Materials 785 (August 2015): 274–79. http://dx.doi.org/10.4028/www.scientific.net/amm.785.274.

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This paper presents a new structure of permanent magnet flux switching machine (PMFSM) with multiple different sizes of rotor pole width. A robust single piece salient rotor is used to modulate and switch the flux linkage polarity in the armature winding and become the fundamental mechanism of these types of machines. The methodology of two-dimensional (2-D) finite element analysis (FEA) is used to evaluate the electromagnetic performance of coil test including flux line distributions, three phase flux linkage, cogging torque as well as induced emf. The resulting performances are analysed based on the variety of rotor pole width to meet the requirement of direct drive propulsion of Electric Vehicles (EVs).
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Chen, Xiao, Jiabin Wang, and Vipulkumar I. Patel. "A Generic Approach to Reduction of Magnetomotive Force Harmonics in Permanent-Magnet Machines With Concentrated Multiple Three-Phase Windings." IEEE Transactions on Magnetics 50, no. 11 (November 2014): 1–4. http://dx.doi.org/10.1109/tmag.2014.2320446.

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Дисертації з теми "Multiple three-phase electrical machines"

1

Cheang, Tak Son. "Inter-turn faults of three-phase induction machines." Thesis, University of Macau, 1997. http://umaclib3.umac.mo/record=b1445597.

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Zoric, I. "Multiple three-phase induction generators for wind energy conversion systems." Thesis, Liverpool John Moores University, 2018. http://researchonline.ljmu.ac.uk/8387/.

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Анотація:
During the past decade, there has been a considerable increase in the number of published works on multiphase machines and drives. This increased interest has been largely driven by a need for the so-called green energy, i.e. energy generated from renewable sources such as wind, and also an increased emphasis on greener means for transportation. Some of the advantages multiphase machines offer over three-phase counterparts are better fault tolerance, smaller current and power per phase, and higher frequency torque ripple. This thesis examines use of a multiphase induction generator in wind energy conversion systems (WECS). In particular, multiphase generators that comprise multiple 3-phase winding sets, where each winding set is supplied using an independent 3-phase voltage source inverter (VSI), are studied. It is claimed that these topologies offer advantages in cases where a WECS is connected to a multitude of independent ac or dc microgrids, systems where a single high-voltage dc link is needed or where a simple fault tolerance is achieved when a complete winding set is switched off. All of these examples require an arbitrary power or current sharing between winding sets. In order to achieve arbitrary current and power sharing, the control can be implemented using multi stator (MS) variables, so that the flux and torque producing currents of each winding set can be arbitrarily set. As an alternative, this thesis uses vector space decomposition (VSD) to implement the control, while individual winding set flux/torque producing currents are governed by finding the relationships between MS and VSD variables. This approach has all the advantages of both MS and VSD, i.e. access to individual winding set variables of MS and the ability to implement control in the multiple decoupled two dimensional subspaces of VSD, while heavy cross coupling between winding set variables, a weakness of MS, is avoided. Since the goal of the thesis is to present use of multiphase machines in WECS, modelling and simulation of a simple multiphase WECS in back-to-back configuration has been performed at first. All systems relevant to machine control where considered, such as grid and machine side VSIs, grid filter, indirect rotor field oriented control, current control in both flux/torque producing and non-producing subspaces, low order harmonic elimination, maximum power point tracking control, and voltage oriented control of the grid side VSI. Moreover, various WECS supply topologies were considered where developed current and power sharing would be a necessary requirement. Development of the proposed current sharing control commences with an analysis of multiple 3-phase machine modelling in terms of both MS and VSD variables. Since the actual control is implemented using decoupled VSD variables, VSD modelling has been studied in detail, resulting in an algorithm for creation of the VSD matrix applicable to any symmetrical or asymmetrical multiphase machine with single or multiple neutral points. Developed algorithm always decouples the machine into orthogonal two-dimensional subspaces and zero sequence components while making sure that all odd-order harmonics are uniquely mapped. Harmonic mapping analysis is offered as well. Next, relationship between MS and VSD variables has been developed by mapping MS variables into VSD subspaces. Since VSD matrix creation algorithm is valid for any multiphase machine, relationship between MS and VSD variables is applicable to any multiple 3-phase machine regardless of the configuration (symmetrical/asymmetrical), number of neutral points or machine type (synchronous or induction). Established relationship between MS and VSD has been used to implement current sharing control in decoupled VSD subspaces of the machine. It is shown that in order to achieve arbitrary current sharing it is only necessary to impose currents in flux/torque non-producing subspaces. Hence, total machine’s flux and torque are not affected at all. Besides verification by Matlab simulations, two topologies are experimentally investigated, a parallel machine side converter configuration and the case when a single high voltage dc link is created by cascading dc-links of the machine side VSIs. In the first case the ability of arbitrary current sharing between winding sets is validated, while the second tested topology demonstrates use of the developed control for the purpose of voltage balancing of the cascaded dc links.
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Goynuk, Yilmaz. "Development Of An Electrical Machines Analysis And Optimum Design Software Package." Master's thesis, METU, 2008. http://etd.lib.metu.edu.tr/upload/12609788/index.pdf.

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In this study, three different programs are developed for the analysis of the three-phase induction motor, single-phase capacitor type induction motor and switched reluctance motor. The programs are developed by using Pascal and C++ programming languages. In the performance calculations of motors, analytical methods are used and these methods are tested for accuracy. These programs have also capabilities to design an optimum motor, which meets a set of performance, material and manufacturing constraints while minimizing the weight or any other defined objective function. In addition, in this study, an optimization tool is used to obtain an appropriate optimization method for the design of different types of motors. The software is tested over different commercial motors. The results illustrates that the performance calculations and optimization approach of the programs lead to good results.
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Vichis-Rodriguez, Damian Sergio. "Modelling of three phase AC machines suitable for internal fault simulation, detection and analysis in multi-machine power systems." Thesis, University of Glasgow, 2010. http://theses.gla.ac.uk/1782/.

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The ever increasing demand for electrical energy has meant that electrical power systems have evolved to be the highly complex networks that are in existence today, where the transient interactions that take place between large synchronous generators have been the focus of advanced research for many decades. More recently, the proliferation of synchronous and asynchronous generators of comparatively small rating, which are not centrally planned, has added new impetus to this area of research. At a time when not only technical but also economic and environmental concerns must be carefully assessed, more realistic models of the individual power plant transient response and its interaction with the rest of the network become mandatory to achieve more accurate analysis of the network operation and prevent wastage of technical and economical resources. The main thrust of this research project is to develop comprehensive models of rotating machinery with which to assess the transient response of electrical power networks that undergo severe unbalanced operation due to faulty conditions developing anywhere in the power network, including the rotating machinery’s windings. To achieve an unrivalled speed of response, a nodal-based model of the electrical power network has been developed, enabling the study of power networks of any size and topological formation with the utmost flexibility and efficiency. The rotating machinery addressed in this research work is the three-phase synchronous generator and the three-phase asynchronous (induction) machine. In multi-machine power systems transient studies, it is common to look at all the rotating machinery in the network as being healthy units having an idealized sinusoidally distributed stator winding – the possibility of a severe unbalanced condition internal to the machine due to internal fault or the effect of space harmonics, has, so far, not been addressed in a multi-machine environment. In this research work, new EMTP type models, with enhanced numerical properties, are constructed for the simulation of internal and external machine fault phenomena with different levels of details including the effects of saturation and space harmonics. Advanced numerical methods are employed to improve on the numerical stability of the network model allowing the use of larger time steps than what otherwise is possible with traditional numerical methods, enabling the new model to execute faster than existing models and yet to exhibit the same degree of numerical accuracy with an unrivalled degree of modelling flexibility. A case in point is an application made to model the transient response of a Variable Frequency Transformer (VFT) undergoing internal faults on its stator side. The rotating machinery models with internal fault representation developed in this research lend themselves to an application in the area of condition monitoring, where a new method is developed to detect internal faults in the stator side of three phase rotating machinery. The method is shown to be highly effective when applied to machines operating in an isolated environment as well as in a multi-machine power system, performing very well when applied to different types of equipment and various kinds of internal faults.
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5

Wiedenbrüg, Ernesto J. "Measurement analysis and efficiency estimation of three phase induction machines using instantaneous electrical quantities /." 1998. http://hdl.handle.net/1957/8890.

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Roy, Sudhin. "Grid Interactive Quality AC Power Supply With Switching Arm Based Integrated Magnetics For Dynamically Controlled Interconnection Among Multiple Sources And Loads." Thesis, 2010. http://etd.iisc.ernet.in/handle/2005/2245.

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The extensive use of nonlinear loads in today’s world has inspired considerable research interest in the area of power quality improvement. This thesis proposes an integrated magnetics based compact solution which provides regulated, balanced and sinusoidal load voltage drawing sinusoidal and balanced currents from the grid. Thus, it supplies clean power to the load without polluting the grid. It consists of an EI shaped magnetic core and two compensators known as the series and shunt compensators. The series compensator ensures the quality of output voltage, where as the shunt one takes care of quality of the current drawn from the grid. The magnetic circuit acts as a common domain for interaction between the energy ports. It also provides galvanic isolation between the inverters, load and the grid. The magnetic circuit incorporates a virtual arm switching mechanism to have an option of connecting the inverters either in series or in parallel with each other depending on the requirements. During normal mode when the switch remains inactive, the series inverter is effectively in series with the load and the shunt inverter is effectively connected across the load. Therefore, the voltage source inverters can be independently controlled to serve the purpose of series and shunt compensation. The shunt inverter is always connected in shunt with the grid. The magnetic arm switch is activated during grid power failure. Then the switch ensures parallel connection of the inverters and the load. The inverters are controlled to share the load power according to the respective ratings. Thus the magnetic arm switching mechanism helps in improving the system reliability. The series inverter also can be connected in parallel with the shunt one in presence of the grid to supplement the shunt inverter by supplying harmonic and reactive currents. The design, modelling and implementation issues for single phase applications are considered first. A simple controller structure for this application is also discussed in the thesis. The individual compensation actions are then verified by simulation and experimental results. The three phase power quality compensator is in principle an extension of the single phase quality power supply. It is realized by combining three single phase units with minor modification in terms of windings. A more compact structure is also proposed wherein a single integrated magnetic circuit for the three phase application can be used. The composite magnetic circuit is modelled and designed considering a laboratory prototype. A synchronously rotating reference frame based controller structure for the series and shunt compensators are discussed. The control of the inverters in power sharing mode (with parallel connected inverters) are also proposed and discussed. Experimental and simulated results are presented to verify and validate the operation of this compensator in different operating modes. An effective improvement in the control dynamics is achieved for handling unbalanced and nonlinear loading without increasing inverter switching frequency and controller parameters. In other words, the modified control scheme can handle nonlinear and unbalanced loading with relatively slow proportional integral (PI) controllers. Suitable feed forward compensation terms corresponding to each harmonic component are added to the output of the PI controllers in order to achieve this effective improvement. Experimental results show good improvement in this regard (for both series and shunt compensations).
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Книги з теми "Multiple three-phase electrical machines"

1

Quang, Nguyen Phung. Vector control of three-phase AC machines: System development in the practice. [Berlin]: Springer, 2008.

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Quang, Nguyen Phung. Vector control of three-phase AC machines: System development in the practice. [Berlin]: Springer, 2008.

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3

Delmar. Electrical Theory: Three-Phase Circuits and Electrical Machines. Delmar Cengage Learning, 2010.

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4

Learning, Delmar. Three Phase Circuits and Single Phase Transformers and Electrical Machines (Electrical Theory Video). Delmar Thomson Learning, 2002.

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5

Learning, Thomson Delmar. Three Phase Circuits & Electrical Machines Video Set (Tapes 1-4) (Electrical Theory Video). Delmar Learning, 2002.

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6

Learning, Thomson Delmar. Three Phase Circuites & Electrical Machines Video Set CD-ROM (Tapes 1-4) (Electrical Theory Video). Delmar Learning, 2002.

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7

Delmar. Three Phase And Single Phase Transformers And Electrical Machines Cd-rom Courseware: 2 Cd-rom Set (Electrical Theory Video). Delmar Thomson Learning, 2002.

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8

Wiedenbrüg, Ernesto J. Measurement analysis and efficiency estimation of three phase induction machines using instantaneous electrical quantities. 1998.

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9

Quang, Nguyen Phung, and Jörg-Andreas Dittrich. Vector Control of Three-Phase AC Machines: System Development in the Practice. Springer, 2015.

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10

Quang, Nguyen Phung, and Jörg-Andreas Dittrich. Vector Control of Three-Phase AC Machines: System Development in the Practice. Springer, 2015.

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Частини книг з теми "Multiple three-phase electrical machines"

1

Molina Llorente, Rubén. "Three-Phase Electrical Systems." In Practical Control of Electric Machines, 85–118. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-34758-1_3.

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2

Leonhard, Werner. "Symmetrical Three-Phase AC Machines." In Control of Electrical Drives, 155–203. Berlin, Heidelberg: Springer Berlin Heidelberg, 1996. http://dx.doi.org/10.1007/978-3-642-97646-9_11.

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3

Boldea, Ion, and Lucian Tutelea. "Brushless Direct Current–Multiple Phase Reluctance Motor Modeling, Control, and Design." In Reluctance Electric Machines, 201–34. Boca Raton : Taylor & Francis, a CRC title, part of the Taylor & Francis imprint, a member of the Taylor & Francis Group, the academic division of T&F Informa, plc, 2018.: CRC Press, 2018. http://dx.doi.org/10.1201/9780429458316-7.

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4

Mune, Ankit R., and Sohel A. Bhura. "Three-Stage Heterogeneous Data Clustering Using Unsupervised Multiple Kernel and Extreme Learning Machine." In Lecture Notes in Electrical Engineering, 531–40. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-4687-5_41.

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Zha, Chencheng, Bo Wang, and Wenhan Xu. "Electromagnetic Thermal Coupled Analysis of a Multiple Three-Phase Fractional Slot Concentrated Winding Fault-Tolerant Motor." In Lecture Notes in Electrical Engineering, 68–79. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-0553-9_9.

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"Three-Phase Transformers." In Electrical Machines, 224–300. Cambridge University Press, 2017. http://dx.doi.org/10.1017/9781108355582.004.

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"Three-Phase Induction Motors." In Electrical Machines, 721–827. Cambridge University Press, 2017. http://dx.doi.org/10.1017/9781108355582.010.

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"Three-Phase Circuits." In Electrical Machines with MATLAB, 38–73. CRC Press, 2011. http://dx.doi.org/10.1201/b11685-7.

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"Starting Methods and Speed Control of Three-phase Induction Motors." In Electrical Machines, 828–56. Cambridge University Press, 2017. http://dx.doi.org/10.1017/9781108355582.011.

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Pustovetov, Mikhail. "Induction Electrical Machine Simulation at Three-Phase Stator Reference Frame: Approach and Results." In Applied Electromechanical Devices and Machines for Electric Mobility Solutions. IntechOpen, 2020. http://dx.doi.org/10.5772/intechopen.88906.

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Тези доповідей конференцій з теми "Multiple three-phase electrical machines"

1

Kim, Won-Jae, and Sang-Hoon Kim. "Multiple Open-Switch Fault Diagnosis Using ANNs for Three-Phase PWM Converters." In 2021 24th International Conference on Electrical Machines and Systems (ICEMS). IEEE, 2021. http://dx.doi.org/10.23919/icems52562.2021.9634387.

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2

Zoric, I., M. Zabaleta, M. Jones, and E. Levi. "Techniques for power sharing between winding sets of multiple three-phase machines." In 2017 IEEE Workshop on Electrical Machines Design, Control and Diagnosis (WEMDCD). IEEE, 2017. http://dx.doi.org/10.1109/wemdcd.2017.7947748.

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3

Cistelecan, M. V., F. J. T. E. Ferreira, and H. B. Cosan. "Generalized MMF space harmonics and performance analysis of combined multiple-step, star-delta, three-phase windings applied on induction motors." In 2008 International Conference on Electrical Machines (ICEM). IEEE, 2008. http://dx.doi.org/10.1109/icelmach.2008.4799917.

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Mohsen Azizi, S. "Fault Diagnosis in Three-Phase Power Inverters Using Multiple-Model Kalman Filter." In 2019 IEEE International Electric Machines & Drives Conference (IEMDC). IEEE, 2019. http://dx.doi.org/10.1109/iemdc.2019.8785372.

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Palacios, R. H. C., W. F. Godoy, A. Goedtel, I. N. da Silva, D. Morinigo-Sotelo, and O. Duque-Perez. "Time domain diagnosis of multiple faults in three phase induction motors using inteligent approaches." In 2017 IEEE 11th International Symposium on Diagnostics for Electrical Machines, Power Electronics and Drives (SDEMPED). IEEE, 2017. http://dx.doi.org/10.1109/demped.2017.8062338.

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Zhang, Zhi, Zuhong Zhu, Jukai Wu, Zhaoyun Zhang, Xiao Tang, and Chang Liu. "A High Performance of Three-phase Electrolytic Capacitor-Less LC-Type Grid-connected Inverter System with Multiple PV Arrays." In 2020 23rd International Conference on Electrical Machines and Systems (ICEMS). IEEE, 2020. http://dx.doi.org/10.23919/icems50442.2020.9291207.

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Cistelecan, Mihail V., Fernando Ferreira, and Mihail Popescu. "Adjustable flux three phase a.c. machines with combined multiple-step star-delta winding connections." In 2009 IEEE International Electric Machines and Drives Conference (IEMDC). IEEE, 2009. http://dx.doi.org/10.1109/iemdc.2009.5075209.

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Bacha, K., M. Gossa, H. Henao, and G. A. Capolino. "A time-frequency method for multiple fault detection in three-phase induction machines." In 2005 5th IEEE International Symposium on Diagnostics for Electric Machines, Power Electronics and Drives (DEMPED). IEEE, 2005. http://dx.doi.org/10.1109/demped.2005.4662525.

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Ikeda, Fuka, Toshihiko Tanaka, Hiroaki Yamada, and Masayuki Okamoto. "Smart charger for electric vehicles on single-phase three-wire distribution feeders with constant dc-capacitor voltage control under multiple household customers." In 2015 18th International Conference on Electrical Machines and Systems (ICEMS). IEEE, 2015. http://dx.doi.org/10.1109/icems.2015.7385084.

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Nakai, Mitsuki, Hiromi Inaba, Keiji Kishine, and Keisuke Ishikura. "Parallel multiple electric power conversion system constructed by connecting three power converters." In 2013 International Conference on Electrical Machines and Systems (ICEMS). IEEE, 2013. http://dx.doi.org/10.1109/icems.2013.6713284.

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