Multi-Phase Synchronous Motor Solution for Steering Applications

Matyas, Arthur; Biro, K.; Fodorean, Daniel

doi:10.2528/pier12060507

Cited by 24 publications

(10 citation statements)

References 22 publications

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“…Because of the finite length of the motor the impedancesZ i are slightly different, so that the currents in the windings are not able to produce the same magneto-motive force as that produces by (6). At a first approximation we can neglect this error which decreases with the length of the motor and its number of pole pairs.…”

Section: Solution Of the Governing Equationmentioning

confidence: 99%

“…The simplest approach to model these linear motors is based on the use of lumped equivalent circuits as described in [1][2][3][4][5][6][7] for similar devices. However, while this technique allows to establish analytical relationships between the design parameters and the performance of the machine, it suffers from inherent inaccuracy especially in presence of complex flux paths.…”

Section: Introductionmentioning

confidence: 99%

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Tubular Linear Induction Machine as a Fast Actuator: Analysis and Design Criteria

Musolino¹,

Rizzo

Tripodi³

2012

PIER

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Abstract-In this paper, some design criteria for a Tubular Linear Induction Motor (TLIM) as a fast actuator are considered. The influence of geometrical and physical parameters on the operating conditions of a TLIM are investigated by means a quasi-analytic model. The model is based on the application of the Fourier Transform both in space and in time. The Fourier transform in space is introduced to take into account the finite length of the stator windings in the axial direction. The transient electrical response of the motor at standstill following the insertion of a three-phase system of voltage generators is performed by the Fourier transform in the time.

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Section: Solution Of the Governing Equationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Tubular Linear Induction Machine as a Fast Actuator: Analysis and Design Criteria

Musolino¹,

Rizzo

Tripodi³

2012

PIER

View full text Add to dashboard Cite

show abstract

“…The lumped equivalent circuit is the simplest approach to model the magnetic field, and allows to establish analytical relationships between design parameters and output performance. However, the technique suffers from inherent inaccuracy especially in presence of complex flux paths [22]. The mesh-based equivalent circuit is developed to achieve higher accuracy through a division of geometry [23].…”

Section: Governing Equations Of Flux Fieldmentioning

confidence: 99%

Magnetic Field of Tubular Linear Machines With Dual Halbach Array

Yan¹,

Zhang²,

Wang³

et al. 2013

PIER

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Abstract-Permanent magnet (PM) array affects flux field distribution of electromagnetic linear machines significantly. A novel dual Halbach array is proposed in this paper to enhance flux density in air gap, and thus to improve output performance of linear machines. Magnetic field in three-dimensional (3D) space of a tubular linear machine with dual Halbach array is formulated based on Laplace's and Poisson's equations. Numerical result from finite element method is employed to simulate and observe the flux distribution in the machine. A research prototype and a testbed are developed, and experiments are conducted to validate the analytical models. The study is useful for analysis and design optimization of electromagnetic linear machines.

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“…Permanent-magnet (PM) motors have been applied more and more widely, due to theirs high power density, high reliability, and high efficiency [1][2][3][4]. However, the heat problem of the motor is very serious following the upgrade of motor performance.…”

Section: Introductionmentioning

confidence: 99%

Computational Fluid Dynamics Thermal Prediction of Fault-Tolerant Permanent-Magnet Motor Using a Simplified Equivalent Model

Zhao¹,

Chen²,

Ji³

2015

PIER M

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Abstract-The thermal characteristic of a new out-rotor fault-tolerant permanent-magnet (FTPM) motor is modeled and predicted in this paper. Flow characteristics and thermal characteristics of this FTPM motor are calculated by using computational fluid dynamics method. The key is that an equivalent model is developed to replace the real motor, offering the merits of simplified meshing progress and convenient thermal calculation. Furthermore, the effectiveness of the developed equivalent model has been verified by simulation and experiment. In addition, the temperature distribution of the entire motor is given by using equivalent models. The results can be provided to improve motor thermal performance.

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Multi-Phase Synchronous Motor Solution for Steering Applications

Cited by 24 publications

References 22 publications

Tubular Linear Induction Machine as a Fast Actuator: Analysis and Design Criteria

Tubular Linear Induction Machine as a Fast Actuator: Analysis and Design Criteria

Magnetic Field of Tubular Linear Machines With Dual Halbach Array

Computational Fluid Dynamics Thermal Prediction of Fault-Tolerant Permanent-Magnet Motor Using a Simplified Equivalent Model

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