FE-Aided Synchronization Analysis of Line-Start Synchronous Reluctance Motors

Seo, Un-Jae; Kim, Dong‐Jun; Han, Pil-Wan; Chun, Yon‐Do

doi:10.3390/app112411673

Cited by 3 publications

(4 citation statements)

References 26 publications

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“…The relation between the three-phase variables associated with the stator windings and the rotor arbitrary frame are well presented in [23]. Figure 12 illustrates the steady state d-and q-axis equivalent circuital models of the LS-SynRM [24]. The voltage equations that describe the electrical characteristic of the LS-SynRM in rotating arbitrary reference frame are stated by [24]- [26]:…”

Section: Steady State D-and Q-axis Circuital Modelmentioning

confidence: 99%

“…Figure 12 illustrates the steady state d-and q-axis equivalent circuital models of the LS-SynRM [24]. The voltage equations that describe the electrical characteristic of the LS-SynRM in rotating arbitrary reference frame are stated by [24]- [26]:…”

Section: Steady State D-and Q-axis Circuital Modelmentioning

confidence: 99%

“…The Electromagnetic torque developed at asynchronous speed by the SynRM with cage rotor is stated by [24], [26]:…”

Section: A Analysis Of Synchronization Capablitiesmentioning

confidence: 99%

“…This torque pulsates at twice the slip frequency during starting phase of the motor [4], [30]. Its magnitude 𝑇 𝑟𝑒𝑙 depends on the difference between the d-axis and q-axis magnetizing inductances as expressed in (15) [24]. On the other hand the asynchronous torque 𝑇 𝑎𝑠𝑦 is generally expressed as in ( 16) [24].…”

Section: A Analysis Of Synchronization Capablitiesmentioning

confidence: 99%

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Line-Start Synchronous Reluctance Motor With V-Shaped Rotor Laminations

Muteba

2022

IEEE Access

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A line-start synchronous reluctance motor (LS-SynRM) that meets the IE4 efficiency and has satisfactory starting and synchronizing capabilities while operating with acceptable power factor will find application in constant speed drives. This paper introduces a line-start synchronous reluctance motor with Vshape rotor laminations (LS-SynRM-VSRL). The motor, which has been designed from an IE2-132S4 conventional foot mounted three-phase induction motor NEMA frame, was modeled using the threedimensional (3D) Finite Element Method (FEM), then prototyped and tested for transient, dynamic, and steady-state performance under different load conditions. The Finite Element Analysis (FEA) and measured results of the LS-SynRM-VSRL are compared with those of a conventional line-start synchronous reluctance motor (CLS-SynRM). The results evidenced that both LS-SynRMs achieved successful synchronization on no-load, with the proposed LS-SynRM-VSRL reaching the steady state condition much quicker than the CLS-SynRM. Under steady-state operations, both LS-SynRMs achieved IE4 efficiency, with the proposed LS-SynRM-VSRL reaching an efficiency of 93.6% on full-load, in contrast to the 84.9% that the IE2-132S4 induction motor has achieved under the same loading condition.INDEX TERMS Constant speed drives, dynamic response and transient analysis, experimental measurements, finite element analysis, IE4 efficiency, line-start motor, low torque ripple, steady-state analysis, synchronizing capability, synchronous reluctance motor.

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Section: Steady State D-and Q-axis Circuital Modelmentioning

confidence: 99%

Section: Steady State D-and Q-axis Circuital Modelmentioning

confidence: 99%

“…The Electromagnetic torque developed at asynchronous speed by the SynRM with cage rotor is stated by [24], [26]:…”

Section: A Analysis Of Synchronization Capablitiesmentioning

confidence: 99%

Section: A Analysis Of Synchronization Capablitiesmentioning

confidence: 99%

See 2 more Smart Citations

Line-Start Synchronous Reluctance Motor With V-Shaped Rotor Laminations

Muteba

2022

IEEE Access

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Modeling and Characteristic Analysis of Line-Start Synchronous Reluctance Motor

Luo,

Yang

2023

2023 IEEE 17th International Conference on Compatibility, Power Electronics and Power Engineering (CPE-POWERENG)

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A Study on a Design Considering the Transient State of a Line-Start Permanent Magnet Synchronous Motor Satisfying the Requirements of the IE4 Efficiency Class

2022

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In this paper, the transient state analysis of a Line-Start Permanent Magnet Synchronous Motor (LSPMSM) and the optimum design for high efficiency were studied. In the case of an LSPMSM, aluminum bars and permanent magnets are inserted in the rotor. Since it has aluminum bars, it can be directly started on-line without closed-loop control at the time of starting, like an induction motor. Furthermore, once driven, it rotates at a synchronous speed due to the permanent magnets in the steady state. Theoretically, since the rotor bars have no induced current, copper loss does not occur in the rotor bars. Further, because of the inserted permanent magnets, an LSPMSM has a higher power density than an induction motor with the same output power. However, since it is driven directly on-line, the transient state is longer than that of a synchronous motor driven by an inverter. Therefore, it is important to analyze the characteristics of the transient state depending on the rotor shape in the LSPMSM design. In this study, an LSPMSM that has the same outer diameter of a 7.5 kW IE3 efficiency class induction motor currently used for the industry was designed. The optimal design of the motor was designed using Finite-Element Analysis (FEA) and Design of Experiment (D.O.E). In the design process, the velocity ripple was minimized in the transient state, and the steady state was quickly reached. Finally, the efficiency of the motor satisfies the requirements of the IE4 efficiency class, an efficiency standard described in IEC 60034-30, which is an international standard.

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FE-Aided Synchronization Analysis of Line-Start Synchronous Reluctance Motors

Cited by 3 publications

References 26 publications

Line-Start Synchronous Reluctance Motor With V-Shaped Rotor Laminations

Line-Start Synchronous Reluctance Motor With V-Shaped Rotor Laminations

Modeling and Characteristic Analysis of Line-Start Synchronous Reluctance Motor

A Study on a Design Considering the Transient State of a Line-Start Permanent Magnet Synchronous Motor Satisfying the Requirements of the IE4 Efficiency Class

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