Wound-Field Synchronous Motor
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Starting performance analysis of solid salient poles synchronous motor by Finite Element Method
Ryosuke Tan, Design Section Large Rotating Machinery Department 1, Rotating Machinery Systems Division, TOSHIBA MITSUBISHI-ELECTRIC INDUSTRIAL SYSTEMS CORPORATION
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[L-MO-90] Detailed Coil Modelling for Motors
Motors require higher power densities and lowered heights. This calls for high-fidelity simulations that make it possible to view the effects of the detailed geometry of a coil. I…
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[W-SE-72] Reduction of Time Steps by Using Time Periodic Explicit Error Correction Method
In electrical equipment design, Computer Aided Engineering (CAE) software is used to make the best possible products within allowable timelines.
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[L-MO-54] JMAG-Express Online
JMAG-Express Online is a Web service to support your motor design work anytime, anywhere.
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[RTML-044] WFSM_01
Type: WFSM | Max Power: 2(kW) | Stator(Outside Diameter): 260(mm) | Height: 60(mm) | Voltage/Current: DC200(V)/20(A),DC100(V)/10(A) | Rotor/Mover: WF | Number of Phases: 3
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[W-MO-12] Comparative Evaluation of Synchronous Impedance of a 2D Model and a 3D Model
This case study makes the differences clear between 2D and 3D models by comparing the synchronous impedances obtained from the analysis results of 2D and 3D models, and shows that…
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[RTML-048] WFSM_02
Type: WFSM | Max Power: 2(kW) | Stator(Outside Diameter): 260(mm) | Height: 60(mm) | Voltage/Current: DC200(V)/20(A),DC100(V)/10(A) | Rotor/Mover: WF | Number of Phases: 6
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[JAC213] Circuit/Control Simulation of a Wound-Field Synchronous Motor
In this example, JMAG-RT is used to obtain the torque of a wound-field synchronous motor (below WFSM) and the coil inductance current dependence, and the spatial harmonic componen…
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[W-SE-94] Improving Automatic Mesh Generation Speed for 3D Solid Models
Magnetic field simulation tends to be run as a large-scale analysis lately, being backed by the remarkable performance improvement of the computer. JMAG features a high-performanc…
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[JAC287] Analysis of Current Conditions for the Maximum Efficiency of a WFSM
In this example, we determine the motor efficiency in relation to the field current for a WFSM when the motor output is kept constant.
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[RTML-051] WFSM_03
Type: WFSM | Max Power: 10(kW) | Stator(Outside Diameter): 115(mm) | Height: 150(mm) | Voltage/Current: DC240(V)/84.8(A), DC300(V)/15(A) | Rotor/Mover: WF | Number of Phases: 3
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[RTML-052] WFSM_04
Type: WFSM | Max Power: 10(kW) | Stator(Outside Diameter): 185(mm) | Height: 40(mm) | Voltage/Current: DC240(V)/84.8(A), DC300(V)/50(A) | Rotor/Mover: WF | Number of Phases: 3
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[RTML-053] WFSM_05
Type: WFSM | Max Power: 10(kW) | Stator(Outside Diameter): 185(mm) | Height: 50(mm) | Voltage/Current: DC240(V)/84.8(A), DC300(V)/35(A) | Rotor/Mover: WF | Number of Phases: 3
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[RTML-054] WFSM_06
Type: WFSM | Max Power: 75(kW) | Stator(Outside Diameter): 212(mm) | Height: 200(mm) | Voltage/Current: DC600(V)/250(A), DC200(V)/20(A) | Rotor/Mover: WF | Number of Phases: 3
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[RTML-055] WFSM_07
Type: WFSM | Max Power: 75(kW) | Stator(Outside Diameter): 212(mm) | Height: 200(mm) | Voltage/Current: DC600(V)/250(A), DC600(V)/45(A) | Rotor/Mover: WF | Number of Phases: 3
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[RTML-056] WFSM_08
Type: WFSM | Max Power: 75(kW) | Stator(Outside Diameter): 400(mm) | Height: 65(mm) | Voltage/Current: DC500(V)/283(A), DC600(V)/50(A) | Rotor/Mover: WF | Number of Phases: 3