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Transient Magnetic (2D/Axisymmetric)

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  1. [RTML-004] PMSM/IPM Constant rating 1(kW) 3-phase

    Type: PMSM | Max Power: 1(kW) | Stator(Outside Diameter): 54(mm) | Height: 77(mm) | Voltage/Current: DC100(V)/20(A) | Rotor/Mover: IPM(Vshaped) | Average torque: 3.6(N·m)

  2. [RTML-003] PMSM/SPM Constant rating 1(kW) 3-phase

    Type: PMSM | Max Power: 1(kW) | Stator(Outside Diameter): 53(mm) | Height: 36(mm) | Voltage/Current: DC100(V)/20(A) | Rotor/Mover: SPM | Average torque: 3.6(N·m)

  3. [RTML-002] PMSM/IPM Constant rating 1(kW) 3-phase

    Type: PMSM | Max Power: 1(kW) | Stator(Outside Diameter): 54(mm) | Height: 54(mm) | Voltage/Current: DC100(V)/20(A) | Rotor/Mover: IPM(flat) | Average torque: 3.6(N·m)

  4. [RTML-001] PMSM/IPM Constant rating 1(kW) 3-phase

    Type: PMSM | Max Power: 1(kW) | Stator(Outside Diameter): 54(mm) | Height: 51(mm) | Voltage/Current: DC100(V)/20(A) | Rotor/Mover: IPM(Vshaped) | Average torque: 3.6(N·m)

  5. [JFT170] Distributed Processing Using JMAG-RemoteSystem

    This document describes how to distribute the execution of multiple cases using the JMAG-RemoteSystem.

    • [JAC214] Monitoring the Radial Force Acting on the Teeth of IPM Motors Using Circuit Control Simulation

      In this example, an IPM motor as a JMAG-RT model is captured in a control/circuit simulator, and radial forces acting on the teeth during motor driving is monitored while changing…

    • [JFT173] Workflow and Key Points in Efficiency Map Analysis

      It is intended for intermediate-level users who are able to use technical references to improve accuracy and efficiency of their analysis. Therefore, basic information and detaile…

    • [JAC098] Response Analysis of a Solenoid Valve Using a Control Simulator and the JMAG-RT

      This note presents how JMAG-RT can be used to calculate attraction forces and coil inductance that varies with harmonic and current. The result is the JMAG-RT model used as a refe…

    • [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.

    • [JFT011] Tooth Electromagnetic Force Monitoring During Control Simulation

      This document describes the preparation involved for outputting tooth electromagnetic force when creating a JMAG-RT model, MATLAB/Simulink settings, and the displaying of the obta…

    • [JFT176] Workflow and Key Points for Creating a JMAG-RT Model

      OverviewThis document covers the general flow of using JMAG to create a JMAG-RT model and provides the key points for each step and useful functions.It is intended for intermediat…

    • [JAC037] Vector Control Analysis of an IPM Motor Using Control Simulator and the JMAG-RT

      The purpose of this Application Note is to demonstrate how to import a JMAG-RT model to a control/circuit simulator after using the JMAG-RT to obtain the inductance spatial harmon…

    • [JAC134] Speed Control Analysis of a Permanent Magnet Linear Motor Using the Control Simulator and the JMAG-RT

      This Application Note presents how to use JMAG-RT to obtain the spatial harmonics and current dependency of the thrust and coil inductance, and import them to a circuit/control si…

    • [RTML-047] PMSM/IPM Constant rating 75(kW) 3-phase

      Type: PMSM | Power: 75(kW) | Stator(Outside Diameter): 212(mm) | Height: 200(mm) | Voltage/Current: DC600(V)/250(A) | Rotor/Mover: IPM

    • [JFT175] Workflow and Key Points of Topology Optimization

      It is intended for intermediate level users who are able to use technical references to improve accuracy and efficiency in their analysis. Therefore, basic information and detaile…

    • [JAC291] Control Simulation of Switching Number of Poles in a 6-Phase Induction Machine

      In this document, the behavior of a 6-phase induction motor during the switching of the number of poles is evaluated by simulation.

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