[RTML-010] PMSM/IPM Constant rating 1(kW) 3-phase

Type: PMSM | Max Power: 1(kW) | Stator(Outside Diameter): 115(mm) | Height: 27(mm) | Voltage/Current: DC100(V)/20(A) | Rotor/Mover: IPM(Vshaped) | Average torque: 3.6(N·m)

• Applications: IPM Motor and Motor
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[RTML-009] PMSM/SPM Constant rating 1(kW) 3-phase

Type: PMSM | Max Power: 1(kW) | Stator(Outside Diameter): 115(mm) | Height: 14(mm) | Voltage/Current: DC100(V)/20(A) | Rotor/Mover: SPM | Average torque: 3.6(N·m)

• Applications: Motor and SPM Motor
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[RTML-008] PMSM/IPM Constant rating 1(kW) 3-phase

Type: PMSM | Max Power: 1(kW) | Stator(Outside Diameter): 115(mm) | Height: 22(mm) | Voltage/Current: DC100(V)/20(A) | Rotor/Mover: IPM(flat) | Average torque: 3.6(N·m)

• Applications: IPM Motor and Motor
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[RTML-007] PMSM/IPM Constant rating 1(kW) 3-phase

Type: PMSM | Max Power: 1(kW) | Stator(Outside Diameter): 115(mm) | Height: 20(mm) | Voltage/Current: DC100(V)/20(A) | Rotor/Mover: IPM(Vshaped) | Average torque: 3.6(N·m)

• Applications: IPM Motor and Motor
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[RTML-006] PMSM/SPM Constant rating 1(kW) 3-phase

Type: PMSM | Max Power: 1(kW) | Stator(Outside Diameter): 53(mm) | Height: 46(mm) | Voltage/Current: DC100(V)/20(A) | Rotor/Mover: SPM | Average torque: 3.6(N·m)

• Applications: Motor and SPM Motor
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[RTML-005] PMSM/IPM Constant rating 1(kW) 3-phase

Type: PMSM | Max Power: 1(kW) | Stator(Outside Diameter): 54(mm) | Height: 80(mm) | Voltage/Current: DC100(V)/20(A) | Rotor/Mover: IPM(flat) | Average torque: 3.6(N·m)

• Applications: IPM Motor and Motor
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[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)

• Applications: IPM Motor and Motor
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[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)

• Applications: Motor and SPM Motor
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[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)

• Applications: IPM Motor and Motor
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[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)

• Applications: IPM Motor and Motor
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[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…

• Applications: IPM Motor and Motor
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[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…

• Technical Themes: Efficiency map

[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…

• Applications: Linear Solenoid / Linear Actuator
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[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.

• Applications: Motor and Wound-Field Synchronous Motor
• Physical Phenomena: Magnetic Field
• Technical Themes: Material Modeling / Loss Analysis

[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…

• Technical Themes: MBD