[RTML-040] PMSM/SPM Constant rating 1(kW) 6-phase

Type: PMSM | Max Power: 1(kW) | Stator(Outside Diameter): 53.4(mm) | Height: 37.5(mm) | Voltage/Current: DC100(V)/10(A) | Rotor/Mover: SPM | Average torque: 4(N·m)

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

[RTML-042] SynRM_01 3-phase

Type: SynRM | Max Power: 0.01(kW) | Stator(Outside Diameter): 150(mm) | Height: 37.5(mm) | Voltage/Current: DC288(V)/5(A) | Rotor/Mover: RM | Average torque: 0.8(N·m)

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

[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

• Applications: Motor and Wound-Field Synchronous Motor
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[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

• Applications: Motor and Wound-Field Synchronous Motor
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[RTML-049] PMSM/IPM Constant rating 75(kW) 3-phase Resolver

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

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

[RTML-050] PMSM/IPM 3-Phases Delta

Type: PMSM | Power: 150(W) | Stator(Outside Diameter): 112(mm) | Height: 65(mm) | Voltage/Current: DC24(V)/4(A) | Rotor/Mover: IPM

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

[RTML-043] SRM_01 3-phase

Type: SRM | Max Power: 0.5(kW) | Stator(Outside Diameter): 160(mm) | Height: 75(mm) | Voltage: DC150(V) | Rotor/Mover: RM

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

[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…

• Applications: Motor and Wound-Field Synchronous Motor
• Physical Phenomena: Circuit / Control and Magnetic Field
• Technical Themes: MBD

[JFT154] Automatic Generation of Motor Thermal Analysis Model of Rotating Machine that Accounts for Cooling

This document shows how to run scripts from a JMAG project file with any model to create a thermal analysis model with batch settings of circuit components and each thermal condit…

Performance Analysis Method of IPM Motor for EV Using Electromagnetic Simulation(JMAG)

Yoshihisa Kubota, Honda R&D Co.,Ltd

• Applications: IPM Motor and Motor
• Physical Phenomena: Magnetic Field
• Technical Themes: Design Exploration / Optimization and Large-Scale Processing

Vibration Prediction of Permanent Magnet Synchronous Motors by Aid of JMAG

Toru Mizota, YANMAR HOLDINGS CO., LTD.

• Applications: IPM Motor and Motor
• Physical Phenomena: Circuit / Control, Magnetic Field, and Structural
• Technical Themes: Design Exploration / Optimization and Multiphysics

Motor Drive Verification Using HILS Implemented with JMAG-RT Models

Masamichi Inoue, Mitsubishi Electric Corporation

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

Model Based Development of Dual Inverter with JMAG-RT Model and Motor HILS

Takahiro Yamada, MIRISE Technologies Corporation

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

[JFT149] How to Create JMAG-RT Model with JMAG Designer and Run Consecutive Control Simulation

This document explains the procedure on how to create a JMAG-RT model in JMAG-Designer and how to use the created model to run consecutive control simulation.

• Technical Themes: Efficiency map

[JFT143] How to Run Control Simulations Using Only JMAG-RT and a Circuit

This document describes the method for creating an integration study to run a control simulation in JMAG.

[JFT077] Creating JMAG-RT Models with Generic Circuit Topology

This document describes the method for creating plant models (JMAG-RT models) with generic circuit topology.

• Technical Themes: MBD