JMAG-Designer
- Sort condition
- Newest first
- Oldest first
- Large number of views
-
[JAC253] Analysis of an Induction Generator
In this example, the relationship between the output power and efficiency of the induction generator is shown here.
-
[JFT015] Procedure for Direct Coupled Analysis with JMAG and STAR-CCM+ Taking Thermal Fluid into Account (Ver.22.0 and After)
This document presents the procedure for two way coupled analysis considering thermal fluid by using JMAG and STAR-CCM+.
-
[L-SE-163] High Performance Massive Case Calculations
Taking the traction motor, auxiliary motor, and reactor as models to be analyzed, presented in this report is the performance for simultaneously running 100 cases by using Power S…
-
[JAC126] Magnetization Analysis Accounting for Eddy Currents
This Application Note presents how to obtain the magnetization field distribution accounting for eddy currents in the magnetic material to be magnetized, the eddy current density …
-
[JFT132] Simultaneous Parameter and Topology Optimization
This document describes the method for optimizing parameters and topology simultaneously.
-
[JAC288] Synchronous Reluctance Motor Topology Optimization
In this example, topology optimization is used to minimize the torque ripple and maximize the average torque when exploring the rotor geometry.
-
[L-MU-169] Comparing Thermal Circuit Modeling with Experimental Result for an Axial Gap Motor
Comparison of a thermal circuit model with experimental results has been performed in this leaflet. In the thermal circuit, thermal characteristics of each parts are modelled by a…
-
[L-HU-168] Fast Solving of Large Scale Model Using Massive Parallel Processing
One option for accurate loss analysis is 3D analysis. However, the number of elements often reaches into the millions, limiting its use in terms of calculation cost. In order to i…
-
[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…
-
[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…
-
[JFT168] Creating Geometry to Reduce Geometry Corruption
This document explains how to create geometry that is less likely to result in geometry corruption.
-
[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…