MBD

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Show 65 to 80 of 221

[JAC227] Circuit Control Simulation for Three-Phase Induction Motor

In this example, we conduct a circuit simulation to control current and speed by incorporating the JMAG-RT model of an induction motor into the control/circuit simulator.
- Applications: Induction Motor and Motor
- Physical Phenomena: Circuit / Control and Magnetic Field
- Technical Themes: MBD
[JAC162] Drive Simulation of an SR Motor using a Control Simulator and JMAG-RT

In this Application Note, after using JMAG-RT to obtain an SR motor’s torque and inductance characteristics, the JMAG-RT model is imported into a circuit/control simulator, voltag…
- Applications: Motor and SR Motor
- Physical Phenomena: Circuit / Control and Magnetic Field
- Technical Themes: MBD
[JAC239] Fault Analysis in an IPM Motor

In this example, we introduce the case study that simulate the fault of an IPM motor using JMAG-RT. The fault simulated in this case study is an open circuit fault which is caused…
- Applications: IPM Motor and Motor
- Physical Phenomena: Circuit / Control and Magnetic Field
- Technical Themes: MBD
[JAC243] Voice Coil Motor Control Simulation Using a Control Simulator and JMAG-RT

In this example, circuit simulation is performed to control the position of a mover by loading a JMAG-RT model for a voice coil motor into a control/circuit simulator.
- Applications: Motor and Speaker / Voice Coil Motor
- Physical Phenomena: Magnetic Field
- Technical Themes: MBD
[JFT167] Adding Arbitrary Circuits to JMAG Model Equivalent Circuits

This document explains how to add arbitrary circuits when running JMAG-RT models with MATLAB/Simulink.
- Technical Themes: MBD
Solenoid Valve Development Using Magnetic Field Analysis Coupled Technology

Naoki Tsuduki, Aisan Industry Co., Ltd.
- Applications: Linear Solenoid / Linear Actuator
- Physical Phenomena: Circuit / Control and Magnetic Field
- Technical Themes: Design Exploration / Optimization and MBD
Building the Prediction Process for Motor Noise by Co-Simulation Electromagnetic Circuit and Structure Transfer System

Makoto Kawaguchi, Mazda Motor Corporation
- Physical Phenomena: Magnetic Field and Structural
- Technical Themes: MBD and Multiphysics
Example of Using JMAG-RT for High-Voltage Systems in the Toyota Hybrid System Application to Verification of Feasibility Before Actual Machine Test

Toshifumi Yamakawa, TOYOTA MOTOR CORPORATION
- Physical Phenomena: Circuit / Control and Magnetic Field
- Technical Themes: MBD
Model-Based Solution for Efficient Motor Control System Development

Atsushi Katagiri, MathWorks Japan
- Physical Phenomena: Circuit / Control and Magnetic Field
- Technical Themes: MBD
[JFT114] Correcting Efficiency Maps Using Scripts

This document uses a JMAG-Designer efficiency map study (speed priority) to describe the method for correcting the response values of created efficiency maps with Python scripts.
- Technical Themes: Efficiency map and MBD
[JFT058] Creating Efficiency Maps Using JMAG-Designer (Speed Priority Mode)

This document describes how to create efficiency maps using a JMAG-Designer efficiency map study (prioritizing speed).
- Technical Themes: Design Exploration / Optimization, Efficiency map, and MBD
[JFT012] JMAG-RT Model Generation of Wound-Field Synchronous Motor

This document shows how to generate a JMAG-RT model of a wound-field synchronous motor and how to execute control simulation using a JMAG-RT model in MATLAB/Simulink.
- Technical Themes: MBD
[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
[JFT069] Performing Harmonic Loss Calculations Accounting for Current Control with JMAG-Designer and JMAG-RT

In this document, how to calculate the harmonic loss of a current controlled (PWM controlled) PM motor at high speed using a JMAG-RT model is presented.
- Technical Themes: Material Modeling / Loss Analysis and MBD
[JFT022] File Export of a Physical Quantity by Multi-Purpose File Export Tool

This document shows how to export one physical quantity from JMAG using a multi-purpose file export tool.
- Technical Themes: MBD and Multiphysics
[JFT071] Creating User-Defined Calculation Components

This document describes methods for creating user-defined calculation components.
- Technical Themes: MBD

Show 65 to 80 of 221

[JAC227] Circuit Control Simulation for Three-Phase Induction Motor

[JAC162] Drive Simulation of an SR Motor using a Control Simulator and JMAG-RT

[JAC239] Fault Analysis in an IPM Motor

[JAC243] Voice Coil Motor Control Simulation Using a Control Simulator and JMAG-RT

[JFT167] Adding Arbitrary Circuits to JMAG Model Equivalent Circuits

Solenoid Valve Development Using Magnetic Field Analysis Coupled Technology

Building the Prediction Process for Motor Noise by Co-Simulation Electromagnetic Circuit and Structure Transfer System

Example of Using JMAG-RT for High-Voltage Systems in the Toyota Hybrid System Application to Verification of Feasibility Before Actual Machine Test

Model-Based Solution for Efficient Motor Control System Development

[JFT114] Correcting Efficiency Maps Using Scripts

[JFT058] Creating Efficiency Maps Using JMAG-Designer (Speed Priority Mode)

[JFT012] JMAG-RT Model Generation of Wound-Field Synchronous Motor

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

[JFT069] Performing Harmonic Loss Calculations Accounting for Current Control with JMAG-Designer and JMAG-RT

[JFT022] File Export of a Physical Quantity by Multi-Purpose File Export Tool

[JFT071] Creating User-Defined Calculation Components

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