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[JAC275] IPM Motor Iron Loss Analysis Accounting for the Effect of Residual Strain

In this document, an analysis of an IPM motor accounting for the residual strain that occurs as a result of punching processes, and evaluates the effect on torque, magnetic flux d…
- Applications: IPM Motor and Motor
- Physical Phenomena: Magnetic Field
[W-OP-96] Necessity of GA for Multi-Objective Optimization of Drive Motor

In this paper, the multi-objective optimization calculation has 12 design variables (8 geometric variables, 4 circuit variables) with 6 objective functions (maximize torque, minim…
- Applications: IPM Motor and Motor
- Physical Phenomena: Magnetic Field and Structural
- Technical Themes: Design Exploration / Optimization
[L-OP-34] Using MATLAB’s Optimization Engine in JMAG

MATLAB is widely used in the engineering field, and the MATLAB Global Optimization Toolbox is often used for optimization calculations also.
- Technical Themes: Design Exploration / Optimization
Reduction of Optimal Design Time for IPMSMs for Automotive Applications Using Machine Learning

Yuki Shimizu, Osaka Prefecture University
- Applications: IPM Motor and Motor
- Physical Phenomena: Magnetic Field
- Technical Themes: AI / Machine Learning and Design Exploration / Optimization
JMAG & GT-SUITE Link for EV Traction Motor 1D Thermal Analysis

Masako Shibamori, AISIN SEIKI CO., LTD.
- Applications: IPM Motor and Motor
- Physical Phenomena: Circuit / Control, Magnetic Field, and Thermal
- Technical Themes: Multiphysics
Motor Loss Calculation under PWM Switching

Jihyun Kim, General Motors
- Applications: IPM Motor and Motor
- Physical Phenomena: Magnetic Field and Material
- Technical Themes: Material Modeling / Loss Analysis
Application of SIMP-based Topology Optimization in JMAG

Sukhwa Jung, DENSO CORPORATION
- Applications: IPM Motor, Linear Solenoid / Linear Actuator, and Motor
- Physical Phenomena: Magnetic Field
- Technical Themes: Design Exploration / Optimization
Application of Topology Optimization Analysis Technology for Traction Motor of Automotive

Yukihiro Yoshinari, Hitachi Automotive Systems, Ltd.
- Applications: IPM Motor and Motor
- Physical Phenomena: Magnetic Field and Structural
- Technical Themes: Design Exploration / Optimization
3D Magnetic Field Analysis of Large Power Transformer Using Transient Analysis

Yasuhisa Ito, MEIDENSHA CORPORATION
- Applications: Transformer / Reactor
- Physical Phenomena: Magnetic Field
- Technical Themes: Large-Scale Processing
Numerical Analytic Approach for Oil Immersed Transformer Electrical Insulation Design using JMAG CB Option

Yuji Hayase, Fuji Electric Co., Ltd.
- Applications: Transformer / Reactor
- Physical Phenomena: Electric Field
How to Leverage JMAG-RT for MBD and Its Prospects

Shingo Soma, Honda Motor Co., Ltd
- Applications: IPM Motor and Motor
- Physical Phenomena: Circuit / Control and Magnetic Field
- Technical Themes: MBD
Efficiency Map Generation and Simulation of Dual Three-Phase PMSM

Daniel Keller, Mercedes Benz AG
- Applications: IPM Motor and Motor
- Physical Phenomena: Circuit / Control and Magnetic Field
- Technical Themes: Efficiency map
Electromagnetic Materials Suited for Electrified Transport

Sigrid JACOBS / Jan RENS, ArcelorMittal
- Applications: Linear Motor and Motor
- Physical Phenomena: Magnetic Field
- Technical Themes: Material Modeling / Loss Analysis
Integrated Electromagnetics-Thermal Analysis of Electric Motor: Benefits and Pitfalls of Multi-physics Modeling

Seunghwan Keum, General Motors
- Applications: IPM Motor and Motor
- Physical Phenomena: Magnetic Field and Thermal
- Technical Themes: Multiphysics
The Need for Large-Scale Calculations in Induction Heating

Ayaka Nakata, KOYO THERMO SYSTEMS CO.,LTD.
- Applications: Induction Heating
- Physical Phenomena: Magnetic Field and Thermal
- Technical Themes: Large-Scale Processing and Multiphysics
Electromagnetic Field Thermal Fluid Coupled Analysis for In-Vehicle Motors 2.0

Kengo Toda, TODA RACING Co., Ltd.
- Applications: IPM Motor and Motor
- Physical Phenomena: Magnetic Field and Thermal
- Technical Themes: Multiphysics

Show 353 to 368 of 1111

[JAC275] IPM Motor Iron Loss Analysis Accounting for the Effect of Residual Strain

[W-OP-96] Necessity of GA for Multi-Objective Optimization of Drive Motor

[L-OP-34] Using MATLAB’s Optimization Engine in JMAG

Reduction of Optimal Design Time for IPMSMs for Automotive Applications Using Machine Learning

JMAG & GT-SUITE Link for EV Traction Motor 1D Thermal Analysis

Motor Loss Calculation under PWM Switching

Application of SIMP-based Topology Optimization in JMAG

Application of Topology Optimization Analysis Technology for Traction Motor of Automotive

3D Magnetic Field Analysis of Large Power Transformer Using Transient Analysis

Numerical Analytic Approach for Oil Immersed Transformer Electrical Insulation Design using JMAG CB Option

How to Leverage JMAG-RT for MBD and Its Prospects

Efficiency Map Generation and Simulation of Dual Three-Phase PMSM

Electromagnetic Materials Suited for Electrified Transport

Integrated Electromagnetics-Thermal Analysis of Electric Motor: Benefits and Pitfalls of Multi-physics Modeling

The Need for Large-Scale Calculations in Induction Heating

Electromagnetic Field Thermal Fluid Coupled Analysis for In-Vehicle Motors 2.0

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