Comparison between IPM and SPM based on Experiment and Analysis Result(Report of Harumi Project1)

Kan Akatsu,Katsuyuki Narita,Yoshuki Sakashita,Takashi Yamada, Tokyo University of Agriculture and Technology/JRI Solutions, Ltd.

• Applications: IPM Motor, Motor, and SPM Motor
• Physical Phenomena: Magnetic Field

Practice of JMAG by e-learning

Edmund Soji Otabe, Kyushu Institute of Technology

Using JMAG in a Laboratory

Kenji Nakamura, Tohoku University

Efficiency improvement of non-contact power supply systems

Hiroyasu Tomita, MURATA MACHINERY,LTD.

• Applications: Wireless Power Transfer
• Physical Phenomena: Magnetic Field

Analysis of Switching Transformers Using Common and Specialized JMAG Features

Hideo Matsumoto, Tabuchi Electric Co.,Ltd.

• Applications: Transformer / Reactor
• Physical Phenomena: Magnetic Field and Structural

Estimation of Inductance Variation in Small, Low Profile Transformers

Masahiro Shima,Shinji Ikeda, COSEL CO., LTD./Toyama National College of Technology

• Applications: Transformer / Reactor
• Physical Phenomena: Magnetic Field

Evaluation of eddy current characteristic for applied high frequency voltage to the giant magnetrostrictive material

Masayuki Sugasawa, Sony EMCS Corporation

• Physical Phenomena: Magnetic Field
• Technical Themes: Material Modeling / Loss Analysis

Finite Element Analysis of a Steering Rack Shaft Subjected to the High-Frequency Induction Hardening Process

Manabu Fukumoto,Katsuhiko Kizawa,Kazuo Okamura,Atsuhiko Ohta, Sumitomo Metal Industries, Ltd/JTECT Corporation

• Applications: Induction Heating
• Physical Phenomena: Magnetic Field and Thermal
• Technical Themes: Multiphysics

Analysis of an induction-heating fusing unit using JMAG

Tetsuya Kagawa, KONICA MINOLTA BUSINESS TECHNOLOGIES, INC.

• Applications: Induction Heating
• Physical Phenomena: Magnetic Field

Electromagnetic Field Analysis of a Giant Magnetostrictive Actuator Using JMAG

Hisashi Yajima,Nobuhiro Fujiwara,Yoshikazu Tatsumi,Hiroyuki Wakiwaka, SMC Corporation/Shinshu University

• Physical Phenomena: Magnetic Field and Material
• Technical Themes: Material Modeling / Loss Analysis

Streamlining Electromagnetic Field Analysis and Supporting the Decision-Making Using modeFRONTIER

Yasushi Fujishima, CD-adapco JAPAN Co.,LTD.

• Technical Themes: Design Exploration / Optimization

Customized Development of Automotive Motor System using JMAG-Studio

Ryoma Matsuo, PUES Corporation

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

[JAC042] Displacement Analysis of a Piezoelectric Actuator

This note presents the use of structural analysis to evaluate the displacement of a bimorph piezoelectric actuator, caused by the inverse piezoelectric effect.

• Applications: Piezoelectric Actuator
• Physical Phenomena: Electric Field and Structural
• Technical Themes: Multiphysics

[JAC047] High-Frequency Induction Heating Analysis of a Crankshaft

This Application Note shows an example of an evaluation performed by creating a numerical analysis model, analyzing the elevated temperature process, and seeing whether or not the…

• Applications: Induction Heating
• Physical Phenomena: Magnetic Field and Thermal
• Technical Themes: Multiphysics

[JAC049] High-Frequency Induction Heating Analysis of a Steel Sheet

This Application Note explains how to create a numerical analysis model when obtaining the optimum coil geometry, current conditions (power supply frequency, current value), and m…

• Applications: Induction Heating
• Physical Phenomena: Magnetic Field and Thermal
• Technical Themes: Multiphysics

[JAC050] High-Frequency Induction Heating Analysis of a Steel Wire (Translational Induction Hardening)

This Application Note explains how to create a numerical analysis model when obtaining the optimum coil geometry, current conditions (power supply frequency, current value), and m…

• Applications: Induction Heating
• Physical Phenomena: Magnetic Field and Thermal
• Technical Themes: Multiphysics