JMAG-Designer

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  1. Coupled Analysis of IPM(Interior Permanent Magnet) Motor

    Nobuyuki Suzuki, Toshiba Corporation

  2. Developing Motor Drive Systems Using JMAG-RT

    Masaya Harakawa, Mitsubishi Electric Corporation

  3. Electromagnetic Field Analysis for Smart Key Antenna

    Yuji Okada, AISIN SEIKI CO.,LTD

  4. Basic Investigation on Magnetic Pole Changing Type Linear Stepping Actuator using Inverse Magnetostrictive Effect. (With JMAG Simulation)

    Masayuki Sugasawa, Systems and Information Engineering Department of Intelligent Interaction, Technologies, University of Tsukuba

  5. Study on Electromagnetic Vibration of Magnetic Gear

    Noboru Niguchi, Dept. of Adaptive Machine Systems/Graduate School of Engineering/Osaka University

  6. Test and Analysis of Superconducting Electromagnetic Tornado Stirring System

    Hirofumi KASAHARA, Central Research Institute of Electric Power Industry

  7. Guidelines for Generating Mesh in Induction Heating Simulations

    Jun Iwanaga, JSOL Corporation

  8. Trends and Challenges of Induction Heating Analyses

    Hiroshi Hashimoto, JSOL Corp.

  9. Study of local heating on by IPB connection box and around metallic parts of large power transformer by 3-D Magnetic field analysis

    Hirokazu Hayashida,Japan AE Power Systems Corporation

  10. Introduction for the utilization techniques of JMAG for transformer design

    Takayuki NISHIO, JSOL Corporation

  11. Expanding and Utilizing JMAG-Designer as Designers

    Akihiko Furuto, TOHOKU PIONEER Corporation

  12. Utilizing JMAG Designer for 3D Magnetic Field Analysis Models

    Yuichi Yoshikawa, Home Appliances Company,Panasonic Corporation

  13. Thermal-demagnetization Analysis and Research on Physical Properties of Nd-Fe-B Sintered Magnets

    Dai Higuchi, Shin-Etsu Chemical Co., Ltd.

  14. Motor Vibration/Noise Simulation Analysis and Its Features

    Noda Shinichi, Toshiba Corporation

  15. [JAC149] Analysis of Magnetic Force Acting on the Arc of a Vacuum Circuit Breaker

    This Application Note presents how to calculate the current density and Lorentz force of a vacuum circuit breaker, and obtain its arc-diffusing force.

  16. [JAC150] Electromagnetic Repulsion Analysis of a Vacuum Circuit Breaker

    This Application Note presents how to obtain the electromagnetic repulsion in a circuit breaker from the Lorentz force when a 100 kA current is flowing.

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