[P1-7] Rotating Electrical Machines 1 | IPEC2026

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Poster SessionRotating Electrical Machine

[P1-7]Rotating Electrical Machines 1

Tue. Jun 2, 2026 12:40 PM - 2:00 PM JST
Tue. Jun 2, 2026 3:40 AM - 5:00 AM UTC

Poster7(Event & Exhibition Hall)

Chair:Yasuhito Takahashi(Doshisha University)

[P1-7-01]Design and Optimization of High-Speed IPMSM Stators Using Fe-Co Electrical Steel for Enhanced Power Density in Aerospace Propulsion

*DAEYEONG JI¹, DONGWOO LEE², JAEHWAN LEE², HOJOON LEE¹ (1. Dankook University (Korea), 2. Cheongju University (Korea))

[P1-7-02]An Integrated Design Approach for Power Factor and Efficiency Enhancement in PM Vernier Machines Using Hybrid Stator with Magnetic End Caps

*Po-Wei Huang^1,2, Tsung-Wei Chang³, Shen-Han Jian², I-Hua Jiang², Mi-Ching Tsai^1,2 (1. Department of Mechanical Engineering, National Cheng Kung University (Taiwan), 2. Electric Motor Technology Research Center, National Cheng Kung University (Taiwan), 3. Department of Vehicle Engineering, National Kaohsiung University of Science and Technology (Taiwan))

[P1-7-03]Comparative Study of PM Synchronous Machine and PM Vernier Machine for eVTOL Applications

*Ziang Wang^1,2, Dawei Li^1,2, Yu Zhao^1,2, Ronghai Qu^1,2 (1. State Key Laboratory of High-Density Electric Energy Conversion (China), 2. School of Electrical and Electronic Engineering Huazhong University of Science & Technology (China))

[P1-7-04]Data-Driven Bayesian Inference for High-Fidelity Material Property Characterization in Electrical Machines

*Marc Ramos Friedmann¹, Calina Ciuhu¹, Doga Ceylan¹, Marko Merdzan¹, Elena Lomonova¹ (1. Eindhoven University of Technology (Netherlands))

[P1-7-05]Study on Increasing Power Density of Motor for Large Drones

*Satoru Ota¹, Kazuma Hikida¹, Takashi Okitsu¹, Masatsugu Takemoto², Ren Tsunata² (1. Power Electronics & Drive Systems Research Dept., Advanced Technology Research Laboratories, Research & Development Group, MEIDENSHA CORPORATION (Japan), 2. Graduate School of Environmental, Life, Natural Science and Technology, Okayama University, Okayama (Japan))

[P1-7-06]Study on Magnet Eddy Current Loss Reduction by Applying Copper Foil around the Magnets in Interior Permanent Magnet Synchronous Motors

*Junji Kitao¹, Takahiro Mizuta¹ (1. Mitsubishi Electric Corporation (Japan))

[P1-7-07]Speed Oscillation Damping Algorithm for I-F Speed Control of Synchronous Motors

*Yerim Shim¹, Dongyeob Han², Jaeyong Kim², Sungmin Kim² (1. Hyundai Elevator (Korea), 2. Hanyang university ERICA campus (Korea))

[P1-7-08]Geometry Optimization of Brushless Permanent Magnet Synchronous Machines for Household Appliances

*Nejat Saed¹, Klaus Krischan¹, Annette Muetze¹ (1. Graz University of Technology (Austria))

[P1-7-09]Methods for Calculating and Reducing Surge Voltages Caused by Recovery Currents of Diodes Connected to Synchronous Generators

*Daisuke Kori¹, Takayuki Koyama², Hiroyuki Sato², Shuhei Sato² (1. Hitachi,Ltd Research Department (Japan), 2. Hitachi Industrial Products, Ltd (Japan))

[P1-7-10]Controllability-Oriented Design Method of Electrically-Excited Synchronous Machines in Pumped-Storage Hydropower Plants

*Seyedali Seyedbouzari¹, Annette Muetze¹, Johann Peter Bacher¹, Boštjan Polajžer² (1. Graz University of Technology (Austria), 2. University of Maribor (Slovenia))

[P1-7-11]Torque Ripple Reduction Mechanism of Flux Barrier in Synchronous Reluctance Motor

*Yuki Hidaka¹, Kazumasa Ide² (1. Ritsumeikan University (Japan), 2. Nagoya University (Japan))

[P1-7-12]Torque Ripple Optimized Design of a Synchronous Reluctance Machine with Concentrated Windings

*Mario Nikowitz¹, Manfred Schrödl¹ (1. TU Wien (Austria))

[P1-7-13]Step-out Suppression using External Impedance for Motor-generator set Driven Synchronous Reluctance Motors in Equivalent Load Testing

*Yamamoto Shunsuke¹, Yuki Hidaka², Takumi Murakami², Fumiya Koga³, Sunao Wakasugi³, Masatsugu Oyamada³ (1. Nagaoka University of Technology (Japan), 2. Ritsumeikan University (Japan), 3. TMEIC Corporation (Japan))

[P1-7-14]Comparative Evaluation of Rotor Segmentation Strategies for Eddy-Current Loss Reduction in Additively Manufactured Multi-Material Synchronous Reluctance Rotors

*Siddique Akbar¹, Amir Ebrahimi³, Bernd Ponick² (1. Profluxx GmbH (Germany), 2. Institute for Drive Systems and Power Electronics (Germany), 3. Institute for Electrical Drives, Power Electronics and Components (Germany))

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