Follow
Nobuyuki Kurita
Nobuyuki Kurita
Verified email at gunma-u.ac.jp
Title
Cited by
Cited by
Year
Axial magnetic bearing development for the BiVACOR rotary BiVAD/TAH
NA Greatrex, DL Timms, N Kurita, EW Palmer, T Masuzawa
IEEE Transactions on Biomedical Engineering 57 (3), 714-721, 2009
692009
Design of magnet arrangement in interior permanent magnet synchronous motor by response surface methodology in consideration of torque and vibration
T Ishikawa, M Yamada, N Kurita
IEEE Transactions on Magnetics 47 (5), 1290-1293, 2011
542011
Analysis for fault detection of vector-controlled permanent magnet synchronous motor with permanent magnet defect
T Ishikawa, Y Seki, N Kurita
IEEE transactions on magnetics 49 (5), 2331-2334, 2013
532013
Optimization of rotor topology in PM synchronous motors by genetic algorithm considering cluster of materials and cleaning procedure
T Ishikawa, K Nakayama, N Kurita, FP Dawson
IEEE transactions on magnetics 50 (2), 637-640, 2014
522014
Design and simulation of a five degrees of freedom active control magnetic levitated motor
T Tezuka, N Kurita, T Ishikawa
IEEE Transactions on Magnetics 49 (5), 2257-2262, 2013
402013
An optimal material distribution design of brushless DC motor by genetic algorithm considering a cluster of material
T Ishikawa, K Yonetake, N Kurita
IEEE Transactions on Magnetics 47 (5), 1310-1313, 2011
322011
Proposal of a radial-and axial-flux permanent-magnet synchronous generator
T Ishikawa, S Amada, K Segawa, N Kurita
IEEE Transactions on Magnetics 53 (6), 1-4, 2017
312017
Optimum design of a switched reluctance motor fed by asymmetric bridge converter using experimental design method
T Ishikawa, Y Hashimoto, N Kurita
IEEE transactions on magnetics 50 (2), 781-784, 2014
292014
Analysis of novel brushless DC motors made of soft magnetic composite core
T Ishikawa, K Takahashi, QV Ho, M Matsunami, N Kurita
IEEE Transactions on Magnetics 48 (2), 971-974, 2012
292012
BiVACOR^[○! R]-A magnetically levitated biventricular artificial heart
DL Timms
The 20^< th> MAGDA Conference in Pacific Asia, 2011, 2011
182011
Topology optimization method for asymmetrical rotor using cluster and cleaning procedure
T Ishikawa, S Mizuno, N Krita
IEEE transactions on magnetics 53 (6), 1-4, 2017
172017
A double-sided stator type axial bearingless motor development for total artificial heart
N Kurita, T Ishikawa, N Saito, T Masuzawa, DL Timms
IEEE Transactions on Industry Applications 55 (2), 1516-1523, 2018
162018
Performance of novel permanent magnet synchronous machines made of soft magnetic composite core
T Ishikawa, Y Sato, N Kurita
IEEE Transactions on Magnetics 50 (11), 1-4, 2014
162014
Topology optimization of rotor structure in permanent magnet synchronous motors considering ease of manufacturing
T Ishikawa, P Xie, N Kurita
IEEJ Journal of Industry Applications 4 (4), 469-475, 2015
152015
Axial magnetic bearing development for the BIVACOR roary BiBAD/TAH
N Kurita
11^< th> ISMB, 2008, 217-224, 2008
142008
Implementation of a bearingless axial-force/torque motor fan with flex-PCB windings
W Gruber, W Bauer, D Wetsch, B Wex, N Kurita
2019 IEEE International Electric Machines & Drives Conference (IEMDC), 179-184, 2019
122019
Analysis and failure diagnosis of squirrel-cage induction motor with broken rotor bars and end rings
T Ishikawa, S Shinagawa, N Kurita
IEEJ Journal of Industry Applications 2 (6), 292-297, 2013
122013
Analysis and design of a bearingless axial-force/torque motor with flex-PCB windings
N Kurita, W Bauer, G Jungmayr, W Gruber, W Amrhein
2018 International Power Electronics Conference (IPEC-Niigata 2018-ECCE Asia …, 2018
112018
A simple equivalent circuit for efficiency calculation of brushless DC motors
T Ishikawa, T Tsuji, S Hashimoto, N Kurita
2013 International Conference on Electrical Machines and Systems (ICEMS …, 2013
112013
Basic design and dynamic analysis of the small-sized flywheel energy storage system-application of Lorentz force type magnetic bearing
N Kurita, T Ishikawa, M Matsunami
2009 International Conference on Electrical Machines and Systems, 1-6, 2009
112009
The system can't perform the operation now. Try again later.
Articles 1–20