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Electro-mechanical Characteristics of Dual-winding Motor According to Winding Arrangement for Brake Systems in Highly Automated Driving Vehicles

Authors
Song, Baik-KeeKim, Jae-HyunHwang, Kyu-YunLim, Myung-Seop
Issue Date
Oct-2023
Publisher
Institute of Electrical and Electronics Engineers
Keywords
Brake system; deformation; dual-winding motor; electromagnetic force; fault-tolerant motor; highly autonomous driving (HAD); integrated electronic brake (IEB); lumped parameter thermal network (LPTN); thermal; torque ripple; winding arrangement
Citation
IEEE Transactions on Vehicular Technology, v.72, no.10, pp 12524 - 12539
Pages
16
Indexed
SCIE
SCOPUS
Journal Title
IEEE Transactions on Vehicular Technology
Volume
72
Number
10
Start Page
12524
End Page
12539
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/194330
DOI
10.1109/TVT.2023.3272729
ISSN
0018-9545
1939-9359
Abstract
Manufactures of automotive parts are struggling to secure redundancy in various ways. An alternative is to configure the system via a dual-winding motor and two electronic control units (ECUs). The dual-winding motor contains different winding arrangements according to poles/slots, and when only one of the two circuits is used owing to a failure, the electrical and mechanical characteristics differ depending on the winding arrangement. In this study, the electrical and mechanical characteristics were analyzed and compared according to the winding arrangement when the failure occurs. In particular, the winding arrangement of the motor is divided into line symmetry, point symmetry, and alternating symmetry. For each winding arrangement, the back-electromotive force, torque, and torque ripple were compared and analyzed through simulation and test. Also, vibration caused by electromagnetic force was analyzed. Here, to consider the tooth modulation effect, concentrated force was investigated and tangential force as well as radial force were considered. Additionally, the thermal characteristics were analyzed during fault operation using a lumped parameter thermal network with piecewise stator-housing modules. Lastly, the mechanical design characteristics of the motor hardware size that need to be changed according to the winding arrangement of the brake motor are explained. This study provides guidelines for the winding arrangement selection of a dual-winding motor with a similar magnetic field distribution suitable for the design purpose, by analyzing the electromechanical characteristics and size according to the winding arrangement during fault operation. The characteristics of other motor types or pole and slot number combinations can also be inferred from the results of this study, since the magnetic flux density distribution will be determined with line, point and alternating symmetry.
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COLLEGE OF ENGINEERING (DEPARTMENT OF AUTOMOTIVE ENGINEERING)
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