Performance analysis of 12S-10P hybrid-excitation flux switching machines for HEV
Research and development on flux switching machines (FSMs) have been emerged as an attractive machine recently due to their unique characteristics of all flux sources located on the stator allowing a simple and robust rotor structure whilst providing high torque and power density suitable for variou...
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| Pengarang-pengarang Utama: | , , , |
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| Format: | Conference or Workshop Item |
| Diterbitkan: |
2014
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| Subjek-subjek: | |
| Capaian Atas Talian: | http://eprints.uthm.edu.my/5558/ http://eprints.uthm.edu.my/5558/1/Performance_Analysis_of_12S%2D10P.pdf |
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| Ringkasan: | Research and development on flux switching
machines (FSMs) have been emerged as an attractive machine
recently due to their unique characteristics of all flux sources
located on the stator allowing a simple and robust rotor structure
whilst providing high torque and power density suitable for
various applications. They can be categorized into three groups
that are permanent magnet (PM) FSM, field excitation (FE)
FSM, and hybrid excitation (HE) FSM. Both PMFSM and
FEFSM has only PM and field excitation coil (FEC), respectively
as their main flux sources, while HEFSM combines both PM and
FECs. In this research, design and performance of a three phase
12S-10P HEFSM in which the field excitation coil (FEC) located
external to the PM are investigated. Initially, the design
procedures of the proposed machine including parts drawing,
materials, condition and properties setting are explained. Then,
coil arrangement test is analyzed to all armature coil slots to
confirm the polarity of each phase. Moreover, the flux interaction
analysis is performed to investigate the flux capabilities at
various current densities. Finally, torque and power
performances are investigated at various armature and FEC
current densities. |
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