A Fault-Tolerant Direct Torque Control for Six-Phase Permanent Magnet Synchronous Motor With Arbitrary Two Opened Phases Based on Modified Variables

A fault-tolerant direct torque control (DTC) strategy for six-phase symmetrical winding shifted-phase 60° permanent magnet synchronous motor with arbitrary two opened phases is proposed in this paper. First, the relationship between flux and electromagnetic torque based on the modified stator flux a...

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Published in	IEEE transactions on energy conversion Vol. 31; no. 2; pp. 549 - 556
Main Authors	Zhou, Yangzhong, Lin, Xiaogang, Cheng, Ming
Format	Journal Article
Language	English
Published	IEEE 01.06.2016
Subjects	Direct torque control (DTC) Electric potential Electromagnetics Fault tolerance Flux Induction motors Permanent magnets Rotors six-phase permanent magnet synchronous motor Stator windings Stators Strategy Synchronous motors Torque Trajectory two opened phases zero sequence current Direct torque control (DTC) two opened phases six-phase permanent magnet synchronous motor zero sequence current
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Abstract	A fault-tolerant direct torque control (DTC) strategy for six-phase symmetrical winding shifted-phase 60° permanent magnet synchronous motor with arbitrary two opened phases is proposed in this paper. First, the relationship between flux and electromagnetic torque based on the modified stator flux and modified rotor flux is researched. Second, the optimal control strategy based on the relationship between modified stator voltage vector and modified stator flux on αβ plane, and the relationship between zero-sequence voltage and zero-sequence current is constructed. According to the control strategy, the modified stator flux, electromagnetic torque, and zero-sequence current are controlled by different switching combinations of four-phase inverter bridge. The results of analysis and experiments show that the presented DTC drive system has fast and smooth torque response, and the four-phase stator currents with same peak value are sinusoidal due to the controlled zero sequence current.
AbstractList	A fault-tolerant direct torque control (DTC) strategy for six-phase symmetrical winding shifted-phase 60° permanent magnet synchronous motor with arbitrary two opened phases is proposed in this paper. First, the relationship between flux and electromagnetic torque based on the modified stator flux and modified rotor flux is researched. Second, the optimal control strategy based on the relationship between modified stator voltage vector and modified stator flux on αβ plane, and the relationship between zero-sequence voltage and zero-sequence current is constructed. According to the control strategy, the modified stator flux, electromagnetic torque, and zero-sequence current are controlled by different switching combinations of four-phase inverter bridge. The results of analysis and experiments show that the presented DTC drive system has fast and smooth torque response, and the four-phase stator currents with same peak value are sinusoidal due to the controlled zero sequence current. A fault-tolerant direct torque control (DTC) strategy for six-phase symmetrical winding shifted-phase 60 degree permanent magnet synchronous motor with arbitrary two opened phases is proposed in this paper. First, the relationship between flux and electromagnetic torque based on the modified stator flux and modified rotor flux is researched. Second, the optimal control strategy based on the relationship between modified stator voltage vector and modified stator flux on alpha beta plane, and the relationship between zero-sequence voltage and zero-sequence current is constructed. According to the control strategy, the modified stator flux, electromagnetic torque, and zero-sequence current are controlled by different switching combinations of four-phase inverter bridge. The results of analysis and experiments show that the presented DTC drive system has fast and smooth torque response, and the four-phase stator currents with same peak value are sinusoidal due to the controlled zero sequence current.
Author	Xiaogang Lin Yangzhong Zhou Ming Cheng
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Snippet	A fault-tolerant direct torque control (DTC) strategy for six-phase symmetrical winding shifted-phase 60° permanent magnet synchronous motor with arbitrary two... A fault-tolerant direct torque control (DTC) strategy for six-phase symmetrical winding shifted-phase 60 degree permanent magnet synchronous motor with...
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SubjectTerms	Direct torque control (DTC) Electric potential Electromagnetics Fault tolerance Flux Induction motors Permanent magnets Rotors six-phase permanent magnet synchronous motor Stator windings Stators Strategy Synchronous motors Torque Trajectory two opened phases zero sequence current
Title	A Fault-Tolerant Direct Torque Control for Six-Phase Permanent Magnet Synchronous Motor With Arbitrary Two Opened Phases Based on Modified Variables
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