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- Title
An Improved Low Switching Frequency Three-Vector Model Predictive Torque Control Strategy for Permanent Magnet Synchronous Motors.
- Authors
Qianghui Xiao; Zhe Li; Yang Zhang; Bing Luo; Tingting Wang
- Abstract
In order to further reduce the computational complexity as well as the average switching frequency of the inverter for model predictive torque control (MPTC), an improved MPTC control strategy for a three-vector low switching frequency based permanent magnet synchronous motor is proposed. Firstly, an analysis is conducted on the combined effect of the torque and magnetic chain based on the three voltage vectors, based on which the vector combinations are matched to form an offline optimized switching table, and then the three voltage vector combinations are selected from the offline optimized switching table according to the torque control requirements in order to reduce the amount of system calculations. Then, on this basis, a hysteresis loop technique for direct torque control is introduced to reduce the average switching frequency of the inverter. An improved MPTC control strategy with a fuzzy variable hysteresis loop width is further proposed to fuzzy control the dynamic output hysteresis loop width scaling factor according to the motor operating state. Experimental results show that the improved MPTC control strategy with fuzzy variable hysteresis loop width results in optimal combined average switching frequency and current harmonics with reduced computational effort.
- Subjects
TORQUE control; PERMANENT magnet motors; HYSTERESIS loop; PREDICTION models; MAGNETIC torque; COMPUTATIONAL complexity
- Publication
Progress in Electromagnetics Research C, 2022, Vol 126, p105
- ISSN
1937-8718
- Publication type
Article
- DOI
10.2528/pierc22090502