Liwei Su scite author profile

Liwei Su

3Publications

0Citation Statements Received

1Citation Statement Given

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Affiliations

Volkswagen Group (United States), Beijing Institute of Technology

Publications

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The Research on Full-speed Field Weakening Control Method of Electric Vehicle Interior Permanent Magnet Synchronous Motor

Gao

Zhai

2017

ITM Web Conf.

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The motor drive system represents a key technology for development of the electrical vehicles, and the permanent magnet synchronous motor becomes the mainstream of the new energy vehicle drive motor for the superior performances in power density, low-speed torque density, efficiency and reliability. The paper studies the field weakening control strategy for the interior permanent magnet synchronous motor (IPMSM) and provides a field weakening control strategy for the IPMSM at the full-speed range. By studying the mathematical IPMSM model and the methods of conventional vector control and analyzing the operating conditions of the IPMSM at the full-speed range, the paper divides the operating conditions into constant torque operation region I, constant torque operation region II, constant power field weakening operation region and high-speed field weakening operation region to confirm the control strategy algorithm in each region and the transition conditions between regions and provide the current control strategy that the d-axis current and q-axis current are confirmed by the reference torque and the feedback speed. Modeling of the field weakening control strategies in each region is made through the Matlab/Simulink, and simulation of the operating conditions with a steady-state load and a dynamic load is done to verify that the field weakening control strategy in each region is feasible. A co-simulation is made by combining the Matlab/Simulink-based control model, the RecurDyn-based virtual prototype and the RT-LAB to verify the feasible field weakening control strategy. a Corresponding

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Optimal DTC strategy of PMSM in electric vehicle

Zhai

Shouquan²,

et al. 2012

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The Distributed Control System for Railway Crane Based on the Profibus

Tan¹,

Su²

2010

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Liwei Su

The Research on Full-speed Field Weakening Control Method of Electric Vehicle Interior Permanent Magnet Synchronous Motor

Optimal DTC strategy of PMSM in electric vehicle

The Distributed Control System for Railway Crane Based on the Profibus

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