[Oral Presentation]Model-free Predictive Current Control Based On Maximum Torque Per Ampere for PMSM

IMPORTANT DATES

Digest Submission Opens: Oct. 30, 2022
Digest Submission Deadline: Mar. 20, 2023
Acceptance Notification: Apr. 28, 2023
Full Paper Submission Deadline: May. 20, 2023

Model-free Predictive Current Control Based On Maximum Torque Per Ampere for PMSM

ID：48 View Protection：PRIVATE Updated Time：2023-06-13 16:53:40 Hits：391 Oral Presentation

Start Time：2023-06-18 16:20 （Asia/Shanghai）

Duration：20min

Session：[S] Oral Session » [S4] Oral Session 7 & Oral Session 10

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Abstract

This paper proposed a model-free predictive control based on a maximum torque per ampere. The dynamic model of the permanent magnet synchronous motor is used to derive the expression of electromagnetic torque. Using the maximum torque per ampere control method the minimum current reference is derived. To achieve a robust performance under parameter changes and external disturbances influencing the permanent magnet synchronous motor, a model-free predictive control based on an ultra-local model and an extended state observer is proposed. The simulation results showed that compared with the classic linear controller, the proposed control strategy ensures smaller speed and torque ripples and better robustness under parameter mismatches and disturbance.

Keywords

Model-free predictive current control, extended state observer, maximum torque per ampere, ultra-local model

Speaker

Xudong Guo

Fuzhou University

My name is Guo Xudong. I am studying for my master’s degree in the School of Electrical Engineering and Automation at Fuzhou University. My Current research field is model-free predictive control of permanent magnet synchronous motors.

Tao Jin

Fuzhou University

Jose Rodriguez

Universidad San Sebastian

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