基于滑模观测器原理的双无传感器内置永磁同步电动机速度控制

2022 IEEE 5th International Conference on Knowledge Innovation and Invention (ICKII ) Pub Date : 2022-07-22 DOI:10.1109/ICKII55100.2022.9983588

Hong-Xin Liao, Shu-Yu Du, Jun-Kun Lu, Fred Cheng, Seng-Chi Chen

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引用次数: 1

摘要

对于永磁同步电机的控制，需要传感器来测量转子的位置和速度。因此，我们开发了一种滑模观测器(SMO)来估计转子角度，以实现无传感器驱动系统。来自德州仪器的LAUNCHXL-F28069M开发板用于驱动双三相内部永磁同步电机(ipmms)。利用Code Composer Studio (CCS)软件通过磁场定向控制(FOC)施加反馈电流来实现速度控制。速度阶跃响应波形表明，ipmms的稳态误差小于1.5%。风机叶片安装在电机轴上进行负载测试。通过测量双ipmms中的电流来确定转矩和输出功率。双ipmms的速度控制在CCS环境下实现，并以同步和异步方式运行。

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Speed Control of Dual Sensorless Interior Permanent-Magnet Synchronous Motors Based on the Sliding Mode Observer Principle

For permanent-magnet synchronous motor control, sensors are required to measure rotor position and velocity. Thus, we developed a sliding mode observer (SMO) for estimating the rotor angle to realize a sensorless drive system. The LAUNCHXL-F28069M development board from Texas Instruments was used to drive dual three-phase interior permanent-magnet synchronous motors (IPMSMs). Code Composer Studio (CCS) software was used to realize velocity control by applying a feedback current through field oriented control (FOC). The speed step response waveform indicated that the steady-state error of the IPMSMs was less than 1.5%. Fan blades were installed on the motor shaft for load testing. Torque and output power were determined by measuring the current in the dual IPMSMs. The speed control of the dual IPMSMs was realized in the CCS environment and operated in synchronous and asynchronous modes.

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2022 IEEE 5th International Conference on Knowledge Innovation and Invention (ICKII )

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