磁链弱化的高速永磁同步电机位置编码器与无位置传感器矢量控制的比较

2018 20th National Power Systems Conference (NPSC) Pub Date : 2018-12-01 DOI:10.1109/NPSC.2018.8771831

K. Renu, N. Kumari, D.Ravi Kumar

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引用次数: 0

摘要

洗衣机等家用电器在旋干循环中要求更高的转速，通常是额定转速的2至3倍。即使是牵引应用也需要大范围的速度控制。为了达到比额定速度更快的速度，采用了Flux弱化。由于负载的扰动和更高的速度，诸如洗衣机之类的设备会受到过度的振动，从而影响系统的动态性能。有效的控制方法，如场定向控制是必不可少的设计一个高性能的驱动系统。在采用这种控制技术时应考虑成本和可靠性问题，因为它需要传感器来检测转子的速度和位置信息以使其有效运行。研究了磁链减弱的永磁同步电动机的无传感器磁场定向控制。采用基于定子电流控制器的模型参考自适应系统(MRAS)作为无位置传感器估计算法，并将带传感器控制器(位置编码器)与无传感器控制器进行了比较。结果表明，与有传感器的控制器相比，无传感器控制的可行性和有效性。

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Comparison between position-encoder and position-sensorless vector control of High Speed PMSM with Flux Weakening Operation

Domestic Appliances such as washing machine requires higher speeds during spin dry cycle and is usually 2 to 3 times of rated speeds. Even traction applications require wide range of speed control. To achieve speeds greater than rated speeds, Flux Weakening is employed. Due to load perturbations and due to higher speeds, appliance such as Washing machine is subjected to excessive vibrations and thereby affecting the dynamic performance of system. Effective Control approach such as Field Oriented Control is essential for designing a high performance drive system. Cost and reliability concerns should be taken into consideration while employing such control techniques as it requires sensors for detecting rotor speed and position information for its effective functioning. In this paper, a Sensorless Field Oriented Control of Permanent Magnet Synchronous Motor (PMSM) with Flux Weakening is evaluated. Model Reference Adaptive System (MRAS) based on stator current controller is used as position-sensorless estimation algorithm and a comparison is performed between controller with sensors (position-encoder) and sensorless controller. Results have demonstrated the feasibility and effectiveness of sensorless control compared to controller with sensors.

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2018 20th National Power Systems Conference (NPSC)

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