Arbitrary injection based sensorless control with a defined high frequency current ripple and reduced current and sound level harmonics

2017 IEEE International Symposium on Sensorless Control for Electrical Drives (SLED) Pub Date : 2017-09-01 DOI:10.1109/SLED.2017.8078438

M. Laumann, C. Weiner, R. Kennel

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引用次数: 4

Abstract

Most Anisotropy based sensorless control schemes are using an additional voltage injection in order to create a measurable current ripple. This injection causes some unwanted side effects such as additional noise and torque oscillations, introduced by the harmonics of the current. This paper proposes an operating point dependent injection in combination with an arbitrary injection scheme in order to reduce these disturbances. It avoids, that more voltage is injected than needed during saturation, this results in reduced current and acoustic noise harmonics. The method includes an approach, how to define the injection amplitude in order to produce a measurable minimum high frequency current ripple. The method was developed with the aim to be easily implementable, without additional measurements and with less computational effort. The operating point dependent injection is verified by simulation and measurement results. For the illustration of the method a triangular shaped injection is used exemplary. The process is carried out for a reluctance synchronous machine.

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基于任意注入的无传感器控制，具有定义的高频电流纹波和降低的电流和声级谐波

大多数基于各向异性的无传感器控制方案都使用额外的电压注入来产生可测量的电流纹波。这种注入会导致一些不必要的副作用，如额外的噪音和扭矩振荡，由电流的谐波引入。为了减少这些干扰，本文提出了工作点相关注入与任意注入方案相结合的方法。它避免了饱和时注入的电压超过所需的电压，从而降低了电流和噪声谐波。该方法包括如何确定注入幅度以产生可测量的最小高频电流纹波的方法。该方法开发的目的是易于实现，不需要额外的测量和更少的计算量。仿真和测量结果验证了工作点依赖注入的正确性。为了说明该方法，示例性地使用三角形注射。该过程适用于磁阻同步电机。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 IEEE International Symposium on Sensorless Control for Electrical Drives (SLED)

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