Spectrum and Cepstrum Based Speed Determination of Stepper Motors

2018 IEEE 18th International Power Electronics and Motion Control Conference (PEMC) Pub Date : 2018-08-01 DOI:10.1109/EPEPEMC.2018.8521845

G. Gardonyi, Samu Krisztián

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引用次数: 1

Abstract

Accurate rotational speed determination for rotary machines tends to be allocated high priority in technical applications. It is not easy to measure shaft speed directly in some cases. Vibration diagnostic tools can offer an alternative solution to the problem posed by direct rotational speed measurement. Using calculated spectra and cepstra can help to determine rotational speed of stepper motor driven systems easily and accurately. This paper summarizes the theoretical background of discrete spectrum and cepstrum based methodologies and shows results of practical experiments. Equations for each method to calculate the possible speed estimation error are also shown. A novel vibration based hybrid spectral speed estimation logic can be defined, which uses the presented equations to decide which spectral method results in the most accurate output. Numerous vibration measurements have been made to test the hybrid methods reliability. The hybrid spectral speed determination method has been successfully applied on various type of electromotive drives, as well as spark- and compression-ignition internal combustion engines.

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基于频谱和倒频谱的步进电机速度测定

在技术应用中，旋转机械转速的精确测定往往是优先考虑的问题。在某些情况下，直接测量轴转速是不容易的。振动诊断工具可以为直接转速测量带来的问题提供另一种解决方案。利用计算谱和倒谱可以方便、准确地确定步进电机驱动系统的转速。本文综述了离散谱和倒谱方法的理论背景，并给出了实际实验结果。并给出了每种方法计算速度估计误差的公式。定义了一种新的基于振动的混合频谱速度估计逻辑，该逻辑利用给出的方程来决定哪种频谱方法输出最准确。为了验证混合方法的可靠性，进行了大量的振动测试。混合光谱速度测定方法已成功地应用于各种类型的电动传动，以及火花点火和压缩点火内燃机。

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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2018 IEEE 18th International Power Electronics and Motion Control Conference (PEMC)

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