Guangfeng Jin, Junchao Geng, Yue Yu, Tianzhen Wang
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引用次数: 0
摘要
本文针对功率半导体开路故障、电流传感器的信号卡滞、增益变化和零点偏移等问题,提出了一种多级分类故障诊断方法。首先,利用电流信号的平均值、范围值和绝对电流信号的平均值将所有故障划分为五大故障类型;然后,针对功率半导体开路故障,利用快速傅立叶变换(FFT)提取故障特征;针对增益变化和零偏移故障,分别选取电流的范围值和平均值作为故障特征。针对上述三类故障,构建了三个 ELM 分类器进行故障分类。实验平台收集的故障数据验证了所提出的方法,并获得了极高的诊断准确率。此外,即使传感器的增益系数和零偏移发生变化,该方法仍能保持良好的性能,显示了其高鲁棒性的特点。
A multi-level classification method for fault diagnosis of grid-connected inverter
This article proposes a multi-level classification fault diagnosis method for the open-circuit fault of power semiconductor; signal-stuck, gain-variation, and zero-offset of the current sensor. First, the average value, range value of current, and the mean value of absolute current signal are used to divide all faults into five major types of faults; then for power semiconductor open-circuit fault, fast Fourier transform (FFT) is used to extract the fault characteristics; The range and average value of current are selected as the fault characteristics for gain-variation and zero-offset fault, respectively. Three ELM classifiers are constructed to classify the faults for the above three types of faults. The proposed method is verified on the fault data collected in experimental platform, and achieves extremely high diagnostic accuracy. Moreover, this method can still perform well even when the gain coefficient and zero-offset of sensor change, showing its high robustness characteristics.
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