A Real-Time Open-Circuit Fault Diagnosis Method Based on Hybrid Model Flux Observer for Voltage Source Inverter Fed Sensorless Vector Controlled Drives.

Autor: Diao, Naizhe, Zhang, Yingwei, Sun, Xianrui, Song, Chonghui, Wang, Wenwen, Zhang, Haifeng
Zdroj: IEEE Aerospace & Electronic Systems; Feb2023, Vol. 38 Issue 2, p2539-2551, 13p
Abstrakt: This article presents a open-circuit fault diagnosis method for a sensorless vector control system based on the voltage–current hybrid model flux observer. The error voltage, which is obtained after a PI module, is used as a diagnostic factor. This PI module is designed to correct the deviation between the voltage model flux observer and the current model flux observer. The error voltage is not affected by load and speed variation. First, the activation function is used to separate fault information and normal information, and the feature function is defined to describe the signal feature in healthy and faulty conditions. Second, a second-order moving mean filtering method is proposed to reduce the storage of the error voltage data and increase the timeliness of diagnosis. Finally, the fault is diagnosed and located through logical calculations. Compared with conventional methods, this method features the timeliness of fault diagnosis in a closed-loop system and robustness with respect to speed and load changes. It reduces the storage and operation burden such that it can be easily implanted into the control algorithm as a subroutine. Simulations and experiments show the accuracy and superiority of the proposed fault diagnosis method for voltage source inverter fed sensorless vector controlled drives. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index