I. Introduction

The permanent magnet wind turbine is located at a high altitude and has a harsh environment. It is susceptible to various faults due to long-term vibration, noise, and electromagnetic interference. Demagnetization fault is one of the most common types of faults in permanent magnet wind turbines. Demagnetization faults are mainly caused by electrical stress (armature reaction) [1]. Demagnetization can act on all magnetic poles or some magnetic poles. The former is called uniform demagnetization, while the latter is called non-uniform demagnetization or local demagnetization. When a permanent magnet demagnetization fault occurs in a permanent magnet wind turbine, it can decrease the performance features of the permanent magnet motor, increase temperature, increase vibration, and increase noise [2]. Suppose the fault cannot be detected and eliminated promptly. In that case, it can lead to damage and scrapping of the generator, seriously affecting the operation of the wind farm.