| Title |
A Study on Stator Winding Turn-Fault Model for Fault Diagnosis in Inverter-Driven Permanent Magnet Motor Drives |
| Authors |
Kyeong-Hwa Kim ; Dong-Uk Choi ; Bon-Gwan Gu ; In-Soung Jung |
| Keywords |
Turn-fault Model ; Diagnosis ; Simulation ; DSP TMS320F28335 ; PM Motors |
| Abstract |
To analyze influences under faults caused by a stator winding short and to evaluate an effectiveness of a diagnostic algorithm, a faulty model for an inverter-driven permanent magnet synchronous motor is presented. Even though the conventional dq motor model obtained through the transformation of phase voltage model is widely used to analyze and control the motor, it can not be used in the analysis of a faulty motor since the 3-phase balanced condition is no longer hold under the fault caused by a stator winding short, and thus, it is very difficult to obtain motor input voltages from the pole voltage of an inverter. To overcome this problem, a faulty model for an inverter-driven permanent magnet synchronous motor is proposed by considering the line voltage of 3-phase variables. The effectiveness of the proposed faulty model is verified through comparative simulations and experiments using DSP TMS320F28335 and motor built to allow a partial short of inter-turn. |