A Single-Side-Current Feedback Sliding-Mode Control for High-Speed PMSM Drives With Sine Wave Filter

In this article, a single-side-current feedback-based sliding-mode active damping (AD) control is proposed for high-speed permanent magnet synchronous machines with sine wave filter, which is effective for both the inverter-current feedback (ICF) and the motor-current feedback (MCF) only. A novel discrete-time sliding surface is developed to guarantee the stability of the sliding mode with a single-side current sensors, which is unnecessary to incorporate an additional state observer. Besides, a linear transformation is designed to obtain the dynamic of the reaching mode. Then, an adaptive reaching law is proposed and its stability is ensured by a discrete-time Lyapunov function. Experimental results demonstrate that the proposal has enhanced robustness against the parameter variation compared with existing methods.