Optimized Carrier-Based DPWM Strategy Adopting Self-Adjusted Redundant Clamping Modes for Vienna Rectifiers With Unbalanced DC-Links

When the Vienna rectifier operates at unbalanced dc links, the conventional carried-based discontinuous pulsewidth modulation (CB-DPWM) strategy suffers from the neutral point (NP) voltage fluctuation and the input current distortion. An optimized CB-DPWM strategy adopting self-adjusted redundant clamping modes is proposed in this article to solve the above issues. To reduce the input current distortion under unbalanced dc links, the modulation waves of CB-DPWM are modified according to the subsector redivision, and the limited operation region can be obtained. To extend the operation range of the Vienna rectifier, the voltage vector trajectory of CB-DPWM is optimized combined with the current error minimization and the voltage loss area compensation. To minimize the NP voltage fluctuation, the redundant clamping modes under unbalanced dc links are self-adjusted in real time according to the unbalanced degree. Moreover, the NP voltage fluctuation of the proposed strategy is evaluated by the root mean square of the NP current fluctuation. The effectiveness of the proposed strategy is verified by experiments on a Vienna rectifier platform.