Increase of maximum output-voltage in 3-phase buck PWM rectifier by discontinuous-switching-modulation

The Discontinuous-Switching-Modulation scheme has been developed and practically applied to the 3-phase Voltage-Source-Inverters to improve the dc-voltage utilization factor. The Discontinuous-Switching- Modulation is, however, easily applicable to 3-phase Current-Source-Inverters/Rectiriers by applying the Delta-Current-Modulation scheme that had been developed by one of the authors. This paper shows that the maximum controllable dc-voltage of the 3-phase buck-type PFC rectifiers can be increase by 15% compared to the conventional Continuous-Switching-Modulation scheme by means of the Discontinuous-Switching-Modulation. Because the dc-voltage increase while the switching is interrupted in 1/3 fundamental period, both the dc-current and the average switching frequency decrease in Discontinuous- Switching-Modulation. Thus, the conduction losses (produced by the switching devices and the dc-inductor) as well as the switching losses decrease. As a result, the efficiency increases. The theory of the Discontinuous-Switching-Modulation in the 3-phase buck PFC rectifier is described in detail and the validity is confirmed through experimental results obtained from a four kW-class setup.