Owing to the necessity of the transformer for the multi-parallel inverters connected to the medium-voltage (MV) grid, the conventional multi-parallel inverter topology can be reconfigured to the dual-inverter fed open-end winding transformer (DI-OEWT) topology to obtain lower output voltage harmonics, which can reduce the requirement of the filter inductance. However, due to the special structure of the DI-OEWT topology, the arrangement scheme of the filter can be more than one kind, and different schemes may affect the filter performance. In this paper, research on the existing two kinds of filters, as well as a proposed one, for the DI-OEWT topology used in photovoltaic grid-tied applications is presented. The equivalent circuits of these filters are derived, and based on this, the harmonic suppression capability of these filters is analyzed and compared. Furthermore, a brief parameter design method of these filters is also introduced, and based on the design examples, the inductance and capacitance requirements of these filters are compared. In addition, these filters are also evaluated in terms of the applicability for fault tolerance. At last, the analysis is verified through an experiment on a 30 kW dual-three-level inverter prototype.
Aiming at the issue of zero-sequence current (ZSC) in the dual-inverter fed open-end winding transformer (OEWT-DI) based photovoltaic (PV) grid-tied system with common DC bus, a carrier-based pulse width modulation (CBPWM) strategy with steerable zero-sequence is proposed. The modulation wave of the dual-inverter is decomposed into two modulation waves with same amplitude and 120 • phase difference, and each of the modulation waves is modified through adding steerable zero-sequence component. The zero-sequence component is regulated by the ZSC control loop based on a quasi-proportional resonant regulator, which is designed to suppress the ZSC caused by the dead-time effect and other nonlinear factors. Meanwhile, the effective modulation range is also analyzed. The proposed strategy is an alternative approach to the conventional zero-sequence steerable phase shift based space vector pulse width modulation (SVPWM) strategy, but has the advantage of easy implementing and low computation cost. With the proposed strategy, both the high-frequency and low-frequency ZSC in the system can be effectively suppressed. Effectiveness of the proposed strategy is validated by experimental results on a 30-kW OEWT-DI experimental platform. INDEX TERMS Dual-inverter, open-end winding transformer, zero-sequence current, carrier-based pulse width modulation (CBPWM).
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