Abstract
Transformerless topologies naturally present lower cost and size and higher efficiency when compared with conventional solutions. As counterpart, these systems present high common-mode current, due to the absence of galvanic isolation, and they should have a boost stage to compensate the absence of the step-up transformer. The two-stage converter (dc–dc boost converter plus voltage source inverter) modulated by the conventional space vector modulation has the dc–dc boost stage necessary to connect the photovoltaic system to the grid, but presents high common-mode current caused by the modulation technique and the dead-time of the voltage source inverter. Therefore, a specific modulation technique that maintains the common-mode voltage of the system constant even during the inverter's dead-time is proposed, in order to reduce the circulating common-mode current. Simulation and experimental results of the two-stage converter are obtained to validate the system.
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