A Modified Phase Disposition Pulse Width Modulation to Suppress the Leakage Current for the Transformerless Cascaded H-Bridge Inverters

Abstract

Transformerless cascaded H-bridge inverters have the advantages of low cost and high efficiency in low-power applications. However, the leakage currents resulting from the parasitic capacitors may increase system losses, electromagnetic interference, and safety concerns. To reduce the leakage current, this paper first establishes the equivalent common-mode circuit of the inverter with the parasitic capacitance and analyzes the characteristics of leakage current in the symmetrical and asymmetrical filter inductance circuit, respectively. The analysis shows that the traditional phase disposition pulse width modulation or phase-shift pulse width modulation cannot solve the leakage current issues, but modifying the modulation methods can eliminate the system leakage current in the symmetrical circuit, and it has a little effect in the asymmetrical circuit. For this reason, a modified phase disposition pulse width modulation for the symmetrical circuit, which can eliminate the leakage current effectively with simple implementation, is proposed. Simulation and experimental results are reported, along with evaluation and comparison results, against a conventional carrier-based pulse width modulation method.