A Five-Level Transformer-Less Inverter With Self-Voltage Balancing and Boosting Ability

Abstract

Transformer-less inverters (TIs) are widely used in photovoltaic (PV) applications owing to their low cost and high efficiency. However, the combined effect of high-frequency common mode voltage and PV parasitic capacitance burdens the TIs with undesired ground leakage current. In this article, a switched capacitor (SC)-based five-level TI is proposed. The negative dc rail of the proposed TI is directly connected to the grid neutral, thereby completely eliminating the leakage current. Besides, it has the inherent capability of boosting the output voltage without using any magnetic component or additional circuitry. For several instances in every fundamental cycle, the SCs are paralleled with the input voltage source and hence are self-balanced. The proposed topology does not have any limitation on modulation index since the SC voltages are self-balanced and hence less complex or no dedicated control scheme is required. Further, a quantitative comparative study is presented, highlighting the benefits of the proposed TI regarding boosted voltage, elimination of leakage current, and reduced component count. Finally, in order to verify the performance of the proposed TI, detailed simulations followed by experiments on a laboratory prototype developed by using DS1202/1302 dSPACE controller are carried out and the results presented for both steady-state and dynamic conditions verify the feasibility of the proposed TI.