A PV Micro-inverter With PV Current Decoupling Strategy.

The objective of this paper is to propose a novel photovoltaic (PV) micro-inverter with PV current decoupling (PVCD) strategy to achieve maximum power point tracking (MPPT) performance without using large electrolytic capacitors. Conventionally, the grid-connected PV micro-inverter needs a large PV-side electrolytic capacitor to suppress the double-line frequency voltage ripple, which is caused by the injected ac grid power, to achieve the desired MPPT performance. However, the short lifetime electrolytic capacitor will reduce the PV micro-inverter's reliability dramatically. Therefore, different active power decoupling circuits (APDCs) have been proposed in published papers to reduce the required input capacitance so that the long lifetime film capacitor can be used to replace the electrolytic capacitor. Unlike the conventional APDC with charging and discharging modes operation, a novel PVCD strategy, which is based on the concept of current decoupling instead of power decoupling, is proposed to simplify the control mechanism of the PV micro-inverter. Furthermore, to accomplish the proposed current decoupling concept, a novel circuit topology for the PV micro-inverter is also proposed. With the proposed PVCD strategy, the current decoupling tank (CDT) inside the proposed PV micro-inverter can buffer the current difference between the constant current from the PV panel and the rectified sinusoidal current of the ac grid current. Therefore, the input capacitance on the PV-side can be reduced dramatically and the long lifetime film capacitor can be used to replace the electrolytic capacitor. The reliability of the PV micro-inverter with good MPPT performance can be increased. In this paper, the operation principle and the component design of the proposed PV micro-inverter with PVCD strategy will be presented. Simulation results and experimental results of a prototype 240 W PV micro-inverter is shown to verify the performance of the PV micro-inverter with PVCD strategy. [ABSTRACT FROM AUTHOR]