A Three-port Converter Based Distributed DC Grid-connected PV System with Autonomous Out pur Voltage-Sharing Control
Abstract: A distributed dc grid-connected photovoltaic (PV) generation configuration based on hybrid-connected three-port converters (TPCs) and its control strategy are proposed in this paper. Distributed maximum power point tracking (MPPT) and autonomous voltage sharing control are achieved with the proposed configuration and control strategy. The proposed system consists of multiple modular PWM plus phase-shift (PPS) controlled TPCs, which feature soft-switching and low voltage stress. The input-port of each TPC is connected to an independent PV energy source to achieve individual MPPT, and the output-ports of these TPCs are connected in series to interface with a high-voltage (HV) dc bus, while the bidirectional-ports are in parallel to build a low-voltage (LV) dc bus. The mismatch power of input sources can be transferred through the LV dc bus among these TPCs, and the power and voltage balancing at the high-voltage output side can be realized. By regulating the voltage reference of a bidirectional-port in a linear relationship with output voltage, output voltage sharing is realized with only the module’s own voltage and current being sensed. Fully modular design is achieved. System stability with the proposed control strategy is revealed by using