期刊
IEEE TRANSACTIONS ON POWER ELECTRONICS
卷 38, 期 7, 页码 9033-9045出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TPEL.2023.3249339
关键词
Battery storage; bidirectional power flow; bipolar DC grid; DC-DC converter; Four-Port Converter (FPC); Multi-Port Converter (MPC); nonisolated; renewable integration; solar PV household
The increasing focus on renewable energy generation has led to the expansion of distributed generation and localized DC grids worldwide. DC households are becoming a more prevalent and efficient alternative to AC households. A new four-port converter, called the Bipolar Boost Four-Port Converter (BBFPC), is proposed in this article to integrate renewable energy sources, energy storage elements, and a bipolar port capable of bidirectional power flow. The BBFPC has inductively interfaced ports that can handle bidirectional power flow and perform various functions such as maximum power point tracking for solar PV and voltage regulation or power distribution control for the bipolar port.
The growing focus on increasing renewable energy generation has expanded distributed generation schemes and localized DC grids worldwide. Therefore, DC households are becoming a more prevalent and efficient alternative to their ac counterpart. Even though the bipolar DC grid is more reliable and efficient than the unipolar counterpart, very few works are reported, and there exists scope for improvement. A novel four-port converter suitable for integrating renewable energy sources (e.g., solar PV), energy storage elements (e.g., lead-acid battery), and a bipolar port capable of bidirectional power flow (DC household), is proposed in this article. This scheme is named Bipolar Boost Four-Port Converter (BBFPC) and has inductively interfaced ports capable of handling bidirectional power flow. BBFPCis capable of performing the following functions: maximum power point tracking for solar PV, overcharge and overdischarge protections for the lead-acid battery, and either voltage regulation of the bipolar port in standalone mode or power distribution control of the bipolar port in grid-connected mode. The performance of the BBFPC PV-based bipolar DC system in various operating conditions is analyzed and validated using a 400 Wprototype.
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