Contents I. Introduction
Recently, great achievements have been made in the field of dc systems, such as the practical engineering applications of voltage-source-converter-based high-voltage dc transmission (VSC-HVDC), VSC-based multi-terminal high-voltage dc (VSC-MTDC) systems, more electric aircraft (MEA), and dc microgrid, which calls for a rethink about dc TPSS for high-speed railways (HSRs) [1]– [5]. The idea of establishing VSC-based medium voltage dc (MVDC) TPSS for electric traction was proposed in [4] and Fig. 1 shows the typical structure of the system. Compared to the 25-kV ac railway electrification system, the power quality problems, such as unbalance, reactive power, and harmonic distortion, will be greatly improved because of the excellent performance of VSC. Meanwhile, null reactance of the catenary network without neutral sections will substantially increase the power supply distance of a traction substation (TSS). In addition, the full single dc catenary network can ensure the continuous high-speed motion of trains and provide a physically distributed bus to which renewable energy sources (RESs) and energy storage systems (ESSs) can be easily accessed [4], [5].
Structure of VSC-based MVDC TPSS.
