A coordinated DC voltage control strategy for cascaded solid state transformer with star configuration

Abstract: Cascaded solid-state transformer (SST) can be directly connected to the high-voltage distribution grid, and it has broad applications in the future smart grid, traction locomotive, and renewable energy integration. However, the reliability of the cascaded SST is seriously influenced by the DC voltage and power imbalance issues with this configuration. This paper presents a coordinated DC voltage control strategy for cascaded SST with star configuration, in which the average DC voltage and the balancing DC volt… Show more

“…Effective utilization of renewable energy sources with improved reliability can be accomplished with integration of multiple energy sources and electrical energy storage stacks through an efficient single-stage multiport power electronics DC-DC converters [6][7][8]. Such converters help in reduction of overall energy conversion system size and corresponding controllers needed [9]. Various multiple active bridge (MAB) topologies based on converter modularization and cell level modularization have been reported in the literature [10][11][12][13][14][15][16][17][18][19][20].…”

Multidirectional power flow in three-port isolated DC-DC converter for multiple battery stacks

“…Effective utilization of renewable energy sources with improved reliability can be accomplished with integration of multiple energy sources and electrical energy storage stacks through an efficient single-stage multiport power electronics DC-DC converters [6][7][8]. Such converters help in reduction of overall energy conversion system size and corresponding controllers needed [9]. Various multiple active bridge (MAB) topologies based on converter modularization and cell level modularization have been reported in the literature [10][11][12][13][14][15][16][17][18][19][20].…”

Multidirectional power flow in three-port isolated DC-DC converter for multiple battery stacks