Title :
Solid-State Transformer Architecture Using AC–AC Dual-Active-Bridge Converter
Author :
Hengsi Qin ; Kimball, Jonathan W.
Author_Institution :
SolarBridge Technol., Austin, TX, USA
Abstract :
Modern development of semiconductor power-switching devices has promoted the use of power electronic converters as power transformers at the distribution level. This paper presents an ac-ac dual-active-bridge (DAB) converter for a solid-state transformer. The proposed converter topology consists of two active H-bridges and one high-frequency transformer. Four-quadrant switch cells are used to allow bidirectional power flow. Because power is controlled by the phase shift between two bridges, output voltage can be regulated when input voltage changes. This paper analyzes the steady-state operation and the range of zero-voltage switching. It develops a switch commutation scheme for the ac-ac DAB converters. Experimental results from a scaled-down prototype are provided to verify the theoretical analysis.
Keywords :
AC-AC power convertors; power electronics; power transformers; AC-AC dual-active-bridge converter; ac-ac DAB converters; ac-ac dual-active-bridge; converter topology; four-quadrant switch cells; high-frequency transformer; output voltage; phase shift; power electronic converters; power transformers; scaled-down prototype; semiconductor power switching devices; solid-state transformer; solid-state transformer architecture; steady-state operation; switch commutation scheme; theoretical analysis; zero-voltage switching; Bridge circuits; Inductance; Power transformers; Switches; Topology; Transient analysis; Voltage control; Bidirectional ac–ac converter; dual-active-bridge (DAB) converter; phase-shift modulation (PSM); solid-state transformer (SST); zero-voltage switching (ZVS);
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2012.2204710
