Author_Institution :
Electr. & Electron. Eng. Dept., Ege Univ., Izmir, Turkey
Abstract :
Generally, conventional single phase solid state transformer (SST) topologies includes three stage conversions. In the first stage, AC/DC conversion accomplished for transforming high voltage AC (HVAC) to high voltage DC (HVDC). From HVDC, low voltage DC is obtained at the second stage, and low voltage AC is formed at the third stage. Three stage conversions are suitable for connecting renewable energy sources through low voltage DC (LVDC). However, all of the stages are switched at high switching frequency. Hence, this situation may bring high switching losses, high control complexity and lower efficiency. In this paper, we proposed bi-directional current source discontinues conduction mode (DCM) Dual Active Bridge (DAB) inverter. In the proposed inverter, HVDC is transformed to LVAC in one high frequency switching stage. Hence, it eliminates the third stage of three stage conventional SST. On the other hand, renewable energy sources can be connected to the proposed converter through LVAC bus. In this paper, the analysis of the proposed inverter is presented, and simulation results are given under resistive and inductive loads for validating the proposed inverter.
Keywords :
AC-DC power convertors; bridge circuits; invertors; power transformers; renewable energy sources; switching convertors; AC-DC conversion; HVAC; HVDC; LVAC; LVDC; SST topologies; bidirectional DCM DAB inverter; bidirectional current source; control complexity; discontinues conduction mode; dual active bridge inverter; high voltage AC; high voltage DC; inductive loads; low voltage AC; low voltage DC; renewable energy sources; resistive loads; single phase solid state transformer; switching frequency; switching losses; Bidirectional control; Inductance; Inverters; Rectifiers; Switches; Topology; Voltage control; Bi-directional inverter; DCM dual active bridge converter; solid state transformer;
