Litcius/Paper detail

An Active Damping Strategy for Input Impedance of Bidirectional Dual Active Bridge DC–DC Converter: Modeling, Shaping, Design, and Experiment

Yuanpeng Guan, Yunxiang Xie, Yu Wang, Yi Liang, Xuemei Wang

2020IEEE Transactions on Industrial Electronics76 citationsDOI

Abstract

The dual-active-bridge (DAB) converter is applied for power transmission and voltage conversion in dc power grid. To improve the quality of input current, an input LC filter is cascaded to DAB converter. However, due to the interaction between LC filter and DAB converter, substantial oscillation and instability occur, leading to the excessive electromagnetic interference, large voltage ripple, and power loss and even operation failure. To solve this issue, an active damping strategy is proposed in this article to reshape the small-signal input impedance by parallel virtual impedance. The input voltage is regarded as a control objective, as well as the output voltage, therefore, a triple-closed-loop control structure is established. Besides, all dynamics of controllers are considered for the input impedance modeling of DAB converter. Moreover, compared with traditional methods, an active damping method for cascaded DAB converter with LC filter is adopted to design the virtual impedance and controller, suppressing resonance of LC filter and achieve a larger bandwidth. Therefore, a more stable and rapid dynamics cascaded system composed of DAB converter and LC filter are achieved. Finally, a prototype is set up and the effectiveness and superiority of proposed strategy are verified by experiments.

Topics & Concepts

Control theory (sociology)EngineeringRippleActive filterOutput impedanceElectronic engineeringLC circuitElectrical impedanceNegative impedance converterBoost converterVoltageComputer scienceElectrical engineeringCapacitorControl (management)Artificial intelligenceAdvanced DC-DC ConvertersMicrogrid Control and OptimizationHVDC Systems and Fault Protection