Design of A Droop-Controlled Inverter with Seamlessly Grid-Connected Transition

Kuo, Chun-Yi

25 August 2011

The grid voltage is normally required to avoid transient current of the inverter due to asynchronously grid-paralleling connection. This paper presents a seamless transition method to allow the inverter to connect to the grid at any time with no requirement of the grid voltage. The control of the inverter consists of the droop control and the riding-through control. In the droop-controlled mode, the inverter can connect to the utility and supply power according to its rated capacity. On the other hand, the riding-through mode is proposed to suppress the transient current due to asynchronous paralleling. In this mode, the zero-current control is realized to reduce transient current and a phase-locked loop is designed to correct the angle of the inverter output voltage. In addition, the virtual inductance is implemented to improve transient current resulting from the mode transition back to the droop control mode. Design considerations of the seamless transition method are provided and test results are conducted to verify its effectiveness.

seamless transition

phase-locked loop

virtual inductance

droop-controlled

zero-current control

Toward Seamless Transition? Dual Enrollment and the Composition Classroom

Denecker, Christine M.

04 November 2007

No description available.

Language, Rhetoric and Composition

dual enrollment

seamless transition

high school writing

college writing

composition