Litcius/Paper detail

Phase locked-loop with decaying DC transient removal for three-phase grids

Xiaokang Liu, Liansong Xiong, Binbing Wu, Qian Yang, Yonghui Liu

2022International Journal of Electrical Power & Energy Systems21 citationsDOIOpen Access PDF

Abstract

Frequency and phase of the power grid, which are critical for reliable control and protection of grid-tied devices, are generally detected by the closed-loop phase locked-loop (PLL). In highly inductive high-voltage transmission systems, decaying DC (DDC) components with large amplitude can be easily introduced by load disturbances and/or grid abnormalities, leading to severe performance degradation of the PLL during the transient. Focusing on this issue, in this paper, modifications to the conventional synchronous reference frame (SRF)-PLL have been made to address the short-term disturbances including the DDC component, and the system operation is divided into the normal state and the DDC-transient state. The SRF-PLL is only adopted for the normal state where the DDC component is negligible. In the presence of a significant DDC component, as well as disturbances including negative-/zero-sequence components and harmonics, the weak effectiveness of the conventional SRF-PLL is proved, and an efficient DDC component extraction method, with a detection time of 0.5 grid cycle, is introduced for the three-phase system. The real-time amplitude and phase of the positive-sequence component can be efficiently extracted via the proposed scheme, by exploiting the transient signal properties in the dq -frame and assuming a constant grid frequency during the short transient. Finally, a proper design of switching logic has been proposed to allow for the fast and precise transition between the normal and the DDC-transient state, thereby ensuring high steady-state accuracy as well as short-term DDC transient immunity. Hardware-in-the-loop based experiments have been used to verify the effectiveness of the proposed PLL technique.

Topics & Concepts

Transient (computer programming)Loop (graph theory)Three-phasePhase-locked loopPhase (matter)Control theory (sociology)Transient analysisPhysicsComputer scienceTransient responseEngineeringElectrical engineeringVoltageMathematicsQuantum mechanicsCombinatoricsControl (management)Artificial intelligenceOperating systemMicrogrid Control and OptimizationReal-time simulation and control systemsPower Systems and Renewable Energy