1. Improved MIMO Modeling and Enhanced Transient Performance of Phase-Locked Loop During Grid Fault.
- Author
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Kkuni, Kanakesh Vatta, Yang, Guangya, Hong, Qiteng, and Booth, Campbell
- Subjects
PHASE-locked loops ,HARDWARE-in-the-loop simulation ,IDEAL sources (Electric circuits) ,FAULT currents ,VOLTAGE-frequency converters ,DC-to-DC converters ,POWER distribution networks ,CONVERTERS (Electronics) ,MAXIMUM power point trackers - Abstract
A phase-locked loop (PLL) is commonly used in grid-connected power converter for synchronization. A single input single output (SISO) linear model of PLL with the phase angle of the point of common coupling (PCC) voltage as input and the estimated phase angle as the output is generally used in the PLL analysis and design. However, an undesirable coupling between the magnitude and phase of the input voltage is present when a filtering stage is incorporated before the control loop, which a SISO model cannot capture, and could result in a significant disturbance in the PLL estimated phase during grid faults. This paper proposes a generalized multi-input multi-output (MIMO) linear model that captures the complete PLL dynamics during symmetrical faults for a PLL equipped with any prefilter. Furthermore, a compensation method that decouples the magnitude dynamics of the input voltage from the phase dynamics is proposed in this paper. The proposed compensation improves the PLL's phase tracking performance by ensuring that the prefiltered PLL acts only on the PCC voltage phase changes. A vital application of the proposed compensation method for PLL is during a grid fault case, wherein the converters are expected to contribute to the fault current, which requires an accurate measurement of the PCC voltage phase. The compensation method's effectiveness is demonstrated using power hardware in the loop simulation of a hardware voltage source converter interfaced to a distribution system simulated in real-time. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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