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Large Angle Deviation in Grid-Following IBRs Upon Grid Voltage Dip

Lingling Fan, Zhengyu Wang, Zhixin Miao

2023IEEE Transactions on Energy Conversion17 citationsDOIOpen Access PDF

Abstract

In the 2021 Texas Odessa large-scale solar PV tripping events, phase-locked-loop (PLL) loss of synchronism is identified as a major cause of solar PV tripping. When solar PVs detected a large phase angle deviation (e.g., 10 degrees), tripping commands were initiated. The large phase angle deviation was triggered by a transmission line fault 200 miles away, which in turn led to approximately 30% voltage drop in the 345-kV system. This article offers a plausible reason why grid-following inverter-based resources (IBRs) may experience a large angle deviation upon grid voltage dip. Critical operating conditions contributing to such phenomena are identified via analysis and their effects are demonstrated using electromagnetic transient (EMT) simulation. Furthermore, the effect of converter control, e.g., grid-following control vs. grid-forming control, is examined. It is found from EMT simulation results that frequency and voltage control are helpful in mitigating angle deviation. Lastly, linear block diagrams are derived to examine why frequency control can effectively suppress large angle deviation.

Topics & Concepts

TrippingControl theory (sociology)GridFrequency deviationVoltagePhase angle (astronomy)InverterEngineeringElectrical engineeringComputer scienceAutomatic frequency controlPhysicsControl (management)OpticsGeodesyGeologyCircuit breakerArtificial intelligenceMicrogrid Control and OptimizationIslanding Detection in Power SystemsPower Systems and Renewable Energy
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